// // Warning: don't edit - generated by generate_ecu_code.pl processing ../dev/eme_i01.json: EME 1A: Electrical machine electronics // This generated code makes it easier to process CANBUS messages from the EME ecu in a BMW i3 // #define I3_ECU_EME_TX 0x06F11A #define I3_ECU_EME_RX 0x061AF1 #define I3_PID_EME_FS_LOESCHEN_PERMANENT 0x1060 // Job to delete the permanent DTCs / Job zum Löschen der Permanent-DTCs #define I3_PID_EME_FEHLERSPEICHER_ENDE_WERKSABLAUF 0x1061 // Deletion of individual errors and permanent DTCs prevented / Löschen von Einzelfehlern und Permanent-DTCs // unterbindet #define I3_RES_EME_STAT_FS_ENDE_WABL (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_FS_ENDE_WABL_UNIT '0/1' #define I3_RES_EME_STAT_FS_ENDE_WABL_TYPE unsigned char // 0: Locked (deletion of individual errors and PDTCs is prevented) 1: Unlocked (deletion of individual errors // and PDTCs is not prevented) / 0: Verriegelt (loeschen von Einzelfehlern und PDTCs wird unterbunden) 1: // Entriegelt (loeschen von Einzelfehlern und PDTCs wird nicht unterbunden) #define I3_PID_EME_AKS_DIAG_STATUS_INFO 0x4009 // Query of AE status bits for diagnosis and assignment of AKSs / Abfrage von AE-Statusbits zur Diagnose und // Zuordnung von AKSen #define I3_RES_EME_STAT_BAM_STATUS_WERT (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_BAM_STATUS_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_BAM_STATUS_WERT_TYPE unsigned char // Status of operating mode manager / Status Betriebsartenmanager #define I3_RES_EME_STAT_FRM_ISR_WERT (RXBUF_UINT32(1)) #define I3_RES_EME_STAT_FRM_ISR_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_FRM_ISR_WERT_TYPE unsigned long // Protection manager: Status of the ISR / Protectionmanager: Status der ISR #define I3_RES_EME_STAT_POM_1MS_WERT (RXBUF_UINT(5)) #define I3_RES_EME_STAT_POM_1MS_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_POM_1MS_WERT_TYPE unsigned short // Protection manager: Status of the 1ms / Protectionmanager: Status der 1ms #define I3_RES_EME_STAT_POM_10MS_WERT (RXBUF_UINT(7)) #define I3_RES_EME_STAT_POM_10MS_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_POM_10MS_WERT_TYPE unsigned short // Protection manager: status of the 10ms / Protectionmanager: Status der 10ms #define I3_RES_EME_STAT_ERR_MOT_TRCT_WERT (RXBUF_UINT(9)) #define I3_RES_EME_STAT_ERR_MOT_TRCT_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_ERR_MOT_TRCT_WERT_TYPE unsigned short // St Error Status word of the e-machine / St Error Statuswort der E-Maschine #define I3_RES_EME_STAT_HVSM_MC0_WERT (RXBUF_UINT32(11)) #define I3_RES_EME_STAT_HVSM_MC0_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_HVSM_MC0_WERT_TYPE unsigned long // HVSM: Status Mc0 / HVSM: Status Mc0 #define I3_RES_EME_STAT_HVSM_AKKUM_MC0_WERT (RXBUF_UINT32(15)) #define I3_RES_EME_STAT_HVSM_AKKUM_MC0_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_HVSM_AKKUM_MC0_WERT_TYPE unsigned long // HVSM: Accum. Status MC0 / HVSM: Akkum. Status MC0 #define I3_RES_EME_STAT_HVSM_MC2_WERT (RXBUF_UINT32(19)) #define I3_RES_EME_STAT_HVSM_MC2_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_HVSM_MC2_WERT_TYPE unsigned long // HVSM: Status Mc2 / HVSM: Status Mc2 #define I3_RES_EME_STAT_HVSM_AKKUM_MC2_WERT (RXBUF_UINT32(23)) #define I3_RES_EME_STAT_HVSM_AKKUM_MC2_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_HVSM_AKKUM_MC2_WERT_TYPE unsigned long // HVSM: Accum. Status MC2 / HVSM: Akkum. Status MC2 #define I3_RES_EME_STAT_CPLD_INFO_WERT (RXBUF_UCHAR(27)) #define I3_RES_EME_STAT_CPLD_INFO_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_CPLD_INFO_WERT_TYPE unsigned char // CPLD: info / CPLD: Info #define I3_RES_EME_STAT_FUSI_MC2_WERT (RXBUF_UINT32(28)) #define I3_RES_EME_STAT_FUSI_MC2_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_FUSI_MC2_WERT_TYPE unsigned long // FUSI: UWB MC2 / FUSI: UWB MC2 #define I3_RES_EME_STAT_FUSI_MC0_WERT (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_FUSI_MC0_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_FUSI_MC0_WERT_TYPE unsigned long // FUSI: UWB MC0 / FUSI: UWB MC0 #define I3_RES_EME_STAT_SSD_MC0_WERT (RXBUF_UINT32(36)) #define I3_RES_EME_STAT_SSD_MC0_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SSD_MC0_WERT_TYPE unsigned long // SSD: status / SSD: Status #define I3_RES_EME_STAT_ERR_UPDATE_IN_PROGRESS_WERT (RXBUF_UCHAR(40)) #define I3_RES_EME_STAT_ERR_UPDATE_IN_PROGRESS_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_ERR_UPDATE_IN_PROGRESS_WERT_TYPE unsigned char // Runtime: Update-In-Progress Error / Laufzeit: Update-In-Progress Fehler #define I3_RES_EME_STAT_FRM_WHY_WERT (RXBUF_UINT32(41)) #define I3_RES_EME_STAT_FRM_WHY_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_FRM_WHY_WERT_TYPE unsigned long // FRM: Why word Attention: Value can only be interpreted in connection with the associated software version! / // FRM: Why-Wort Achtung: Wert kann nur m Zusammenhang mit dem zugehörigen Softwarestand interpretiert werden! #define I3_RES_EME_STAT_FRM_EM2_WERT (RXBUF_UINT32(45)) #define I3_RES_EME_STAT_FRM_EM2_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_FRM_EM2_WERT_TYPE unsigned long // FRM: status bits / FRM: Statusbits // Skipping AE_SN_SETZEN on 0x400C which takes arguments // Skipping AE_HWCAL_SETZEN on 0x400D which takes arguments // Skipping AE_HWCAL_FLASHEN on 0x400E which takes arguments // Skipping AE_HWCAL_MODE on 0x400F which takes arguments // Skipping STEUERN_START_LADEN on 0xADC0 which takes arguments // Skipping STEUERN_STOP_LADEN on 0xADC1 which takes arguments // Skipping REX_ON_OFF on 0xADC4 which takes arguments // Skipping LAST_HISTOGRAMM_EMASCHINE on 0xADEB which takes arguments // Skipping EME_DCDC_WANDLER on 0xADF1 which takes arguments // Skipping EME_HV_SYSTEM_ON_OFF on 0xADF2 which takes arguments // Skipping EME_AKS_EMK on 0xADF4 which takes arguments // Skipping AE_ROTORLAGESENSOR_ANLERNEN on 0xADF6 which takes arguments // Skipping AE_KLASSIERUNG on 0xADF8 which takes arguments // Skipping AE_DCDC_HISTOGRAMM on 0xADF9 which takes arguments // Skipping LADEHISTORIE_SATZ_LESEN on 0xADFC which takes arguments // Skipping KLASSIERUNG_ZUG_SCHUB on 0xADFE which takes arguments // Skipping LADEGERAET_HISTOGRAMM_LESEN on 0xAF42 which takes arguments #define I3_PID_EME_EME_DCDC_LV 0xDDF6 // Voltage / current DCDC (12V vehicle electrical system) at the B + bolt / Spannung / Strom DCDC (12V Bordnetz) // am B+ Bolzen #define I3_RES_EME_STAT_SPANNUNG_DCDC_LV_WERT (RXBUF_UINT(0)*0.01f) #define I3_RES_EME_STAT_SPANNUNG_DCDC_LV_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_DCDC_LV_WERT_TYPE float // DCDC converter: ACTUAL voltage LV side at B + bolt / DCDC Wandler: IST-Spannung LV-Seite am B+ Bolzen #define I3_RES_EME_STAT_STROM_DCDC_LV_WERT (RXBUF_SINT(2)*0.1f) #define I3_RES_EME_STAT_STROM_DCDC_LV_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DCDC_LV_WERT_TYPE float // DCDC converter: ACTUAL current LV side at the B + bolt / DCDC Wandler: IST-Strom LV-Seite am B+ Bolzen #define I3_PID_EME_EME_HVPM_DCDC_ANSTEUERUNG 0xDE00 // Return values from the HVPM for DCDC control / Rückgabewerte vom HVPM für DCDC Ansteuerung #define I3_RES_EME_STAT_SOC_HVB_WERT (RXBUF_UINT(0)*0.1f) #define I3_RES_EME_STAT_SOC_HVB_WERT_UNIT '%' #define I3_RES_EME_STAT_SOC_HVB_WERT_TYPE float // HV battery charge level / Ladezustand HV Batterie #define I3_RES_EME_STAT_SOC_HVB_MIN_WERT (RXBUF_UCHAR(2)*0.5f) #define I3_RES_EME_STAT_SOC_HVB_MIN_WERT_UNIT '%' #define I3_RES_EME_STAT_SOC_HVB_MIN_WERT_TYPE float // Startability limit, state of charge HV battery / Startfähigkeitsgrenze Ladezustand HV Batterie #define I3_RES_EME_STAT_LADEGERAET (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_LADEGERAET_UNIT '0/1' #define I3_RES_EME_STAT_LADEGERAET_TYPE unsigned char // Charger recognized (1 = recognized / 0 = not recognized) / Ladegerät erkannt (1 = erkannt / 0 = nicht erkannt) #define I3_RES_EME_STAT_FREMDLADUNG (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_FREMDLADUNG_UNIT '0/1' #define I3_RES_EME_STAT_FREMDLADUNG_TYPE unsigned char // External charge (1 = recognized / 0 = not recognized) / Fremdladung (1 = erkannt / 0 = nicht erkannt) #define I3_RES_EME_STAT_FAHRB (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_FAHRB_UNIT '0/1' #define I3_RES_EME_STAT_FAHRB_TYPE unsigned char // Ready to drive (1 = active / 0 = not active) / Fahrbereitschaft (1 = aktiv / 0 = nicht aktiv) #define I3_RES_EME_STAT_BA_DCDC_KOMM_NR (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_BA_DCDC_KOMM_NR_UNIT '0-n' #define I3_RES_EME_STAT_BA_DCDC_KOMM_NR_TYPE unsigned char // Commanded DC / DC converter operating mode / Kommandierte Betriebsart DC/DC Wandler #define I3_RES_EME_STAT_I_DCDC_HV_OUT_WERT (RXBUF_SINT(7)*0.1f) #define I3_RES_EME_STAT_I_DCDC_HV_OUT_WERT_UNIT 'A' #define I3_RES_EME_STAT_I_DCDC_HV_OUT_WERT_TYPE float // Current limit HV side / Stromgrenze HV-Seite #define I3_RES_EME_STAT_U_DCDC_HV_OUT_WERT (RXBUF_UINT(9)*0.1f) #define I3_RES_EME_STAT_U_DCDC_HV_OUT_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_DCDC_HV_OUT_WERT_TYPE float // Voltage limit HV side / Spannungsgrenze HV-Seite #define I3_RES_EME_STAT_I_DCDC_LV_OUT_WERT (RXBUF_SINT(11)*0.1f) #define I3_RES_EME_STAT_I_DCDC_LV_OUT_WERT_UNIT 'A' #define I3_RES_EME_STAT_I_DCDC_LV_OUT_WERT_TYPE float // Current limit NV side / Stromgrenze NV-Seite #define I3_RES_EME_STAT_U_DCDC_LV_OUT_WERT (RXBUF_UINT(13)*0.01f) #define I3_RES_EME_STAT_U_DCDC_LV_OUT_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_DCDC_LV_OUT_WERT_TYPE float // Voltage limit NV side / Spannungsgrenze NV-Seite #define I3_RES_EME_STAT_BA_DCDC_IST_NR (RXBUF_UCHAR(15)) #define I3_RES_EME_STAT_BA_DCDC_IST_NR_UNIT '0-n' #define I3_RES_EME_STAT_BA_DCDC_IST_NR_TYPE unsigned char // ACTUAL operating mode DCDC converter / IST-Betriebsart DCDC-Wandler #define I3_RES_EME_STAT_ALS_DCDC_WERT (RXBUF_UCHAR(16)*0.5f) #define I3_RES_EME_STAT_ALS_DCDC_WERT_UNIT '%' #define I3_RES_EME_STAT_ALS_DCDC_WERT_TYPE float // DC / DC converter utilization / Auslastung DC/DC-Wandler #define I3_RES_EME_STAT_I_DCDC_HV_WERT (RXBUF_SINT(17)*0.1f) #define I3_RES_EME_STAT_I_DCDC_HV_WERT_UNIT 'A' #define I3_RES_EME_STAT_I_DCDC_HV_WERT_TYPE float // Current HV side / Strom HV-Seite #define I3_RES_EME_STAT_U_DCDC_HV_WERT (RXBUF_UINT(19)*0.1f) #define I3_RES_EME_STAT_U_DCDC_HV_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_DCDC_HV_WERT_TYPE float // Voltage HV side / Spannung HV-Seite #define I3_RES_EME_STAT_I_DCDC_LV_WERT (RXBUF_SINT(21)*0.1f) #define I3_RES_EME_STAT_I_DCDC_LV_WERT_UNIT 'A' #define I3_RES_EME_STAT_I_DCDC_LV_WERT_TYPE float // Electricity NV side / Strom NV-Seite #define I3_RES_EME_STAT_U_DCDC_LV_WERT (RXBUF_UINT(23)*0.01f) #define I3_RES_EME_STAT_U_DCDC_LV_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_DCDC_LV_WERT_TYPE float // Voltage NV side / Spannung NV-Seite #define I3_PID_EME_EME_HVPM_HV_SYSTEM_ON_OFF 0xDE02 // High-voltage system on / off (HVPM 2013) / Hochvoltsystem An / Aus (HVPM 2013) #define I3_RES_EME_STAT_U_DC_HV_LE_WERT (RXBUF_SINT(0)*0.0313f) #define I3_RES_EME_STAT_U_DC_HV_LE_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_DC_HV_LE_WERT_TYPE float // HV intermediate circuit voltage / HV-Zwischenkreisspannung #define I3_RES_EME_STAT_HV_READY (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_HV_READY_UNIT '0/1' #define I3_RES_EME_STAT_HV_READY_TYPE unsigned char // Release HV / Freigabe HV #define I3_RES_EME_STAT_HDCAC_EREQ (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_HDCAC_EREQ_UNIT '0/1' #define I3_RES_EME_STAT_HDCAC_EREQ_TYPE unsigned char // Request to close contactors HV battery / Anforderung Schließen Schütze HV-Batterie #define I3_RES_EME_STAT_I0ANF_HVB (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_I0ANF_HVB_UNIT '0-n' #define I3_RES_EME_STAT_I0ANF_HVB_TYPE unsigned char // Status of zero current requirement / Status Nullstromanforderung #define I3_RES_EME_STAT_ANF_ENTL_ZK (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_ANF_ENTL_ZK_UNIT '0/1' #define I3_RES_EME_STAT_ANF_ENTL_ZK_TYPE unsigned char // Requirement for discharge of the HV intermediate circuit through DCDC converter / Anforderung Entladung // HV-Zwischenkreis durch DCDC-Wandler #define I3_RES_EME_STAT_HVSTART_KOMM (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_HVSTART_KOMM_UNIT '0-n' #define I3_RES_EME_STAT_HVSTART_KOMM_TYPE unsigned char // Output of the Stateflow status of the HVPM start system / Ausgabe des Stateflow-Status des HVPM Startsystems #define I3_RES_EME_STAT_ANF_ENTL_EME (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_ANF_ENTL_EME_UNIT '0/1' #define I3_RES_EME_STAT_ANF_ENTL_EME_TYPE unsigned char // Emergency discharge request ZK: 0 = not active; 1 = active / Anforderung Notentladung ZK: 0 = nicht aktiv; 1 = // aktiv #define I3_PID_EME_EME_HVPM_ENERGIEBORDNETZ_2 0xDE04 // Number of times the vehicle was ready to drive in the SOC area / Anzahl der Herstellung von Fahrbereitschaft // im SOC Bereich #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_0_20_WERT (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_0_20_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_20_25_WERT (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_20_25_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_25_30_WERT (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_25_30_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_30_33_WERT (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_30_33_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_33_36_WERT (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_33_36_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_36_39_WERT (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_36_39_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_39_42_WERT (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_39_42_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_42_45_WERT (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_42_45_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_45_48_WERT (RXBUF_UCHAR(8)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_45_48_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_48_51_WERT (RXBUF_UCHAR(9)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_48_51_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_51_56_WERT (RXBUF_UCHAR(10)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_51_56_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_56_65_WERT (RXBUF_UCHAR(11)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_56_65_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_65_80_WERT (RXBUF_UCHAR(12)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_65_80_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_80_100_WERT (RXBUF_UCHAR(13)) #define I3_RES_EME_STAT_NV_HVB_SOC_FAHRB_80_100_WERT_TYPE unsigned char // Charge status of the HV battery when ready to drive / Ladezustand HV-Batterie bei Herstellung Fahrbereitschaft #define I3_PID_EME_EME_HVPM_PKOR 0xDE06 // HVPM performance coordinator / HVPM Leistungskoordinator #define I3_RES_EME_STAT_T_P_WUNSCH_ID_0_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_0_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_0_WERT_TYPE unsigned short // Heat Up - Time during which the function was requested. / Heat Up - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_1_WERT (RXBUF_UINT(2)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_1_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_1_WERT_TYPE unsigned short // Electric heating - time during which the function was requested. / E-Heizen - Zeit, während der Funktion // angefordert war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_2_WERT (RXBUF_UINT(4)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_2_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_2_WERT_TYPE unsigned short // Cool-Down - Time during which the function was requested. / Cool-Down - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_3_WERT (RXBUF_UINT(6)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_3_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_3_WERT_TYPE unsigned short // Electric cooling - time during which the function was requested. / E-Kühlen - Zeit, während der Funktion // angefordert war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_4_WERT (RXBUF_UINT(8)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_4_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_4_WERT_TYPE unsigned short // Fogging - time during which the function was requested. / Beschlag - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_5_WERT (RXBUF_UINT(10)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_5_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_5_WERT_TYPE unsigned short // Defrost - Time during which the function was requested. / Defrost - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_6_WERT (RXBUF_UINT(12)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_6_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_6_WERT_TYPE unsigned short // Battery cooling - time during which the function was requested. / Batterie Kühlung - Zeit, während der // Funktion angefordert war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_7_WERT (RXBUF_UINT(14)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_7_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_7_WERT_TYPE unsigned short // Battery cooling urgent - time during which the function was requested. / Batterie Kühlung dringend - Zeit, // während der Funktion angefordert war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_8_WERT (RXBUF_UINT(16)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_8_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_8_WERT_TYPE unsigned short // Battery heating - time during which the function was requested. / Batterieheizung - Zeit, während der Funktion // angefordert war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_9_WERT (RXBUF_UINT(18)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_9_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_9_WERT_TYPE unsigned short // DC / DC converter - time during which the function was requested. / DC/DC-Wandler - Zeit, während der Funktion // angefordert war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_10_WERT (RXBUF_UINT(20)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_10_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_10_WERT_TYPE unsigned short // Drive 1 - Time during which the function was requested. / Antrieb 1 - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_11_WERT (RXBUF_UINT(22)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_11_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_11_WERT_TYPE unsigned short // Drive 2 - Time during which the function was requested. / Antrieb 2 - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_WUNSCH_ID_12_WERT (RXBUF_UINT(24)) #define I3_RES_EME_STAT_T_P_WUNSCH_ID_12_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_WUNSCH_ID_12_WERT_TYPE unsigned short // Drive 3 - Time during which the function was requested. / Antrieb 3 - Zeit, während der Funktion angefordert // war. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_0_WERT (RXBUF_UINT(26)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_0_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_0_WERT_TYPE unsigned short // Heat Up - Time during which the function was not fully enabled, SOC area 1. / Heat Up - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_1_WERT (RXBUF_UINT(28)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_1_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_1_WERT_TYPE unsigned short // Electric heating - time during which the function was not fully enabled, SOC area 1. / E-Heizen - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_2_WERT (RXBUF_UINT(30)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_2_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_2_WERT_TYPE unsigned short // Cool-Down - Time during which the function was not fully enabled, SOC area 1. / Cool-Down - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_3_WERT (RXBUF_UINT(32)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_3_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_3_WERT_TYPE unsigned short // Electric cooling - time during which the function was not fully enabled, SOC area 1. / E-Kühlen - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_4_WERT (RXBUF_UINT(34)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_4_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_4_WERT_TYPE unsigned short // Fogging - time during which the function was not fully enabled, SOC area 1. / Beschlag - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_5_WERT (RXBUF_UINT(36)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_5_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_5_WERT_TYPE unsigned short // Defrost - time during which the function was not fully enabled, SOC area 1. / Defrost - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_6_WERT (RXBUF_UINT(38)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_6_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_6_WERT_TYPE unsigned short // Battery cooling - time during which the function was not fully enabled, SOC area 1. / Batterie Kühlung - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_7_WERT (RXBUF_UINT(40)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_7_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_7_WERT_TYPE unsigned short // Battery cooling urgent - time during which the function was not fully enabled, SOC area 1. / Batterie Kühlung // dringend - Zeit, während der Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_8_WERT (RXBUF_UINT(42)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_8_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_8_WERT_TYPE unsigned short // Battery heating - time during which the function was not fully enabled, SOC area 1. / Batterieheizung - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_9_WERT (RXBUF_UINT(44)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_9_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_9_WERT_TYPE unsigned short // DC / DC converter - time during which the function was not fully enabled, SOC area 1. / DC/DC-Wandler - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_10_WERT (RXBUF_UINT(46)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_10_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_10_WERT_TYPE unsigned short // Drive 1 - Time during which the function was not fully enabled, SOC area 1. / Antrieb 1 - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_11_WERT (RXBUF_UINT(48)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_11_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_11_WERT_TYPE unsigned short // Drive 2 - Time during which the function was not fully enabled, SOC area 1. / Antrieb 2 - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_12_WERT (RXBUF_UINT(50)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_12_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE1_ID_12_WERT_TYPE unsigned short // Drive 3 - Time during which the function was not fully enabled, SOC area 1. / Antrieb 3 - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 1. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_0_WERT (RXBUF_UINT(52)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_0_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_0_WERT_TYPE unsigned short // Heat Up - Time during which the function was not fully enabled, SOC area 2. / Heat Up - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_1_WERT (RXBUF_UINT(54)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_1_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_1_WERT_TYPE unsigned short // Electric heating - time during which the function was not fully enabled, SOC area 2. / E-Heizen - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_2_WERT (RXBUF_UINT(56)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_2_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_2_WERT_TYPE unsigned short // Cool-Down - Time during which the function was not fully enabled, SOC area 2. / Cool-Down - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_3_WERT (RXBUF_UINT(58)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_3_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_3_WERT_TYPE unsigned short // Electric cooling - time during which the function was not fully enabled, SOC area 2. / E-Kühlen - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_4_WERT (RXBUF_UINT(60)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_4_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_4_WERT_TYPE unsigned short // Fogging - time during which the function was not fully enabled, SOC area 2. / Beschlag - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_5_WERT (RXBUF_UINT(62)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_5_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_5_WERT_TYPE unsigned short // Defrost - time during which the function was not fully enabled, SOC area 2. / Defrost - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_6_WERT (RXBUF_UINT(64)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_6_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_6_WERT_TYPE unsigned short // Battery cooling - time during which the function was not fully enabled, SOC area 2. / Batterie Kühlung - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_7_WERT (RXBUF_UINT(66)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_7_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_7_WERT_TYPE unsigned short // Battery cooling urgent - time during which the function was not fully enabled, SOC area 2. / Batterie Kühlung // dringend - Zeit, während der Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_8_WERT (RXBUF_UINT(68)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_8_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_8_WERT_TYPE unsigned short // Battery heating - time during which the function was not fully enabled, SOC area 2. / Batterieheizung - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_9_WERT (RXBUF_UINT(70)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_9_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_9_WERT_TYPE unsigned short // DC / DC converter - time during which the function was not fully enabled, SOC area 2. / DC/DC-Wandler - Zeit, // während der Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_10_WERT (RXBUF_UINT(72)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_10_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_10_WERT_TYPE unsigned short // Drive 1 - Time during which the function was not fully enabled, SOC area 2. / Antrieb 1 - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_11_WERT (RXBUF_UINT(74)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_11_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_11_WERT_TYPE unsigned short // Drive 2 - Time during which the function was not fully enabled, SOC area 2. / Antrieb 2 - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_12_WERT (RXBUF_UINT(76)) #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_12_WERT_UNIT 's' #define I3_RES_EME_STAT_T_P_SOLL_WUNSCH_RANGE2_ID_12_WERT_TYPE unsigned short // Drive 3 - Time during which the function was not fully enabled, SOC area 2. / Antrieb 3 - Zeit, während der // Funktion nicht vollständig freigegeben war, SOC-Bereich 2. #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_0_WERT (RXBUF_UINT(78)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_0_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_0_WERT_TYPE unsigned short // Average DCDC power 1st - 3rd minute / Mittlere DCDC-Leistung 1.- 3. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_1_WERT (RXBUF_UINT(80)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_1_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_1_WERT_TYPE unsigned short // Average DCDC power 4th - 6th minute / Mittlere DCDC-Leistung 4. - 6. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_2_WERT (RXBUF_UINT(82)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_2_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_2_WERT_TYPE unsigned short // Average DCDC power 7th - 9th minute / Mittlere DCDC-Leistung 7. - 9. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_3_WERT (RXBUF_UINT(84)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_3_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_3_WERT_TYPE unsigned short // Average DCDC power 10th - 12th minute / Mittlere DCDC-Leistung 10. - 12. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_4_WERT (RXBUF_UINT(86)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_4_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_4_WERT_TYPE unsigned short // Average DCDC power 13th - 15th minute / Mittlere DCDC-Leistung 13. - 15. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_5_WERT (RXBUF_UINT(88)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_5_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_5_WERT_TYPE unsigned short // Average DCDC power 16th - 18th minutes / Mittlere DCDC-Leistung 16. - 18. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_6_WERT (RXBUF_UINT(90)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_6_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_6_WERT_TYPE unsigned short // Average DCDC power 19th - 21st minute / Mittlere DCDC-Leistung 19. - 21. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_7_WERT (RXBUF_UINT(92)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_7_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_7_WERT_TYPE unsigned short // Average DCDC power 22nd - 24th minute / Mittlere DCDC-Leistung 22. - 24. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_8_WERT (RXBUF_UINT(94)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_8_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_8_WERT_TYPE unsigned short // Average DCDC power 25th - 27th minute / Mittlere DCDC-Leistung 25. - 27. Minute #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_9_WERT (RXBUF_UINT(96)) #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_9_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_DCDC_MITTEL_30MIN_9_WERT_TYPE unsigned short // Average DCDC power 28th - 30th minute / Mittlere DCDC-Leistung 28. - 30. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_0_WERT (RXBUF_UINT(98)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_0_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_0_WERT_TYPE unsigned short // Average power comfort consumer 1st - 3rd minute / Mittlere Leistung Komfortverbraucher 1. - 3. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_1_WERT (RXBUF_UINT(100)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_1_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_1_WERT_TYPE unsigned short // Average power comfort consumer 4th - 6th minute / Mittlere Leistung Komfortverbraucher 4. - 6. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_2_WERT (RXBUF_UINT(102)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_2_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_2_WERT_TYPE unsigned short // Average power comfort consumer 7th - 9th minute / Mittlere Leistung Komfortverbraucher 7. - 9. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_3_WERT (RXBUF_UINT(104)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_3_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_3_WERT_TYPE unsigned short // Average power comfort consumer 10th - 12th minute / Mittlere Leistung Komfortverbraucher 10. - 12. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_4_WERT (RXBUF_UINT(106)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_4_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_4_WERT_TYPE unsigned short // Average power comfort consumer 13th - 15th minute / Mittlere Leistung Komfortverbraucher 13. - 15. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_5_WERT (RXBUF_UINT(108)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_5_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_5_WERT_TYPE unsigned short // Average power comfort consumer 16th - 18th minute / Mittlere Leistung Komfortverbraucher 16. - 18. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_6_WERT (RXBUF_UINT(110)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_6_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_6_WERT_TYPE unsigned short // Average power comfort consumer 19th - 21st minute / Mittlere Leistung Komfortverbraucher 19. - 21. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_7_WERT (RXBUF_UINT(112)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_7_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_7_WERT_TYPE unsigned short // Average power comfort consumer 22nd - 24th minute / Mittlere Leistung Komfortverbraucher 22. - 24. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_8_WERT (RXBUF_UINT(114)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_8_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_8_WERT_TYPE unsigned short // Average power comfort consumer 25th - 27th minute / Mittlere Leistung Komfortverbraucher 25. - 27. Minute #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_9_WERT (RXBUF_UINT(116)) #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_9_WERT_UNIT 'W' #define I3_RES_EME_STAT_P_HVPM_KOMFORT_MITTEL_30MIN_9_WERT_TYPE unsigned short // Average power comfort consumer 28th - 30th minute / Mittlere Leistung Komfortverbraucher 28. - 30. Minute // Skipping EME_HVPM_INFOSPEICHER_PKOR_LOESCHEN on 0xDE08 which takes arguments // Skipping EME_HVPM_INFOSPEICHER_STRZLR_LOESCHEN on 0xDE09 which takes arguments // Skipping EME_HVPM_INFOSPEICHER_SPMON_LOESCHEN on 0xDE0A which takes arguments #define I3_PID_EME_EME_HVIL_GESAMT 0xDE0C // Reading out the HVIL status in the EME; if HVIL is interrupted, then not ok / Auslesen des HVIL-Zustandes in // der EME; falls HVIL unterbrochen, dann n.i.O. #define I3_RES_EME_STAT_HVIL_GESAMT_NR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_HVIL_GESAMT_NR_UNIT '0-n' #define I3_RES_EME_STAT_HVIL_GESAMT_NR_TYPE unsigned char // Reading out the HVIL status in the EME; if HVIL is interrupted, then not ok / Auslesen des HVIL-Zustandes in // der EME; falls HVIL unterbrochen, dann n.i.O. #define I3_PID_EME_EME_ANSTEUERUNG_ELUP 0xDE0E // Current switching status ELUP (0 - off; 1 - on) / Aktueller Schaltzustand ELUP (0 - Aus; 1 - Ein) #define I3_RES_EME_STAT_ANST_ELUP_ON (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_ANST_ELUP_ON_UNIT '0/1' #define I3_RES_EME_STAT_ANST_ELUP_ON_TYPE unsigned char // Current switching status ELUP (0 - off; 1 - on) / Aktueller Schaltzustand ELUP (0 - Aus; 1 - Ein) // Skipping EME_ELUP on 0xDE19 which takes arguments #define I3_PID_EME_EME_HVPM_DCDC_ALS 0xDE1C // HVPM DCDC ALS / HVPM DCDC ALS #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_NULL_WERT (RXBUF_UINT32(0)*0.1f) #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_NULL_WERT_UNIT 's' #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_NULL_WERT_TYPE float // Time average DCDC current in buck mode on the LV side in range 0 / Zeit durchschnittlicher DCDC Strom im // Buckmode LV-seitig in Bereich 0 #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_1_WERT (RXBUF_UINT32(4)*0.1f) #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_1_WERT_UNIT 's' #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_1_WERT_TYPE float // Time average DCDC current in buck mode on the LV side in area 1 / Zeit durchschnittlicher DCDC Strom im // Buckmode LV-seitig in Bereich 1 #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_2_WERT (RXBUF_UINT32(8)*0.1f) #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_2_WERT_UNIT 's' #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_2_WERT_TYPE float // Time average DCDC current in buck mode on the LV side in area 2 / Zeit durchschnittlicher DCDC Strom im // Buckmode LV-seitig in Bereich 2 #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_3_WERT (RXBUF_UINT32(12)*0.1f) #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_3_WERT_UNIT 's' #define I3_RES_EME_STAT_NV_DCDC_ALS_HIST_BEREICH_3_WERT_TYPE float // Time average DCDC current in buck mode on the LV side in area 3 / Zeit durchschnittlicher DCDC Strom im // Buckmode LV-seitig in Bereich 3 #define I3_PID_EME_AE_CPLD_VERSION 0xDE2D // CPLD version / CPLD-Version #define I3_RES_EME_STAT_CPLD_VERSION_WERT (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_CPLD_VERSION_WERT_TYPE unsigned char // CPLD version / CPLD-Version #define I3_PID_EME_AE_SYSTEMLEISTUNG_INV_EM 0xDE39 // Evaluation of the system performance of the INV & EM network. / Bewertung der Systemleistung des Verbundes // INV&EM. // BF_STAT_ST_ERR_MOT_TRCT is a BITFIELD of size unsigned int. We don't yet generate definitions for each bit, we treat as the host data type // Error status EM / Fehler Status EM // STAT_ST_ERR_MOT_TRCT_BIT0: Mask: 0x0001 - Error-related AKS // STAT_ST_ERR_MOT_TRCT_BIT1: Mask: 0x0002 - Error-related freewheel // STAT_ST_ERR_MOT_TRCT_BIT2: Mask: 0x0004 - Limited torque (0% - 25% or 50% Md_max) // STAT_ST_ERR_MOT_TRCT_BIT3: Mask: 0x0008 - Limited torque (25% Md_max) // STAT_ST_ERR_MOT_TRCT_BIT4: Mask: 0x0010 - Limited torque (50% Md_max) // STAT_ST_ERR_MOT_TRCT_BIT5: Mask: 0x0020 - Torque deviation EM // STAT_ST_ERR_MOT_TRCT_BIT6: Mask: 0x0040 - Temperature error EM // STAT_ST_ERR_MOT_TRCT_BIT7: Mask: 0x0080 - Interlock / crash clamp / emergency stop // STAT_ST_ERR_MOT_TRCT_BIT8: Mask: 0x0100 - AC power error // STAT_ST_ERR_MOT_TRCT_BIT9: Mask: 0x0200 - Resolver failure // STAT_ST_ERR_MOT_TRCT_BIT10: Mask: 0x0400 - CAN signal failure // STAT_ST_ERR_MOT_TRCT_BIT11: Mask: 0x0800 - Loss of signal for internal measured variables // STAT_ST_ERR_MOT_TRCT_BIT12: Mask: 0x1000 - EWS error // STAT_ST_ERR_MOT_TRCT_BIT13: Mask: 0x2000 - Hardware-related error LE // STAT_ST_ERR_MOT_TRCT_BIT14: Mask: 0x4000 - Temperature error LE #define I3_RES_EME_BF_STAT_ST_ERR_MOT_TRCT (RXBUF_UINT(0)) #define I3_RES_EME_BF_STAT_ST_ERR_MOT_TRCT_UNIT 'Bit' #define I3_RES_EME_BF_STAT_ST_ERR_MOT_TRCT_TYPE unsigned short // Error status EM / Fehler Status EM #define I3_RES_EME_STAT_AVL_TEMP_MOT_TRCT_WERT (RXBUF_UCHAR(2)-48.0) #define I3_RES_EME_STAT_AVL_TEMP_MOT_TRCT_WERT_UNIT '°C' #define I3_RES_EME_STAT_AVL_TEMP_MOT_TRCT_WERT_TYPE unsigned char // NTC temperature EM calculated / NTC Temperatur EM gerechnet #define I3_RES_EME_STAT_T_EM2TMODROT_WERT (RXBUF_SINT(3)) #define I3_RES_EME_STAT_T_EM2TMODROT_WERT_UNIT '°C' #define I3_RES_EME_STAT_T_EM2TMODROT_WERT_TYPE short // Rotor temperature calculated / Rotor Temperatur gerechnet #define I3_RES_EME_STAT_AVL_COL_TEMP_ENGMG_EL_WERT (RXBUF_UCHAR(5)-48.0) #define I3_RES_EME_STAT_AVL_COL_TEMP_ENGMG_EL_WERT_UNIT '°C' #define I3_RES_EME_STAT_AVL_COL_TEMP_ENGMG_EL_WERT_TYPE unsigned char // Coolant temperature input calculated / Kühlmittel Temperatur Eingang gerechnet #define I3_RES_EME_STAT_TMOD_V_T_LE2_COOLANT_EXIT_EST_WERT (RXBUF_SCHAR(6)) #define I3_RES_EME_STAT_TMOD_V_T_LE2_COOLANT_EXIT_EST_WERT_UNIT '°C' #define I3_RES_EME_STAT_TMOD_V_T_LE2_COOLANT_EXIT_EST_WERT_TYPE char // Coolant temperature output calculated / Kühlmittel Temperatur Ausgang gerechnet #define I3_RES_EME_STAT_AVL_TEMP_INVE_IGBT_MAX_WERT (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_AVL_TEMP_INVE_IGBT_MAX_WERT_UNIT '°C' #define I3_RES_EME_STAT_AVL_TEMP_INVE_IGBT_MAX_WERT_TYPE unsigned char // Temperature diode / Temperatur Diode // BF_STAT_ST_INFO_DER_MOT_TRCT is a BITFIELD of size unsigned int. We don't yet generate definitions for each bit, we treat as the host data type // Information status EM / Informationen Status EM // STAT_ST_INFO_DER_MOT_TRCT_BIT0: Mask: 0x0001 - Derating torque due to HV-DC voltage limit (motor operation) // STAT_ST_INFO_DER_MOT_TRCT_BIT1: Mask: 0x0002 - Derating torque due to HV-DC voltage limit (generator operation) // STAT_ST_INFO_DER_MOT_TRCT_BIT2: Mask: 0x0004 - Derating torque due to speed (motorized operation) // STAT_ST_INFO_DER_MOT_TRCT_BIT3: Mask: 0x0008 - Derating torque due to speed (generator operation) // STAT_ST_INFO_DER_MOT_TRCT_BIT4: Mask: 0x0010 - Derating torque due to HV-DC current limit (motor operation) // STAT_ST_INFO_DER_MOT_TRCT_BIT5: Mask: 0x0020 - Derating torque due to HV-DC current limit (generator operation) // STAT_ST_INFO_DER_MOT_TRCT_BIT6: Mask: 0x0040 - Derating torque due to temperature EM // STAT_ST_INFO_DER_MOT_TRCT_BIT7: Mask: 0x0080 - Info: Motor AC current limit reached // STAT_ST_INFO_DER_MOT_TRCT_BIT8: Mask: 0x0100 - Info: Regenerative AC current limit reached // STAT_ST_INFO_DER_MOT_TRCT_BIT9: Mask: 0x0200 - Info: Resolver offset not taught // STAT_ST_INFO_DER_MOT_TRCT_BIT10: Mask: 0x0400 - Info: Field control active // STAT_ST_INFO_DER_MOT_TRCT_BIT11: Mask: 0x0800 - Info: Critical temperature at the end of the coil // STAT_ST_INFO_DER_MOT_TRCT_BIT12: Mask: 0x1000 - Info: Critical temperature rotor // STAT_ST_INFO_DER_MOT_TRCT_BIT13: Mask: 0x2000 - reserved // STAT_ST_INFO_DER_MOT_TRCT_BIT14: Mask: 0x4000 - reserved #define I3_RES_EME_BF_STAT_ST_INFO_DER_MOT_TRCT (RXBUF_UINT(8)) #define I3_RES_EME_BF_STAT_ST_INFO_DER_MOT_TRCT_UNIT 'Bit' #define I3_RES_EME_BF_STAT_ST_INFO_DER_MOT_TRCT_TYPE unsigned short // Information status EM / Informationen Status EM // BF_STAT_ST_INFO_DER_INVE_TRCT is a BITFIELD of size unsigned int. We don't yet generate definitions for each bit, we treat as the host data type // Information status inverter / Informationen Status Inverter // STAT_ST_INFO_DER_INVE_TRCT_BIT0: Mask: 0x0001 - Derating due to overtemperature IGBT / diode // STAT_ST_INFO_DER_INVE_TRCT_BIT1: Mask: 0x0002 - Derating due to temperature spread between NTC and IGBT / diode // STAT_ST_INFO_DER_INVE_TRCT_BIT2: Mask: 0x0004 - Derating due to overtemperature NTC // STAT_ST_INFO_DER_INVE_TRCT_BIT3: Mask: 0x0008 - Derating due to overtemperature coolant // STAT_ST_INFO_DER_INVE_TRCT_BIT4: Mask: 0x0010 - Derating due to switching overvoltage due to U_DC level // STAT_ST_INFO_DER_INVE_TRCT_BIT5: Mask: 0x0020 - Derating due to speed range // STAT_ST_INFO_DER_INVE_TRCT_BIT6: Mask: 0x0040 - Derating due to insufficient coolant flow // STAT_ST_INFO_DER_INVE_TRCT_BIT7: Mask: 0x0080 - Derating due to excessive gate driver temperature // STAT_ST_INFO_DER_INVE_TRCT_BIT8: Mask: 0x0100 - Info: Short circuit UVW Highside // STAT_ST_INFO_DER_INVE_TRCT_BIT9: Mask: 0x0200 - Info: Short circuit UVW Lowside // STAT_ST_INFO_DER_INVE_TRCT_BIT10: Mask: 0x0400 - Info: UVW switch open // STAT_ST_INFO_DER_INVE_TRCT_BIT11: Mask: 0x0800 - Info: controller active // STAT_ST_INFO_DER_INVE_TRCT_BIT12: Mask: 0x1000 - Info: Id controller in anti-windup // STAT_ST_INFO_DER_INVE_TRCT_BIT13: Mask: 0x2000 - Info: Iq controller in anti-windup // STAT_ST_INFO_DER_INVE_TRCT_BIT14: Mask: 0x4000 - reserved #define I3_RES_EME_BF_STAT_ST_INFO_DER_INVE_TRCT (RXBUF_UINT(10)) #define I3_RES_EME_BF_STAT_ST_INFO_DER_INVE_TRCT_UNIT 'Bit' #define I3_RES_EME_BF_STAT_ST_INFO_DER_INVE_TRCT_TYPE unsigned short // Information status inverter / Informationen Status Inverter // BF_STAT_V_E_EM2POMERROR50US is a BITFIELD of size unsigned long. We don't yet generate definitions for each bit, we treat as the host data type // Status POM / Status POM // STAT_V_E_EM2POMERROR50US_BIT0: Mask: 0x00000001 - Violation of max phase current // STAT_V_E_EM2POMERROR50US_BIT1: Mask: 0x00000002 - Total current error AC // STAT_V_E_EM2POMERROR50US_BIT2: Mask: 0x00000004 - Injury to Max Idc // STAT_V_E_EM2POMERROR50US_BIT3: Mask: 0x00000008 - Violation of the positive Id current criterion // STAT_V_E_EM2POMERROR50US_BIT4: Mask: 0x00000010 - Error in plausibility check of the resolver angle // STAT_V_E_EM2POMERROR50US_BIT5: Mask: 0x00000020 - Angle observer limit violation of angle time error // STAT_V_E_EM2POMERROR50US_BIT6: Mask: 0x00000040 - Angle observer, angle error, absolute difference monitoring #define I3_RES_EME_BF_STAT_V_E_EM2POMERROR50US (RXBUF_UINT32(12)) #define I3_RES_EME_BF_STAT_V_E_EM2POMERROR50US_UNIT 'Bit' #define I3_RES_EME_BF_STAT_V_E_EM2POMERROR50US_TYPE unsigned long // Status POM / Status POM // BF_STAT_V_E_FUSILDUWB_MC2_UE2 is a BITFIELD of size unsigned long. We don't yet generate definitions for each bit, we treat as the host data type // FuSi Umweltwort MC2 / FuSi Umweltwort MC2 // STAT_V_E_FUSILDUWB_MC2_UE2_BIT0: Mask: 0x00000001 - reserved // STAT_V_E_FUSILDUWB_MC2_UE2_BIT1: Mask: 0x00000002 - Error target current calculation EM control // STAT_V_E_FUSILDUWB_MC2_UE2_BIT2: Mask: 0x00000004 - Current sensor error // STAT_V_E_FUSILDUWB_MC2_UE2_BIT3: Mask: 0x00000008 - Group error qualifier // STAT_V_E_FUSILDUWB_MC2_UE2_BIT4: Mask: 0x00000010 - Single error qualifier #define I3_RES_EME_BF_STAT_V_E_FUSILDUWB_MC2_UE2 (RXBUF_UINT32(16)) #define I3_RES_EME_BF_STAT_V_E_FUSILDUWB_MC2_UE2_UNIT 'Bit' #define I3_RES_EME_BF_STAT_V_E_FUSILDUWB_MC2_UE2_TYPE unsigned long // FuSi Umweltwort MC2 / FuSi Umweltwort MC2 // BF_STAT_V_E_FUSILDUWB is a BITFIELD of size unsigned long. We don't yet generate definitions for each bit, we treat as the host data type // FuSi Umweltwort MC0 / FuSi Umweltwort MC0 // STAT_V_E_FUSILDUWB_BIT0: Mask: 0x00000001 - MGU: Static braking torque limit // STAT_V_E_FUSILDUWB_BIT1: Mask: 0x00000002 - MGU: torque direction // STAT_V_E_FUSILDUWB_BIT2: Mask: 0x00000004 - MGU: Upper torque limit // STAT_V_E_FUSILDUWB_BIT3: Mask: 0x00000008 - MGU: Lower torque limit // STAT_V_E_FUSILDUWB_BIT4: Mask: 0x00000010 - MGU: Invalid quadrant // STAT_V_E_FUSILDUWB_BIT5: Mask: 0x00000020 - MGU: violation of safe state // STAT_V_E_FUSILDUWB_BIT6: Mask: 0x00000040 - PGU: angle error (resolver vs. low-level) // STAT_V_E_FUSILDUWB_BIT7: Mask: 0x00000080 - PGU: angle error (low-level signal) // STAT_V_E_FUSILDUWB_BIT8: Mask: 0x00000100 - PGU: speed error (resolver vs. MC2) // STAT_V_E_FUSILDUWB_BIT9: Mask: 0x00000200 - PGU: speed error (MC2 vs low-level) // STAT_V_E_FUSILDUWB_BIT10: Mask: 0x00000400 - PGU: Dynamic speed error // STAT_V_E_FUSILDUWB_BIT11: Mask: 0x00000800 - CPL: Current error (current value MC0 vs. MC2) // STAT_V_E_FUSILDUWB_BIT12: Mask: 0x00001000 - CPL: Current error (values MC2 nominal vs. current) // STAT_V_E_FUSILDUWB_BIT13: Mask: 0x00002000 - MCU: Error reference current calculation (abs.) // STAT_V_E_FUSILDUWB_BIT14: Mask: 0x00004000 - MCU: Error reference current calculation (sign) // STAT_V_E_FUSILDUWB_BIT15: Mask: 0x00008000 - PMB: Torque limit violation // STAT_V_E_FUSILDUWB_BIT16: Mask: 0x00010000 - Collective qualifier // STAT_V_E_FUSILDUWB_BIT17: Mask: 0x00020000 - Resolver communication disturbed (DIO) // STAT_V_E_FUSILDUWB_BIT18: Mask: 0x00040000 - internal communication disturbed // STAT_V_E_FUSILDUWB_BIT19: Mask: 0x00080000 - internal communication disturbed // STAT_V_E_FUSILDUWB_BIT20: Mask: 0x00100000 - Communication disturbed (CAN / Flexray) // STAT_V_E_FUSILDUWB_BIT21: Mask: 0x00200000 - internal communication disturbed // STAT_V_E_FUSILDUWB_BIT22: Mask: 0x00400000 - other communication errors // STAT_V_E_FUSILDUWB_BIT23: Mask: 0x00800000 - other communication errors #define I3_RES_EME_BF_STAT_V_E_FUSILDUWB (RXBUF_UINT32(20)) #define I3_RES_EME_BF_STAT_V_E_FUSILDUWB_UNIT 'Bit' #define I3_RES_EME_BF_STAT_V_E_FUSILDUWB_TYPE unsigned long // FuSi Umweltwort MC0 / FuSi Umweltwort MC0 #define I3_RES_EME_STAT_V_E_EMOPMO_IST (RXBUF_UCHAR(24)) #define I3_RES_EME_STAT_V_E_EMOPMO_IST_UNIT '0-n' #define I3_RES_EME_STAT_V_E_EMOPMO_IST_TYPE unsigned char // Current operating mode / Aktuelle Betriebsart #define I3_RES_EME_STAT_V_E_BAMSTATUS (RXBUF_UCHAR(25)) #define I3_RES_EME_STAT_V_E_BAMSTATUS_UNIT '0-n' #define I3_RES_EME_STAT_V_E_BAMSTATUS_TYPE unsigned char // Internal operating mode / Interne Betriebsart #define I3_RES_EME_STAT_V_LIM_TQP_MD_EM2_GEN_MAX_WERT (RXBUF_UINT(26)) #define I3_RES_EME_STAT_V_LIM_TQP_MD_EM2_GEN_MAX_WERT_UNIT 'Nm' #define I3_RES_EME_STAT_V_LIM_TQP_MD_EM2_GEN_MAX_WERT_TYPE unsigned short // Maximum regenerative moment that the LE + EM system could provide for the next second / Maximales // generatorisches Moment, welches das System aus LE + EM für die naechste Sekunde stellen koennte #define I3_RES_EME_STAT_V_LIM_TQP_MD_EM2_MOT_MAX_WERT (RXBUF_UINT(28)) #define I3_RES_EME_STAT_V_LIM_TQP_MD_EM2_MOT_MAX_WERT_UNIT 'Nm' #define I3_RES_EME_STAT_V_LIM_TQP_MD_EM2_MOT_MAX_WERT_TYPE unsigned short // Maximum motor moment that the system of LE + EM could provide for the next second / Maximales motorisches // Moment, welches das System aus LE + EM für die naechste Sekunde stellen koennte #define I3_RES_EME_STAT_V_U_INVEM2_UQ_WERT (RXBUF_SINT(30)) #define I3_RES_EME_STAT_V_U_INVEM2_UQ_WERT_UNIT 'V' #define I3_RES_EME_STAT_V_U_INVEM2_UQ_WERT_TYPE short // Q voltage / Q Spannung #define I3_RES_EME_STAT_V_U_INVEM2_UD_WERT (RXBUF_SINT(32)) #define I3_RES_EME_STAT_V_U_INVEM2_UD_WERT_UNIT 'V' #define I3_RES_EME_STAT_V_U_INVEM2_UD_WERT_TYPE short // D tension / D Spannung #define I3_RES_EME_STAT_V_I_INVEM2_IQ_WERT (RXBUF_SINT(34)) #define I3_RES_EME_STAT_V_I_INVEM2_IQ_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_INVEM2_IQ_WERT_TYPE short // Q current / Q Strom #define I3_RES_EME_STAT_V_I_INVEM2_ID_WERT (RXBUF_SINT(36)) #define I3_RES_EME_STAT_V_I_INVEM2_ID_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_INVEM2_ID_WERT_TYPE short // D current / D Strom #define I3_RES_EME_STAT_V_N_RSLV_STATUS (RXBUF_UCHAR(38)) #define I3_RES_EME_STAT_V_N_RSLV_STATUS_UNIT '0-n' #define I3_RES_EME_STAT_V_N_RSLV_STATUS_TYPE unsigned char // Status word resolver signal speed / Statuswort Resolver Signal Drehzahl #define I3_RES_EME_STAT_V_PHI_RSLV_STATUS (RXBUF_UCHAR(39)) #define I3_RES_EME_STAT_V_PHI_RSLV_STATUS_UNIT '0-n' #define I3_RES_EME_STAT_V_PHI_RSLV_STATUS_TYPE unsigned char // Status word resolver signal angle / Satuswort Resolver Signal Winkel #define I3_RES_EME_STAT_TAR_TORQ_MOT_TRCT_ASD_WERT (RXBUF_SINT(40)*0.1f) #define I3_RES_EME_STAT_TAR_TORQ_MOT_TRCT_ASD_WERT_UNIT 'Nm' #define I3_RES_EME_STAT_TAR_TORQ_MOT_TRCT_ASD_WERT_TYPE float // ADA moment / ADA Moment #define I3_RES_EME_STAT_TAR_TORQ_MOT_TRCT_WERT (RXBUF_UINT(42)*0.5f-1023.5) #define I3_RES_EME_STAT_TAR_TORQ_MOT_TRCT_WERT_UNIT 'Nm' #define I3_RES_EME_STAT_TAR_TORQ_MOT_TRCT_WERT_TYPE float // Torque FuSi / Drehmoment FuSi #define I3_RES_EME_STAT_V_N_EMMECHSLOW_UE2_WERT (RXBUF_SINT(44)) #define I3_RES_EME_STAT_V_N_EMMECHSLOW_UE2_WERT_UNIT '1/min' #define I3_RES_EME_STAT_V_N_EMMECHSLOW_UE2_WERT_TYPE short // Speed Fusi / Drehzahl Fusi #define I3_RES_EME_STAT_V_E_RLSFUSI_ACVREQ (RXBUF_UCHAR(46)) #define I3_RES_EME_STAT_V_E_RLSFUSI_ACVREQ_UNIT '0-n' #define I3_RES_EME_STAT_V_E_RLSFUSI_ACVREQ_TYPE unsigned char // Resolver offset Fusi / Resolveroffset Fusi // BF_STAT_V_ST_RLS_FUSI_MC0 is a BITFIELD of size unsigned char. We don't yet generate definitions for each bit, we treat as the host data type // Status resolverdiag for Fusi / Status Resolverdiag für Fusi // STAT_V_ST_RLS_FUSI_MC0_BIT0: Mask: 0x01 - Resolver not OK #define I3_RES_EME_BF_STAT_V_ST_RLS_FUSI_MC0 (RXBUF_UCHAR(47)) #define I3_RES_EME_BF_STAT_V_ST_RLS_FUSI_MC0_UNIT 'Bit' #define I3_RES_EME_BF_STAT_V_ST_RLS_FUSI_MC0_TYPE unsigned char // Status resolverdiag for Fusi / Status Resolverdiag für Fusi #define I3_RES_EME_STAT_V_I_INV1_U_RMS_WERT (RXBUF_SINT(48)) #define I3_RES_EME_STAT_V_I_INV1_U_RMS_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_INV1_U_RMS_WERT_TYPE short // RMS phase current U / RMS Phasenstrom U #define I3_RES_EME_STAT_V_I_INV1_V_RMS_WERT (RXBUF_SINT(50)) #define I3_RES_EME_STAT_V_I_INV1_V_RMS_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_INV1_V_RMS_WERT_TYPE short // RMS phase current V / RMS Phasenstrom V #define I3_RES_EME_STAT_V_I_INV1_W_RMS_WERT (RXBUF_SINT(52)) #define I3_RES_EME_STAT_V_I_INV1_W_RMS_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_INV1_W_RMS_WERT_TYPE short // RMS phase current W / RMS Phasenstrom W // Skipping EME_HVPM_KONFIGURATION_LADEEINSTELLUNG on 0xDE3E which takes arguments // Skipping AE_PARKSPERRE_VARIANTE on 0xDE69 which takes arguments #define I3_PID_EME_AE_LSC_LADEN_2 0xDE6E // Last State Call Load (Extended) Feedback on the charging process / Last State Call Laden (Erweitert) // Rückmeldung zum Ladeverfahren #define I3_RES_EME_STAT_LADEMODUS (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_LADEMODUS_UNIT '0-n' #define I3_RES_EME_STAT_LADEMODUS_TYPE unsigned char // Selection of conductive / inductive / Auswahl Konduktiv / Induktiv #define I3_RES_EME_STAT_POSITIONIERUNG (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_POSITIONIERUNG_UNIT '0-n' #define I3_RES_EME_STAT_POSITIONIERUNG_TYPE unsigned char // Positioning status / Postionierungsstatus // BF_LADEUNTERBRECHUNG is a BITFIELD of size unsigned int. We don't yet generate definitions for each bit, we treat as the host data type // Reason charging interruption / Grund Ladeunterbrechung // STAT_LADEUNTERBRECHUNG_2: Mask: 0x0002 - AC_Sspannung_mehlt_oder_Netzverbindungen_instabil 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_3: Mask: 0x0004 - Ueberstrom_AC 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_5: Mask: 0x0010 - Overvoltage_DC 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_4: Mask: 0x0008 - Undervoltage_DC 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_8: Mask: 0x0080 - Communication_interrupted 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_7: Mask: 0x0040 - Living_Object_recognized_LOD 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_1: Mask: 0x0001 - Thermal_overload 0 = not active 1 = active // STAT_LADEUNTERBRECHUNG_6: Mask: 0x0020 - Ueberstrom_DC 0 = not active 1 = active #define I3_RES_EME_BF_LADEUNTERBRECHUNG (RXBUF_UINT(2)) #define I3_RES_EME_BF_LADEUNTERBRECHUNG_UNIT 'Bit' #define I3_RES_EME_BF_LADEUNTERBRECHUNG_TYPE unsigned short // Reason charging interruption / Grund Ladeunterbrechung #define I3_RES_EME_STAT_HVB_SOC_DISP_WERT (RXBUF_UCHAR(4)*0.5f) #define I3_RES_EME_STAT_HVB_SOC_DISP_WERT_UNIT '%' #define I3_RES_EME_STAT_HVB_SOC_DISP_WERT_TYPE float // Display SOC of the HV battery / Display-SOC der HV-Batterie // BF_STATUS_LSC_AUSWAHL_LADEN_MODUS is a BITFIELD of size unsigned char. We don't yet generate definitions for each bit, we treat as the host data type // Setting charging mode charging departure time / Einstellung Lademodus Laden Abfahrtszeit // STAT_LSC_AUSWAHL_LADEN_MODUS_BIT0: Mask: 0x01 - 0 = loading on departure time active; 1 = Always_Simply_Loading // STAT_LSC_AUSWAHL_LADEN_MODUS_BIT2: Mask: 0x04 - 0 = intelligent charging inactive; 1 = intelligent charging active, if charging mode_auf_abfahrtzeit active; otherwise only preselected in HMI // STAT_LSC_AUSWAHL_LADEN_MODUS_BIT1: Mask: 0x02 - 0 = inexpensive charging inactive; 1 = Inexpensive loading active (if loading_on_departure time active; otherwise only preselected in HMI) #define I3_RES_EME_BF_STATUS_LSC_AUSWAHL_LADEN_MODUS (RXBUF_UCHAR(5)) #define I3_RES_EME_BF_STATUS_LSC_AUSWAHL_LADEN_MODUS_UNIT 'Bit' #define I3_RES_EME_BF_STATUS_LSC_AUSWAHL_LADEN_MODUS_TYPE unsigned char // Setting charging mode charging departure time / Einstellung Lademodus Laden Abfahrtszeit #define I3_RES_EME_STAT_LSC_PROGNOSEMODE (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_LSC_PROGNOSEMODE_UNIT '0-n' #define I3_RES_EME_STAT_LSC_PROGNOSEMODE_TYPE unsigned char // current forecast mode LSC / aktueller Prognosemodus LSC #define I3_RES_EME_STAT_LSC_VERSION (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_LSC_VERSION_UNIT '0-n' #define I3_RES_EME_STAT_LSC_VERSION_TYPE unsigned char // current LSC version / aktuelle LSC version #define I3_RES_EME_STAT_AKT_PHASE_COUNT_AC_CHARGING (RXBUF_UCHAR(8)) #define I3_RES_EME_STAT_AKT_PHASE_COUNT_AC_CHARGING_UNIT '0-n' #define I3_RES_EME_STAT_AKT_PHASE_COUNT_AC_CHARGING_TYPE unsigned char // Phasing of the store / Phasigkeit des Ladens #define I3_RES_EME_STAT_HV_BATTERY_SIZE_WERT (RXBUF_UINT(9)) #define I3_RES_EME_STAT_HV_BATTERY_SIZE_WERT_TYPE unsigned short // Maximum memory size / Maximale Speichergröße #define I3_RES_EME_STAT_ENERGIEDELTA_VOLL_WERT (RXBUF_UINT(11)*0.02f) #define I3_RES_EME_STAT_ENERGIEDELTA_VOLL_WERT_UNIT 'kWh' #define I3_RES_EME_STAT_ENERGIEDELTA_VOLL_WERT_TYPE float // Energy required to fully charge / Zum Volladen benötigte Energie #define I3_RES_EME_STAT_LADEENDE_URSACHE (RXBUF_UCHAR(13)) #define I3_RES_EME_STAT_LADEENDE_URSACHE_UNIT '0-n' #define I3_RES_EME_STAT_LADEENDE_URSACHE_TYPE unsigned char // Cause of charging end (charging history) / Ursache Ladeende (Ladehistorie) #define I3_RES_EME_STAT_LADEVERFAHREN_NR (RXBUF_UCHAR(14)) #define I3_RES_EME_STAT_LADEVERFAHREN_NR_UNIT '0-n' #define I3_RES_EME_STAT_LADEVERFAHREN_NR_TYPE unsigned char // Type of charge type / Art des Ladetyps #define I3_RES_EME_STAT_LADESTATUS_NR (RXBUF_UCHAR(15)) #define I3_RES_EME_STAT_LADESTATUS_NR_UNIT '0-n' #define I3_RES_EME_STAT_LADESTATUS_NR_TYPE unsigned char // Type of charge status / Art des Ladestatus #define I3_RES_EME_STAT_BEGINN_FENSTER_STD_WERT (RXBUF_UCHAR(16)) #define I3_RES_EME_STAT_BEGINN_FENSTER_STD_WERT_UNIT 'h' #define I3_RES_EME_STAT_BEGINN_FENSTER_STD_WERT_TYPE unsigned char // Only with AC charging: Start of the favorable charging window (hours) / Nur bei AC-Laden: Beginn des günstigen // Ladefensters (Stunden) #define I3_RES_EME_STAT_BEGINN_FENSTER_MIN_WERT (RXBUF_UCHAR(17)) #define I3_RES_EME_STAT_BEGINN_FENSTER_MIN_WERT_UNIT 'min' #define I3_RES_EME_STAT_BEGINN_FENSTER_MIN_WERT_TYPE unsigned char // Only with AC charging: Start of the favorable charging window (minutes) / Nur bei AC-Laden: Beginn des // günstigen Ladefensters (Minuten) #define I3_RES_EME_STAT_ENDE_FENSTER_STD_WERT (RXBUF_UCHAR(18)) #define I3_RES_EME_STAT_ENDE_FENSTER_STD_WERT_UNIT 'h' #define I3_RES_EME_STAT_ENDE_FENSTER_STD_WERT_TYPE unsigned char // Only with AC charging: End of the favorable charging window (hours) / Nur bei AC-Laden: Ende des günstigen // Ladefensters (Stunden) #define I3_RES_EME_STAT_ENDE_FENSTER_MIN_WERT (RXBUF_UCHAR(19)) #define I3_RES_EME_STAT_ENDE_FENSTER_MIN_WERT_UNIT 'min' #define I3_RES_EME_STAT_ENDE_FENSTER_MIN_WERT_TYPE unsigned char // Only with AC charging: End of the favorable charging window (minutes) / Nur bei AC-Laden: Ende des günstigen // Ladefensters (Minuten) #define I3_RES_EME_STAT_LADEFENSTER1_AUSWAHL_NR (RXBUF_UCHAR(20)) #define I3_RES_EME_STAT_LADEFENSTER1_AUSWAHL_NR_UNIT '0-n' #define I3_RES_EME_STAT_LADEFENSTER1_AUSWAHL_NR_TYPE unsigned char // Only with AC charging, two-time alarm clock: selection of the favorable charging window / Nur bei AC-Laden, // Zwei Zeit Wecker: Auswahl des günstigen Ladefensters #define I3_RES_EME_STAT_LADEFENSTER2_AUSWAHL_NR (RXBUF_UCHAR(21)) #define I3_RES_EME_STAT_LADEFENSTER2_AUSWAHL_NR_UNIT '0-n' #define I3_RES_EME_STAT_LADEFENSTER2_AUSWAHL_NR_TYPE unsigned char // Only with AC charging, two-time alarm clock: selection of the favorable charging window / Nur bei AC-Laden, // Zwei Zeit Wecker: Auswahl des günstigen Ladefensters #define I3_RES_EME_STAT_FAKTOR_STROMBEGRENZUNG_NR (RXBUF_UCHAR(22)) #define I3_RES_EME_STAT_FAKTOR_STROMBEGRENZUNG_NR_UNIT '0-n' #define I3_RES_EME_STAT_FAKTOR_STROMBEGRENZUNG_NR_TYPE unsigned char // Only with AC charging: Acknowledgment of the current limitation / Nur bei AC-Laden: Rückmeldung der // Strombegrenzung #define I3_RES_EME_STAT_STROMBEGRENZUNG_AUSWAHL_NR (RXBUF_UCHAR(23)) #define I3_RES_EME_STAT_STROMBEGRENZUNG_AUSWAHL_NR_UNIT '0-n' #define I3_RES_EME_STAT_STROMBEGRENZUNG_AUSWAHL_NR_TYPE unsigned char // Acknowledgment of the AC current limitation selection: Only with AC charging / Rückmeldung der AC- // Strombegrenzungauswahl: Nur bei AC-Laden #define I3_RES_EME_STAT_POLY_TIM_1_WERT (RXBUF_UCHAR(24)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_1_WERT_TYPE float // Feedback from the SOC support points: time (standardized) of the first support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des ersten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_1_WERT (RXBUF_UINT(25)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_1_WERT_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_1_WERT_TYPE float // Feedback from the SOC support points: SOC of the first support point / Rückmeldung der SOC Unterstützpunkte: // SOC des ersten Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_2_WERT (RXBUF_UCHAR(27)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_2_WERT_TYPE float // Feedback from the SOC support points: time (normalized) of the second support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des zweiten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_2_WERT (RXBUF_UINT(28)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_2_WERT_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_2_WERT_TYPE float // Feedback from the SOC support points: SOC of the second support point / Rückmeldung der SOC Unterstützpunkte: // SOC des zweiten Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_3_WERT (RXBUF_UCHAR(30)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_3_WERT_TYPE float // Feedback from the SOC support points: time (standardized) of the third support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des dritten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_3_WERT (RXBUF_UINT(31)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_3_WERT_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_3_WERT_TYPE float // Feedback from the SOC support points: SOC of the third support point / Rückmeldung der SOC Unterstützpunkte: // SOC des dritten Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_4_WERT (RXBUF_UCHAR(33)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_4_WERT_TYPE float // Feedback from the SOC support points: time (standardized) of the fourth support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des vierten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_4_WERT (RXBUF_UINT(34)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_4_WERT_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_4_WERT_TYPE float // Feedback from the SOC support points: SOC of the fifth support point / Rückmeldung der SOC Unterstützpunkte: // SOC des fünften Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_5_WERT (RXBUF_UCHAR(36)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_5_WERT_TYPE float // Feedback from the SOC support points: time (standardized) of the fifth support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des fünften Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_5_WERT (RXBUF_UINT(37)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_5_WERT_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_5_WERT_TYPE float // Feedback from the SOC support points: SOC of the fifth support point / Rückmeldung der SOC Unterstützpunkte: // SOC des fünften Stützpunktes #define I3_RES_EME_STAT_HV_SOC_IST_WERT (RXBUF_UINT(39)*0.01f) #define I3_RES_EME_STAT_HV_SOC_IST_WERT_UNIT '%' #define I3_RES_EME_STAT_HV_SOC_IST_WERT_TYPE float // Current SOC of the HV battery / Aktueller SOC der HV-Batterie #define I3_RES_EME_STAT_LADEN_PROGNOSE_WERT (RXBUF_UINT(41)) #define I3_RES_EME_STAT_LADEN_PROGNOSE_WERT_UNIT 'min' #define I3_RES_EME_STAT_LADEN_PROGNOSE_WERT_TYPE unsigned short // Loading time forecast / Ladezeitprognose #define I3_RES_EME_STAT_LADEN_SPANNUNG_WERT (RXBUF_UCHAR(43)) #define I3_RES_EME_STAT_LADEN_SPANNUNG_WERT_UNIT 'V' #define I3_RES_EME_STAT_LADEN_SPANNUNG_WERT_TYPE unsigned char // AC charging voltage (only for AC charging) / AC-Ladespannung (nur bei AC Laden) #define I3_RES_EME_STAT_LADEN_STROM_WERT (RXBUF_UCHAR(44)) #define I3_RES_EME_STAT_LADEN_STROM_WERT_UNIT 'A' #define I3_RES_EME_STAT_LADEN_STROM_WERT_TYPE unsigned char // AC charging current (only for AC charging) / AC-Ladestrom (nur bei AC Laden) #define I3_RES_EME_STAT_ENERGIEINHALT_IST_WERT (RXBUF_UINT32(45)*3600.0f) #define I3_RES_EME_STAT_ENERGIEINHALT_IST_WERT_UNIT 'Ws' #define I3_RES_EME_STAT_ENERGIEINHALT_IST_WERT_TYPE float // Predicted energy content depending on the state of charge and on-board power consumption / Prognostizierte // Energieinhalt in Abhängigkeit des Ladezustands und des Bordnetzverbrauches #define I3_RES_EME_STAT_LSC_TRIGGER_INHALT_NR (RXBUF_UCHAR(49)) #define I3_RES_EME_STAT_LSC_TRIGGER_INHALT_NR_UNIT '0-n' #define I3_RES_EME_STAT_LSC_TRIGGER_INHALT_NR_TYPE unsigned char // Status of the LSC trigger / Status des LSC-Triggers #define I3_RES_EME_STAT_ENERGIEINHALT_MAX_WERT (RXBUF_UINT32(50)) #define I3_RES_EME_STAT_ENERGIEINHALT_MAX_WERT_UNIT 'Ws' #define I3_RES_EME_STAT_ENERGIEINHALT_MAX_WERT_TYPE unsigned long // Maximum possible energy content of the high-voltage storage system / Maximal möglicher Energieinhalt des // Hochvoltspeichers #define I3_RES_EME_STAT_LADEN_PROGNOSE_REST_WERT (RXBUF_UINT(54)) #define I3_RES_EME_STAT_LADEN_PROGNOSE_REST_WERT_UNIT 'min' #define I3_RES_EME_STAT_LADEN_PROGNOSE_REST_WERT_TYPE unsigned short // Predicted remaining charging time: 0-65531 = value range; 65533 = Not available; 65532 = initialization; 65534 // = error; 65535 = signal valid / Prognostizierte Restladedauer: 0-65531 = Wertebereich; 65533 = Nicht // verfügbar; 65532 = Initialisierung; 65534 = Fehler; 65535 = Signal ugültig #define I3_RES_EME_STAT_LADESTECKER_NR (RXBUF_UCHAR(56)) #define I3_RES_EME_STAT_LADESTECKER_NR_UNIT '0-n' #define I3_RES_EME_STAT_LADESTECKER_NR_TYPE unsigned char // Condition of charging plug / Zustand Ladestecker #define I3_RES_EME_STAT_LSC_AUSWAHL_LADEN_SOFORT_MODUS (RXBUF_UCHAR(57)) #define I3_RES_EME_STAT_LSC_AUSWAHL_LADEN_SOFORT_MODUS_UNIT '0-n' #define I3_RES_EME_STAT_LSC_AUSWAHL_LADEN_SOFORT_MODUS_TYPE unsigned char // Load one-time setting immediately / Einstellung einmalig sofort Laden #define I3_PID_EME_AE_CHARGE_ENABLE 0xDE71 // Statement about the granting of loading clearance / Aussage über die Erteilung der Ladefreigabe #define I3_RES_EME_STAT_CHARGE_ENABLE_NR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_CHARGE_ENABLE_NR_UNIT '0-n' #define I3_RES_EME_STAT_CHARGE_ENABLE_NR_TYPE unsigned char // Statement about the granting of loading clearance / Aussage über die Erteilung der Ladefreigabe #define I3_PID_EME_AE_PARKSPERRE_SENSOREN 0xDE74 // Parking lock status sensors / Status Sensoren der Parksperre #define I3_RES_EME_STAT_SENSOR_1_NR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_SENSOR_1_NR_UNIT '0-n' #define I3_RES_EME_STAT_SENSOR_1_NR_TYPE unsigned char // Status sensor 1 / Status Sensor 1 #define I3_RES_EME_STAT_SENSOR_2_NR (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_SENSOR_2_NR_UNIT '0-n' #define I3_RES_EME_STAT_SENSOR_2_NR_TYPE unsigned char // Status sensor 2 / Status Sensor 2 #define I3_PID_EME_AE_HV_SPANNUNG_LESEN 0xDE75 // Values of all intermediate circuit voltages / Werte aller Zwischenkreisspannungen #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_WERT (RXBUF_UINT(0)*0.2f) #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_WERT_TYPE float // HV DC voltage in the SLE / HV DC Spannung in der SLE #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_PFC_WERT (RXBUF_UINT(2)*0.2f) #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_PFC_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_PFC_WERT_TYPE float // SLE Power Factor Corrector Voltage / SLE Power Factor Corrector Spannung #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_AC_WERT (RXBUF_UINT(4)*0.2f) #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_AC_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_HV_SLE_AC_WERT_TYPE float // SLE AC input voltage / SLE AC Eingangsspannung #define I3_RES_EME_STAT_SPANNUNG_HV_DCDC_WERT (RXBUF_UINT(6)*0.2f) #define I3_RES_EME_STAT_SPANNUNG_HV_DCDC_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_HV_DCDC_WERT_TYPE float // HV voltage in the DC / DC converter / HV Spannung im DC/DC-Wandler #define I3_RES_EME_STAT_SPANNUNG_HV_UMRICHTER_WERT (RXBUF_UINT(8)*0.2f) #define I3_RES_EME_STAT_SPANNUNG_HV_UMRICHTER_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_HV_UMRICHTER_WERT_TYPE float // HV voltage in the converter / HV Spannung im Umrichter #define I3_PID_EME_AE_PARKSPERRE_SW 0xDE76 // Parking lock software status / Status Parksperren Software #define I3_RES_EME_STAT_PS_SW_NR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_PS_SW_NR_UNIT '0-n' #define I3_RES_EME_STAT_PS_SW_NR_TYPE unsigned char // Parking lock software status / Status Parksperren Software // Skipping AE_PARKSPERRE on 0xDE77 which takes arguments // Skipping AE_PARKSPERRE_EINLERNEN on 0xDE78 which takes arguments #define I3_PID_EME_AE_PARKSPERRE_POSITION 0xDE79 // Current position of the parking lock / Aktuelle Position der Parksperre #define I3_RES_EME_STAT_POSITION_PARKSPERRE_NR (RXBUF_UINT(0)) #define I3_RES_EME_STAT_POSITION_PARKSPERRE_NR_UNIT '0-n' #define I3_RES_EME_STAT_POSITION_PARKSPERRE_NR_TYPE unsigned short // Current position of the parking lock / Aktuelle Position der Parksperre // Skipping AE_PARKSPERRE_POSITIONEN on 0xDE7A which takes arguments #define I3_PID_EME_AE_PARKSPERRE_STROM 0xDE7B // Current parking lock actuator current / Aktueller Strom Parksperrenaktuator #define I3_RES_EME_STAT_STROM_PARKSPERRE_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_STROM_PARKSPERRE_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_PARKSPERRE_WERT_TYPE unsigned short // Current parking lock actuator current / Aktueller Strom Parksperrenaktuator #define I3_PID_EME_AE_PARKSPERRE_SPANNUNGEN 0xDE7C // Parking lock tension / Spannungen der Parksperre #define I3_RES_EME_STAT_PS_SPG_HBRUECKE_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_PS_SPG_HBRUECKE_WERT_UNIT 'mV' #define I3_RES_EME_STAT_PS_SPG_HBRUECKE_WERT_TYPE unsigned short // Tension of the H-bridge / Spannung der H-Brücke #define I3_RES_EME_STAT_PS_POSITION_OFFEN_WERT (RXBUF_UINT(2)) #define I3_RES_EME_STAT_PS_POSITION_OFFEN_WERT_UNIT 'mV' #define I3_RES_EME_STAT_PS_POSITION_OFFEN_WERT_TYPE unsigned short // Tension of sensing / Spannung der Sensierung #define I3_PID_EME_AE_ROHSIG_AUSGANG 0xDE7D // Raw signals output pins / Rohsignale Ausgangspins #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE1_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE1_WERT_UNIT '%' #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE1_WERT_TYPE unsigned short // Raw signal activation of parking lock (Duty Cycle H-Bridge). / Rohsignal Ansteuerung Parksperre (Duty Cycle // H-Bruecke). #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE2 (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE2_UNIT '0/1' #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE2_TYPE unsigned char // Raw signal activation parking lock (direction). / Rohsignal Ansteuerung Parksperre (Richtung). #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE_NOTENTRIEGELUNG (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE_NOTENTRIEGELUNG_UNIT '0/1' #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_PARKSPERRE_NOTENTRIEGELUNG_TYPE unsigned char // Raw signal activation of parking lock emergency unlocking magnet (0 = not activated; 1 = activated) / // Rohsignal Ansteuerung Parksperre Notentrieglungsmagnet ( 0 = nicht angesteuert; 1 = angesteuert ) #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_ELUP_NR (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_ELUP_NR_UNIT '0-n' #define I3_RES_EME_STAT_ROHSIGNAL_ANSTEURUNG_ELUP_NR_TYPE unsigned char // Raw signal control ELUP. / Rohsignal Ansteuerung ELUP. #define I3_PID_EME_AE_ROHSIG_EINGANG_SENS_ELUP_BUDS 0xDE7E // Raw signals output pins sensors ELUP, BUDS / Rohsignale Ausgangspins Sensoren ELUP, BUDS #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_ENDSTUFE_ELUP_WERT (RXBUF_UINT32(0)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_ENDSTUFE_ELUP_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_ENDSTUFE_ELUP_WERT_TYPE float // Raw signal temperature measurement output stage for ELUP. / Rohsignal Temperaturmessung Endstufe für ELUP. #define I3_RES_EME_STAT_ROHSIGNAL_BUDS_WERT (RXBUF_UINT32(4)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_BUDS_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_BUDS_WERT_TYPE float // Raw signal BUDS. / Rohsignal BUDS. #define I3_PID_EME_AE_ROHSIG_EINGANG_SENS_EM_INV 0xDE7F // Raw signals sensors / inputs for e-machines / converters / Rohsignale Sensoren/Eingänge für // E-Maschine/Umrichter #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_EMASCHINE_STATOR_WERT (RXBUF_UINT32(0)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_EMASCHINE_STATOR_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_EMASCHINE_STATOR_WERT_TYPE float // Raw signal temperature sensor E-machine stator / Rohsignal Temperatursensor E-Maschine Stator #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_U_WERT (RXBUF_UINT32(4)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_U_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_U_WERT_TYPE float // Raw signal temperature sensor converter phase U. / Rohsignal Temperatursensor Umrichter Phase U. #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_V_WERT (RXBUF_UINT32(8)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_V_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_V_WERT_TYPE float // Raw signal temperature sensor converter phase V. / Rohsignal Temperatursensor Umrichter Phase V. #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_W_WERT (RXBUF_UINT32(12)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_W_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_TEMP_UMRICHTER_PHASE_W_WERT_TYPE float // Raw signal temperature sensor converter phase W. / Rohsignal Temperatursensor Umrichter Phase W. #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_HVDC_UMRICHTER_WERT (RXBUF_UINT32(16)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_HVDC_UMRICHTER_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_HVDC_UMRICHTER_WERT_TYPE float // Raw signal HV DC voltage converter / Rohsignal HV DC Spannung Umrichter #define I3_RES_EME_STAT_ROHSIGNAL_STROM_HVDC_UMRICHTER_WERT (RXBUF_SINT32(20)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_HVDC_UMRICHTER_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_HVDC_UMRICHTER_WERT_TYPE float // Raw signal HV DC current converter. / Rohsignal HV DC Strom Umrichter. #define I3_RES_EME_STAT_ROHSIGNAL_STROM_U_WERT (RXBUF_SINT32(24)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_U_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_U_WERT_TYPE float // Raw signal current sensor phase U. / Rohsignal Stromsensor Phase U. #define I3_RES_EME_STAT_ROHSIGNAL_STROM_V_WERT (RXBUF_SINT32(28)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_V_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_V_WERT_TYPE float // Raw signal current sensor phase V. / Rohsignal Stromsensor Phase V. #define I3_RES_EME_STAT_ROHSIGNAL_STROM_W_WERT (RXBUF_SINT32(32)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_W_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_W_WERT_TYPE float // Raw signal current sensor phase W. / Rohsignal Stromsensor Phase W. #define I3_RES_EME_STAT_ROHSIGNAL_ROTORLAGESENSOR_WERT (RXBUF_UINT(36)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_ROTORLAGESENSOR_WERT_UNIT 'rad' #define I3_RES_EME_STAT_ROHSIGNAL_ROTORLAGESENSOR_WERT_TYPE float // Rotor position sensor corrected electrical angular position (radian) / Rotorlagesensor korrigierte elektrische // Winkelposition (Radian) #define I3_PID_EME_AE_ROHSIG_EINGANG_SENS_PARKSPERRE 0xDE80 // Raw signals sensors / inputs parking lock / Rohsignale Sensoren/Eingänge Parksperre #define I3_RES_EME_STAT_ROHSIGNAL_STROM_PARKSPERRE_WERT (RXBUF_SINT32(0)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_PARKSPERRE_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_PARKSPERRE_WERT_TYPE float // Raw signal current measurement parking lock. / Rohsignal Strommessung Parksperre. #define I3_RES_EME_STAT_ROHSIGNAL_POSITION_PARKSPERRE3_WERT (RXBUF_UINT32(4)) #define I3_RES_EME_STAT_ROHSIGNAL_POSITION_PARKSPERRE3_WERT_TYPE unsigned long // Raw signal 3 position measurement parking lock (0-1000 = 0-100%; 2000 = invalid) / Rohsignal 3 // Positionsmessung Parksperre ( 0-1000=0-100%; 2000=ungueltig) #define I3_RES_EME_STAT_ROHSIGNAL_POSITION_PARKSPERRE4_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_ROHSIGNAL_POSITION_PARKSPERRE4_WERT_TYPE unsigned long // Raw signal 4 position measurement parking lock (0-1000 = 0-100%; 2000 = invalid) / Rohsignal 4 // Positionsmessung Parksperre (0-1000=0-100%; 2000=ungueltig) #define I3_PID_EME_AE_ROHSIG_EINGANG_SENS_SG 0xDE81 // Raw signals sensors / inputs control unit / Rohsignale Sensoren/Eingänge Steuergerät #define I3_RES_EME_STAT_ROHSIGNAL_KL30B_WERT (RXBUF_UINT32(0)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_KL30B_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_KL30B_WERT_TYPE float // Raw signal voltage measurement terminal 30b / Rohsignal Spannungsmessung Klemme30b #define I3_RES_EME_STAT_ROHSIGNAL_KL15WUO_NR (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_ROHSIGNAL_KL15WUO_NR_UNIT '0-n' #define I3_RES_EME_STAT_ROHSIGNAL_KL15WUO_NR_TYPE unsigned char // Raw signal terminal 15WUO (0 = not active, 1 = active) / Rohsignal Klemme 15WUO (0 = nicht aktiv, 1 = aktiv) #define I3_RES_EME_STAT_ROHSIGNAL_CRASHSIGNAL_NR (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_ROHSIGNAL_CRASHSIGNAL_NR_UNIT '0-n' #define I3_RES_EME_STAT_ROHSIGNAL_CRASHSIGNAL_NR_TYPE unsigned char // Crash input raw signal Electrical crash signal (0 = not active; 1 = active) / Rohsignal Crasheingang // Crashsignal elektrisch ( 0 = nicht aktiv; 1 = aktiv ) #define I3_PID_EME_AE_ROHSIG_EINGANG_SENS_SLE 0xDE82 // Raw signals sensors / inputs SLE / Rohsignale Sensoren/Eingänge SLE #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_AC_NETZ_L1_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_AC_NETZ_L1_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_AC_NETZ_L1_WERT_TYPE unsigned short // Raw signal voltage measurement phase L1 in the AC network; Resolution, quantization, range etc. as used in // SG-internal function. / Rohsignal Spannungsmessung Phase L1 im AC Netz; Auflösung, Quantisierung, Range etc. // wie in SG-interner Funktion verwendet wird. #define I3_RES_EME_STAT_ROHSIGNAL_STROM_PFC_EFF_WERT (RXBUF_UINT(2)) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_PFC_EFF_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_PFC_EFF_WERT_TYPE unsigned short // Raw signal current measurement phase L1 in the AC network; Resolution, quantization, range etc. as used in // SG-internal function. / Rohsignal Strommessung Phase L1 im AC Netz; Auflösung, Quantisierung, Range etc. wie // in SG-interner Funktion verwendet wird. #define I3_RES_EME_STAT_ROHSIGNAL_E_S_CHARGE_EN_WERT (RXBUF_UINT(4)) #define I3_RES_EME_STAT_ROHSIGNAL_E_S_CHARGE_EN_WERT_TYPE unsigned short // Raw signal charge enable line; Resolution, quantization, range etc. as used in SG-internal function. / // Rohsignal Charge Enable Leitung; Auflösung, Quantisierung, Range etc. wie in SG-interner Funktion verwendet // wird. #define I3_PID_EME_AE_ROHSIG_EINGANG_SENS_DCDC 0xDE83 // Raw signals sensors / inputs DC / DC converter / Rohsignale Sensoren/Eingänge DC/DC Wandler #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_LV_DCDC_WERT (RXBUF_UINT32(0)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_LV_DCDC_WERT_UNIT 'V' #define I3_RES_EME_STAT_ROHSIGNAL_SPANNUNG_LV_DCDC_WERT_TYPE float // Raw signal voltage measurement LV DCDC converter. / Rohsignal Spannungsmessung LV DCDC Wandler. #define I3_RES_EME_STAT_ROHSIGNAL_STROM_LV_DCDC_WERT (RXBUF_SINT32(4)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_LV_DCDC_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_LV_DCDC_WERT_TYPE float // Raw signal current measurement LV DCDC converter. / Rohsignal Strommessung LV DCDC Wandler. #define I3_RES_EME_STAT_ROHSIGNAL_STROM_HV_DCDC_WERT (RXBUF_SINT32(8)*0.001f) #define I3_RES_EME_STAT_ROHSIGNAL_STROM_HV_DCDC_WERT_UNIT 'A' #define I3_RES_EME_STAT_ROHSIGNAL_STROM_HV_DCDC_WERT_TYPE float // Raw signal current measurement HV DCDC converter. / Rohsignal Strommessung HV DCDC Wandler. #define I3_PID_EME_AE_BETRIEBSZUSTAND_SLE 0xDE84 // Operating modes SLE / Betriebsarten SLE #define I3_RES_EME_STAT_NETZFREQUENZ_PHASE_1_WERT (RXBUF_UINT(0)*0.25f) #define I3_RES_EME_STAT_NETZFREQUENZ_PHASE_1_WERT_TYPE float // Current grid frequency phase 1 / Aktuelle Netzfrequenz Phase 1 #define I3_RES_EME_STAT_LADEDAUER_WERT (RXBUF_UINT(2)) #define I3_RES_EME_STAT_LADEDAUER_WERT_UNIT 's' #define I3_RES_EME_STAT_LADEDAUER_WERT_TYPE unsigned short // Returns the charging time that has elapsed in the current charging cycle / Rückgabe der im aktuellen // Ladezyklus verstrichenen Ladezeit #define I3_RES_EME_STAT_FEHLERZUSTAND_NR (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_FEHLERZUSTAND_NR_UNIT '0-n' #define I3_RES_EME_STAT_FEHLERZUSTAND_NR_TYPE unsigned char // SLE error states: 0 = derating 1 = charging interruption 2 = emergency operation 3 = communication failure 4 = // reserved 255 signal invalid / SLE Fehlerzustände: 0=Derating 1=Ladeunterbrechung 2=Notlauf // 3=Kommunikationsausfall 4=Reserviert 255 Signal ungültig #define I3_RES_EME_STAT_SLE_DERATING_WERT (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_SLE_DERATING_WERT_UNIT '%' #define I3_RES_EME_STAT_SLE_DERATING_WERT_TYPE unsigned char // Value by which the DC-HV output power is reduced. 0-254% / Wert, um den die DC-HV-Ausgangsleistung reduziert // ist. 0-254% #define I3_RES_EME_STAT_BETRIEBSART_NR (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_BETRIEBSART_NR_UNIT '0-n' #define I3_RES_EME_STAT_BETRIEBSART_NR_TYPE unsigned char // Operating mode / Betriebsart #define I3_RES_EME_STAT_WIRKUNGSGRAD_LADEZYKLUS_WERT (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_WIRKUNGSGRAD_LADEZYKLUS_WERT_UNIT '%' #define I3_RES_EME_STAT_WIRKUNGSGRAD_LADEZYKLUS_WERT_TYPE unsigned char // Charge cycle efficiency / Wirkungsgrad Ladezyklus #define I3_PID_EME_AE_SLE_LEISTUNG 0xDE85 // Power values intermediate circuit of the SLE / Leistungswerte Zwischenkreis der SLE #define I3_RES_EME_STAT_SLE_DC_HV_LEISTUNG_WERT (RXBUF_UINT(0)-30000.0) #define I3_RES_EME_STAT_SLE_DC_HV_LEISTUNG_WERT_UNIT 'W' #define I3_RES_EME_STAT_SLE_DC_HV_LEISTUNG_WERT_TYPE unsigned short // Instantaneous power output in the intermediate circuit / Abgegebende Momentanleistung in den Zwischenkreis #define I3_RES_EME_STAT_SLE_DC_HV_LEISTUNG_MAX_WERT (RXBUF_UINT(2)-30000.0) #define I3_RES_EME_STAT_SLE_DC_HV_LEISTUNG_MAX_WERT_UNIT 'W' #define I3_RES_EME_STAT_SLE_DC_HV_LEISTUNG_MAX_WERT_TYPE unsigned short // Maximum power that can be output in the intermediate circuit / Maximal abgebbare Leistung in den Zwischenkreis #define I3_RES_EME_STAT_SLE_AC_WIRKLEISTUNG_WERT (RXBUF_UINT(4)-30000.0) #define I3_RES_EME_STAT_SLE_AC_WIRKLEISTUNG_WERT_UNIT 'W' #define I3_RES_EME_STAT_SLE_AC_WIRKLEISTUNG_WERT_TYPE unsigned short // Instantaneous active power drawn from the network / Entnommene Momentanwirkleistung aus dem Netz #define I3_PID_EME_AE_SLE_SPANNUNG 0xDE86 // AC and DC voltages SLE / AC und DC Spannungen SLE #define I3_RES_EME_STAT_SPANNUNG_RMS_AC_PHASE_1_WERT (RXBUF_UINT(0)*0.1f) #define I3_RES_EME_STAT_SPANNUNG_RMS_AC_PHASE_1_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_RMS_AC_PHASE_1_WERT_TYPE float // RMS values of the AC conductor voltages (phase 1) / Effektivwerte der AC Leiterspannungen (Phase1) #define I3_RES_EME_STAT_SPANNUNG_SLE_DC_HV_WERT (RXBUF_UINT(2)*0.1f) #define I3_RES_EME_STAT_SPANNUNG_SLE_DC_HV_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_SLE_DC_HV_WERT_TYPE float // SLE DC HV voltage / SLE DC HV Spannung #define I3_RES_EME_STAT_SPANNUNG_SLE_DC_HV_OBERGRENZE_WERT (RXBUF_UINT(4)*0.1f) #define I3_RES_EME_STAT_SPANNUNG_SLE_DC_HV_OBERGRENZE_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_SLE_DC_HV_OBERGRENZE_WERT_TYPE float // SLE DC HV upper voltage limit / SLE DC HV Spannungsobergrenze #define I3_PID_EME_AE_SLE_STROM 0xDE87 // calibrated SLE transformer current / kalibrierter SLE Trafostrom #define I3_RES_EME_STAT_STROM_TRAFO_WERT (RXBUF_UINT(0)*0.01f-100.0) #define I3_RES_EME_STAT_STROM_TRAFO_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_TRAFO_WERT_TYPE float // calibrated SLE transformer current / kalibrierter SLE Trafostrom #define I3_PID_EME_AE_SPANNUNG_KLEMME30B 0xDE88 // current voltage at KL30B / aktuelle Spannung an KL30B #define I3_RES_EME_STAT_SPANNUNG_KL30B_WERT (RXBUF_UINT(0)*0.01f) #define I3_RES_EME_STAT_SPANNUNG_KL30B_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_KL30B_WERT_TYPE float // current voltage at KL30B / aktuelle Spannung an KL30B #define I3_PID_EME_AE_STROM_DCDC 0xDE89 // DC / DC converter currents / Ströme DC/DC Wandler #define I3_RES_EME_STAT_STROM_DCDC_WANDLER_HV_WERT (RXBUF_UINT(0)*0.05f-100.0) #define I3_RES_EME_STAT_STROM_DCDC_WANDLER_HV_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DCDC_WANDLER_HV_WERT_TYPE float // Current of the DCDC converter on the HV side / Strom des DCDC-Wandlers auf der HV-Seite #define I3_RES_EME_STAT_STROM_DCDC_WANDLER_12V_WERT (RXBUF_UINT(2)-1000.0) #define I3_RES_EME_STAT_STROM_DCDC_WANDLER_12V_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DCDC_WANDLER_12V_WERT_TYPE unsigned short // Current of the DCDC converter on the 12V side / Strom des DCDC-Wandlers auf der 12V-Seite #define I3_RES_EME_STAT_STROM_DCDC_TS1_WERT (RXBUF_UINT(4)*0.01f) #define I3_RES_EME_STAT_STROM_DCDC_TS1_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DCDC_TS1_WERT_TYPE float // DC / DC buck converter current 1 / DC/DC Tiefsetzsteller-Strom 1 #define I3_RES_EME_STAT_STROM_DCDC_TS2_WERT (RXBUF_UINT(6)*0.01f) #define I3_RES_EME_STAT_STROM_DCDC_TS2_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DCDC_TS2_WERT_TYPE float // DC / DC buck converter current 2 / DC/DC Tiefsetzsteller-Strom 2 #define I3_RES_EME_STAT_STROM_DCDC_TRAFO1_WERT (RXBUF_UINT(8)*0.01f) #define I3_RES_EME_STAT_STROM_DCDC_TRAFO1_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DCDC_TRAFO1_WERT_TYPE float // DC / DC transformer current 1 / DC/DC Trafostrom 1 #define I3_PID_EME_AE_STROM_EMASCHINE 0xDE8A // E-machine / converter currents / Ströme E-Maschine / Umrichter #define I3_RES_EME_STAT_STROM_AC_EFF_W_WERT (RXBUF_SINT(0)*0.0625f) #define I3_RES_EME_STAT_STROM_AC_EFF_W_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_AC_EFF_W_WERT_TYPE float // Effective supply current phase W / Effektiver Zuleitungsstrom Phase W #define I3_RES_EME_STAT_STROM_AC_EFF_V_WERT (RXBUF_SINT(2)*0.0625f) #define I3_RES_EME_STAT_STROM_AC_EFF_V_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_AC_EFF_V_WERT_TYPE float // Effective supply current phase V / Effektiver Zuleitungsstrom Phase V #define I3_RES_EME_STAT_STROM_AC_EFF_U_WERT (RXBUF_SINT(4)*0.0625f) #define I3_RES_EME_STAT_STROM_AC_EFF_U_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_AC_EFF_U_WERT_TYPE float // Effective supply current phase U / Effektiver Zuleitungsstrom Phase U #define I3_RES_EME_STAT_ERREGERSTROM_WERT (RXBUF_SINT(6)*0.0625f) #define I3_RES_EME_STAT_ERREGERSTROM_WERT_UNIT 'A' #define I3_RES_EME_STAT_ERREGERSTROM_WERT_TYPE float // Current excitation current / Aktueller Erregerstrom #define I3_RES_EME_STAT_STROM_DC_HV_UMRICHTER_EM_WERT (RXBUF_SINT(8)*0.1f) #define I3_RES_EME_STAT_STROM_DC_HV_UMRICHTER_EM_WERT_UNIT 'A' #define I3_RES_EME_STAT_STROM_DC_HV_UMRICHTER_EM_WERT_TYPE float // HV-DC current of the converter for the EM stator / HV-DC Strom des Umrichters für den EM-Stator #define I3_PID_EME_AE_TEMP_LE 0xDE8C // Temperatures control unit drive electronics / Temperaturen Steuergerät Antriebselektronik #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_U_WERT (RXBUF_SINT(0)*0.0156f) #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_U_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_U_WERT_TYPE float // Temperature converter phase U / Temperatur Umrichter Phase U #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_V_WERT (RXBUF_SINT(2)*0.0156f) #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_V_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_V_WERT_TYPE float // Temperature converter phase V / Temperatur Umrichter Phase V #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_W_WERT (RXBUF_SINT(4)*0.0156f) #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_W_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_UMRICHTER_PHASE_W_WERT_TYPE float // Temperature converter phase W / Temperatur Umrichter Phase W #define I3_RES_EME_STAT_TEMP_UMRICHTER_GT_WERT (RXBUF_SINT(6)*0.0156f) #define I3_RES_EME_STAT_TEMP_UMRICHTER_GT_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_UMRICHTER_GT_WERT_TYPE float // Temperature inverter gate driver / Temperatur Inverter Gatedriver #define I3_RES_EME_STAT_TEMP_DCDC_BO_WERT (RXBUF_SINT(8)*0.0156f) #define I3_RES_EME_STAT_TEMP_DCDC_BO_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_DCDC_BO_WERT_TYPE float // Temperature of the DCDC board / Temperatur des DCDC Boards #define I3_RES_EME_STAT_TEMP_DCDC_GTW_WERT (RXBUF_SINT(10)*0.0156f) #define I3_RES_EME_STAT_TEMP_DCDC_GTW_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_DCDC_GTW_WERT_TYPE float // Temperature DC / DC push-pull converter / Temperatur DC/DC-Gegentaktwandler #define I3_RES_EME_STAT_TEMP_DCDC_TS_WERT (RXBUF_SINT(12)*0.0156f) #define I3_RES_EME_STAT_TEMP_DCDC_TS_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_DCDC_TS_WERT_TYPE float // Temperature DC / DC buck converter / Temperatur DC/DC-Tiefsetzer #define I3_RES_EME_STAT_TEMP_DCDC_GR_WERT (RXBUF_SINT(14)*0.0156f) #define I3_RES_EME_STAT_TEMP_DCDC_GR_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_DCDC_GR_WERT_TYPE float // Temperature of the DCDC board / Temperatur des DCDC Boards #define I3_RES_EME_STAT_TEMP_SLE_PFC_WERT (RXBUF_SINT(16)*0.0156f) #define I3_RES_EME_STAT_TEMP_SLE_PFC_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_SLE_PFC_WERT_TYPE float // Temperature SLE-PowerFactorCorrection / Temperatur SLE-PowerFactorCorrection #define I3_RES_EME_STAT_TEMP_SLE_GR_WERT (RXBUF_SINT(18)*0.0156f) #define I3_RES_EME_STAT_TEMP_SLE_GR_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_SLE_GR_WERT_TYPE float // Temperature SLE rectifier / Temperatur SLE-Gleichrichter #define I3_RES_EME_STAT_TEMP_SLE_GTW_WERT (RXBUF_SINT(20)*0.0156f) #define I3_RES_EME_STAT_TEMP_SLE_GTW_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_SLE_GTW_WERT_TYPE float // Temperature SLE push-pull converter / Temperatur SLE-Gegentaktwandler #define I3_RES_EME_STAT_TEMP_SLE_BO_WERT (RXBUF_SINT(22)*0.0156f) #define I3_RES_EME_STAT_TEMP_SLE_BO_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_SLE_BO_WERT_TYPE float // Temperature of the SLE board / Temperatur des SLE Boards #define I3_RES_EME_STAT_TEMP_ELUP_LE_WERT (RXBUF_SINT(24)*0.0156f) #define I3_RES_EME_STAT_TEMP_ELUP_LE_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_ELUP_LE_WERT_TYPE float // Temperature on the power board - measuring point ELUP power output stage / Temperatur auf dem Powerbord - // Messstelle ELUP Leistungsendstufe #define I3_RES_EME_STAT_TEMP_PROZESSOR_MC0_WERT (RXBUF_SINT(26)*0.0156f) #define I3_RES_EME_STAT_TEMP_PROZESSOR_MC0_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_PROZESSOR_MC0_WERT_TYPE float // Temperature processor MC0 / Temperatur Prozessor MC0 #define I3_RES_EME_STAT_TEMP_PROZESSOR_MC2_WERT (RXBUF_SINT(28)*0.0156f) #define I3_RES_EME_STAT_TEMP_PROZESSOR_MC2_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP_PROZESSOR_MC2_WERT_TYPE float // Temperature processor MC2 / Temperatur Prozessor MC2 #define I3_PID_EME_AE_ZUSTAND_1_DCDC 0xDE92 // DC / DC converter status / Status DC/DC-Wandler #define I3_RES_EME_STAT_BETRIEBSART_DCDC_IST (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_BETRIEBSART_DCDC_IST_UNIT '0-n' #define I3_RES_EME_STAT_BETRIEBSART_DCDC_IST_TYPE unsigned char // Actual operating mode of the DCDC converter / Ist-Betriebsart des DCDC-Wandlers #define I3_RES_EME_STAT_SPANNUNG_LV_IST_WERT (RXBUF_UINT(1)*0.05f) #define I3_RES_EME_STAT_SPANNUNG_LV_IST_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_LV_IST_WERT_TYPE float // Electrical system voltage / Bordnetzspannung #define I3_RES_EME_STAT_AUSLASTUNG_WERT (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_AUSLASTUNG_WERT_UNIT '%' #define I3_RES_EME_STAT_AUSLASTUNG_WERT_TYPE unsigned char // Utilization of the DCDC converter / Auslastung des DCDC-Wandlers // Skipping AE_ELUP on 0xDE93 which takes arguments // Skipping AE_PARKSPERRE_NVRAM_LOESCHEN on 0xDE95 which takes arguments #define I3_PID_EME_AE_ZUSTAND_DCDC_FEHLERBILD 0xDE96 // Return of active / inactive errors DC / DC converter / Rückgabe aktiver/inaktiver Fehler DC/DC-Wandler // RES_0xDE96_D is a BITFIELD of unknown size. We don't have definitions for each bit, and we GUESSED it is one byte *** // Return of active / inactive errors DC / DC converter / Rückgabe aktiver/inaktiver Fehler DC/DC-Wandler #define I3_RES_EME_RES_0xDE96_D (RXBUF_UCHAR(0)) #define I3_RES_EME_RES_0xDE96_D_UNIT 'Bit' #define I3_RES_EME_RES_0xDE96_D_TYPE unsigned char // Return of active / inactive errors DC / DC converter / Rückgabe aktiver/inaktiver Fehler DC/DC-Wandler #define I3_PID_EME_STATUS_CONNECTED_DRIVE 0xDE9E // Information about Connected Drive / Informationen über Connected Drive #define I3_RES_EME_STAT_LADEN_NR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_LADEN_NR_UNIT '0-n' #define I3_RES_EME_STAT_LADEN_NR_TYPE unsigned char // Information about the current status of the loading (see TAB_EDME_STATUS_LADEN) / Information über den // aktuellen Status des Ladens (siehe TAB_EDME_STATUS_LADEN) #define I3_RES_EME_STAT_REMOTE_LADEN_NR (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_REMOTE_LADEN_NR_UNIT '0-n' #define I3_RES_EME_STAT_REMOTE_LADEN_NR_TYPE unsigned char // Bit0: RemoteLaden not active Bit1: RemoteLaden on Hold Bit2: RemoteLaden active / Bit0: RemoteLaden nicht // aktiv Bit1: RemoteLaden on Hold Bit2: RemoteLaden aktiv #define I3_RES_EME_STAT_TIMER_LADEN_NR (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_TIMER_LADEN_NR_UNIT '0-n' #define I3_RES_EME_STAT_TIMER_LADEN_NR_TYPE unsigned char // Bit0: Timer loading not active Bit1: Timer loading on hold Bit2: Timer loading active / Bit0: TimerLaden nicht // aktiv Bit1: TimerLaden on Hold Bit2: TimerLaden aktiv #define I3_RES_EME_STAT_HV_SOC_WERT (RXBUF_UCHAR(3)*0.5f) #define I3_RES_EME_STAT_HV_SOC_WERT_UNIT '%' #define I3_RES_EME_STAT_HV_SOC_WERT_TYPE float // HV battery charge status display / Anzeige Ladezustand HV-Batterie #define I3_RES_EME_STAT_ZEIT_LADEENDE_WERT (RXBUF_UINT(4)) #define I3_RES_EME_STAT_ZEIT_LADEENDE_WERT_UNIT 'min' #define I3_RES_EME_STAT_ZEIT_LADEENDE_WERT_TYPE unsigned short // Charging time / Ladedauer #define I3_RES_EME_STAT_MAX_LADESTROM_LADEGERAET_WERT (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_MAX_LADESTROM_LADEGERAET_WERT_UNIT 'A' #define I3_RES_EME_STAT_MAX_LADESTROM_LADEGERAET_WERT_TYPE unsigned char // Maximum AC charging current charger / Maximaler AC-Ladestrom Ladegerät #define I3_RES_EME_STAT_IST_AC_SPANNUNG_LADEGERAET_WERT (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_IST_AC_SPANNUNG_LADEGERAET_WERT_UNIT 'V' #define I3_RES_EME_STAT_IST_AC_SPANNUNG_LADEGERAET_WERT_TYPE unsigned char // Actual AC voltage charger / Ist-AC-Spannung Ladegerät #define I3_RES_EME_STAT_REICHWEITE_WERT (RXBUF_UINT(8)) #define I3_RES_EME_STAT_REICHWEITE_WERT_UNIT 'km' #define I3_RES_EME_STAT_REICHWEITE_WERT_TYPE unsigned short // Range / Reichweite #define I3_RES_EME_STAT_HVB_TEMP_WERT (RXBUF_SINT(10)*0.1f) #define I3_RES_EME_STAT_HVB_TEMP_WERT_UNIT '°' #define I3_RES_EME_STAT_HVB_TEMP_WERT_TYPE float // HV battery temperature / Temperatur der HV-Batterie #define I3_RES_EME_STAT_TRIGGER_SEGMENTSPEICHER_WERT (RXBUF_UCHAR(12)) #define I3_RES_EME_STAT_TRIGGER_SEGMENTSPEICHER_WERT_TYPE unsigned char // Trigger condition for reading the segment memory / Auslösebedingung für das Lesen des Segmentspeichers // Skipping LADEHISTORIE on 0xDEA1 which takes arguments #define I3_PID_EME_AE_BUDS 0xDEA5 // Brake vacuum sensor value / Sensorwert des Bremsunterdrucks #define I3_RES_EME_STAT_BUDS_WERT (RXBUF_UCHAR(0)*4.0f-1000.0) #define I3_RES_EME_STAT_BUDS_WERT_UNIT 'hPa' #define I3_RES_EME_STAT_BUDS_WERT_TYPE float // Brake vacuum sensor value / Sensorwert des Bremsunterdrucks #define I3_PID_EME_AE_TEMP_EMASCHINE 0xDEA6 // Value of the current temperatures of the e-machine in degrees Celsius / Wert der aktuellen Temperaturen der // E-Maschine in Grad Celsius #define I3_RES_EME_STAT_TEMP1_E_MOTOR_WERT (RXBUF_SINT(0)*0.0156f) #define I3_RES_EME_STAT_TEMP1_E_MOTOR_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP1_E_MOTOR_WERT_TYPE float // E-motor temperature 1 / E-Motor Temperatur 1 #define I3_RES_EME_STAT_TEMP2_E_MOTOR_WERT (RXBUF_SINT(2)*0.0156f) #define I3_RES_EME_STAT_TEMP2_E_MOTOR_WERT_UNIT '°C' #define I3_RES_EME_STAT_TEMP2_E_MOTOR_WERT_TYPE float // E-motor temperature 2 / E-Motor Temperatur 2 #define I3_PID_EME_AE_ELEKTRISCHE_MASCHINE 0xDEA7 // Reading out the speed, torque and operating mode of the electric machine / Auslesen von Drehzahl, Drehmoment // und Betriebsart der E-Maschine #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_DREHZAHL_WERT (RXBUF_UINT(0)*0.5f-5000.0) #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_DREHZAHL_WERT_UNIT '1/min' #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_DREHZAHL_WERT_TYPE float // Speed of the electric machine / Drehzahl der E-Maschine #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_IST_MOMENT_WERT (RXBUF_SINT(2)*0.5f) #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_IST_MOMENT_WERT_UNIT 'Nm' #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_IST_MOMENT_WERT_TYPE float // IS the moment of the e-machine / IST Moment der E-Maschine #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_SOLL_MOMENT_WERT (RXBUF_SINT(4)*0.5f) #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_SOLL_MOMENT_WERT_UNIT 'Nm' #define I3_RES_EME_STAT_ELEKTRISCHE_MASCHINE_SOLL_MOMENT_WERT_TYPE float // SHOULD moment of the electric machine / SOLL Moment der E-Maschine #define I3_RES_EME_STAT_ELEKTRISCHE_BETRIEBSART_NR (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_ELEKTRISCHE_BETRIEBSART_NR_UNIT '0-n' #define I3_RES_EME_STAT_ELEKTRISCHE_BETRIEBSART_NR_TYPE unsigned char // current operating mode of the e-machine / aktuelle Betriebsart der E-Maschine #define I3_PID_EME_AE_ZUSTAND_2_DCDC 0xDEA9 // Various statuses returned from the DCDC converter / Rückgabe verschiederer Status vom DCDC-Wandler // RES_0xDEA9_D is a BITFIELD of unknown size. We don't have definitions for each bit, and we GUESSED it is one byte *** // Various statuses returned from the DCDC converter / Rückgabe verschiederer Status vom DCDC-Wandler #define I3_RES_EME_RES_0xDEA9_D (RXBUF_UCHAR(0)) #define I3_RES_EME_RES_0xDEA9_D_UNIT 'Bit' #define I3_RES_EME_RES_0xDEA9_D_TYPE unsigned char // Various statuses returned from the DCDC converter / Rückgabe verschiederer Status vom DCDC-Wandler // Skipping LADEHISTOGRAMM on 0xDEAE which takes arguments #define I3_PID_EME_AE_PARKSPERRE_VERSION 0xDEB0 // Return of the current version of the parking lock software / Rückgabe der aktuellen Version der Parksperren-SW #define I3_RES_EME_STAT_PS_VERSION_MAIN_WERT (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_PS_VERSION_MAIN_WERT_TYPE unsigned char // Main version parking lock SW / Main-Version Parksperren-SW #define I3_RES_EME_STAT_PS_VERSION_SUB_WERT (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_PS_VERSION_SUB_WERT_TYPE unsigned char // Revision of the parking lock software / Revision Parksperren-SW // Skipping AE_ROTORLAGESENSOR on 0xDEB1 which takes arguments // Skipping AE_DCDC_TEMPHISTOGRAMM_LESEN on 0xDEB2 which takes arguments // Skipping AE_DCDC_LEISTUNGSHISTOGRAMM on 0xDEB3 which takes arguments // Skipping AE_RESET_TEMP_MIN_MAX on 0xDEB4 which takes arguments // Skipping AE_ROTORLAGESENSOR_RESET on 0xDEB6 which takes arguments // Skipping AE_KLASSIERUNG_LOESCHEN on 0xDEB7 which takes arguments #define I3_PID_EME_AE_CTRL_VERSION 0xDEBC // Controller board version / Controllerbord-Version #define I3_RES_EME_STAT_CTRL_VERSION_WERT (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_CTRL_VERSION_WERT_TYPE unsigned char // Controller board version / Controllerbord-Version #define I3_PID_EME_AE_SPANNUNG_DCDC 0xDEBD // DC / DC voltage low-voltage side / DC/DC-Spannung Niedervoltseite #define I3_RES_EME_STAT_SPANNUNG_LV_WERT (RXBUF_UINT(0)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_LV_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_LV_WERT_TYPE float // DC / DC voltage low-voltage side / DC/DC-Spannung Niedervoltseite #define I3_PID_EME_AE_SPANNUNG_LE 0xDEBE // Internal voltages of the power electronics / Interne Spannungen der Leistungselektronik #define I3_RES_EME_STAT_SPANNUNG_CY0_5V0_WERT (RXBUF_UINT(0)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_CY0_5V0_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_CY0_5V0_WERT_TYPE float // Voltage monitoring of the internal 5V of CY320_MC0 / Spannungsüberwachung der internen 5V von CY320_MC0 #define I3_RES_EME_STAT_SPANNUNG_CY2_5V0_WERT (RXBUF_UINT(2)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_CY2_5V0_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_CY2_5V0_WERT_TYPE float // Voltage monitoring of the internal 5V of CY320_MC2 / Spannungsüberwachung der internen 5V von CY320_MC2 #define I3_RES_EME_STAT_SPANNUNG_CY0_3V3_WERT (RXBUF_UINT(4)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_CY0_3V3_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_CY0_3V3_WERT_TYPE float // Voltage monitoring of the internal 3.3V of CY320_MC0 / Spannungsüberwachung der internen 3,3V von CY320_MC0 #define I3_RES_EME_STAT_SPANNUNG_CY2_3V3_WERT (RXBUF_UINT(6)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_CY2_3V3_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_CY2_3V3_WERT_TYPE float // Voltage monitoring of the internal 3.3V of CY320_MC2 / Spannungsüberwachung der internen 3,3V von CY320_MC2 #define I3_RES_EME_STAT_SPANNUNG_CY0_1V5_WERT (RXBUF_UINT(8)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_CY0_1V5_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_CY0_1V5_WERT_TYPE float // Voltage monitoring of the internal 1.5V of CY320_MC0 / Spannungsüberwachung der internen 1,5V von CY320_MC0 #define I3_RES_EME_STAT_SPANNUNG_CY2_1V5_WERT (RXBUF_UINT(10)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_CY2_1V5_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_CY2_1V5_WERT_TYPE float // Voltage monitoring of the internal 1.5V of CY320_MC2 / Spannungsüberwachung der internen 1,5V von CY320_MC2 #define I3_RES_EME_STAT_SPANNUNG_32V_WERT (RXBUF_UINT(12)*0.001f) #define I3_RES_EME_STAT_SPANNUNG_32V_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPANNUNG_32V_WERT_TYPE float // Back measurement of the internal 32 V. / Rückmessung der internen 32 V #define I3_PID_EME_AE_SYSSTATE 0xDEBF // Internal status states of the control unit / Interne Statuszustände des Steuergerät #define I3_RES_EME_STAT_SYSSTATE_DPR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_SYSSTATE_DPR_UNIT '0/1' #define I3_RES_EME_STAT_SYSSTATE_DPR_TYPE unsigned char // Dualported RAM active 0 = not active 1 = active / Dualported RAM aktiv 0 = nicht aktiv 1 = aktiv #define I3_RES_EME_STAT_SYSSTATE_MC0_NR (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_SYSSTATE_MC0_NR_UNIT '0-n' #define I3_RES_EME_STAT_SYSSTATE_MC0_NR_TYPE unsigned char // System status of the MC0 / Systemzustand des MC0 #define I3_RES_EME_STAT_SYSSTATE_MC2_NR (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_SYSSTATE_MC2_NR_UNIT '0-n' #define I3_RES_EME_STAT_SYSSTATE_MC2_NR_TYPE unsigned char // System status of the MC2 / Systemzustand des MC2 // BF_SYSSTATE_KLEMMEN is a BITFIELD of size unsigned int. We don't yet generate definitions for each bit, we treat as the host data type // Terminal status / Klemmenzustand // STAT_SYSSTATE_KL15WUP_1: Mask: 0x0001 - Terminal status (bit-coded): Bit1 = Kl15WUP // STAT_SYSSTATE_KL30B_2: Mask: 0x0002 - Terminal status (bit-coded): Bit2 = KL30B // STAT_SYSSTATE_KL30C_3: Mask: 0x0004 - Terminal status (bit-coded): Bit3 = KL30C #define I3_RES_EME_BF_SYSSTATE_KLEMMEN (RXBUF_UINT(3)) #define I3_RES_EME_BF_SYSSTATE_KLEMMEN_UNIT 'Bit' #define I3_RES_EME_BF_SYSSTATE_KLEMMEN_TYPE unsigned short // Terminal status / Klemmenzustand #define I3_PID_EME_SPANNUNG_ELUP 0xDEC2 // Voltage level at the ELUP output of the EME / Spannungspegel am ELUP - Ausgang der EME #define I3_RES_EME_STAT_U_ELUP_WERT (RXBUF_UINT(0)*0.1f) #define I3_RES_EME_STAT_U_ELUP_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_ELUP_WERT_TYPE float // Voltage level at the ELUP output of the EME / Spannungspegel am ELUP - Ausgang der EME #define I3_PID_EME_STROM_ELUP 0xDEC3 // Voltage level at the ELUP output of the EME / Spannungspegel am ELUP - Ausgang der EME #define I3_RES_EME_STAT_I_ELUP_WERT (RXBUF_UINT(0)*0.1f) #define I3_RES_EME_STAT_I_ELUP_WERT_UNIT 'A' #define I3_RES_EME_STAT_I_ELUP_WERT_TYPE float // Voltage level at the ELUP output of the EME / Spannungspegel am ELUP - Ausgang der EME // Skipping REX_RESONANZ on 0xDED1 which takes arguments #define I3_PID_EME_AE_FAHRSTUFE 0xDEDD // current actual position of the drive train (PRND) / aktuelle Ist-Position des Antriebsstrangs (PRND) #define I3_RES_EME_STAT_POS_PRND_NR (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_POS_PRND_NR_UNIT '0-n' #define I3_RES_EME_STAT_POS_PRND_NR_TYPE unsigned char // current actual position of the drive train (PRND) / aktuelle Ist-Position des Antriebsstrangs (PRND) #define I3_PID_EME_AE_LSC_LADEN 0xDEDE // Feedback on the charging process / Rückmeldung zum Ladeverfahrens #define I3_RES_EME_STAT_LADEVERFAHREN_NR_0XDEDE (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_LADEVERFAHREN_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_LADEVERFAHREN_NR_0XDEDE_TYPE unsigned char // Type of charge type / Art des Ladetyps #define I3_RES_EME_STAT_LADESTATUS_NR_0XDEDE (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_LADESTATUS_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_LADESTATUS_NR_0XDEDE_TYPE unsigned char // Type of charge status / Art des Ladestatus #define I3_RES_EME_STAT_BEGINN_FENSTER_STD_WERT_0XDEDE (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_BEGINN_FENSTER_STD_WERT_0XDEDE_UNIT 'h' #define I3_RES_EME_STAT_BEGINN_FENSTER_STD_WERT_0XDEDE_TYPE unsigned char // Only with AC charging: Start of the favorable charging window (hours) / Nur bei AC-Laden: Beginn des günstigen // Ladefensters (Stunden) #define I3_RES_EME_STAT_BEGINN_FENSTER_MIN_WERT_0XDEDE (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_BEGINN_FENSTER_MIN_WERT_0XDEDE_UNIT 'min' #define I3_RES_EME_STAT_BEGINN_FENSTER_MIN_WERT_0XDEDE_TYPE unsigned char // Only with AC charging: Start of the favorable charging window (minutes) / Nur bei AC-Laden: Beginn des // günstigen Ladefensters (Minuten) #define I3_RES_EME_STAT_ENDE_FENSTER_STD_WERT_0XDEDE (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_ENDE_FENSTER_STD_WERT_0XDEDE_UNIT 'h' #define I3_RES_EME_STAT_ENDE_FENSTER_STD_WERT_0XDEDE_TYPE unsigned char // Only with AC charging: End of the favorable charging window (hours) / Nur bei AC-Laden: Ende des günstigen // Ladefensters (Stunden) #define I3_RES_EME_STAT_ENDE_FENSTER_MIN_WERT_0XDEDE (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_ENDE_FENSTER_MIN_WERT_0XDEDE_UNIT 'min' #define I3_RES_EME_STAT_ENDE_FENSTER_MIN_WERT_0XDEDE_TYPE unsigned char // Only with AC charging: End of the favorable charging window (minutes) / Nur bei AC-Laden: Ende des günstigen // Ladefensters (Minuten) #define I3_RES_EME_STAT_LADEFENSTER1_AUSWAHL_NR_0XDEDE (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_LADEFENSTER1_AUSWAHL_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_LADEFENSTER1_AUSWAHL_NR_0XDEDE_TYPE unsigned char // Only with AC charging, two-time alarm clock: selection of the favorable charging window / Nur bei AC-Laden, // Zwei Zeit Wecker: Auswahl des günstigen Ladefensters #define I3_RES_EME_STAT_LADEFENSTER2_AUSWAHL_NR_0XDEDE (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_LADEFENSTER2_AUSWAHL_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_LADEFENSTER2_AUSWAHL_NR_0XDEDE_TYPE unsigned char // Only with AC charging, two-time alarm clock: selection of the favorable charging window / Nur bei AC-Laden, // Zwei Zeit Wecker: Auswahl des günstigen Ladefensters #define I3_RES_EME_STAT_FAKTOR_STROMBEGRENZUNG_NR_0XDEDE (RXBUF_UCHAR(8)) #define I3_RES_EME_STAT_FAKTOR_STROMBEGRENZUNG_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_FAKTOR_STROMBEGRENZUNG_NR_0XDEDE_TYPE unsigned char // Only with AC charging: Acknowledgment of the current limitation / Nur bei AC-Laden: Rückmeldung der // Strombegrenzung #define I3_RES_EME_STAT_STROMBEGRENZUNG_AUSWAHL_NR_0XDEDE (RXBUF_UCHAR(9)) #define I3_RES_EME_STAT_STROMBEGRENZUNG_AUSWAHL_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_STROMBEGRENZUNG_AUSWAHL_NR_0XDEDE_TYPE unsigned char // Acknowledgment of the AC current limitation selection: Only with AC charging / Rückmeldung der AC- // Strombegrenzungauswahl: Nur bei AC-Laden #define I3_RES_EME_STAT_POLY_TIM_1_WERT_0XDEDE (RXBUF_UCHAR(10)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_1_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: time (standardized) of the first support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des ersten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_1_WERT_0XDEDE (RXBUF_UINT(11)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_1_WERT_0XDEDE_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_1_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: SOC of the first support point / Rückmeldung der SOC Unterstützpunkte: // SOC des ersten Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_2_WERT_0XDEDE (RXBUF_UCHAR(13)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_2_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: time (normalized) of the second support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des zweiten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_2_WERT_0XDEDE (RXBUF_UINT(14)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_2_WERT_0XDEDE_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_2_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: SOC of the second support point / Rückmeldung der SOC Unterstützpunkte: // SOC des zweiten Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_3_WERT_0XDEDE (RXBUF_UCHAR(16)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_3_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: time (standardized) of the third support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des dritten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_3_WERT_0XDEDE (RXBUF_UINT(17)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_3_WERT_0XDEDE_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_3_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: SOC of the third support point / Rückmeldung der SOC Unterstützpunkte: // SOC des dritten Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_4_WERT_0XDEDE (RXBUF_UCHAR(19)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_4_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: time (standardized) of the fourth support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des vierten Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_4_WERT_0XDEDE (RXBUF_UINT(20)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_4_WERT_0XDEDE_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_4_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: SOC of the fifth support point / Rückmeldung der SOC Unterstützpunkte: // SOC des fünften Stützpunktes #define I3_RES_EME_STAT_POLY_TIM_5_WERT_0XDEDE (RXBUF_UCHAR(22)*0.01f) #define I3_RES_EME_STAT_POLY_TIM_5_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: time (standardized) of the fifth support point / Rückmeldung der SOC // Unterstützpunkte: Zeit(normiert) des fünften Stützpunktes #define I3_RES_EME_STAT_POLY_SOC_5_WERT_0XDEDE (RXBUF_UINT(23)*0.01f) #define I3_RES_EME_STAT_POLY_SOC_5_WERT_0XDEDE_UNIT '%' #define I3_RES_EME_STAT_POLY_SOC_5_WERT_0XDEDE_TYPE float // Feedback from the SOC support points: SOC of the fifth support point / Rückmeldung der SOC Unterstützpunkte: // SOC des fünften Stützpunktes #define I3_RES_EME_STAT_HV_SOC_IST_WERT_0XDEDE (RXBUF_UINT(25)*0.01f) #define I3_RES_EME_STAT_HV_SOC_IST_WERT_0XDEDE_UNIT '%' #define I3_RES_EME_STAT_HV_SOC_IST_WERT_0XDEDE_TYPE float // Current SOC of the HV battery / Aktueller SOC der HV-Batterie #define I3_RES_EME_STAT_LADEN_PROGNOSE_WERT_0XDEDE (RXBUF_UCHAR(27)*5.0f) #define I3_RES_EME_STAT_LADEN_PROGNOSE_WERT_0XDEDE_UNIT 'min' #define I3_RES_EME_STAT_LADEN_PROGNOSE_WERT_0XDEDE_TYPE float // Loading time forecast / Ladezeitprognose #define I3_RES_EME_STAT_LADEN_SPANNUNG_WERT_0XDEDE (RXBUF_UCHAR(28)) #define I3_RES_EME_STAT_LADEN_SPANNUNG_WERT_0XDEDE_UNIT 'V' #define I3_RES_EME_STAT_LADEN_SPANNUNG_WERT_0XDEDE_TYPE unsigned char // AC charging voltage (only for AC charging) / AC-Ladespannung (nur bei AC Laden) #define I3_RES_EME_STAT_LADEN_STROM_WERT_0XDEDE (RXBUF_UCHAR(29)) #define I3_RES_EME_STAT_LADEN_STROM_WERT_0XDEDE_UNIT 'A' #define I3_RES_EME_STAT_LADEN_STROM_WERT_0XDEDE_TYPE unsigned char // AC charging current (only for AC charging) / AC-Ladestrom (nur bei AC Laden) #define I3_RES_EME_STAT_ENERGIEINHALT_IST_WERT_0XDEDE (RXBUF_UINT32(30)*3600.0f) #define I3_RES_EME_STAT_ENERGIEINHALT_IST_WERT_0XDEDE_UNIT 'Ws' #define I3_RES_EME_STAT_ENERGIEINHALT_IST_WERT_0XDEDE_TYPE float // Predicted energy content depending on the state of charge and on-board power consumption / Prognostizierte // Energieinhalt in Abhängigkeit des Ladezustands und des Bordnetzverbrauches #define I3_RES_EME_STAT_LSC_TRIGGER_INHALT_NR_0XDEDE (RXBUF_UCHAR(34)) #define I3_RES_EME_STAT_LSC_TRIGGER_INHALT_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_LSC_TRIGGER_INHALT_NR_0XDEDE_TYPE unsigned char // Status of the LSC trigger / Status des LSC-Triggers #define I3_RES_EME_STAT_ENERGIEINHALT_MAX_WERT_0XDEDE (RXBUF_UINT32(35)) #define I3_RES_EME_STAT_ENERGIEINHALT_MAX_WERT_0XDEDE_UNIT 'Ws' #define I3_RES_EME_STAT_ENERGIEINHALT_MAX_WERT_0XDEDE_TYPE unsigned long // Maximum possible energy content of the high-voltage storage system / Maximal möglicher Energieinhalt des // Hochvoltspeichers #define I3_RES_EME_STAT_LADEN_PROGNOSE_REST_WERT_0XDEDE (RXBUF_UINT(39)) #define I3_RES_EME_STAT_LADEN_PROGNOSE_REST_WERT_0XDEDE_UNIT 'min' #define I3_RES_EME_STAT_LADEN_PROGNOSE_REST_WERT_0XDEDE_TYPE unsigned short // Predicted remaining charging time: 0-65531 = value range; 65533 = Not available; 65532 = initialization; 65534 // = error; 65535 = signal valid / Prognostizierte Restladedauer: 0-65531 = Wertebereich; 65533 = Nicht // verfügbar; 65532 = Initialisierung; 65534 = Fehler; 65535 = Signal ugültig #define I3_RES_EME_STAT_LADESTECKER_NR_0XDEDE (RXBUF_UCHAR(41)) #define I3_RES_EME_STAT_LADESTECKER_NR_0XDEDE_UNIT '0-n' #define I3_RES_EME_STAT_LADESTECKER_NR_0XDEDE_TYPE unsigned char // Condition of charging plug / Zustand Ladestecker // Skipping UI_DERATING_EM1 on 0xDEDF which takes arguments // Skipping UI_DERATING_EM2 on 0xDEE0 which takes arguments // Skipping KLASSIERUNG_ZUG_SCHUB_LOESCHEN on 0xDEE5 which takes arguments #define I3_PID_EME_HISTOGRAMM_ANTRIEB 0xDEED // History values for drive / Historienwerte für Antrieb #define I3_RES_EME_STAT_ANTR_HIST_010_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_ANTR_HIST_010_WERT_TYPE unsigned long // History value ANTR_HIST_010 / Historienwert ANTR_HIST_010 #define I3_RES_EME_STAT_ANTR_HIST_011_WERT (RXBUF_UINT32(4)) #define I3_RES_EME_STAT_ANTR_HIST_011_WERT_TYPE unsigned long // History value ANTR_HIST_011 / Historienwert ANTR_HIST_011 #define I3_RES_EME_STAT_ANTR_HIST_012_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_ANTR_HIST_012_WERT_TYPE unsigned long // History value ANTR_HIST_012 / Historienwert ANTR_HIST_012 #define I3_RES_EME_STAT_ANTR_HIST_013_WERT (RXBUF_UINT32(12)) #define I3_RES_EME_STAT_ANTR_HIST_013_WERT_TYPE unsigned long // History value ANTR_HIST_013 / Historienwert ANTR_HIST_013 #define I3_RES_EME_STAT_ANTR_HIST_014_WERT (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_ANTR_HIST_014_WERT_TYPE unsigned long // History value ANTR_HIST_014 / Historienwert ANTR_HIST_014 #define I3_RES_EME_STAT_ANTR_HIST_015_WERT (RXBUF_UINT32(20)) #define I3_RES_EME_STAT_ANTR_HIST_015_WERT_TYPE unsigned long // History value ANTR_HIST_015 / Historienwert ANTR_HIST_015 #define I3_RES_EME_STAT_ANTR_HIST_016_WERT (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_ANTR_HIST_016_WERT_TYPE unsigned long // History value ANTR_HIST_016 / Historienwert ANTR_HIST_016 #define I3_RES_EME_STAT_ANTR_HIST_017_WERT (RXBUF_UINT32(28)) #define I3_RES_EME_STAT_ANTR_HIST_017_WERT_TYPE unsigned long // History value ANTR_HIST_017 / Historienwert ANTR_HIST_017 #define I3_RES_EME_STAT_ANTR_HIST_018_WERT (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_ANTR_HIST_018_WERT_TYPE unsigned long // History value ANTR_HIST_018 / Historienwert ANTR_HIST_018 #define I3_RES_EME_STAT_ANTR_HIST_019_WERT (RXBUF_UINT32(36)) #define I3_RES_EME_STAT_ANTR_HIST_019_WERT_TYPE unsigned long // History value ANTR_HIST_019 / Historienwert ANTR_HIST_019 #define I3_RES_EME_STAT_ANTR_HIST_020_WERT (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_ANTR_HIST_020_WERT_TYPE unsigned long // History value ANTR_HIST_020 / Historienwert ANTR_HIST_020 #define I3_RES_EME_STAT_ANTR_HIST_021_WERT (RXBUF_UINT32(44)) #define I3_RES_EME_STAT_ANTR_HIST_021_WERT_TYPE unsigned long // History value ANTR_HIST_021 / Historienwert ANTR_HIST_021 #define I3_RES_EME_STAT_ANTR_HIST_022_WERT (RXBUF_UINT32(48)) #define I3_RES_EME_STAT_ANTR_HIST_022_WERT_TYPE unsigned long // History value ANTR_HIST_022 / Historienwert ANTR_HIST_022 #define I3_RES_EME_STAT_ANTR_HIST_023_WERT (RXBUF_UINT32(52)) #define I3_RES_EME_STAT_ANTR_HIST_023_WERT_TYPE unsigned long // History value ANTR_HIST_023 / Historienwert ANTR_HIST_023 #define I3_RES_EME_STAT_ANTR_HIST_024_WERT (RXBUF_UINT32(56)) #define I3_RES_EME_STAT_ANTR_HIST_024_WERT_TYPE unsigned long // History value ANTR_HIST_024 / Historienwert ANTR_HIST_024 #define I3_RES_EME_STAT_ANTR_HIST_025_WERT (RXBUF_UINT32(60)) #define I3_RES_EME_STAT_ANTR_HIST_025_WERT_TYPE unsigned long // History value ANTR_HIST_025 / Historienwert ANTR_HIST_025 #define I3_RES_EME_STAT_ANTR_HIST_026_WERT (RXBUF_UINT32(64)) #define I3_RES_EME_STAT_ANTR_HIST_026_WERT_TYPE unsigned long // History value ANTR_HIST_026 / Historienwert ANTR_HIST_026 #define I3_RES_EME_STAT_ANTR_HIST_027_WERT (RXBUF_UINT32(68)) #define I3_RES_EME_STAT_ANTR_HIST_027_WERT_TYPE unsigned long // History value ANTR_HIST_027 / Historienwert ANTR_HIST_027 #define I3_RES_EME_STAT_ANTR_HIST_1601_WERT (RXBUF_UINT32(72)) #define I3_RES_EME_STAT_ANTR_HIST_1601_WERT_TYPE unsigned long // History value ANTR_HIST_1601 / Historienwert ANTR_HIST_1601 #define I3_RES_EME_STAT_ANTR_HIST_1602_WERT (RXBUF_UINT32(76)) #define I3_RES_EME_STAT_ANTR_HIST_1602_WERT_TYPE unsigned long // History value ANTR_HIST_1602 / Historienwert ANTR_HIST_1602 #define I3_RES_EME_STAT_ANTR_HIST_1603_WERT (RXBUF_UINT32(80)) #define I3_RES_EME_STAT_ANTR_HIST_1603_WERT_TYPE unsigned long // History value ANTR_HIST_1603 / Historienwert ANTR_HIST_1603 #define I3_RES_EME_STAT_ANTR_HIST_1604_WERT (RXBUF_UINT32(84)) #define I3_RES_EME_STAT_ANTR_HIST_1604_WERT_TYPE unsigned long // History value ANTR_HIST_1604 / Historienwert ANTR_HIST_1604 #define I3_RES_EME_STAT_ANTR_HIST_1605_WERT (RXBUF_UINT32(88)) #define I3_RES_EME_STAT_ANTR_HIST_1605_WERT_TYPE unsigned long // History value ANTR_HIST_1605 / Historienwert ANTR_HIST_1605 #define I3_RES_EME_STAT_ANTR_HIST_1606_WERT (RXBUF_UINT32(92)) #define I3_RES_EME_STAT_ANTR_HIST_1606_WERT_TYPE unsigned long // History value ANTR_HIST_1606 / Historienwert ANTR_HIST_1606 #define I3_RES_EME_STAT_ANTR_HIST_3214_WERT (RXBUF_UINT32(96)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3214_WERT_TYPE float // History value ANTR_HIST_3214 / Historienwert ANTR_HIST_3214 #define I3_RES_EME_STAT_ANTR_HIST_3215_WERT (RXBUF_UINT32(100)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3215_WERT_TYPE float // History value ANTR_HIST_3215 / Historienwert ANTR_HIST_3215 #define I3_RES_EME_STAT_ANTR_HIST_3216_WERT (RXBUF_UINT32(104)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3216_WERT_TYPE float // History value ANTR_HIST_3216 / Historienwert ANTR_HIST_3216 #define I3_RES_EME_STAT_ANTR_HIST_3217_WERT (RXBUF_UINT32(108)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3217_WERT_TYPE float // History value ANTR_HIST_3217 / Historienwert ANTR_HIST_3217 #define I3_RES_EME_STAT_ANTR_HIST_3218_WERT (RXBUF_UINT32(112)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3218_WERT_TYPE float // History value ANTR_HIST_3218 / Historienwert ANTR_HIST_3218 #define I3_RES_EME_STAT_ANTR_HIST_3219_WERT (RXBUF_UINT32(116)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3219_WERT_TYPE float // History value ANTR_HIST_3219 / Historienwert ANTR_HIST_3219 #define I3_RES_EME_STAT_ANTR_HIST_3220_WERT (RXBUF_UINT32(120)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3220_WERT_TYPE float // History value ANTR_HIST_3220 / Historienwert ANTR_HIST_3220 #define I3_RES_EME_STAT_ANTR_HIST_3221_WERT (RXBUF_UINT32(124)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3221_WERT_TYPE float // History value ANTR_HIST_3221 / Historienwert ANTR_HIST_3221 #define I3_RES_EME_STAT_ANTR_HIST_3278_WERT (RXBUF_UINT32(128)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3278_WERT_TYPE float // History value ANTR_HIST_3278 / Historienwert ANTR_HIST_3278 #define I3_RES_EME_STAT_ANTR_HIST_3279_WERT (RXBUF_UINT32(132)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3279_WERT_TYPE float // History value ANTR_HIST_3279 / Historienwert ANTR_HIST_3279 #define I3_RES_EME_STAT_ANTR_HIST_3280_WERT (RXBUF_UINT32(136)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3280_WERT_TYPE float // History value ANTR_HIST_3280 / Historienwert ANTR_HIST_3280 #define I3_RES_EME_STAT_ANTR_HIST_3281_WERT (RXBUF_UINT32(140)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3281_WERT_TYPE float // History value ANTR_HIST_3281 / Historienwert ANTR_HIST_3281 #define I3_RES_EME_STAT_ANTR_HIST_3282_WERT (RXBUF_UINT32(144)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3282_WERT_TYPE float // History value ANTR_HIST_3282 / Historienwert ANTR_HIST_3282 #define I3_RES_EME_STAT_ANTR_HIST_3283_WERT (RXBUF_UINT32(148)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3283_WERT_TYPE float // History value ANTR_HIST_3283 / Historienwert ANTR_HIST_3283 #define I3_RES_EME_STAT_ANTR_HIST_3284_WERT (RXBUF_UINT32(152)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3284_WERT_TYPE float // History value ANTR_HIST_3284 / Historienwert ANTR_HIST_3284 #define I3_RES_EME_STAT_ANTR_HIST_3285_WERT (RXBUF_UINT32(156)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3285_WERT_TYPE float // History value ANTR_HIST_3285 / Historienwert ANTR_HIST_3285 #define I3_RES_EME_STAT_ANTR_HIST_3286_WERT (RXBUF_UINT32(160)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3286_WERT_TYPE float // History value ANTR_HIST_3286 / Historienwert ANTR_HIST_3286 #define I3_RES_EME_STAT_ANTR_HIST_3287_WERT (RXBUF_UINT32(164)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3287_WERT_TYPE float // History value ANTR_HIST_3287 / Historienwert ANTR_HIST_3287 #define I3_RES_EME_STAT_ANTR_HIST_3288_WERT (RXBUF_UINT32(168)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3288_WERT_TYPE float // History value ANTR_HIST_3288 / Historienwert ANTR_HIST_3288 #define I3_RES_EME_STAT_ANTR_HIST_3289_WERT (RXBUF_UINT32(172)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3289_WERT_TYPE float // History value ANTR_HIST_3289 / Historienwert ANTR_HIST_3289 #define I3_RES_EME_STAT_ANTR_HIST_3290_WERT (RXBUF_UINT32(176)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3290_WERT_TYPE float // History value ANTR_HIST_3290 / Historienwert ANTR_HIST_3290 // Skipping REX_HISTOGRAMM on 0xDEEE which takes arguments #define I3_PID_EME_HISTOGRAMM_DEGRADATION 0xDEEF // Historical values degradation / Historienwerte Degradation #define I3_RES_EME_STAT_ANTR_HIST_3238_WERT (RXBUF_UINT32(0)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3238_WERT_TYPE float // History value ANTR_HIST_3238 / Historienwert ANTR_HIST_3238 #define I3_RES_EME_STAT_ANTR_HIST_3239_WERT (RXBUF_UINT32(4)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3239_WERT_TYPE float // History value ANTR_HIST_3239 / Historienwert ANTR_HIST_3239 #define I3_RES_EME_STAT_ANTR_HIST_3240_WERT (RXBUF_UINT32(8)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3240_WERT_TYPE float // History value ANTR_HIST_3240 / Historienwert ANTR_HIST_3240 #define I3_RES_EME_STAT_ANTR_HIST_3241_WERT (RXBUF_UINT32(12)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3241_WERT_TYPE float // History value ANTR_HIST_3241 / Historienwert ANTR_HIST_3241 #define I3_RES_EME_STAT_ANTR_HIST_3242_WERT (RXBUF_UINT32(16)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3242_WERT_TYPE float // History value ANTR_HIST_3242 / Historienwert ANTR_HIST_3242 #define I3_RES_EME_STAT_ANTR_HIST_3243_WERT (RXBUF_UINT32(20)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3243_WERT_TYPE float // History value ANTR_HIST_3243 / Historienwert ANTR_HIST_3243 #define I3_RES_EME_STAT_ANTR_HIST_3244_WERT (RXBUF_UINT32(24)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3244_WERT_TYPE float // History value ANTR_HIST_3244 / Historienwert ANTR_HIST_3244 #define I3_RES_EME_STAT_ANTR_HIST_3245_WERT (RXBUF_UINT32(28)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3245_WERT_TYPE float // History value ANTR_HIST_3245 / Historienwert ANTR_HIST_3245 #define I3_RES_EME_STAT_ANTR_HIST_3246_WERT (RXBUF_UINT32(32)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3246_WERT_TYPE float // History value ANTR_HIST_3246 / Historienwert ANTR_HIST_3246 #define I3_RES_EME_STAT_ANTR_HIST_3247_WERT (RXBUF_UINT32(36)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3247_WERT_TYPE float // History value ANTR_HIST_3247 / Historienwert ANTR_HIST_3247 #define I3_RES_EME_STAT_ANTR_HIST_3248_WERT (RXBUF_UINT32(40)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3248_WERT_TYPE float // History value ANTR_HIST_3248 / Historienwert ANTR_HIST_3248 #define I3_RES_EME_STAT_ANTR_HIST_3249_WERT (RXBUF_UINT32(44)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3249_WERT_TYPE float // History value ANTR_HIST_3249 / Historienwert ANTR_HIST_3249 #define I3_RES_EME_STAT_ANTR_HIST_3250_WERT (RXBUF_UINT32(48)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3250_WERT_TYPE float // History value ANTR_HIST_3250 / Historienwert ANTR_HIST_3250 #define I3_RES_EME_STAT_ANTR_HIST_3251_WERT (RXBUF_UINT32(52)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3251_WERT_TYPE float // History value ANTR_HIST_3251 / Historienwert ANTR_HIST_3251 #define I3_RES_EME_STAT_ANTR_HIST_3252_WERT (RXBUF_UINT32(56)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3252_WERT_TYPE float // History value ANTR_HIST_3252 / Historienwert ANTR_HIST_3252 #define I3_RES_EME_STAT_ANTR_HIST_3253_WERT (RXBUF_UINT32(60)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3253_WERT_TYPE float // History value ANTR_HIST_3253 / Historienwert ANTR_HIST_3253 #define I3_RES_EME_STAT_ANTR_HIST_3254_WERT (RXBUF_UINT32(64)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3254_WERT_TYPE float // History value ANTR_HIST_3254 / Historienwert ANTR_HIST_3254 #define I3_RES_EME_STAT_ANTR_HIST_3255_WERT (RXBUF_UINT32(68)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3255_WERT_TYPE float // History value ANTR_HIST_3255 / Historienwert ANTR_HIST_3255 #define I3_RES_EME_STAT_ANTR_HIST_3256_WERT (RXBUF_UINT32(72)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3256_WERT_TYPE float // History value ANTR_HIST_3256 / Historienwert ANTR_HIST_3256 #define I3_RES_EME_STAT_ANTR_HIST_3257_WERT (RXBUF_UINT32(76)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3257_WERT_TYPE float // History value ANTR_HIST_3257 / Historienwert ANTR_HIST_3257 #define I3_RES_EME_STAT_ANTR_HIST_3258_WERT (RXBUF_UINT32(80)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3258_WERT_TYPE float // History value ANTR_HIST_3258 / Historienwert ANTR_HIST_3258 #define I3_RES_EME_STAT_ANTR_HIST_3259_WERT (RXBUF_UINT32(84)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3259_WERT_TYPE float // History value ANTR_HIST_3259 / Historienwert ANTR_HIST_3259 #define I3_RES_EME_STAT_ANTR_HIST_3260_WERT (RXBUF_UINT32(88)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3260_WERT_TYPE float // History value ANTR_HIST_3260 / Historienwert ANTR_HIST_3260 #define I3_RES_EME_STAT_ANTR_HIST_3261_WERT (RXBUF_UINT32(92)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3261_WERT_TYPE float // History value ANTR_HIST_3261 / Historienwert ANTR_HIST_3261 #define I3_RES_EME_STAT_ANTR_HIST_3262_WERT (RXBUF_UINT32(96)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3262_WERT_TYPE float // History value ANTR_HIST_3262 / Historienwert ANTR_HIST_3262 #define I3_RES_EME_STAT_ANTR_HIST_3263_WERT (RXBUF_UINT32(100)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3263_WERT_TYPE float // History value ANTR_HIST_3263 / Historienwert ANTR_HIST_3263 #define I3_RES_EME_STAT_ANTR_HIST_3264_WERT (RXBUF_UINT32(104)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3264_WERT_TYPE float // History value ANTR_HIST_3264 / Historienwert ANTR_HIST_3264 #define I3_RES_EME_STAT_ANTR_HIST_3265_WERT (RXBUF_UINT32(108)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3265_WERT_TYPE float // History value ANTR_HIST_3265 / Historienwert ANTR_HIST_3265 #define I3_RES_EME_STAT_ANTR_HIST_3266_WERT (RXBUF_UINT32(112)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3266_WERT_TYPE float // History value ANTR_HIST_3266 / Historienwert ANTR_HIST_3266 #define I3_RES_EME_STAT_ANTR_HIST_3267_WERT (RXBUF_UINT32(116)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3267_WERT_TYPE float // History value ANTR_HIST_3267 / Historienwert ANTR_HIST_3267 #define I3_RES_EME_STAT_ANTR_HIST_3268_WERT (RXBUF_UINT32(120)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3268_WERT_TYPE float // History value ANTR_HIST_3268 / Historienwert ANTR_HIST_3268 #define I3_RES_EME_STAT_ANTR_HIST_3269_WERT (RXBUF_UINT32(124)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3269_WERT_TYPE float // History value ANTR_HIST_3269 / Historienwert ANTR_HIST_3269 #define I3_RES_EME_STAT_ANTR_HIST_3270_WERT (RXBUF_UINT32(128)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3270_WERT_TYPE float // History value ANTR_HIST_3270 / Historienwert ANTR_HIST_3270 #define I3_RES_EME_STAT_ANTR_HIST_3271_WERT (RXBUF_UINT32(132)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3271_WERT_TYPE float // History value ANTR_HIST_3271 / Historienwert ANTR_HIST_3271 #define I3_RES_EME_STAT_ANTR_HIST_3272_WERT (RXBUF_UINT32(136)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3272_WERT_TYPE float // History value ANTR_HIST_3272 / Historienwert ANTR_HIST_3272 #define I3_RES_EME_STAT_ANTR_HIST_3273_WERT (RXBUF_UINT32(140)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3273_WERT_TYPE float // History value ANTR_HIST_3273 / Historienwert ANTR_HIST_3273 #define I3_RES_EME_STAT_ANTR_HIST_3274_WERT (RXBUF_UINT32(144)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3274_WERT_TYPE float // History value ANTR_HIST_3274 / Historienwert ANTR_HIST_3274 #define I3_RES_EME_STAT_ANTR_HIST_3275_WERT (RXBUF_UINT32(148)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3275_WERT_TYPE float // History value ANTR_HIST_3275 / Historienwert ANTR_HIST_3275 #define I3_RES_EME_STAT_ANTR_HIST_3276_WERT (RXBUF_UINT32(152)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3276_WERT_TYPE float // History value ANTR_HIST_3276 / Historienwert ANTR_HIST_3276 #define I3_RES_EME_STAT_ANTR_HIST_3277_WERT (RXBUF_UINT32(156)*0.01f) #define I3_RES_EME_STAT_ANTR_HIST_3277_WERT_TYPE float // History value ANTR_HIST_3277 / Historienwert ANTR_HIST_3277 #define I3_PID_EME_AUTOP_SBW 0xDEFB // Frequency counter for the reasons for Auto-P and SW version shift-by-wire / Häufigkeitszähler für die Gründe // von Auto-P und SW Version Shift-by-Wire #define I3_RES_EME_STAT_COUNT_AUTOP_LVEH_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_COUNT_AUTOP_LVEH_WERT_TYPE unsigned short // Exit frequency counter for Auto-P on vehicle / Häufigkeitszähler für Auto-P bei Fahrzeug verlassen #define I3_RES_EME_STAT_COUNT_AUTOP_EMF_N_WERT (RXBUF_UINT(2)) #define I3_RES_EME_STAT_COUNT_AUTOP_EMF_N_WERT_TYPE unsigned short // Frequency counter for Auto-P by EMF call for help in N / Häufigkeitszähler für Auto-P durch EMF-Hilferuf in N #define I3_RES_EME_STAT_COUNT_AUTOP_EMF_DR_WERT (RXBUF_UINT(4)) #define I3_RES_EME_STAT_COUNT_AUTOP_EMF_DR_WERT_TYPE unsigned short // Frequency counter for Auto-P by EMF call for help in D or R / Häufigkeitszähler für Auto-P durch EMF-Hilferuf // in D oder R #define I3_RES_EME_STAT_COUNT_AUTOP_FB_WERT (RXBUF_UINT(6)) #define I3_RES_EME_STAT_COUNT_AUTOP_FB_WERT_TYPE unsigned short // Frequency counter for Auto-P in the event of loss of driving readiness / Häufigkeitszähler für Auto-P bei // Fahrbereitschaftsverlust #define I3_RES_EME_STAT_COUNT_AUTOP_KL15_WERT (RXBUF_UINT(8)) #define I3_RES_EME_STAT_COUNT_AUTOP_KL15_WERT_TYPE unsigned short // Frequency counter for Auto-P when terminal 15 is switched off / Häufigkeitszähler für Auto-P bei Klemme15 // Abschaltung #define I3_RES_EME_STAT_COUNT_AUTOP_CHRGWIRE_WERT (RXBUF_UINT(10)) #define I3_RES_EME_STAT_COUNT_AUTOP_CHRGWIRE_WERT_TYPE unsigned short // Frequency counter for Auto-P when the charging cable is plugged in / Häufigkeitszähler für Auto-P bei // gestecktem Ladekabel // Can't process STAT_SW_VERSION_SBW_WERT - don't know type motorola float (*** this will mean all the following offsets are wrong!!! ****) #define I3_PID_EME_FAHRSTUFEN_ZAEHLER_SBW 0xDEFF // Frequency counter of speed step changes / Häufigkeitszähler von Fahrstufenwechsel #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_P_NACH_R_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_P_NACH_R_WERT_TYPE unsigned long // Number of speed step changes from P to R / Anzahl Fahrstufenwechsel von P nach R #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_P_NACH_N_WERT (RXBUF_UINT32(4)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_P_NACH_N_WERT_TYPE unsigned long // Number of speed step changes from P to N / Anzahl Fahrstufenwechsel von P nach N #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_P_NACH_D_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_P_NACH_D_WERT_TYPE unsigned long // Number of speed step changes from P to D / Anzahl Fahrstufenwechsel von P nach D #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_R_NACH_P_WERT (RXBUF_UINT32(12)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_R_NACH_P_WERT_TYPE unsigned long // Number of speed step changes from R to P / Anzahl Fahrstufenwechsel von R nach P #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_R_NACH_N_WERT (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_R_NACH_N_WERT_TYPE unsigned long // Number of speed step changes from R to N / Anzahl Fahrstufenwechsel von R nach N #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_R_NACH_D_WERT (RXBUF_UINT32(20)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_R_NACH_D_WERT_TYPE unsigned long // Number of speed step changes from R to D / Anzahl Fahrstufenwechsel von R nach D #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_N_NACH_P_WERT (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_N_NACH_P_WERT_TYPE unsigned long // Number of speed step changes from N to P / Anzahl Fahrstufenwechsel von N nach P #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_N_NACH_R_WERT (RXBUF_UINT32(28)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_N_NACH_R_WERT_TYPE unsigned long // Number of speed step changes from N to R / Anzahl Fahrstufenwechsel von N nach R #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_N_NACH_D_WERT (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_N_NACH_D_WERT_TYPE unsigned long // Number of speed step changes from N to D / Anzahl Fahrstufenwechsel von N nach D #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_D_NACH_P_WERT (RXBUF_UINT32(36)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_D_NACH_P_WERT_TYPE unsigned long // Number of speed step changes from D to P / Anzahl Fahrstufenwechsel von D nach P #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_D_NACH_R_WERT (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_D_NACH_R_WERT_TYPE unsigned long // Number of speed step changes from D to R / Anzahl Fahrstufenwechsel von D nach R #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_D_NACH_N_WERT (RXBUF_UINT32(44)) #define I3_RES_EME_STAT_ZAEHLER_WECHSEL_D_NACH_N_WERT_TYPE unsigned long // Number of speed step changes from D to N / Anzahl Fahrstufenwechsel von D nach N // Skipping VERBAUKENNUNG_UCX_RUECKSETZEN on 0xDF1F which takes arguments // Skipping LADESTROM_EINSTELLUNG on 0xDF45 which takes arguments #define I3_PID_EME_HISTOGRAMM_LADEKOORDINATOR 0xDF49 // Charge coordinator histograms / Histogramme des Ladekoordinators #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_1_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_1_WERT_TYPE unsigned long // Power histrogram value 1 from internal charger / Leistungshistrogramm Wert 1 vom internen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_2_WERT (RXBUF_UINT32(4)) #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_2_WERT_TYPE unsigned long // Power histrogram value 2 from the internal charger / Leistungshistrogramm Wert 2 vom internen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_3_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_3_WERT_TYPE unsigned long // Power histrogram value 3 from the internal charger / Leistungshistrogramm Wert 3 vom internen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_4_WERT (RXBUF_UINT32(12)) #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_4_WERT_TYPE unsigned long // Power histrogram value 4 from the internal charger / Leistungshistrogramm Wert 4 vom internen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_5_WERT (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_5_WERT_TYPE unsigned long // Power histrogram value 5 from the internal charger / Leistungshistrogramm Wert 5 vom internen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_6_WERT (RXBUF_UINT32(20)) #define I3_RES_EME_STAT_LEISTUNG_HIST_INT_6_WERT_TYPE unsigned long // Power histrogram value 6 from internal charger / Leistungshistrogramm Wert 6 vom internen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_INT_1_WERT (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_TEMP_HIST_INT_1_WERT_TYPE unsigned long // Temperature histogram value 1 from the internal charger / Temperaturhistogramm Wert 1 vom internen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_INT_2_WERT (RXBUF_UINT32(28)) #define I3_RES_EME_STAT_TEMP_HIST_INT_2_WERT_TYPE unsigned long // Temperature histogram value 2 from the internal charger / Temperaturhistogramm Wert 2 vom internen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_INT_3_WERT (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_TEMP_HIST_INT_3_WERT_TYPE unsigned long // Temperature histogram value 3 from the internal charger / Temperaturhistogramm Wert 3 vom internen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_INT_4_WERT (RXBUF_UINT32(36)) #define I3_RES_EME_STAT_TEMP_HIST_INT_4_WERT_TYPE unsigned long // Temperature histogram value 4 from the internal charger / Temperaturhistogramm Wert 4 vom internen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_INT_5_WERT (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_TEMP_HIST_INT_5_WERT_TYPE unsigned long // Temperature histogram value 5 from the internal charger / Temperaturhistogramm Wert 5 vom internen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_INT_6_WERT (RXBUF_UINT32(44)) #define I3_RES_EME_STAT_TEMP_HIST_INT_6_WERT_TYPE unsigned long // Temperature histogram value 6 from the internal charger / Temperaturhistogramm Wert 6 vom internen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_1_WERT (RXBUF_UINT32(48)) #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_1_WERT_TYPE unsigned long // Power histrogram value 1 from external charger / Leistungshistrogramm Wert 1 vom externen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_2_WERT (RXBUF_UINT32(52)) #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_2_WERT_TYPE unsigned long // Power histrogram value 2 from external charger / Leistungshistrogramm Wert 2 vom externen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_3_WERT (RXBUF_UINT32(56)) #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_3_WERT_TYPE unsigned long // Power histrogram value 3 from external charger / Leistungshistrogramm Wert 3 vom externen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_4_WERT (RXBUF_UINT32(60)) #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_4_WERT_TYPE unsigned long // Power histrogram value 4 from external charger / Leistungshistrogramm Wert 4 vom externen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_5_WERT (RXBUF_UINT32(64)) #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_5_WERT_TYPE unsigned long // Power histrogram value 5 from external charger / Leistungshistrogramm Wert 5 vom externen Ladegerät #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_6_WERT (RXBUF_UINT32(68)) #define I3_RES_EME_STAT_LEISTUNG_HIST_EXT_6_WERT_TYPE unsigned long // Power histrogram value 6 from external charger / Leistungshistrogramm Wert 6 vom externen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_EXT_1_WERT (RXBUF_UINT32(72)) #define I3_RES_EME_STAT_TEMP_HIST_EXT_1_WERT_TYPE unsigned long // Temperature histogram value 1 from external charger / Temperaturhistogramm Wert 1 vom externen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_EXT_2_WERT (RXBUF_UINT32(76)) #define I3_RES_EME_STAT_TEMP_HIST_EXT_2_WERT_TYPE unsigned long // Temperature histogram value 2 from the external charger / Temperaturhistogramm Wert 2 vom externen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_EXT_3_WERT (RXBUF_UINT32(80)) #define I3_RES_EME_STAT_TEMP_HIST_EXT_3_WERT_TYPE unsigned long // Temperature histogram value 3 from the external charger / Temperaturhistogramm Wert 3 vom externen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_EXT_4_WERT (RXBUF_UINT32(84)) #define I3_RES_EME_STAT_TEMP_HIST_EXT_4_WERT_TYPE unsigned long // Temperature histogram value 4 from the external charger / Temperaturhistogramm Wert 4 vom externen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_EXT_5_WERT (RXBUF_UINT32(88)) #define I3_RES_EME_STAT_TEMP_HIST_EXT_5_WERT_TYPE unsigned long // Temperature histogram value 5 from the external charger / Temperaturhistogramm Wert 5 vom externen Ladegerät #define I3_RES_EME_STAT_TEMP_HIST_EXT_6_WERT (RXBUF_UINT32(92)) #define I3_RES_EME_STAT_TEMP_HIST_EXT_6_WERT_TYPE unsigned long // Temperature histogram value 6 from the external charger / Temperaturhistogramm Wert 6 vom externen Ladegerät #define I3_PID_EME_INVERTER_HISTOGRAMM 0xDF4D // Reading out the calculated lifetime data of the inverter / Auslesen der berechneten Lebenszeitdaten des // Inverters #define I3_RES_EME_STAT_INVERTER_IGBT_LEBENSZEIT_WERT (RXBUF_UCHAR(0)-10.0) #define I3_RES_EME_STAT_INVERTER_IGBT_LEBENSZEIT_WERT_UNIT '%' #define I3_RES_EME_STAT_INVERTER_IGBT_LEBENSZEIT_WERT_TYPE unsigned char // Total IGBT lifetime consumption / Summierter Lebensdauerverbrauch IGBT #define I3_RES_EME_STAT_INVERTER_IGBT_LEBENSZEIT_KONST_KUEHLUNG_WERT (RXBUF_UCHAR(1)-10.0) #define I3_RES_EME_STAT_INVERTER_IGBT_LEBENSZEIT_KONST_KUEHLUNG_WERT_UNIT '%' #define I3_RES_EME_STAT_INVERTER_IGBT_LEBENSZEIT_KONST_KUEHLUNG_WERT_TYPE unsigned char // Total IGBT service life consumption for a constant coolant temperature of 70 ° C / Summierter // Lebensdauerverbrauch IGBT für konstante Kühlmitteltemperatur von 70°C #define I3_RES_EME_STAT_INVERTER_DIODE_LEBENSZEIT_WERT (RXBUF_UCHAR(2)-10.0) #define I3_RES_EME_STAT_INVERTER_DIODE_LEBENSZEIT_WERT_UNIT '%' #define I3_RES_EME_STAT_INVERTER_DIODE_LEBENSZEIT_WERT_TYPE unsigned char // Total diode lifetime consumption / Summierter Lebensdauerverbrauch Diode #define I3_RES_EME_STAT_INVERTER_DIODE_LEBENSZEIT_KONST_KUEHLUNG_WERT (RXBUF_UCHAR(3)-10.0) #define I3_RES_EME_STAT_INVERTER_DIODE_LEBENSZEIT_KONST_KUEHLUNG_WERT_UNIT '%' #define I3_RES_EME_STAT_INVERTER_DIODE_LEBENSZEIT_KONST_KUEHLUNG_WERT_TYPE unsigned char // Total service life consumption diode for constant coolant temperature of 70 ° C / Summierter // Lebensdauerverbrauch Diode für konstante Kühlmitteltemperatur von 70°C #define I3_RES_EME_STAT_INVERTER_RESET_LEBENSZEIT_WERT (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_INVERTER_RESET_LEBENSZEIT_WERT_TYPE unsigned char // Number of residual overflows that occurred / Anzahl der aufgetretenen Überläufe des Residuums // Skipping LADEMODUS_WERK on 0xDF50 which takes arguments // Skipping ELUP_DATEN_RESET on 0xDF51 which takes arguments // Skipping ROTORLAGESENSOR_WINKELCODE on 0xDF52 which takes arguments #define I3_PID_EME_INVERTER_RBM_INFO 0xDF58 // RBM information for the non-running inverter diagnosis in I01 and I12 / RBM Information für die nicht // durchlaufende Umrichter Diagnose im I01 und I12 #define I3_RES_EME_STAT_SAE_DTC1_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_SAE_DTC1_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC1_WERT_TYPE unsigned long // SAE DTC 1 / SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC_NUM1_WERT (RXBUF_UINT(4)) #define I3_RES_EME_STAT_SAE_DTC_NUM1_WERT_TYPE unsigned short // Counter for the SAE DTC 1 / Zähler für den SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC_DEN1_WERT (RXBUF_UINT(6)) #define I3_RES_EME_STAT_SAE_DTC_DEN1_WERT_TYPE unsigned short // Denominator for the SAE DTC 1 / Nenner für den SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC2_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_SAE_DTC2_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC2_WERT_TYPE unsigned long // SAE DTC 2 / SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC_NUM2_WERT (RXBUF_UINT(12)) #define I3_RES_EME_STAT_SAE_DTC_NUM2_WERT_TYPE unsigned short // Counter for the SAE DTC 2 / Zähler für den SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC_DEN2_WERT (RXBUF_UINT(14)) #define I3_RES_EME_STAT_SAE_DTC_DEN2_WERT_TYPE unsigned short // Denominator for the SAE DTC 2 / Nenner für den SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC3_WERT (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_SAE_DTC3_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC3_WERT_TYPE unsigned long // SAE DTC 3 / SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC_NUM3_WERT (RXBUF_UINT(20)) #define I3_RES_EME_STAT_SAE_DTC_NUM3_WERT_TYPE unsigned short // Counter for the SAE DTC 3 / Zähler für den SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC_DEN3_WERT (RXBUF_UINT(22)) #define I3_RES_EME_STAT_SAE_DTC_DEN3_WERT_TYPE unsigned short // Denominator for the SAE DTC 3 / Nenner für den SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC4_WERT (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_SAE_DTC4_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC4_WERT_TYPE unsigned long // SAE DTC 4 / SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC_NUM4_WERT (RXBUF_UINT(28)) #define I3_RES_EME_STAT_SAE_DTC_NUM4_WERT_TYPE unsigned short // Counter for the SAE DTC 4 / Zähler für den SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC_DEN4_WERT (RXBUF_UINT(30)) #define I3_RES_EME_STAT_SAE_DTC_DEN4_WERT_TYPE unsigned short // Denominator for the SAE DTC 4 / Nenner für den SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC5_WERT (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_SAE_DTC5_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC5_WERT_TYPE unsigned long // SAE DTC 5 / SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC_NUM5_WERT (RXBUF_UINT(36)) #define I3_RES_EME_STAT_SAE_DTC_NUM5_WERT_TYPE unsigned short // Counter for the SAE DTC 5 / Zähler für den SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC_DEN5_WERT (RXBUF_UINT(38)) #define I3_RES_EME_STAT_SAE_DTC_DEN5_WERT_TYPE unsigned short // Denominator for the SAE DTC 5 / Nenner für den SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC6_WERT (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_SAE_DTC6_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC6_WERT_TYPE unsigned long // SAE DTC 6 / SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC_NUM6_WERT (RXBUF_UINT(44)) #define I3_RES_EME_STAT_SAE_DTC_NUM6_WERT_TYPE unsigned short // Counter for the SAE DTC 6 / Zähler für den SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC_DEN6_WERT (RXBUF_UINT(46)) #define I3_RES_EME_STAT_SAE_DTC_DEN6_WERT_TYPE unsigned short // Denominator for the SAE DTC 6 / Nenner für den SAE DTC 6 #define I3_PID_EME_DCDC_RBM_INFO 0xDF59 // RBM information for the discontinuous DC / DC converter diagnosis in I01 and I12 / RBM Information für die // nicht kontinuierliche DC/DC-Wandler Diagnose in I01 und I12 #define I3_RES_EME_STAT_SAE_DTC1_WERT_0XDF59 (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_SAE_DTC1_WERT_0XDF59_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC1_WERT_0XDF59_TYPE unsigned long // SAE DTC 1 / SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC_NUM1_WERT_0XDF59 (RXBUF_UINT(4)) #define I3_RES_EME_STAT_SAE_DTC_NUM1_WERT_0XDF59_TYPE unsigned short // Counter for the SAE DTC 1 / Zähler für den SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC_DEN1_WERT_0XDF59 (RXBUF_UINT(6)) #define I3_RES_EME_STAT_SAE_DTC_DEN1_WERT_0XDF59_TYPE unsigned short // Denominator for the SAE DTC 1 / Nenner für den SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC2_WERT_0XDF59 (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_SAE_DTC2_WERT_0XDF59_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC2_WERT_0XDF59_TYPE unsigned long // SAE DTC 2 / SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC_NUM2_WERT_0XDF59 (RXBUF_UINT(12)) #define I3_RES_EME_STAT_SAE_DTC_NUM2_WERT_0XDF59_TYPE unsigned short // Counter for the SAE DTC 2 / Zähler für den SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC_DEN2_WERT_0XDF59 (RXBUF_UINT(14)) #define I3_RES_EME_STAT_SAE_DTC_DEN2_WERT_0XDF59_TYPE unsigned short // Denominator for the SAE DTC 2 / Nenner für den SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC3_WERT_0XDF59 (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_SAE_DTC3_WERT_0XDF59_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC3_WERT_0XDF59_TYPE unsigned long // SAE DTC 3 / SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC_NUM3_WERT_0XDF59 (RXBUF_UINT(20)) #define I3_RES_EME_STAT_SAE_DTC_NUM3_WERT_0XDF59_TYPE unsigned short // Counter for the SAE DTC 3 / Zähler für den SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC_DEN3_WERT_0XDF59 (RXBUF_UINT(22)) #define I3_RES_EME_STAT_SAE_DTC_DEN3_WERT_0XDF59_TYPE unsigned short // Denominator for the SAE DTC 3 / Nenner für den SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC4_WERT_0XDF59 (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_SAE_DTC4_WERT_0XDF59_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC4_WERT_0XDF59_TYPE unsigned long // SAE DTC 4 / SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC_NUM4_WERT_0XDF59 (RXBUF_UINT(28)) #define I3_RES_EME_STAT_SAE_DTC_NUM4_WERT_0XDF59_TYPE unsigned short // Counter for the SAE DTC 4 / Zähler für den SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC_DEN4_WERT_0XDF59 (RXBUF_UINT(30)) #define I3_RES_EME_STAT_SAE_DTC_DEN4_WERT_0XDF59_TYPE unsigned short // Denominator for the SAE DTC 4 / Nenner für den SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC5_WERT_0XDF59 (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_SAE_DTC5_WERT_0XDF59_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC5_WERT_0XDF59_TYPE unsigned long // SAE DTC 5 / SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC_NUM5_WERT_0XDF59 (RXBUF_UINT(36)) #define I3_RES_EME_STAT_SAE_DTC_NUM5_WERT_0XDF59_TYPE unsigned short // Counter for the SAE DTC 5 / Zähler für den SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC_DEN5_WERT_0XDF59 (RXBUF_UINT(38)) #define I3_RES_EME_STAT_SAE_DTC_DEN5_WERT_0XDF59_TYPE unsigned short // Denominator for the SAE DTC 5 / Nenner für den SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC6_WERT_0XDF59 (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_SAE_DTC6_WERT_0XDF59_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC6_WERT_0XDF59_TYPE unsigned long // SAE DTC 6 / SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC_NUM6_WERT_0XDF59 (RXBUF_UINT(44)) #define I3_RES_EME_STAT_SAE_DTC_NUM6_WERT_0XDF59_TYPE unsigned short // Counter for the SAE DTC 6 / Zähler für den SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC_DEN6_WERT_0XDF59 (RXBUF_UINT(46)) #define I3_RES_EME_STAT_SAE_DTC_DEN6_WERT_0XDF59_TYPE unsigned short // Denominator for the SAE DTC 6 / Nenner für den SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC7_WERT (RXBUF_UINT32(48)) #define I3_RES_EME_STAT_SAE_DTC7_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC7_WERT_TYPE unsigned long // SAE DTC 7 / SAE DTC 7 #define I3_RES_EME_STAT_SAE_DTC_NUM7_WERT (RXBUF_UINT(52)) #define I3_RES_EME_STAT_SAE_DTC_NUM7_WERT_TYPE unsigned short // Counter for the SAE DTC 7 / Zähler für den SAE DTC 7 #define I3_RES_EME_STAT_SAE_DTC_DEN7_WERT (RXBUF_UINT(54)) #define I3_RES_EME_STAT_SAE_DTC_DEN7_WERT_TYPE unsigned short // Denominator for the SAE DTC 7 / Nenner für den SAE DTC 7 #define I3_RES_EME_STAT_SAE_DTC8_WERT (RXBUF_UINT32(56)) #define I3_RES_EME_STAT_SAE_DTC8_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC8_WERT_TYPE unsigned long // SAE DTC 8 / SAE DTC 8 #define I3_RES_EME_STAT_SAE_DTC_NUM8_WERT (RXBUF_UINT(60)) #define I3_RES_EME_STAT_SAE_DTC_NUM8_WERT_TYPE unsigned short // Counter for the SAE DTC 8 / Zähler für den SAE DTC 8 #define I3_RES_EME_STAT_SAE_DTC_DEN8_WERT (RXBUF_UINT(62)) #define I3_RES_EME_STAT_SAE_DTC_DEN8_WERT_TYPE unsigned short // Denominator for the SAE DTC 8 / Nenner für den SAE DTC 8 #define I3_PID_EME_LADEGERAET_RBM_INFO 0xDF5A // RBM information for the discontinuous charger diagnosis at I01 and I12 / RBM Information für die nicht // kontinuierliche Ladegerät Diagnose bei I01 und I12 #define I3_RES_EME_STAT_SAE_DTC1_WERT_0XDF5A (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_SAE_DTC1_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC1_WERT_0XDF5A_TYPE unsigned long // SAE DTC 1 / SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC_NUM1_WERT_0XDF5A (RXBUF_UINT(4)) #define I3_RES_EME_STAT_SAE_DTC_NUM1_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 1 / Zähler für den SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC_DEN1_WERT_0XDF5A (RXBUF_UINT(6)) #define I3_RES_EME_STAT_SAE_DTC_DEN1_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 1 / Nenner für den SAE DTC 1 #define I3_RES_EME_STAT_SAE_DTC2_WERT_0XDF5A (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_SAE_DTC2_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC2_WERT_0XDF5A_TYPE unsigned long // SAE DTC 2 / SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC_NUM2_WERT_0XDF5A (RXBUF_UINT(12)) #define I3_RES_EME_STAT_SAE_DTC_NUM2_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 2 / Zähler für den SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC_DEN2_WERT_0XDF5A (RXBUF_UINT(14)) #define I3_RES_EME_STAT_SAE_DTC_DEN2_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 2 / Nenner für den SAE DTC 2 #define I3_RES_EME_STAT_SAE_DTC3_WERT_0XDF5A (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_SAE_DTC3_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC3_WERT_0XDF5A_TYPE unsigned long // SAE DTC 3 / SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC_NUM3_WERT_0XDF5A (RXBUF_UINT(20)) #define I3_RES_EME_STAT_SAE_DTC_NUM3_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 3 / Zähler für den SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC_DEN3_WERT_0XDF5A (RXBUF_UINT(22)) #define I3_RES_EME_STAT_SAE_DTC_DEN3_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 3 / Nenner für den SAE DTC 3 #define I3_RES_EME_STAT_SAE_DTC4_WERT_0XDF5A (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_SAE_DTC4_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC4_WERT_0XDF5A_TYPE unsigned long // SAE DTC 4 / SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC_NUM4_WERT_0XDF5A (RXBUF_UINT(28)) #define I3_RES_EME_STAT_SAE_DTC_NUM4_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 4 / Zähler für den SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC_DEN4_WERT_0XDF5A (RXBUF_UINT(30)) #define I3_RES_EME_STAT_SAE_DTC_DEN4_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 4 / Nenner für den SAE DTC 4 #define I3_RES_EME_STAT_SAE_DTC5_WERT_0XDF5A (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_SAE_DTC5_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC5_WERT_0XDF5A_TYPE unsigned long // SAE DTC 5 / SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC_NUM5_WERT_0XDF5A (RXBUF_UINT(36)) #define I3_RES_EME_STAT_SAE_DTC_NUM5_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 5 / Zähler für den SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC_DEN5_WERT_0XDF5A (RXBUF_UINT(38)) #define I3_RES_EME_STAT_SAE_DTC_DEN5_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 5 / Nenner für den SAE DTC 5 #define I3_RES_EME_STAT_SAE_DTC6_WERT_0XDF5A (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_SAE_DTC6_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC6_WERT_0XDF5A_TYPE unsigned long // SAE DTC 6 / SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC_NUM6_WERT_0XDF5A (RXBUF_UINT(44)) #define I3_RES_EME_STAT_SAE_DTC_NUM6_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 6 / Zähler für den SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC_DEN6_WERT_0XDF5A (RXBUF_UINT(46)) #define I3_RES_EME_STAT_SAE_DTC_DEN6_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 6 / Nenner für den SAE DTC 6 #define I3_RES_EME_STAT_SAE_DTC7_WERT_0XDF5A (RXBUF_UINT32(48)) #define I3_RES_EME_STAT_SAE_DTC7_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC7_WERT_0XDF5A_TYPE unsigned long // SAE DTC 7 / SAE DTC 7 #define I3_RES_EME_STAT_SAE_DTC_NUM7_WERT_0XDF5A (RXBUF_UINT(52)) #define I3_RES_EME_STAT_SAE_DTC_NUM7_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 7 / Zähler für den SAE DTC 7 #define I3_RES_EME_STAT_SAE_DTC_DEN7_WERT_0XDF5A (RXBUF_UINT(54)) #define I3_RES_EME_STAT_SAE_DTC_DEN7_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 7 / Nenner für den SAE DTC 7 #define I3_RES_EME_STAT_SAE_DTC8_WERT_0XDF5A (RXBUF_UINT32(56)) #define I3_RES_EME_STAT_SAE_DTC8_WERT_0XDF5A_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC8_WERT_0XDF5A_TYPE unsigned long // SAE DTC 8 / SAE DTC 8 #define I3_RES_EME_STAT_SAE_DTC_NUM8_WERT_0XDF5A (RXBUF_UINT(60)) #define I3_RES_EME_STAT_SAE_DTC_NUM8_WERT_0XDF5A_TYPE unsigned short // Counter for the SAE DTC 8 / Zähler für den SAE DTC 8 #define I3_RES_EME_STAT_SAE_DTC_DEN8_WERT_0XDF5A (RXBUF_UINT(62)) #define I3_RES_EME_STAT_SAE_DTC_DEN8_WERT_0XDF5A_TYPE unsigned short // Denominator for the SAE DTC 8 / Nenner für den SAE DTC 8 #define I3_RES_EME_STAT_SAE_DTC9_WERT (RXBUF_UINT32(64)) #define I3_RES_EME_STAT_SAE_DTC9_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC9_WERT_TYPE unsigned long // SAE DTC 9 / SAE DTC 9 #define I3_RES_EME_STAT_SAE_DTC_NUM9_WERT (RXBUF_UINT(68)) #define I3_RES_EME_STAT_SAE_DTC_NUM9_WERT_TYPE unsigned short // Counter for the SAE DTC 9 / Zähler für den SAE DTC 9 #define I3_RES_EME_STAT_SAE_DTC_DEN9_WERT (RXBUF_UINT(70)) #define I3_RES_EME_STAT_SAE_DTC_DEN9_WERT_TYPE unsigned short // Denominator for the SAE DTC 9 / Nenner für den SAE DTC 9 #define I3_RES_EME_STAT_SAE_DTC10_WERT (RXBUF_UINT32(72)) #define I3_RES_EME_STAT_SAE_DTC10_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC10_WERT_TYPE unsigned long // SAE DTC 10 / SAE DTC 10 #define I3_RES_EME_STAT_SAE_DTC_NUM10_WERT (RXBUF_UINT(76)) #define I3_RES_EME_STAT_SAE_DTC_NUM10_WERT_TYPE unsigned short // Counter for the SAE DTC 10 / Zähler für den SAE DTC 10 #define I3_RES_EME_STAT_SAE_DTC_DEN10_WERT (RXBUF_UINT(78)) #define I3_RES_EME_STAT_SAE_DTC_DEN10_WERT_TYPE unsigned short // Denominator for the SAE DTC 10 / Nenner für den SAE DTC 10 #define I3_RES_EME_STAT_SAE_DTC11_WERT (RXBUF_UINT32(80)) #define I3_RES_EME_STAT_SAE_DTC11_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC11_WERT_TYPE unsigned long // SAE DTC 11 / SAE DTC 11 #define I3_RES_EME_STAT_SAE_DTC_NUM11_WERT (RXBUF_UINT(84)) #define I3_RES_EME_STAT_SAE_DTC_NUM11_WERT_TYPE unsigned short // Counter for the SAE DTC 11 / Zähler für den SAE DTC 11 #define I3_RES_EME_STAT_SAE_DTC_DEN11_WERT (RXBUF_UINT(86)) #define I3_RES_EME_STAT_SAE_DTC_DEN11_WERT_TYPE unsigned short // Denominator for the SAE DTC 11 / Nenner für den SAE DTC 11 #define I3_RES_EME_STAT_SAE_DTC12_WERT (RXBUF_UINT32(88)) #define I3_RES_EME_STAT_SAE_DTC12_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC12_WERT_TYPE unsigned long // SAE DTC 12 / SAE DTC 12 #define I3_RES_EME_STAT_SAE_DTC_NUM12_WERT (RXBUF_UINT(92)) #define I3_RES_EME_STAT_SAE_DTC_NUM12_WERT_TYPE unsigned short // Counter for the SAE DTC 12 / Zähler für den SAE DTC 12 #define I3_RES_EME_STAT_SAE_DTC_DEN12_WERT (RXBUF_UINT(94)) #define I3_RES_EME_STAT_SAE_DTC_DEN12_WERT_TYPE unsigned short // Denominator for the SAE DTC 12 / Nenner für den SAE DTC 12 #define I3_RES_EME_STAT_SAE_DTC13_WERT (RXBUF_UINT32(96)) #define I3_RES_EME_STAT_SAE_DTC13_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC13_WERT_TYPE unsigned long // SAE DTC 13 / SAE DTC 13 #define I3_RES_EME_STAT_SAE_DTC_NUM13_WERT (RXBUF_UINT(100)) #define I3_RES_EME_STAT_SAE_DTC_NUM13_WERT_TYPE unsigned short // Counter for the SAE DTC 13 / Zähler für den SAE DTC 13 #define I3_RES_EME_STAT_SAE_DTC_DEN13_WERT (RXBUF_UINT(102)) #define I3_RES_EME_STAT_SAE_DTC_DEN13_WERT_TYPE unsigned short // Denominator for the SAE DTC 13 / Nenner für den SAE DTC 13 #define I3_RES_EME_STAT_SAE_DTC14_WERT (RXBUF_UINT32(104)) #define I3_RES_EME_STAT_SAE_DTC14_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC14_WERT_TYPE unsigned long // SAE DTC 14 / SAE DTC 14 #define I3_RES_EME_STAT_SAE_DTC_NUM14_WERT (RXBUF_UINT(108)) #define I3_RES_EME_STAT_SAE_DTC_NUM14_WERT_TYPE unsigned short // Counter for the SAE DTC 14 / Zähler für den SAE DTC 14 #define I3_RES_EME_STAT_SAE_DTC_DEN14_WERT (RXBUF_UINT(110)) #define I3_RES_EME_STAT_SAE_DTC_DEN14_WERT_TYPE unsigned short // Denominator for the SAE DTC 14 / Nenner für den SAE DTC 14 #define I3_RES_EME_STAT_SAE_DTC15_WERT (RXBUF_UINT32(112)) #define I3_RES_EME_STAT_SAE_DTC15_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC15_WERT_TYPE unsigned long // SAE DTC 15 / SAE DTC 15 #define I3_RES_EME_STAT_SAE_DTC_NUM15_WERT (RXBUF_UINT(116)) #define I3_RES_EME_STAT_SAE_DTC_NUM15_WERT_TYPE unsigned short // Counter for the SAE DTC 15 / Zähler für den SAE DTC 15 #define I3_RES_EME_STAT_SAE_DTC_DEN15_WERT (RXBUF_UINT(118)) #define I3_RES_EME_STAT_SAE_DTC_DEN15_WERT_TYPE unsigned short // Denominator for the SAE DTC 15 / Nenner für den SAE DTC 15 #define I3_RES_EME_STAT_SAE_DTC16_WERT (RXBUF_UINT32(120)) #define I3_RES_EME_STAT_SAE_DTC16_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC16_WERT_TYPE unsigned long // SAE DTC 16 / SAE DTC 16 #define I3_RES_EME_STAT_SAE_DTC_NUM16_WERT (RXBUF_UINT(124)) #define I3_RES_EME_STAT_SAE_DTC_NUM16_WERT_TYPE unsigned short // Counter for the SAE DTC 16 / Zähler für den SAE DTC 16 #define I3_RES_EME_STAT_SAE_DTC_DEN16_WERT (RXBUF_UINT(126)) #define I3_RES_EME_STAT_SAE_DTC_DEN16_WERT_TYPE unsigned short // Denominator for the SAE DTC 16 / Nenner für den SAE DTC 16 #define I3_RES_EME_STAT_SAE_DTC17_WERT (RXBUF_UINT32(128)) #define I3_RES_EME_STAT_SAE_DTC17_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC17_WERT_TYPE unsigned long // SAE DTC 17 / SAE DTC 17 #define I3_RES_EME_STAT_SAE_DTC_NUM17_WERT (RXBUF_UINT(132)) #define I3_RES_EME_STAT_SAE_DTC_NUM17_WERT_TYPE unsigned short // Counter for the SAE DTC 17 / Zähler für den SAE DTC 17 #define I3_RES_EME_STAT_SAE_DTC_DEN17_WERT (RXBUF_UINT(134)) #define I3_RES_EME_STAT_SAE_DTC_DEN17_WERT_TYPE unsigned short // Denominator for the SAE DTC 17 / Nenner für den SAE DTC 17 #define I3_RES_EME_STAT_SAE_DTC18_WERT (RXBUF_UINT32(136)) #define I3_RES_EME_STAT_SAE_DTC18_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC18_WERT_TYPE unsigned long // SAE DTC 18 / SAE DTC 18 #define I3_RES_EME_STAT_SAE_DTC_NUM18_WERT (RXBUF_UINT(140)) #define I3_RES_EME_STAT_SAE_DTC_NUM18_WERT_TYPE unsigned short // Counter for the SAE DTC 18 / Zähler für den SAE DTC 18 #define I3_RES_EME_STAT_SAE_DTC_DEN18_WERT (RXBUF_UINT(142)) #define I3_RES_EME_STAT_SAE_DTC_DEN18_WERT_TYPE unsigned short // Denominator for the SAE DTC 18 / Nenner für den SAE DTC 18 #define I3_RES_EME_STAT_SAE_DTC19_WERT (RXBUF_UINT32(144)) #define I3_RES_EME_STAT_SAE_DTC19_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC19_WERT_TYPE unsigned long // SAE DTC 19 / SAE DTC 19 #define I3_RES_EME_STAT_SAE_DTC_NUM19_WERT (RXBUF_UINT(148)) #define I3_RES_EME_STAT_SAE_DTC_NUM19_WERT_TYPE unsigned short // Counter for the SAE DTC 19 / Zähler für den SAE DTC 19 #define I3_RES_EME_STAT_SAE_DTC_DEN19_WERT (RXBUF_UINT(150)) #define I3_RES_EME_STAT_SAE_DTC_DEN19_WERT_TYPE unsigned short // Denominator for the SAE DTC 19 / Nenner für den SAE DTC 19 #define I3_RES_EME_STAT_SAE_DTC20_WERT (RXBUF_UINT32(152)) #define I3_RES_EME_STAT_SAE_DTC20_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC20_WERT_TYPE unsigned long // SAE DTC 20 / SAE DTC 20 #define I3_RES_EME_STAT_SAE_DTC_NUM20_WERT (RXBUF_UINT(156)) #define I3_RES_EME_STAT_SAE_DTC_NUM20_WERT_TYPE unsigned short // Counter for the SAE DTC 20 / Zähler für den SAE DTC 20 #define I3_RES_EME_STAT_SAE_DTC_DEN20_WERT (RXBUF_UINT(158)) #define I3_RES_EME_STAT_SAE_DTC_DEN20_WERT_TYPE unsigned short // Denominator for the SAE DTC 20 / Nenner für den SAE DTC 20 #define I3_RES_EME_STAT_SAE_DTC21_WERT (RXBUF_UINT32(160)) #define I3_RES_EME_STAT_SAE_DTC21_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC21_WERT_TYPE unsigned long // SAE DTC 21 / SAE DTC 21 #define I3_RES_EME_STAT_SAE_DTC_NUM21_WERT (RXBUF_UINT(164)) #define I3_RES_EME_STAT_SAE_DTC_NUM21_WERT_TYPE unsigned short // Counter for the SAE DTC 21 / Zähler für den SAE DTC 21 #define I3_RES_EME_STAT_SAE_DTC_DEN21_WERT (RXBUF_UINT(166)) #define I3_RES_EME_STAT_SAE_DTC_DEN21_WERT_TYPE unsigned short // Denominator for the SAE DTC 21 / Nenner für den SAE DTC 21 #define I3_RES_EME_STAT_SAE_DTC22_WERT (RXBUF_UINT32(168)) #define I3_RES_EME_STAT_SAE_DTC22_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC22_WERT_TYPE unsigned long // SAE DTC 22 / SAE DTC 22 #define I3_RES_EME_STAT_SAE_DTC_NUM22_WERT (RXBUF_UINT(172)) #define I3_RES_EME_STAT_SAE_DTC_NUM22_WERT_TYPE unsigned short // Counter for the SAE DTC 22 / Zähler für den SAE DTC 22 #define I3_RES_EME_STAT_SAE_DTC_DEN22_WERT (RXBUF_UINT(174)) #define I3_RES_EME_STAT_SAE_DTC_DEN22_WERT_TYPE unsigned short // Denominator for the SAE DTC 22 / Nenner für den SAE DTC 22 #define I3_RES_EME_STAT_SAE_DTC23_WERT (RXBUF_UINT32(176)) #define I3_RES_EME_STAT_SAE_DTC23_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC23_WERT_TYPE unsigned long // SAE DTC 23 / SAE DTC 23 #define I3_RES_EME_STAT_SAE_DTC_NUM23_WERT (RXBUF_UINT(180)) #define I3_RES_EME_STAT_SAE_DTC_NUM23_WERT_TYPE unsigned short // Counter for the SAE DTC 23 / Zähler für den SAE DTC 23 #define I3_RES_EME_STAT_SAE_DTC_DEN23_WERT (RXBUF_UINT(182)) #define I3_RES_EME_STAT_SAE_DTC_DEN23_WERT_TYPE unsigned short // Denominator for the SAE DTC 23 / Nenner für den SAE DTC 23 #define I3_RES_EME_STAT_SAE_DTC24_WERT (RXBUF_UINT32(184)) #define I3_RES_EME_STAT_SAE_DTC24_WERT_UNIT 'HEX' #define I3_RES_EME_STAT_SAE_DTC24_WERT_TYPE unsigned long // SAE DTC 24 / SAE DTC 24 #define I3_RES_EME_STAT_SAE_DTC_NUM24_WERT (RXBUF_UINT(188)) #define I3_RES_EME_STAT_SAE_DTC_NUM24_WERT_TYPE unsigned short // Counter for the SAE DTC 24 / Zähler für den SAE DTC 24 #define I3_RES_EME_STAT_SAE_DTC_DEN24_WERT (RXBUF_UINT(190)) #define I3_RES_EME_STAT_SAE_DTC_DEN24_WERT_TYPE unsigned short // Denominator for the SAE DTC 24 / Nenner für den SAE DTC 24 #define I3_PID_EME_LIEFERANT_TRACE_NUMMER 0xDF5B // 29 bytes SG manufacturer trace number / 29 Byte SG-Hersteller Tracenummer // Can't yet generate code for STAT_TRACE_NUMMER_TEXT of type string[29], at offset 0. But we account for the 29 bytes // 29 bytes SG manufacturer trace number / 29 Byte SG-Hersteller Tracenummer // Skipping LAST_HISTOGRAMM_EMASCHINE_RESET on 0xDF5D which takes arguments // Skipping LADEGERAET_KONFIGURATION on 0xDFB3 which takes arguments // Skipping LADEGERAET_HISTOGRAMM_RESET on 0xDFB4 which takes arguments #define I3_PID_EME_LADEGERAET_TEMPERATUR_HISTOGRAMM 0xDFB5 // Temperature histograms of the charging electronics (SLE) present within the drive electronics (AE) / // Temperatur-Histogramme der innerhalb der Antriebselektronik (AE) vorhandenen Ladeelektronik (SLE) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_1_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_1_WERT_TYPE unsigned long // Temperature histogram of LLCHVFIL sensor value 1 / Temperaturhistogramm von LLCHVFIL-Sensor Wert 1 #define I3_RES_EME_STAT_TEMP_LLCHVFIL_2_WERT (RXBUF_UINT32(4)) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_2_WERT_TYPE unsigned long // Temperature histogram of LLCHVFIL sensor value 2 / Temperaturhistogramm von LLCHVFIL-Sensor Wert 2 #define I3_RES_EME_STAT_TEMP_LLCHVFIL_3_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_3_WERT_TYPE unsigned long // Temperature histogram of LLCHVFIL sensor value 3 / Temperaturhistogramm von LLCHVFIL-Sensor Wert 3 #define I3_RES_EME_STAT_TEMP_LLCHVFIL_4_WERT (RXBUF_UINT32(12)) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_4_WERT_TYPE unsigned long // Temperature histogram of LLCHVFIL sensor value 4 / Temperaturhistogramm von LLCHVFIL-Sensor Wert 4 #define I3_RES_EME_STAT_TEMP_LLCHVFIL_5_WERT (RXBUF_UINT32(16)) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_5_WERT_TYPE unsigned long // Temperature histogram of LLCHVFIL sensor value 5 / Temperaturhistogramm von LLCHVFIL-Sensor Wert 5 #define I3_RES_EME_STAT_TEMP_LLCHVFIL_6_WERT (RXBUF_UINT32(20)) #define I3_RES_EME_STAT_TEMP_LLCHVFIL_6_WERT_TYPE unsigned long // Temperature histogram of LLCHVFIL sensor value 6 / Temperaturhistogramm von LLCHVFIL-Sensor Wert 6 #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_1_WERT (RXBUF_UINT32(24)) #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_1_WERT_TYPE unsigned long // Temperature histogram from LLCTRAFIL sensor value 1 / Temperaturhistogramm von LLCTRAFIL-Sensor Wert 1 #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_2_WERT (RXBUF_UINT32(28)) #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_2_WERT_TYPE unsigned long // Temperature histogram from LLCTRAFIL sensor value 2 / Temperaturhistogramm von LLCTRAFIL-Sensor Wert 2 #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_3_WERT (RXBUF_UINT32(32)) #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_3_WERT_TYPE unsigned long // Temperature histogram from LLCTRAFIL sensor value 3 / Temperaturhistogramm von LLCTRAFIL-Sensor Wert 3 #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_4_WERT (RXBUF_UINT32(36)) #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_4_WERT_TYPE unsigned long // Temperature histogram from LLCTRAFIL sensor value 4 / Temperaturhistogramm von LLCTRAFIL-Sensor Wert 4 #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_5_WERT (RXBUF_UINT32(40)) #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_5_WERT_TYPE unsigned long // Temperature histogram from LLCTRAFIL sensor value 5 / Temperaturhistogramm von LLCTRAFIL-Sensor Wert 5 #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_6_WERT (RXBUF_UINT32(44)) #define I3_RES_EME_STAT_TEMP_LLCTRAFIL_6_WERT_TYPE unsigned long // Temperature histogram from LLCTRAFIL sensor value 6 / Temperaturhistogramm von LLCTRAFIL-Sensor Wert 6 #define I3_RES_EME_STAT_TEMP_LLCZKFIL_1_WERT (RXBUF_UINT32(48)) #define I3_RES_EME_STAT_TEMP_LLCZKFIL_1_WERT_TYPE unsigned long // Temperature histogram from LLCZKFIL sensor value 1 / Temperaturhistogramm von LLCZKFIL-Sensor Wert 1 #define I3_RES_EME_STAT_TEMP_LLCZKFIL_2_WERT (RXBUF_UINT32(52)) #define I3_RES_EME_STAT_TEMP_LLCZKFIL_2_WERT_TYPE unsigned long // Temperature histogram of LLCZKFIL sensor value 2 / Temperaturhistogramm von LLCZKFIL-Sensor Wert 2 #define I3_RES_EME_STAT_TEMP_LLCZKFIL_3_WERT (RXBUF_UINT32(56)) #define I3_RES_EME_STAT_TEMP_LLCZKFIL_3_WERT_TYPE unsigned long // Temperature histogram from LLCZKFIL sensor value 3 / Temperaturhistogramm von LLCZKFIL-Sensor Wert 3 #define I3_RES_EME_STAT_TEMP_LLCZKFIL_4_WERT (RXBUF_UINT32(60)) #define I3_RES_EME_STAT_TEMP_LLCZKFIL_4_WERT_TYPE unsigned long // Temperature histogram from LLCZKFIL sensor value 4 / Temperaturhistogramm von LLCZKFIL-Sensor Wert 4 #define I3_RES_EME_STAT_TEMP_LLCZKFIL_5_WERT (RXBUF_UINT32(64)) #define I3_RES_EME_STAT_TEMP_LLCZKFIL_5_WERT_TYPE unsigned long // Temperature histogram from LLCZKFIL sensor value 5 / Temperaturhistogramm von LLCZKFIL-Sensor Wert 5 #define I3_RES_EME_STAT_TEMP_LLCZKFIL_6_WERT (RXBUF_UINT32(68)) #define I3_RES_EME_STAT_TEMP_LLCZKFIL_6_WERT_TYPE unsigned long // Temperature histogram from LLCZKFIL sensor value 6 / Temperaturhistogramm von LLCZKFIL-Sensor Wert 6 #define I3_PID_EME_LADEGERAET_HV_UEBERSTROM 0xDFB7 // Charger overcurrent meter based on HV DC current sensor raw value / Ladegerät Überstromzähler auf Basis HV // DC-Stromsensorrohwert #define I3_RES_EME_STAT_ZAEHLER_HV_UEBERSTROM_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_ZAEHLER_HV_UEBERSTROM_WERT_TYPE unsigned long // Charger overcurrent meter based on HV DC current sensor raw value / Ladegerät Überstromzähler auf Basis HV // DC-Stromsensorrohwert #define I3_PID_EME_EMASCHINE_MAX_DREHZAHL 0xDFCE // Reading out the absolute time in the critical electric machine speed range / Auslesen der Absolutzeit im // kritischen E-Maschinen Drehzahl Bereich #define I3_RES_EME_STAT_DREHZAHL_BEREICH_1_WERT (RXBUF_UINT(0)) #define I3_RES_EME_STAT_DREHZAHL_BEREICH_1_WERT_UNIT 's' #define I3_RES_EME_STAT_DREHZAHL_BEREICH_1_WERT_TYPE unsigned short // Absolute time in the critical electric machine speed range 1 (seconds) / Absolutzeit im kritischen E-Maschinen // Drehzahl Bereich 1 (Sekunden) #define I3_RES_EME_STAT_DREHZAHL_BEREICH_2_WERT (RXBUF_UINT(2)) #define I3_RES_EME_STAT_DREHZAHL_BEREICH_2_WERT_UNIT 's' #define I3_RES_EME_STAT_DREHZAHL_BEREICH_2_WERT_TYPE unsigned short // Absolute time in the critical electric machine speed range 2 (seconds) / Absolutzeit im kritischen E-Maschinen // Drehzahl Bereich 2 (Sekunden) #define I3_PID_EME_LAST_HISTOGRAMM_EMASCHINE_LESEN 0xDFD0 // Reading out the histograms of the electric machine (speed, torque, change of sign of the torque) / Auslesen // der Histogramme der Elektromaschine (Drehzahl, Drehmoment, Vorzeichenwechsel Drehmoment) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_1_WERT (RXBUF_UINT(0)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_1_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_1_WERT_TYPE float // Speed torque range 1 / Drehzahl Drehmoment Bereich 1 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_2_WERT (RXBUF_UINT(2)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_2_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_2_WERT_TYPE float // Speed torque range 2 / Drehzahl Drehmoment Bereich 2 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_3_WERT (RXBUF_UINT(4)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_3_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_3_WERT_TYPE float // Speed torque range 3 / Drehzahl Drehmoment Bereich 3 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_4_WERT (RXBUF_UINT(6)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_4_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_4_WERT_TYPE float // Speed torque range 4 / Drehzahl Drehmoment Bereich 4 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_5_WERT (RXBUF_UINT(8)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_5_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_5_WERT_TYPE float // Speed torque range 5 / Drehzahl Drehmoment Bereich 5 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_6_WERT (RXBUF_UINT(10)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_6_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_6_WERT_TYPE float // Speed torque range 6 / Drehzahl Drehmoment Bereich 6 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_7_WERT (RXBUF_UINT(12)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_7_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_7_WERT_TYPE float // Speed torque range 7 / Drehzahl Drehmoment Bereich 7 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_8_WERT (RXBUF_UINT(14)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_8_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_8_WERT_TYPE float // Speed torque range 8 / Drehzahl Drehmoment Bereich 8 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_9_WERT (RXBUF_UINT(16)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_9_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_9_WERT_TYPE float // Speed torque range 9 / Drehzahl Drehmoment Bereich 9 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_10_WERT (RXBUF_UINT(18)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_10_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_10_WERT_TYPE float // Speed torque range 10 / Drehzahl Drehmoment Bereich 10 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_11_WERT (RXBUF_UINT(20)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_11_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_11_WERT_TYPE float // Speed torque range 11 / Drehzahl Drehmoment Bereich 11 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_12_WERT (RXBUF_UINT(22)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_12_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_12_WERT_TYPE float // Speed torque range 12 / Drehzahl Drehmoment Bereich 12 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_13_WERT (RXBUF_UINT(24)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_13_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_13_WERT_TYPE float // Speed torque range 13 / Drehzahl Drehmoment Bereich 13 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_14_WERT (RXBUF_UINT(26)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_14_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_14_WERT_TYPE float // Speed torque range 14 / Drehzahl Drehmoment Bereich 14 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_15_WERT (RXBUF_UINT(28)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_15_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_15_WERT_TYPE float // Speed torque range 15 / Drehzahl Drehmoment Bereich 15 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_16_WERT (RXBUF_UINT(30)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_16_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_16_WERT_TYPE float // Speed torque range 16 / Drehzahl Drehmoment Bereich 16 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_17_WERT (RXBUF_UINT(32)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_17_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_17_WERT_TYPE float // Speed torque range 17 / Drehzahl Drehmoment Bereich 17 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_18_WERT (RXBUF_UINT(34)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_18_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_18_WERT_TYPE float // Speed torque range 18 / Drehzahl Drehmoment Bereich 18 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_19_WERT (RXBUF_UINT(36)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_19_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_19_WERT_TYPE float // Speed torque range 19 / Drehzahl Drehmoment Bereich 19 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_20_WERT (RXBUF_UINT(38)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_20_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_20_WERT_TYPE float // Speed torque range 20 / Drehzahl Drehmoment Bereich 20 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_21_WERT (RXBUF_UINT(40)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_21_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_21_WERT_TYPE float // Speed torque range 21 / Drehzahl Drehmoment Bereich 21 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_22_WERT (RXBUF_UINT(42)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_22_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_22_WERT_TYPE float // Speed torque range 22 / Drehzahl Drehmoment Bereich 22 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_23_WERT (RXBUF_UINT(44)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_23_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_23_WERT_TYPE float // Speed torque range 23 / Drehzahl Drehmoment Bereich 23 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_24_WERT (RXBUF_UINT(46)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_24_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_24_WERT_TYPE float // Speed torque range 24 / Drehzahl Drehmoment Bereich 24 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_25_WERT (RXBUF_UINT(48)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_25_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_25_WERT_TYPE float // Speed torque range 25 / Drehzahl Drehmoment Bereich 25 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_26_WERT (RXBUF_UINT(50)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_26_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_26_WERT_TYPE float // Speed torque range 26 / Drehzahl Drehmoment Bereich 26 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_27_WERT (RXBUF_UINT(52)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_27_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_27_WERT_TYPE float // Speed torque range 27 / Drehzahl Drehmoment Bereich 27 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_28_WERT (RXBUF_UINT(54)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_28_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_28_WERT_TYPE float // Speed torque range 28 / Drehzahl Drehmoment Bereich 28 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_29_WERT (RXBUF_UINT(56)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_29_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_29_WERT_TYPE float // Speed torque range 29 / Drehzahl Drehmoment Bereich 29 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_30_WERT (RXBUF_UINT(58)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_30_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_30_WERT_TYPE float // Speed torque range 30 / Drehzahl Drehmoment Bereich 30 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_31_WERT (RXBUF_UINT(60)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_31_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_31_WERT_TYPE float // Speed torque range 31 / Drehzahl Drehmoment Bereich 31 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_32_WERT (RXBUF_UINT(62)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_32_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_32_WERT_TYPE float // Speed torque range 32 / Drehzahl Drehmoment Bereich 32 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_33_WERT (RXBUF_UINT(64)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_33_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_33_WERT_TYPE float // Speed torque range 33 / Drehzahl Drehmoment Bereich 33 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_34_WERT (RXBUF_UINT(66)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_34_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_34_WERT_TYPE float // Speed torque range 34 / Drehzahl Drehmoment Bereich 34 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_35_WERT (RXBUF_UINT(68)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_35_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_35_WERT_TYPE float // Speed torque range 35 / Drehzahl Drehmoment Bereich 35 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_36_WERT (RXBUF_UINT(70)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_36_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_36_WERT_TYPE float // Speed torque range 36 / Drehzahl Drehmoment Bereich 36 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_37_WERT (RXBUF_UINT(72)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_37_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_37_WERT_TYPE float // Speed torque range 37 / Drehzahl Drehmoment Bereich 37 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_38_WERT (RXBUF_UINT(74)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_38_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_38_WERT_TYPE float // Speed torque range 38 / Drehzahl Drehmoment Bereich 38 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_39_WERT (RXBUF_UINT(76)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_39_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_39_WERT_TYPE float // Speed torque range 39 / Drehzahl Drehmoment Bereich 39 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_40_WERT (RXBUF_UINT(78)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_40_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_40_WERT_TYPE float // Speed torque range 40 / Drehzahl Drehmoment Bereich 40 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_41_WERT (RXBUF_UINT(80)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_41_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_41_WERT_TYPE float // Speed torque range 41 / Drehzahl Drehmoment Bereich 41 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_42_WERT (RXBUF_UINT(82)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_42_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_42_WERT_TYPE float // Speed torque range 42 / Drehzahl Drehmoment Bereich 42 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_43_WERT (RXBUF_UINT(84)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_43_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_43_WERT_TYPE float // Speed torque range 43 / Drehzahl Drehmoment Bereich 43 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_44_WERT (RXBUF_UINT(86)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_44_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_44_WERT_TYPE float // Speed torque range 44 / Drehzahl Drehmoment Bereich 44 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_45_WERT (RXBUF_UINT(88)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_45_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_45_WERT_TYPE float // Speed torque range 45 / Drehzahl Drehmoment Bereich 45 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_46_WERT (RXBUF_UINT(90)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_46_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_46_WERT_TYPE float // Speed torque range 46 / Drehzahl Drehmoment Bereich 46 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_47_WERT (RXBUF_UINT(92)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_47_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_47_WERT_TYPE float // Speed torque range 47 / Drehzahl Drehmoment Bereich 47 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_48_WERT (RXBUF_UINT(94)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_48_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_48_WERT_TYPE float // Speed torque range 48 / Drehzahl Drehmoment Bereich 48 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_49_WERT (RXBUF_UINT(96)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_49_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_49_WERT_TYPE float // Speed torque range 49 / Drehzahl Drehmoment Bereich 49 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_50_WERT (RXBUF_UINT(98)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_50_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_50_WERT_TYPE float // Speed torque range 50 / Drehzahl Drehmoment Bereich 50 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_51_WERT (RXBUF_UINT(100)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_51_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_51_WERT_TYPE float // Speed torque range 51 / Drehzahl Drehmoment Bereich 51 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_52_WERT (RXBUF_UINT(102)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_52_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_52_WERT_TYPE float // Speed torque range 52 / Drehzahl Drehmoment Bereich 52 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_53_WERT (RXBUF_UINT(104)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_53_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_53_WERT_TYPE float // Speed torque range 53 / Drehzahl Drehmoment Bereich 53 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_54_WERT (RXBUF_UINT(106)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_54_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_54_WERT_TYPE float // Speed torque range 54 / Drehzahl Drehmoment Bereich 54 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_55_WERT (RXBUF_UINT(108)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_55_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_55_WERT_TYPE float // Speed torque range 55 / Drehzahl Drehmoment Bereich 55 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_56_WERT (RXBUF_UINT(110)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_56_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_56_WERT_TYPE float // Speed torque range 56 / Drehzahl Drehmoment Bereich 56 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_57_WERT (RXBUF_UINT(112)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_57_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_57_WERT_TYPE float // Speed torque range 57 / Drehzahl Drehmoment Bereich 57 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_58_WERT (RXBUF_UINT(114)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_58_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_58_WERT_TYPE float // Speed torque range 58 / Drehzahl Drehmoment Bereich 58 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_59_WERT (RXBUF_UINT(116)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_59_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_59_WERT_TYPE float // Speed torque range 59 / Drehzahl Drehmoment Bereich 59 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_60_WERT (RXBUF_UINT(118)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_60_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_60_WERT_TYPE float // Speed torque range 60 / Drehzahl Drehmoment Bereich 60 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_61_WERT (RXBUF_UINT(120)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_61_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_61_WERT_TYPE float // Speed torque range 61 / Drehzahl Drehmoment Bereich 61 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_62_WERT (RXBUF_UINT(122)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_62_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_62_WERT_TYPE float // Speed torque range 62 / Drehzahl Drehmoment Bereich 62 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_63_WERT (RXBUF_UINT(124)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_63_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_63_WERT_TYPE float // Speed torque range 63 / Drehzahl Drehmoment Bereich 63 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_64_WERT (RXBUF_UINT(126)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_64_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_64_WERT_TYPE float // Speed torque range 64 / Drehzahl Drehmoment Bereich 64 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_65_WERT (RXBUF_UINT(128)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_65_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_65_WERT_TYPE float // Speed torque range 65 / Drehzahl Drehmoment Bereich 65 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_66_WERT (RXBUF_UINT(130)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_66_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_66_WERT_TYPE float // Speed torque range 66 / Drehzahl Drehmoment Bereich 66 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_67_WERT (RXBUF_UINT(132)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_67_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_67_WERT_TYPE float // Speed torque range 67 / Drehzahl Drehmoment Bereich 67 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_68_WERT (RXBUF_UINT(134)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_68_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_68_WERT_TYPE float // Speed torque range 68 / Drehzahl Drehmoment Bereich 68 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_69_WERT (RXBUF_UINT(136)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_69_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_69_WERT_TYPE float // Speed torque range 69 / Drehzahl Drehmoment Bereich 69 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_70_WERT (RXBUF_UINT(138)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_70_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_70_WERT_TYPE float // Speed torque range 70 / Drehzahl Drehmoment Bereich 70 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_71_WERT (RXBUF_UINT(140)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_71_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_71_WERT_TYPE float // Speed torque range 71 / Drehzahl Drehmoment Bereich 71 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_72_WERT (RXBUF_UINT(142)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_72_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_72_WERT_TYPE float // Speed torque range 72 / Drehzahl Drehmoment Bereich 72 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_73_WERT (RXBUF_UINT(144)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_73_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_73_WERT_TYPE float // Speed torque range 73 / Drehzahl Drehmoment Bereich 73 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_74_WERT (RXBUF_UINT(146)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_74_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_74_WERT_TYPE float // Speed torque range 74 / Drehzahl Drehmoment Bereich 74 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_75_WERT (RXBUF_UINT(148)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_75_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_75_WERT_TYPE float // Speed torque range 75 / Drehzahl Drehmoment Bereich 75 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_76_WERT (RXBUF_UINT(150)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_76_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_76_WERT_TYPE float // Speed torque range 76 / Drehzahl Drehmoment Bereich 76 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_77_WERT (RXBUF_UINT(152)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_77_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_77_WERT_TYPE float // Speed torque range 77 / Drehzahl Drehmoment Bereich 77 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_78_WERT (RXBUF_UINT(154)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_78_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_78_WERT_TYPE float // Speed torque range 78 / Drehzahl Drehmoment Bereich 78 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_79_WERT (RXBUF_UINT(156)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_79_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_79_WERT_TYPE float // Speed torque range 79 / Drehzahl Drehmoment Bereich 79 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_80_WERT (RXBUF_UINT(158)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_80_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_80_WERT_TYPE float // Speed torque range 80 / Drehzahl Drehmoment Bereich 80 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_81_WERT (RXBUF_UINT(160)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_81_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_81_WERT_TYPE float // Speed torque range 81 / Drehzahl Drehmoment Bereich 81 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_82_WERT (RXBUF_UINT(162)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_82_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_82_WERT_TYPE float // Speed torque range 82 / Drehzahl Drehmoment Bereich 82 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_83_WERT (RXBUF_UINT(164)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_83_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_83_WERT_TYPE float // Speed torque range 83 / Drehzahl Drehmoment Bereich 83 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_84_WERT (RXBUF_UINT(166)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_84_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_84_WERT_TYPE float // Speed torque range 84 / Drehzahl Drehmoment Bereich 84 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_85_WERT (RXBUF_UINT(168)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_85_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_85_WERT_TYPE float // Speed torque range 85 / Drehzahl Drehmoment Bereich 85 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_86_WERT (RXBUF_UINT(170)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_86_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_86_WERT_TYPE float // Speed torque range 86 / Drehzahl Drehmoment Bereich 86 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_87_WERT (RXBUF_UINT(172)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_87_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_87_WERT_TYPE float // Speed torque range 87 / Drehzahl Drehmoment Bereich 87 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_88_WERT (RXBUF_UINT(174)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_88_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_88_WERT_TYPE float // Speed torque range 88 / Drehzahl Drehmoment Bereich 88 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_89_WERT (RXBUF_UINT(176)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_89_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_89_WERT_TYPE float // Speed torque range 89 / Drehzahl Drehmoment Bereich 89 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_90_WERT (RXBUF_UINT(178)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_90_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_90_WERT_TYPE float // Speed torque range 90 / Drehzahl Drehmoment Bereich 90 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_91_WERT (RXBUF_UINT(180)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_91_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_91_WERT_TYPE float // Speed torque range 91 / Drehzahl Drehmoment Bereich 91 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_92_WERT (RXBUF_UINT(182)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_92_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_92_WERT_TYPE float // Speed torque range 92 / Drehzahl Drehmoment Bereich 92 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_93_WERT (RXBUF_UINT(184)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_93_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_93_WERT_TYPE float // Speed torque range 93 / Drehzahl Drehmoment Bereich 93 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_94_WERT (RXBUF_UINT(186)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_94_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_94_WERT_TYPE float // Speed torque range 94 / Drehzahl Drehmoment Bereich 94 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_95_WERT (RXBUF_UINT(188)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_95_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_95_WERT_TYPE float // Speed torque range 95 / Drehzahl Drehmoment Bereich 95 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_96_WERT (RXBUF_UINT(190)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_96_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_96_WERT_TYPE float // Speed torque range 96 / Drehzahl Drehmoment Bereich 96 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_97_WERT (RXBUF_UINT(192)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_97_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_97_WERT_TYPE float // Speed torque range 97 / Drehzahl Drehmoment Bereich 97 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_98_WERT (RXBUF_UINT(194)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_98_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_98_WERT_TYPE float // Speed torque range 98 / Drehzahl Drehmoment Bereich 98 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_99_WERT (RXBUF_UINT(196)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_99_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_99_WERT_TYPE float // Speed torque range 99 / Drehzahl Drehmoment Bereich 99 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_100_WERT (RXBUF_UINT(198)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_100_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_100_WERT_TYPE float // Speed torque range 100 / Drehzahl Drehmoment Bereich 100 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_101_WERT (RXBUF_UINT(200)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_101_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_101_WERT_TYPE float // Speed torque range 101 / Drehzahl Drehmoment Bereich 101 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_102_WERT (RXBUF_UINT(202)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_102_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_102_WERT_TYPE float // Speed torque range 102 / Drehzahl Drehmoment Bereich 102 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_103_WERT (RXBUF_UINT(204)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_103_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_103_WERT_TYPE float // Speed torque range 103 / Drehzahl Drehmoment Bereich 103 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_104_WERT (RXBUF_UINT(206)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_104_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_104_WERT_TYPE float // Speed torque range 104 / Drehzahl Drehmoment Bereich 104 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_105_WERT (RXBUF_UINT(208)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_105_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_105_WERT_TYPE float // Speed torque range 105 / Drehzahl Drehmoment Bereich 105 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_106_WERT (RXBUF_UINT(210)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_106_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_106_WERT_TYPE float // Speed torque range 106 / Drehzahl Drehmoment Bereich 106 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_107_WERT (RXBUF_UINT(212)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_107_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_107_WERT_TYPE float // Speed torque range 107 / Drehzahl Drehmoment Bereich 107 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_108_WERT (RXBUF_UINT(214)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_108_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_108_WERT_TYPE float // Speed torque range 108 / Drehzahl Drehmoment Bereich 108 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_109_WERT (RXBUF_UINT(216)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_109_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_109_WERT_TYPE float // Speed torque range 109 / Drehzahl Drehmoment Bereich 109 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_110_WERT (RXBUF_UINT(218)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_110_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_110_WERT_TYPE float // Speed torque range 110 / Drehzahl Drehmoment Bereich 110 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_111_WERT (RXBUF_UINT(220)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_111_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_111_WERT_TYPE float // Speed torque range 111 / Drehzahl Drehmoment Bereich 111 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_112_WERT (RXBUF_UINT(222)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_112_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_112_WERT_TYPE float // Speed torque range 112 / Drehzahl Drehmoment Bereich 112 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_113_WERT (RXBUF_UINT(224)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_113_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_113_WERT_TYPE float // Speed torque range 113 / Drehzahl Drehmoment Bereich 113 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_114_WERT (RXBUF_UINT(226)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_114_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_114_WERT_TYPE float // Speed torque range 114 / Drehzahl Drehmoment Bereich 114 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_115_WERT (RXBUF_UINT(228)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_115_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_115_WERT_TYPE float // Speed torque range 115 / Drehzahl Drehmoment Bereich 115 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_116_WERT (RXBUF_UINT(230)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_116_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_116_WERT_TYPE float // Speed torque range 116 / Drehzahl Drehmoment Bereich 116 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_117_WERT (RXBUF_UINT(232)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_117_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_117_WERT_TYPE float // Speed torque range 117 / Drehzahl Drehmoment Bereich 117 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_118_WERT (RXBUF_UINT(234)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_118_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_118_WERT_TYPE float // Speed torque range 118 / Drehzahl Drehmoment Bereich 118 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_119_WERT (RXBUF_UINT(236)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_119_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_119_WERT_TYPE float // Speed torque range 119 / Drehzahl Drehmoment Bereich 119 #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_120_WERT (RXBUF_UINT(238)*0.002f) #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_120_WERT_UNIT '%' #define I3_RES_EME_STAT_DREHZAHL_DREHMOMENT_BEREICH_120_WERT_TYPE float // Speed torque range 120 / Drehzahl Drehmoment Bereich 120 #define I3_PID_EME_RATE_BASED_MONITORING 0xE52F // RBM data on discontinuous diagnoses including dependent secondaries. / RBM Daten zu nicht kontinuierlichen // Diagnosen inkl. Dependant Secondaries. // Can't yet generate code for STAT_DTC_1_HEXCODE_DATA of type data[3] at offset 0. But we account for the 3 bytes // HexCode of DTC 1 / HexCode von DTC 1 #define I3_RES_EME_STAT_DTC_1_NUM_WERT (RXBUF_UINT(3)) #define I3_RES_EME_STAT_DTC_1_NUM_WERT_TYPE unsigned short // DTC numerator 1 / Numerator von DTC 1 #define I3_RES_EME_STAT_DTC_1_DEN_WERT (RXBUF_UINT(5)) #define I3_RES_EME_STAT_DTC_1_DEN_WERT_TYPE unsigned short // Denominator of DTC 1 / Denominator von DTC 1 // Can't yet generate code for STAT_DTC_2_HEXCODE_DATA of type data[3] at offset 7. But we account for the 3 bytes // HexCode of DTC 2 / HexCode von DTC 2 #define I3_RES_EME_STAT_DTC_2_NUM_WERT (RXBUF_UINT(10)) #define I3_RES_EME_STAT_DTC_2_NUM_WERT_TYPE unsigned short // DTC numerator 2 / Numerator von DTC 2 #define I3_RES_EME_STAT_DTC_2_DEN_WERT (RXBUF_UINT(12)) #define I3_RES_EME_STAT_DTC_2_DEN_WERT_TYPE unsigned short // Denominator of DTC 2 / Denominator von DTC 2 // Can't yet generate code for STAT_DTC_3_HEXCODE_DATA of type data[3] at offset 14. But we account for the 3 bytes // HexCode of DTC 3 / HexCode von DTC 3 #define I3_RES_EME_STAT_DTC_3_NUM_WERT (RXBUF_UINT(17)) #define I3_RES_EME_STAT_DTC_3_NUM_WERT_TYPE unsigned short // DTC numerator 3 / Numerator von DTC 3 #define I3_RES_EME_STAT_DTC_3_DEN_WERT (RXBUF_UINT(19)) #define I3_RES_EME_STAT_DTC_3_DEN_WERT_TYPE unsigned short // Denominator of DTC 3 / Denominator von DTC 3 // Can't yet generate code for STAT_DTC_4_HEXCODE_DATA of type data[3] at offset 21. But we account for the 3 bytes // HexCode of DTC 4 / HexCode von DTC 4 #define I3_RES_EME_STAT_DTC_4_NUM_WERT (RXBUF_UINT(24)) #define I3_RES_EME_STAT_DTC_4_NUM_WERT_TYPE unsigned short // Numerator from DTC 4 / Numerator von DTC 4 #define I3_RES_EME_STAT_DTC_4_DEN_WERT (RXBUF_UINT(26)) #define I3_RES_EME_STAT_DTC_4_DEN_WERT_TYPE unsigned short // Denominator of DTC 4 / Denominator von DTC 4 // Can't yet generate code for STAT_DTC_5_HEXCODE_DATA of type data[3] at offset 28. But we account for the 3 bytes // HexCode of DTC 5 / HexCode von DTC 5 #define I3_RES_EME_STAT_DTC_5_NUM_WERT (RXBUF_UINT(31)) #define I3_RES_EME_STAT_DTC_5_NUM_WERT_TYPE unsigned short // Numerator from DTC 5 / Numerator von DTC 5 #define I3_RES_EME_STAT_DTC_5_DEN_WERT (RXBUF_UINT(33)) #define I3_RES_EME_STAT_DTC_5_DEN_WERT_TYPE unsigned short // Denominator of DTC 5 / Denominator von DTC 5 // Can't yet generate code for STAT_DTC_6_HEXCODE_DATA of type data[3] at offset 35. But we account for the 3 bytes // HexCode of DTC 6 / HexCode von DTC 6 #define I3_RES_EME_STAT_DTC_6_NUM_WERT (RXBUF_UINT(38)) #define I3_RES_EME_STAT_DTC_6_NUM_WERT_TYPE unsigned short // Numerator from DTC 6 / Numerator von DTC 6 #define I3_RES_EME_STAT_DTC_6_DEN_WERT (RXBUF_UINT(40)) #define I3_RES_EME_STAT_DTC_6_DEN_WERT_TYPE unsigned short // Denominator of DTC 6 / Denominator von DTC 6 // Can't yet generate code for STAT_DTC_7_HEXCODE_DATA of type data[3] at offset 42. But we account for the 3 bytes // HexCode of DTC 7 / HexCode von DTC 7 #define I3_RES_EME_STAT_DTC_7_NUM_WERT (RXBUF_UINT(45)) #define I3_RES_EME_STAT_DTC_7_NUM_WERT_TYPE unsigned short // Numerator from DTC 7 / Numerator von DTC 7 #define I3_RES_EME_STAT_DTC_7_DEN_WERT (RXBUF_UINT(47)) #define I3_RES_EME_STAT_DTC_7_DEN_WERT_TYPE unsigned short // Denominator of DTC 7 / Denominator von DTC 7 // Can't yet generate code for STAT_DTC_8_HEXCODE_DATA of type data[3] at offset 49. But we account for the 3 bytes // HexCode of DTC 8 / HexCode von DTC 8 #define I3_RES_EME_STAT_DTC_8_NUM_WERT (RXBUF_UINT(52)) #define I3_RES_EME_STAT_DTC_8_NUM_WERT_TYPE unsigned short // Numerator from DTC 8 / Numerator von DTC 8 #define I3_RES_EME_STAT_DTC_8_DEN_WERT (RXBUF_UINT(54)) #define I3_RES_EME_STAT_DTC_8_DEN_WERT_TYPE unsigned short // Denominator of DTC 8 / Denominator von DTC 8 // Can't yet generate code for STAT_DTC_9_HEXCODE_DATA of type data[3] at offset 56. But we account for the 3 bytes // HexCode of DTC 9 / HexCode von DTC 9 #define I3_RES_EME_STAT_DTC_9_NUM_WERT (RXBUF_UINT(59)) #define I3_RES_EME_STAT_DTC_9_NUM_WERT_TYPE unsigned short // Numerator from DTC 9 / Numerator von DTC 9 #define I3_RES_EME_STAT_DTC_9_DEN_WERT (RXBUF_UINT(61)) #define I3_RES_EME_STAT_DTC_9_DEN_WERT_TYPE unsigned short // Denominator of DTC 9 / Denominator von DTC 9 // Can't yet generate code for STAT_DTC_10_HEXCODE_DATA of type data[3] at offset 63. But we account for the 3 bytes // HexCode of DTC 10 / HexCode von DTC 10 #define I3_RES_EME_STAT_DTC_10_NUM_WERT (RXBUF_UINT(66)) #define I3_RES_EME_STAT_DTC_10_NUM_WERT_TYPE unsigned short // Numerator from DTC 10 / Numerator von DTC 10 #define I3_RES_EME_STAT_DTC_10_DEN_WERT (RXBUF_UINT(68)) #define I3_RES_EME_STAT_DTC_10_DEN_WERT_TYPE unsigned short // Denominator of DTC 10 / Denominator von DTC 10 // Can't yet generate code for STAT_DTC_11_HEXCODE_DATA of type data[3] at offset 70. But we account for the 3 bytes // HexCode of DTC 11 / HexCode von DTC 11 #define I3_RES_EME_STAT_DTC_11_NUM_WERT (RXBUF_UINT(73)) #define I3_RES_EME_STAT_DTC_11_NUM_WERT_TYPE unsigned short // Numerator from DTC 11 / Numerator von DTC 11 #define I3_RES_EME_STAT_DTC_11_DEN_WERT (RXBUF_UINT(75)) #define I3_RES_EME_STAT_DTC_11_DEN_WERT_TYPE unsigned short // Denominator of DTC 11 / Denominator von DTC 11 // Can't yet generate code for STAT_DTC_12_HEXCODE_DATA of type data[3] at offset 77. But we account for the 3 bytes // HexCode of DTC 12 / HexCode von DTC 12 #define I3_RES_EME_STAT_DTC_12_NUM_WERT (RXBUF_UINT(80)) #define I3_RES_EME_STAT_DTC_12_NUM_WERT_TYPE unsigned short // Numerator from DTC 12 / Numerator von DTC 12 #define I3_RES_EME_STAT_DTC_12_DEN_WERT (RXBUF_UINT(82)) #define I3_RES_EME_STAT_DTC_12_DEN_WERT_TYPE unsigned short // Denominator of DTC 12 / Denominator von DTC 12 // Can't yet generate code for STAT_DTC_13_HEXCODE_DATA of type data[3] at offset 84. But we account for the 3 bytes // HexCode of DTC 13 / HexCode von DTC 13 #define I3_RES_EME_STAT_DTC_13_NUM_WERT (RXBUF_UINT(87)) #define I3_RES_EME_STAT_DTC_13_NUM_WERT_TYPE unsigned short // Numerator from DTC 13 / Numerator von DTC 13 #define I3_RES_EME_STAT_DTC_13_DEN_WERT (RXBUF_UINT(89)) #define I3_RES_EME_STAT_DTC_13_DEN_WERT_TYPE unsigned short // Denominator of DTC 13 / Denominator von DTC 13 // Can't yet generate code for STAT_DTC_14_HEXCODE_DATA of type data[3] at offset 91. But we account for the 3 bytes // HexCode of DTC 14 / HexCode von DTC 14 #define I3_RES_EME_STAT_DTC_14_NUM_WERT (RXBUF_UINT(94)) #define I3_RES_EME_STAT_DTC_14_NUM_WERT_TYPE unsigned short // Numerator from DTC 14 / Numerator von DTC 14 #define I3_RES_EME_STAT_DTC_14_DEN_WERT (RXBUF_UINT(96)) #define I3_RES_EME_STAT_DTC_14_DEN_WERT_TYPE unsigned short // Denominator of DTC 14 / Denominator von DTC 14 // Can't yet generate code for STAT_DTC_15_HEXCODE_DATA of type data[3] at offset 98. But we account for the 3 bytes // HexCode of DTC 15 / HexCode von DTC 15 #define I3_RES_EME_STAT_DTC_15_NUM_WERT (RXBUF_UINT(101)) #define I3_RES_EME_STAT_DTC_15_NUM_WERT_TYPE unsigned short // Numerator from DTC 15 / Numerator von DTC 15 #define I3_RES_EME_STAT_DTC_15_DEN_WERT (RXBUF_UINT(103)) #define I3_RES_EME_STAT_DTC_15_DEN_WERT_TYPE unsigned short // Denominator of DTC 15 / Denominator von DTC 15 // Can't yet generate code for STAT_DTC_16_HEXCODE_DATA of type data[3] at offset 105. But we account for the 3 bytes // HexCode of DTC 16 / HexCode von DTC 16 #define I3_RES_EME_STAT_DTC_16_NUM_WERT (RXBUF_UINT(108)) #define I3_RES_EME_STAT_DTC_16_NUM_WERT_TYPE unsigned short // Numerator from DTC 16 / Numerator von DTC 16 #define I3_RES_EME_STAT_DTC_16_DEN_WERT (RXBUF_UINT(110)) #define I3_RES_EME_STAT_DTC_16_DEN_WERT_TYPE unsigned short // Denominator of DTC 16 / Denominator von DTC 16 // Can't yet generate code for STAT_DTC_17_HEXCODE_DATA of type data[3] at offset 112. But we account for the 3 bytes // HexCode of DTC 17 / HexCode von DTC 17 #define I3_RES_EME_STAT_DTC_17_NUM_WERT (RXBUF_UINT(115)) #define I3_RES_EME_STAT_DTC_17_NUM_WERT_TYPE unsigned short // Numerator from DTC 17 / Numerator von DTC 17 #define I3_RES_EME_STAT_DTC_17_DEN_WERT (RXBUF_UINT(117)) #define I3_RES_EME_STAT_DTC_17_DEN_WERT_TYPE unsigned short // Denominator of DTC 17 / Denominator von DTC 17 // Can't yet generate code for STAT_DTC_18_HEXCODE_DATA of type data[3] at offset 119. But we account for the 3 bytes // HexCode of DTC 18 / HexCode von DTC 18 #define I3_RES_EME_STAT_DTC_18_NUM_WERT (RXBUF_UINT(122)) #define I3_RES_EME_STAT_DTC_18_NUM_WERT_TYPE unsigned short // Numerator from DTC 18 / Numerator von DTC 18 #define I3_RES_EME_STAT_DTC_18_DEN_WERT (RXBUF_UINT(124)) #define I3_RES_EME_STAT_DTC_18_DEN_WERT_TYPE unsigned short // Denominator of DTC 18 / Denominator von DTC 18 // Can't yet generate code for STAT_DTC_19_HEXCODE_DATA of type data[3] at offset 126. But we account for the 3 bytes // HexCode from DTC 19 / HexCode von DTC 19 #define I3_RES_EME_STAT_DTC_19_NUM_WERT (RXBUF_UINT(129)) #define I3_RES_EME_STAT_DTC_19_NUM_WERT_TYPE unsigned short // DTC 19 numerator / Numerator von DTC 19 #define I3_RES_EME_STAT_DTC_19_DEN_WERT (RXBUF_UINT(131)) #define I3_RES_EME_STAT_DTC_19_DEN_WERT_TYPE unsigned short // Denominator from DTC 19 / Denominator von DTC 19 // Can't yet generate code for STAT_DTC_20_HEXCODE_DATA of type data[3] at offset 133. But we account for the 3 bytes // HexCode of DTC 20 / HexCode von DTC 20 #define I3_RES_EME_STAT_DTC_20_NUM_WERT (RXBUF_UINT(136)) #define I3_RES_EME_STAT_DTC_20_NUM_WERT_TYPE unsigned short // Numerator from DTC 20 / Numerator von DTC 20 #define I3_RES_EME_STAT_DTC_20_DEN_WERT (RXBUF_UINT(138)) #define I3_RES_EME_STAT_DTC_20_DEN_WERT_TYPE unsigned short // Denominator of DTC 20 / Denominator von DTC 20 // Can't yet generate code for STAT_DTC_21_HEXCODE_DATA of type data[3] at offset 140. But we account for the 3 bytes // HexCode of DTC 21 / HexCode von DTC 21 #define I3_RES_EME_STAT_DTC_21_NUM_WERT (RXBUF_UINT(143)) #define I3_RES_EME_STAT_DTC_21_NUM_WERT_TYPE unsigned short // Numerator from DTC 21 / Numerator von DTC 21 #define I3_RES_EME_STAT_DTC_21_DEN_WERT (RXBUF_UINT(145)) #define I3_RES_EME_STAT_DTC_21_DEN_WERT_TYPE unsigned short // Denominator of DTC 21 / Denominator von DTC 21 // Can't yet generate code for STAT_DTC_22_HEXCODE_DATA of type data[3] at offset 147. But we account for the 3 bytes // HexCode of DTC 22 / HexCode von DTC 22 #define I3_RES_EME_STAT_DTC_22_NUM_WERT (RXBUF_UINT(150)) #define I3_RES_EME_STAT_DTC_22_NUM_WERT_TYPE unsigned short // Numerator from DTC 22 / Numerator von DTC 22 #define I3_RES_EME_STAT_DTC_22_DEN_WERT (RXBUF_UINT(152)) #define I3_RES_EME_STAT_DTC_22_DEN_WERT_TYPE unsigned short // Denominator of DTC 22 / Denominator von DTC 22 // Can't yet generate code for STAT_DTC_23_HEXCODE_DATA of type data[3] at offset 154. But we account for the 3 bytes // HexCode of DTC 23 / HexCode von DTC 23 #define I3_RES_EME_STAT_DTC_23_NUM_WERT (RXBUF_UINT(157)) #define I3_RES_EME_STAT_DTC_23_NUM_WERT_TYPE unsigned short // Numerator from DTC 23 / Numerator von DTC 23 #define I3_RES_EME_STAT_DTC_23_DEN_WERT (RXBUF_UINT(159)) #define I3_RES_EME_STAT_DTC_23_DEN_WERT_TYPE unsigned short // Denominator of DTC 23 / Denominator von DTC 23 // Can't yet generate code for STAT_DTC_24_HEXCODE_DATA of type data[3] at offset 161. But we account for the 3 bytes // HexCode of DTC 24 / HexCode von DTC 24 #define I3_RES_EME_STAT_DTC_24_NUM_WERT (RXBUF_UINT(164)) #define I3_RES_EME_STAT_DTC_24_NUM_WERT_TYPE unsigned short // Numerator from DTC 24 / Numerator von DTC 24 #define I3_RES_EME_STAT_DTC_24_DEN_WERT (RXBUF_UINT(166)) #define I3_RES_EME_STAT_DTC_24_DEN_WERT_TYPE unsigned short // Denominator of DTC 24 / Denominator von DTC 24 // Can't yet generate code for STAT_DTC_25_HEXCODE_DATA of type data[3] at offset 168. But we account for the 3 bytes // HexCode of DTC 25 / HexCode von DTC 25 #define I3_RES_EME_STAT_DTC_25_NUM_WERT (RXBUF_UINT(171)) #define I3_RES_EME_STAT_DTC_25_NUM_WERT_TYPE unsigned short // Numerator from DTC 25 / Numerator von DTC 25 #define I3_RES_EME_STAT_DTC_25_DEN_WERT (RXBUF_UINT(173)) #define I3_RES_EME_STAT_DTC_25_DEN_WERT_TYPE unsigned short // Denominator of DTC 25 / Denominator von DTC 25 // Can't yet generate code for STAT_DTC_26_HEXCODE_DATA of type data[3] at offset 175. But we account for the 3 bytes // HexCode of DTC 26 / HexCode von DTC 26 #define I3_RES_EME_STAT_DTC_26_NUM_WERT (RXBUF_UINT(178)) #define I3_RES_EME_STAT_DTC_26_NUM_WERT_TYPE unsigned short // Numerator from DTC 26 / Numerator von DTC 26 #define I3_RES_EME_STAT_DTC_26_DEN_WERT (RXBUF_UINT(180)) #define I3_RES_EME_STAT_DTC_26_DEN_WERT_TYPE unsigned short // Denominator of DTC 26 / Denominator von DTC 26 // Can't yet generate code for STAT_DTC_27_HEXCODE_DATA of type data[3] at offset 182. But we account for the 3 bytes // HexCode of DTC 27 / HexCode von DTC 27 #define I3_RES_EME_STAT_DTC_27_NUM_WERT (RXBUF_UINT(185)) #define I3_RES_EME_STAT_DTC_27_NUM_WERT_TYPE unsigned short // Numerator from DTC 27 / Numerator von DTC 27 #define I3_RES_EME_STAT_DTC_27_DEN_WERT (RXBUF_UINT(187)) #define I3_RES_EME_STAT_DTC_27_DEN_WERT_TYPE unsigned short // Denominator of DTC 27 / Denominator von DTC 27 // Can't yet generate code for STAT_DTC_28_HEXCODE_DATA of type data[3] at offset 189. But we account for the 3 bytes // HexCode of DTC 28 / HexCode von DTC 28 #define I3_RES_EME_STAT_DTC_28_NUM_WERT (RXBUF_UINT(192)) #define I3_RES_EME_STAT_DTC_28_NUM_WERT_TYPE unsigned short // Numerator from DTC 28 / Numerator von DTC 28 #define I3_RES_EME_STAT_DTC_28_DEN_WERT (RXBUF_UINT(194)) #define I3_RES_EME_STAT_DTC_28_DEN_WERT_TYPE unsigned short // Denominator of DTC 28 / Denominator von DTC 28 // Can't yet generate code for STAT_DTC_29_HEXCODE_DATA of type data[3] at offset 196. But we account for the 3 bytes // HexCode of DTC 29 / HexCode von DTC 29 #define I3_RES_EME_STAT_DTC_29_NUM_WERT (RXBUF_UINT(199)) #define I3_RES_EME_STAT_DTC_29_NUM_WERT_TYPE unsigned short // Numerator from DTC 29 / Numerator von DTC 29 #define I3_RES_EME_STAT_DTC_29_DEN_WERT (RXBUF_UINT(201)) #define I3_RES_EME_STAT_DTC_29_DEN_WERT_TYPE unsigned short // Denominator of DTC 29 / Denominator von DTC 29 // Can't yet generate code for STAT_DTC_30_HEXCODE_DATA of type data[3] at offset 203. But we account for the 3 bytes // HexCode of DTC 30 / HexCode von DTC 30 #define I3_RES_EME_STAT_DTC_30_NUM_WERT (RXBUF_UINT(206)) #define I3_RES_EME_STAT_DTC_30_NUM_WERT_TYPE unsigned short // Numerator from DTC 30 / Numerator von DTC 30 #define I3_RES_EME_STAT_DTC_30_DEN_WERT (RXBUF_UINT(208)) #define I3_RES_EME_STAT_DTC_30_DEN_WERT_TYPE unsigned short // Denominator of DTC 30 / Denominator von DTC 30 // Can't yet generate code for STAT_DTC_31_HEXCODE_DATA of type data[3] at offset 210. But we account for the 3 bytes // HexCode of DTC 31 / HexCode von DTC 31 #define I3_RES_EME_STAT_DTC_31_NUM_WERT (RXBUF_UINT(213)) #define I3_RES_EME_STAT_DTC_31_NUM_WERT_TYPE unsigned short // Numerator from DTC 31 / Numerator von DTC 31 #define I3_RES_EME_STAT_DTC_31_DEN_WERT (RXBUF_UINT(215)) #define I3_RES_EME_STAT_DTC_31_DEN_WERT_TYPE unsigned short // Denominator of DTC 31 / Denominator von DTC 31 // Can't yet generate code for STAT_DTC_32_HEXCODE_DATA of type data[3] at offset 217. But we account for the 3 bytes // HexCode of DTC 32 / HexCode von DTC 32 #define I3_RES_EME_STAT_DTC_32_NUM_WERT (RXBUF_UINT(220)) #define I3_RES_EME_STAT_DTC_32_NUM_WERT_TYPE unsigned short // DTC 32 numerator / Numerator von DTC 32 #define I3_RES_EME_STAT_DTC_32_DEN_WERT (RXBUF_UINT(222)) #define I3_RES_EME_STAT_DTC_32_DEN_WERT_TYPE unsigned short // Denominator of DTC 32 / Denominator von DTC 32 // Can't yet generate code for STAT_DTC_33_HEXCODE_DATA of type data[3] at offset 224. But we account for the 3 bytes // HexCode of DTC 33 / HexCode von DTC 33 #define I3_RES_EME_STAT_DTC_33_NUM_WERT (RXBUF_UINT(227)) #define I3_RES_EME_STAT_DTC_33_NUM_WERT_TYPE unsigned short // Numerator from DTC 33 / Numerator von DTC 33 #define I3_RES_EME_STAT_DTC_33_DEN_WERT (RXBUF_UINT(229)) #define I3_RES_EME_STAT_DTC_33_DEN_WERT_TYPE unsigned short // Denominator of DTC 33 / Denominator von DTC 33 // Can't yet generate code for STAT_DTC_34_HEXCODE_DATA of type data[3] at offset 231. But we account for the 3 bytes // HexCode of DTC 34 / HexCode von DTC 34 #define I3_RES_EME_STAT_DTC_34_NUM_WERT (RXBUF_UINT(234)) #define I3_RES_EME_STAT_DTC_34_NUM_WERT_TYPE unsigned short // Numerator from DTC 34 / Numerator von DTC 34 #define I3_RES_EME_STAT_DTC_34_DEN_WERT (RXBUF_UINT(236)) #define I3_RES_EME_STAT_DTC_34_DEN_WERT_TYPE unsigned short // Denominator of DTC 34 / Denominator von DTC 34 // Can't yet generate code for STAT_DTC_35_HEXCODE_DATA of type data[3] at offset 238. But we account for the 3 bytes // HexCode of DTC 35 / HexCode von DTC 35 #define I3_RES_EME_STAT_DTC_35_NUM_WERT (RXBUF_UINT(241)) #define I3_RES_EME_STAT_DTC_35_NUM_WERT_TYPE unsigned short // DTC 35 numerator / Numerator von DTC 35 #define I3_RES_EME_STAT_DTC_35_DEN_WERT (RXBUF_UINT(243)) #define I3_RES_EME_STAT_DTC_35_DEN_WERT_TYPE unsigned short // Denominator of DTC 35 / Denominator von DTC 35 // Can't yet generate code for STAT_DTC_36_HEXCODE_DATA of type data[3] at offset 245. But we account for the 3 bytes // HexCode of DTC 36 / HexCode von DTC 36 #define I3_RES_EME_STAT_DTC_36_NUM_WERT (RXBUF_UINT(248)) #define I3_RES_EME_STAT_DTC_36_NUM_WERT_TYPE unsigned short // Numerator from DTC 36 / Numerator von DTC 36 #define I3_RES_EME_STAT_DTC_36_DEN_WERT (RXBUF_UINT(250)) #define I3_RES_EME_STAT_DTC_36_DEN_WERT_TYPE unsigned short // Denominator of DTC 36 / Denominator von DTC 36 // Can't yet generate code for STAT_DTC_37_HEXCODE_DATA of type data[3] at offset 252. But we account for the 3 bytes // HexCode of DTC 37 / HexCode von DTC 37 #define I3_RES_EME_STAT_DTC_37_NUM_WERT (RXBUF_UINT(255)) #define I3_RES_EME_STAT_DTC_37_NUM_WERT_TYPE unsigned short // Numerator from DTC 37 / Numerator von DTC 37 #define I3_RES_EME_STAT_DTC_37_DEN_WERT (RXBUF_UINT(257)) #define I3_RES_EME_STAT_DTC_37_DEN_WERT_TYPE unsigned short // Denominator of DTC 37 / Denominator von DTC 37 // Can't yet generate code for STAT_DTC_38_HEXCODE_DATA of type data[3] at offset 259. But we account for the 3 bytes // HexCode of DTC 38 / HexCode von DTC 38 #define I3_RES_EME_STAT_DTC_38_NUM_WERT (RXBUF_UINT(262)) #define I3_RES_EME_STAT_DTC_38_NUM_WERT_TYPE unsigned short // Numerator from DTC 38 / Numerator von DTC 38 #define I3_RES_EME_STAT_DTC_38_DEN_WERT (RXBUF_UINT(264)) #define I3_RES_EME_STAT_DTC_38_DEN_WERT_TYPE unsigned short // Denominator of DTC 38 / Denominator von DTC 38 // Can't yet generate code for STAT_DTC_39_HEXCODE_DATA of type data[3] at offset 266. But we account for the 3 bytes // HexCode of DTC 39 / HexCode von DTC 39 #define I3_RES_EME_STAT_DTC_39_NUM_WERT (RXBUF_UINT(269)) #define I3_RES_EME_STAT_DTC_39_NUM_WERT_TYPE unsigned short // Numerator from DTC 39 / Numerator von DTC 39 #define I3_RES_EME_STAT_DTC_39_DEN_WERT (RXBUF_UINT(271)) #define I3_RES_EME_STAT_DTC_39_DEN_WERT_TYPE unsigned short // Denominator of DTC 39 / Denominator von DTC 39 // Can't yet generate code for STAT_DTC_40_HEXCODE_DATA of type data[3] at offset 273. But we account for the 3 bytes // HexCode of DTC 40 / HexCode von DTC 40 #define I3_RES_EME_STAT_DTC_40_NUM_WERT (RXBUF_UINT(276)) #define I3_RES_EME_STAT_DTC_40_NUM_WERT_TYPE unsigned short // Numerator from DTC 40 / Numerator von DTC 40 #define I3_RES_EME_STAT_DTC_40_DEN_WERT (RXBUF_UINT(278)) #define I3_RES_EME_STAT_DTC_40_DEN_WERT_TYPE unsigned short // Denominator of DTC 40 / Denominator von DTC 40 // Can't yet generate code for STAT_DTC_41_HEXCODE_DATA of type data[3] at offset 280. But we account for the 3 bytes // HexCode of DTC 41 / HexCode von DTC 41 #define I3_RES_EME_STAT_DTC_41_NUM_WERT (RXBUF_UINT(283)) #define I3_RES_EME_STAT_DTC_41_NUM_WERT_TYPE unsigned short // Numerator from DTC 41 / Numerator von DTC 41 #define I3_RES_EME_STAT_DTC_41_DEN_WERT (RXBUF_UINT(285)) #define I3_RES_EME_STAT_DTC_41_DEN_WERT_TYPE unsigned short // Denominator of DTC 41 / Denominator von DTC 41 // Can't yet generate code for STAT_DTC_42_HEXCODE_DATA of type data[3] at offset 287. But we account for the 3 bytes // HexCode of DTC 42 / HexCode von DTC 42 #define I3_RES_EME_STAT_DTC_42_NUM_WERT (RXBUF_UINT(290)) #define I3_RES_EME_STAT_DTC_42_NUM_WERT_TYPE unsigned short // Numerator from DTC 42 / Numerator von DTC 42 #define I3_RES_EME_STAT_DTC_42_DEN_WERT (RXBUF_UINT(292)) #define I3_RES_EME_STAT_DTC_42_DEN_WERT_TYPE unsigned short // Denominator of DTC 42 / Denominator von DTC 42 // Can't yet generate code for STAT_DTC_43_HEXCODE_DATA of type data[3] at offset 294. But we account for the 3 bytes // HexCode of DTC 43 / HexCode von DTC 43 #define I3_RES_EME_STAT_DTC_43_NUM_WERT (RXBUF_UINT(297)) #define I3_RES_EME_STAT_DTC_43_NUM_WERT_TYPE unsigned short // Numerator from DTC 43 / Numerator von DTC 43 #define I3_RES_EME_STAT_DTC_43_DEN_WERT (RXBUF_UINT(299)) #define I3_RES_EME_STAT_DTC_43_DEN_WERT_TYPE unsigned short // Denominator of DTC 43 / Denominator von DTC 43 // Can't yet generate code for STAT_DTC_44_HEXCODE_DATA of type data[3] at offset 301. But we account for the 3 bytes // HexCode of DTC 44 / HexCode von DTC 44 #define I3_RES_EME_STAT_DTC_44_NUM_WERT (RXBUF_UINT(304)) #define I3_RES_EME_STAT_DTC_44_NUM_WERT_TYPE unsigned short // DTC 44 numerator / Numerator von DTC 44 #define I3_RES_EME_STAT_DTC_44_DEN_WERT (RXBUF_UINT(306)) #define I3_RES_EME_STAT_DTC_44_DEN_WERT_TYPE unsigned short // Denominator of DTC 44 / Denominator von DTC 44 // Can't yet generate code for STAT_DTC_45_HEXCODE_DATA of type data[3] at offset 308. But we account for the 3 bytes // HexCode of DTC 45 / HexCode von DTC 45 #define I3_RES_EME_STAT_DTC_45_NUM_WERT (RXBUF_UINT(311)) #define I3_RES_EME_STAT_DTC_45_NUM_WERT_TYPE unsigned short // DTC 45 numerator / Numerator von DTC 45 #define I3_RES_EME_STAT_DTC_45_DEN_WERT (RXBUF_UINT(313)) #define I3_RES_EME_STAT_DTC_45_DEN_WERT_TYPE unsigned short // Denominator of DTC 45 / Denominator von DTC 45 // Can't yet generate code for STAT_DTC_46_HEXCODE_DATA of type data[3] at offset 315. But we account for the 3 bytes // HexCode of DTC 46 / HexCode von DTC 46 #define I3_RES_EME_STAT_DTC_46_NUM_WERT (RXBUF_UINT(318)) #define I3_RES_EME_STAT_DTC_46_NUM_WERT_TYPE unsigned short // Numerator from DTC 46 / Numerator von DTC 46 #define I3_RES_EME_STAT_DTC_46_DEN_WERT (RXBUF_UINT(320)) #define I3_RES_EME_STAT_DTC_46_DEN_WERT_TYPE unsigned short // Denominator of DTC 46 / Denominator von DTC 46 // Can't yet generate code for STAT_DTC_47_HEXCODE_DATA of type data[3] at offset 322. But we account for the 3 bytes // HexCode of DTC 47 / HexCode von DTC 47 #define I3_RES_EME_STAT_DTC_47_NUM_WERT (RXBUF_UINT(325)) #define I3_RES_EME_STAT_DTC_47_NUM_WERT_TYPE unsigned short // Numerator from DTC 47 / Numerator von DTC 47 #define I3_RES_EME_STAT_DTC_47_DEN_WERT (RXBUF_UINT(327)) #define I3_RES_EME_STAT_DTC_47_DEN_WERT_TYPE unsigned short // Denominator of DTC 47 / Denominator von DTC 47 // Can't yet generate code for STAT_DTC_48_HEXCODE_DATA of type data[3] at offset 329. But we account for the 3 bytes // HexCode of DTC 48 / HexCode von DTC 48 #define I3_RES_EME_STAT_DTC_48_NUM_WERT (RXBUF_UINT(332)) #define I3_RES_EME_STAT_DTC_48_NUM_WERT_TYPE unsigned short // Numerator from DTC 48 / Numerator von DTC 48 #define I3_RES_EME_STAT_DTC_48_DEN_WERT (RXBUF_UINT(334)) #define I3_RES_EME_STAT_DTC_48_DEN_WERT_TYPE unsigned short // Denominator of DTC 48 / Denominator von DTC 48 // Can't yet generate code for STAT_DTC_49_HEXCODE_DATA of type data[3] at offset 336. But we account for the 3 bytes // HexCode of DTC 49 / HexCode von DTC 49 #define I3_RES_EME_STAT_DTC_49_NUM_WERT (RXBUF_UINT(339)) #define I3_RES_EME_STAT_DTC_49_NUM_WERT_TYPE unsigned short // DTC 49 numerator / Numerator von DTC 49 #define I3_RES_EME_STAT_DTC_49_DEN_WERT (RXBUF_UINT(341)) #define I3_RES_EME_STAT_DTC_49_DEN_WERT_TYPE unsigned short // Denominator of DTC 49 / Denominator von DTC 49 // Can't yet generate code for STAT_DTC_50_HEXCODE_DATA of type data[3] at offset 343. But we account for the 3 bytes // HexCode of DTC 50 / HexCode von DTC 50 #define I3_RES_EME_STAT_DTC_50_NUM_WERT (RXBUF_UINT(346)) #define I3_RES_EME_STAT_DTC_50_NUM_WERT_TYPE unsigned short // DTC 50 numerator / Numerator von DTC 50 #define I3_RES_EME_STAT_DTC_50_DEN_WERT (RXBUF_UINT(348)) #define I3_RES_EME_STAT_DTC_50_DEN_WERT_TYPE unsigned short // Denominator of DTC 50 / Denominator von DTC 50 // Can't yet generate code for STAT_DTC_51_HEXCODE_DATA of type data[3] at offset 350. But we account for the 3 bytes // HexCode of DTC 51 / HexCode von DTC 51 #define I3_RES_EME_STAT_DTC_51_NUM_WERT (RXBUF_UINT(353)) #define I3_RES_EME_STAT_DTC_51_NUM_WERT_TYPE unsigned short // Numerator from DTC 51 / Numerator von DTC 51 #define I3_RES_EME_STAT_DTC_51_DEN_WERT (RXBUF_UINT(355)) #define I3_RES_EME_STAT_DTC_51_DEN_WERT_TYPE unsigned short // Denominator of DTC 51 / Denominator von DTC 51 // Can't yet generate code for STAT_DTC_52_HEXCODE_DATA of type data[3] at offset 357. But we account for the 3 bytes // HexCode of DTC 52 / HexCode von DTC 52 #define I3_RES_EME_STAT_DTC_52_NUM_WERT (RXBUF_UINT(360)) #define I3_RES_EME_STAT_DTC_52_NUM_WERT_TYPE unsigned short // DTC 52 numerator / Numerator von DTC 52 #define I3_RES_EME_STAT_DTC_52_DEN_WERT (RXBUF_UINT(362)) #define I3_RES_EME_STAT_DTC_52_DEN_WERT_TYPE unsigned short // Denominator of DTC 52 / Denominator von DTC 52 // Can't yet generate code for STAT_DTC_53_HEXCODE_DATA of type data[3] at offset 364. But we account for the 3 bytes // HexCode of DTC 53 / HexCode von DTC 53 #define I3_RES_EME_STAT_DTC_53_NUM_WERT (RXBUF_UINT(367)) #define I3_RES_EME_STAT_DTC_53_NUM_WERT_TYPE unsigned short // DTC 53 numerator / Numerator von DTC 53 #define I3_RES_EME_STAT_DTC_53_DEN_WERT (RXBUF_UINT(369)) #define I3_RES_EME_STAT_DTC_53_DEN_WERT_TYPE unsigned short // Denominator of DTC 53 / Denominator von DTC 53 // Can't yet generate code for STAT_DTC_54_HEXCODE_DATA of type data[3] at offset 371. But we account for the 3 bytes // HexCode of DTC 54 / HexCode von DTC 54 #define I3_RES_EME_STAT_DTC_54_NUM_WERT (RXBUF_UINT(374)) #define I3_RES_EME_STAT_DTC_54_NUM_WERT_TYPE unsigned short // Numerator from DTC 54 / Numerator von DTC 54 #define I3_RES_EME_STAT_DTC_54_DEN_WERT (RXBUF_UINT(376)) #define I3_RES_EME_STAT_DTC_54_DEN_WERT_TYPE unsigned short // Denominator of DTC 54 / Denominator von DTC 54 // Can't yet generate code for STAT_DTC_55_HEXCODE_DATA of type data[3] at offset 378. But we account for the 3 bytes // HexCode of DTC 55 / HexCode von DTC 55 #define I3_RES_EME_STAT_DTC_55_NUM_WERT (RXBUF_UINT(381)) #define I3_RES_EME_STAT_DTC_55_NUM_WERT_TYPE unsigned short // DTC 55 numerator / Numerator von DTC 55 #define I3_RES_EME_STAT_DTC_55_DEN_WERT (RXBUF_UINT(383)) #define I3_RES_EME_STAT_DTC_55_DEN_WERT_TYPE unsigned short // Denominator of DTC 55 / Denominator von DTC 55 // Can't yet generate code for STAT_DTC_56_HEXCODE_DATA of type data[3] at offset 385. But we account for the 3 bytes // HexCode of DTC 56 / HexCode von DTC 56 #define I3_RES_EME_STAT_DTC_56_NUM_WERT (RXBUF_UINT(388)) #define I3_RES_EME_STAT_DTC_56_NUM_WERT_TYPE unsigned short // Numerator from DTC 56 / Numerator von DTC 56 #define I3_RES_EME_STAT_DTC_56_DEN_WERT (RXBUF_UINT(390)) #define I3_RES_EME_STAT_DTC_56_DEN_WERT_TYPE unsigned short // Denominator of DTC 56 / Denominator von DTC 56 // Can't yet generate code for STAT_DTC_57_HEXCODE_DATA of type data[3] at offset 392. But we account for the 3 bytes // HexCode of DTC 57 / HexCode von DTC 57 #define I3_RES_EME_STAT_DTC_57_NUM_WERT (RXBUF_UINT(395)) #define I3_RES_EME_STAT_DTC_57_NUM_WERT_TYPE unsigned short // Numerator from DTC 57 / Numerator von DTC 57 #define I3_RES_EME_STAT_DTC_57_DEN_WERT (RXBUF_UINT(397)) #define I3_RES_EME_STAT_DTC_57_DEN_WERT_TYPE unsigned short // Denominator of DTC 57 / Denominator von DTC 57 // Can't yet generate code for STAT_DTC_58_HEXCODE_DATA of type data[3] at offset 399. But we account for the 3 bytes // HexCode of DTC 58 / HexCode von DTC 58 #define I3_RES_EME_STAT_DTC_58_NUM_WERT (RXBUF_UINT(402)) #define I3_RES_EME_STAT_DTC_58_NUM_WERT_TYPE unsigned short // Numerator from DTC 58 / Numerator von DTC 58 #define I3_RES_EME_STAT_DTC_58_DEN_WERT (RXBUF_UINT(404)) #define I3_RES_EME_STAT_DTC_58_DEN_WERT_TYPE unsigned short // Denominator of DTC 58 / Denominator von DTC 58 // Can't yet generate code for STAT_DTC_59_HEXCODE_DATA of type data[3] at offset 406. But we account for the 3 bytes // HexCode of DTC 59 / HexCode von DTC 59 #define I3_RES_EME_STAT_DTC_59_NUM_WERT (RXBUF_UINT(409)) #define I3_RES_EME_STAT_DTC_59_NUM_WERT_TYPE unsigned short // Numerator from DTC 59 / Numerator von DTC 59 #define I3_RES_EME_STAT_DTC_59_DEN_WERT (RXBUF_UINT(411)) #define I3_RES_EME_STAT_DTC_59_DEN_WERT_TYPE unsigned short // Denominator of DTC 59 / Denominator von DTC 59 // Can't yet generate code for STAT_DTC_60_HEXCODE_DATA of type data[3] at offset 413. But we account for the 3 bytes // HexCode of DTC 60 / HexCode von DTC 60 #define I3_RES_EME_STAT_DTC_60_NUM_WERT (RXBUF_UINT(416)) #define I3_RES_EME_STAT_DTC_60_NUM_WERT_TYPE unsigned short // DTC 60 numerator / Numerator von DTC 60 #define I3_RES_EME_STAT_DTC_60_DEN_WERT (RXBUF_UINT(418)) #define I3_RES_EME_STAT_DTC_60_DEN_WERT_TYPE unsigned short // Denominator of DTC 60 / Denominator von DTC 60 // Can't yet generate code for STAT_DTC_61_HEXCODE_DATA of type data[3] at offset 420. But we account for the 3 bytes // HexCode of DTC 61 / HexCode von DTC 61 #define I3_RES_EME_STAT_DTC_61_NUM_WERT (RXBUF_UINT(423)) #define I3_RES_EME_STAT_DTC_61_NUM_WERT_TYPE unsigned short // DTC 61 numerator / Numerator von DTC 61 #define I3_RES_EME_STAT_DTC_61_DEN_WERT (RXBUF_UINT(425)) #define I3_RES_EME_STAT_DTC_61_DEN_WERT_TYPE unsigned short // Denominator of DTC 61 / Denominator von DTC 61 // Can't yet generate code for STAT_DTC_62_HEXCODE_DATA of type data[3] at offset 427. But we account for the 3 bytes // HexCode of DTC 62 / HexCode von DTC 62 #define I3_RES_EME_STAT_DTC_62_NUM_WERT (RXBUF_UINT(430)) #define I3_RES_EME_STAT_DTC_62_NUM_WERT_TYPE unsigned short // Numerator from DTC 62 / Numerator von DTC 62 #define I3_RES_EME_STAT_DTC_62_DEN_WERT (RXBUF_UINT(432)) #define I3_RES_EME_STAT_DTC_62_DEN_WERT_TYPE unsigned short // Denominator of DTC 62 / Denominator von DTC 62 // Can't yet generate code for STAT_DTC_63_HEXCODE_DATA of type data[3] at offset 434. But we account for the 3 bytes // HexCode of DTC 63 / HexCode von DTC 63 #define I3_RES_EME_STAT_DTC_63_NUM_WERT (RXBUF_UINT(437)) #define I3_RES_EME_STAT_DTC_63_NUM_WERT_TYPE unsigned short // DTC 63 numerator / Numerator von DTC 63 #define I3_RES_EME_STAT_DTC_63_DEN_WERT (RXBUF_UINT(439)) #define I3_RES_EME_STAT_DTC_63_DEN_WERT_TYPE unsigned short // Denominator of DTC 63 / Denominator von DTC 63 // Can't yet generate code for STAT_DTC_64_HEXCODE_DATA of type data[3] at offset 441. But we account for the 3 bytes // HexCode of DTC 64 / HexCode von DTC 64 #define I3_RES_EME_STAT_DTC_64_NUM_WERT (RXBUF_UINT(444)) #define I3_RES_EME_STAT_DTC_64_NUM_WERT_TYPE unsigned short // DTC 64 numerator / Numerator von DTC 64 #define I3_RES_EME_STAT_DTC_64_DEN_WERT (RXBUF_UINT(446)) #define I3_RES_EME_STAT_DTC_64_DEN_WERT_TYPE unsigned short // Denominator of DTC 64 / Denominator von DTC 64 // Can't yet generate code for STAT_DTC_65_HEXCODE_DATA of type data[3] at offset 448. But we account for the 3 bytes // HexCode of DTC 65 / HexCode von DTC 65 #define I3_RES_EME_STAT_DTC_65_NUM_WERT (RXBUF_UINT(451)) #define I3_RES_EME_STAT_DTC_65_NUM_WERT_TYPE unsigned short // Numerator from DTC 65 / Numerator von DTC 65 #define I3_RES_EME_STAT_DTC_65_DEN_WERT (RXBUF_UINT(453)) #define I3_RES_EME_STAT_DTC_65_DEN_WERT_TYPE unsigned short // Denominator of DTC 65 / Denominator von DTC 65 // Can't yet generate code for STAT_DTC_66_HEXCODE_DATA of type data[3] at offset 455. But we account for the 3 bytes // HexCode of DTC 66 / HexCode von DTC 66 #define I3_RES_EME_STAT_DTC_66_NUM_WERT (RXBUF_UINT(458)) #define I3_RES_EME_STAT_DTC_66_NUM_WERT_TYPE unsigned short // Numerator from DTC 66 / Numerator von DTC 66 #define I3_RES_EME_STAT_DTC_66_DEN_WERT (RXBUF_UINT(460)) #define I3_RES_EME_STAT_DTC_66_DEN_WERT_TYPE unsigned short // Denominator of DTC 66 / Denominator von DTC 66 // Can't yet generate code for STAT_DTC_67_HEXCODE_DATA of type data[3] at offset 462. But we account for the 3 bytes // HexCode of DTC 67 / HexCode von DTC 67 #define I3_RES_EME_STAT_DTC_67_NUM_WERT (RXBUF_UINT(465)) #define I3_RES_EME_STAT_DTC_67_NUM_WERT_TYPE unsigned short // DTC 67 numerator / Numerator von DTC 67 #define I3_RES_EME_STAT_DTC_67_DEN_WERT (RXBUF_UINT(467)) #define I3_RES_EME_STAT_DTC_67_DEN_WERT_TYPE unsigned short // Denominator of DTC 67 / Denominator von DTC 67 // Can't yet generate code for STAT_DTC_68_HEXCODE_DATA of type data[3] at offset 469. But we account for the 3 bytes // HexCode of DTC 68 / HexCode von DTC 68 #define I3_RES_EME_STAT_DTC_68_NUM_WERT (RXBUF_UINT(472)) #define I3_RES_EME_STAT_DTC_68_NUM_WERT_TYPE unsigned short // Numerator from DTC 68 / Numerator von DTC 68 #define I3_RES_EME_STAT_DTC_68_DEN_WERT (RXBUF_UINT(474)) #define I3_RES_EME_STAT_DTC_68_DEN_WERT_TYPE unsigned short // Denominator of DTC 68 / Denominator von DTC 68 // Can't yet generate code for STAT_DTC_69_HEXCODE_DATA of type data[3] at offset 476. But we account for the 3 bytes // HexCode of DTC 69 / HexCode von DTC 69 #define I3_RES_EME_STAT_DTC_69_NUM_WERT (RXBUF_UINT(479)) #define I3_RES_EME_STAT_DTC_69_NUM_WERT_TYPE unsigned short // Numerator from DTC 69 / Numerator von DTC 69 #define I3_RES_EME_STAT_DTC_69_DEN_WERT (RXBUF_UINT(481)) #define I3_RES_EME_STAT_DTC_69_DEN_WERT_TYPE unsigned short // Denominator of DTC 69 / Denominator von DTC 69 // Can't yet generate code for STAT_DTC_70_HEXCODE_DATA of type data[3] at offset 483. But we account for the 3 bytes // HexCode of DTC 70 / HexCode von DTC 70 #define I3_RES_EME_STAT_DTC_70_NUM_WERT (RXBUF_UINT(486)) #define I3_RES_EME_STAT_DTC_70_NUM_WERT_TYPE unsigned short // DTC 70 numerator / Numerator von DTC 70 #define I3_RES_EME_STAT_DTC_70_DEN_WERT (RXBUF_UINT(488)) #define I3_RES_EME_STAT_DTC_70_DEN_WERT_TYPE unsigned short // Denominator of DTC 70 / Denominator von DTC 70 // Can't yet generate code for STAT_DTC_71_HEXCODE_DATA of type data[3] at offset 490. But we account for the 3 bytes // HexCode of DTC 71 / HexCode von DTC 71 #define I3_RES_EME_STAT_DTC_71_NUM_WERT (RXBUF_UINT(493)) #define I3_RES_EME_STAT_DTC_71_NUM_WERT_TYPE unsigned short // Numerator from DTC 71 / Numerator von DTC 71 #define I3_RES_EME_STAT_DTC_71_DEN_WERT (RXBUF_UINT(495)) #define I3_RES_EME_STAT_DTC_71_DEN_WERT_TYPE unsigned short // Denominator of DTC 71 / Denominator von DTC 71 // Can't yet generate code for STAT_DTC_72_HEXCODE_DATA of type data[3] at offset 497. But we account for the 3 bytes // HexCode of DTC 72 / HexCode von DTC 72 #define I3_RES_EME_STAT_DTC_72_NUM_WERT (RXBUF_UINT(500)) #define I3_RES_EME_STAT_DTC_72_NUM_WERT_TYPE unsigned short // DTC 72 numerator / Numerator von DTC 72 #define I3_RES_EME_STAT_DTC_72_DEN_WERT (RXBUF_UINT(502)) #define I3_RES_EME_STAT_DTC_72_DEN_WERT_TYPE unsigned short // Denominator of DTC 72 / Denominator von DTC 72 // Can't yet generate code for STAT_DTC_73_HEXCODE_DATA of type data[3] at offset 504. But we account for the 3 bytes // HexCode of DTC 73 / HexCode von DTC 73 #define I3_RES_EME_STAT_DTC_73_NUM_WERT (RXBUF_UINT(507)) #define I3_RES_EME_STAT_DTC_73_NUM_WERT_TYPE unsigned short // Numerator from DTC 73 / Numerator von DTC 73 #define I3_RES_EME_STAT_DTC_73_DEN_WERT (RXBUF_UINT(509)) #define I3_RES_EME_STAT_DTC_73_DEN_WERT_TYPE unsigned short // Denominator of DTC 73 / Denominator von DTC 73 // Can't yet generate code for STAT_DTC_74_HEXCODE_DATA of type data[3] at offset 511. But we account for the 3 bytes // HexCode of DTC 74 / HexCode von DTC 74 #define I3_RES_EME_STAT_DTC_74_NUM_WERT (RXBUF_UINT(514)) #define I3_RES_EME_STAT_DTC_74_NUM_WERT_TYPE unsigned short // Numerator from DTC 74 / Numerator von DTC 74 #define I3_RES_EME_STAT_DTC_74_DEN_WERT (RXBUF_UINT(516)) #define I3_RES_EME_STAT_DTC_74_DEN_WERT_TYPE unsigned short // Denominator of DTC 74 / Denominator von DTC 74 // Can't yet generate code for STAT_DTC_75_HEXCODE_DATA of type data[3] at offset 518. But we account for the 3 bytes // HexCode of DTC 75 / HexCode von DTC 75 #define I3_RES_EME_STAT_DTC_75_NUM_WERT (RXBUF_UINT(521)) #define I3_RES_EME_STAT_DTC_75_NUM_WERT_TYPE unsigned short // Numerator from DTC 75 / Numerator von DTC 75 #define I3_RES_EME_STAT_DTC_75_DEN_WERT (RXBUF_UINT(523)) #define I3_RES_EME_STAT_DTC_75_DEN_WERT_TYPE unsigned short // Denominator of DTC 75 / Denominator von DTC 75 // Can't yet generate code for STAT_DTC_76_HEXCODE_DATA of type data[3] at offset 525. But we account for the 3 bytes // HexCode of DTC 76 / HexCode von DTC 76 #define I3_RES_EME_STAT_DTC_76_NUM_WERT (RXBUF_UINT(528)) #define I3_RES_EME_STAT_DTC_76_NUM_WERT_TYPE unsigned short // Numerator from DTC 76 / Numerator von DTC 76 #define I3_RES_EME_STAT_DTC_76_DEN_WERT (RXBUF_UINT(530)) #define I3_RES_EME_STAT_DTC_76_DEN_WERT_TYPE unsigned short // Denominator of DTC 76 / Denominator von DTC 76 // Can't yet generate code for STAT_DTC_77_HEXCODE_DATA of type data[3] at offset 532. But we account for the 3 bytes // HexCode of DTC 77 / HexCode von DTC 77 #define I3_RES_EME_STAT_DTC_77_NUM_WERT (RXBUF_UINT(535)) #define I3_RES_EME_STAT_DTC_77_NUM_WERT_TYPE unsigned short // DTC 77 numerator / Numerator von DTC 77 #define I3_RES_EME_STAT_DTC_77_DEN_WERT (RXBUF_UINT(537)) #define I3_RES_EME_STAT_DTC_77_DEN_WERT_TYPE unsigned short // Denominator of DTC 77 / Denominator von DTC 77 // Can't yet generate code for STAT_DTC_78_HEXCODE_DATA of type data[3] at offset 539. But we account for the 3 bytes // HexCode of DTC 78 / HexCode von DTC 78 #define I3_RES_EME_STAT_DTC_78_NUM_WERT (RXBUF_UINT(542)) #define I3_RES_EME_STAT_DTC_78_NUM_WERT_TYPE unsigned short // DTC 78 numerator / Numerator von DTC 78 #define I3_RES_EME_STAT_DTC_78_DEN_WERT (RXBUF_UINT(544)) #define I3_RES_EME_STAT_DTC_78_DEN_WERT_TYPE unsigned short // Denominator of DTC 78 / Denominator von DTC 78 // Can't yet generate code for STAT_DTC_79_HEXCODE_DATA of type data[3] at offset 546. But we account for the 3 bytes // HexCode of DTC 79 / HexCode von DTC 79 #define I3_RES_EME_STAT_DTC_79_NUM_WERT (RXBUF_UINT(549)) #define I3_RES_EME_STAT_DTC_79_NUM_WERT_TYPE unsigned short // DTC 79 numerator / Numerator von DTC 79 #define I3_RES_EME_STAT_DTC_79_DEN_WERT (RXBUF_UINT(551)) #define I3_RES_EME_STAT_DTC_79_DEN_WERT_TYPE unsigned short // Denominator of DTC 79 / Denominator von DTC 79 // Can't yet generate code for STAT_DTC_80_HEXCODE_DATA of type data[3] at offset 553. But we account for the 3 bytes // HexCode of DTC 80 / HexCode von DTC 80 #define I3_RES_EME_STAT_DTC_80_NUM_WERT (RXBUF_UINT(556)) #define I3_RES_EME_STAT_DTC_80_NUM_WERT_TYPE unsigned short // DTC 80 numerator / Numerator von DTC 80 #define I3_RES_EME_STAT_DTC_80_DEN_WERT (RXBUF_UINT(558)) #define I3_RES_EME_STAT_DTC_80_DEN_WERT_TYPE unsigned short // Denominator of DTC 80 / Denominator von DTC 80 // Can't yet generate code for STAT_DTC_81_HEXCODE_DATA of type data[3] at offset 560. But we account for the 3 bytes // HexCode of DTC 81 / HexCode von DTC 81 #define I3_RES_EME_STAT_DTC_81_NUM_WERT (RXBUF_UINT(563)) #define I3_RES_EME_STAT_DTC_81_NUM_WERT_TYPE unsigned short // Numerator from DTC 81 / Numerator von DTC 81 #define I3_RES_EME_STAT_DTC_81_DEN_WERT (RXBUF_UINT(565)) #define I3_RES_EME_STAT_DTC_81_DEN_WERT_TYPE unsigned short // Denominator of DTC 81 / Denominator von DTC 81 // Can't yet generate code for STAT_DTC_82_HEXCODE_DATA of type data[3] at offset 567. But we account for the 3 bytes // HexCode of DTC 82 / HexCode von DTC 82 #define I3_RES_EME_STAT_DTC_82_NUM_WERT (RXBUF_UINT(570)) #define I3_RES_EME_STAT_DTC_82_NUM_WERT_TYPE unsigned short // Numerator from DTC 82 / Numerator von DTC 82 #define I3_RES_EME_STAT_DTC_82_DEN_WERT (RXBUF_UINT(572)) #define I3_RES_EME_STAT_DTC_82_DEN_WERT_TYPE unsigned short // Denominator of DTC 82 / Denominator von DTC 82 // Can't yet generate code for STAT_DTC_83_HEXCODE_DATA of type data[3] at offset 574. But we account for the 3 bytes // HexCode of DTC 83 / HexCode von DTC 83 #define I3_RES_EME_STAT_DTC_83_NUM_WERT (RXBUF_UINT(577)) #define I3_RES_EME_STAT_DTC_83_NUM_WERT_TYPE unsigned short // Numerator from DTC 83 / Numerator von DTC 83 #define I3_RES_EME_STAT_DTC_83_DEN_WERT (RXBUF_UINT(579)) #define I3_RES_EME_STAT_DTC_83_DEN_WERT_TYPE unsigned short // Denominator of DTC 83 / Denominator von DTC 83 // Can't yet generate code for STAT_DTC_84_HEXCODE_DATA of type data[3] at offset 581. But we account for the 3 bytes // HexCode of DTC 84 / HexCode von DTC 84 #define I3_RES_EME_STAT_DTC_84_NUM_WERT (RXBUF_UINT(584)) #define I3_RES_EME_STAT_DTC_84_NUM_WERT_TYPE unsigned short // DTC 84 numerator / Numerator von DTC 84 #define I3_RES_EME_STAT_DTC_84_DEN_WERT (RXBUF_UINT(586)) #define I3_RES_EME_STAT_DTC_84_DEN_WERT_TYPE unsigned short // Denominator of DTC 84 / Denominator von DTC 84 // Can't yet generate code for STAT_DTC_85_HEXCODE_DATA of type data[3] at offset 588. But we account for the 3 bytes // HexCode of DTC 85 / HexCode von DTC 85 #define I3_RES_EME_STAT_DTC_85_NUM_WERT (RXBUF_UINT(591)) #define I3_RES_EME_STAT_DTC_85_NUM_WERT_TYPE unsigned short // Numerator from DTC 85 / Numerator von DTC 85 #define I3_RES_EME_STAT_DTC_85_DEN_WERT (RXBUF_UINT(593)) #define I3_RES_EME_STAT_DTC_85_DEN_WERT_TYPE unsigned short // Denominator of DTC 85 / Denominator von DTC 85 // Can't yet generate code for STAT_DTC_86_HEXCODE_DATA of type data[3] at offset 595. But we account for the 3 bytes // HexCode of DTC 86 / HexCode von DTC 86 #define I3_RES_EME_STAT_DTC_86_NUM_WERT (RXBUF_UINT(598)) #define I3_RES_EME_STAT_DTC_86_NUM_WERT_TYPE unsigned short // Numerator from DTC 86 / Numerator von DTC 86 #define I3_RES_EME_STAT_DTC_86_DEN_WERT (RXBUF_UINT(600)) #define I3_RES_EME_STAT_DTC_86_DEN_WERT_TYPE unsigned short // Denominator of DTC 86 / Denominator von DTC 86 // Can't yet generate code for STAT_DTC_87_HEXCODE_DATA of type data[3] at offset 602. But we account for the 3 bytes // HexCode of DTC 87 / HexCode von DTC 87 #define I3_RES_EME_STAT_DTC_87_NUM_WERT (RXBUF_UINT(605)) #define I3_RES_EME_STAT_DTC_87_NUM_WERT_TYPE unsigned short // Numerator from DTC 87 / Numerator von DTC 87 #define I3_RES_EME_STAT_DTC_87_DEN_WERT (RXBUF_UINT(607)) #define I3_RES_EME_STAT_DTC_87_DEN_WERT_TYPE unsigned short // Denominator of DTC 87 / Denominator von DTC 87 // Can't yet generate code for STAT_DTC_88_HEXCODE_DATA of type data[3] at offset 609. But we account for the 3 bytes // HexCode of DTC 88 / HexCode von DTC 88 #define I3_RES_EME_STAT_DTC_88_NUM_WERT (RXBUF_UINT(612)) #define I3_RES_EME_STAT_DTC_88_NUM_WERT_TYPE unsigned short // DTC 88 numerator / Numerator von DTC 88 #define I3_RES_EME_STAT_DTC_88_DEN_WERT (RXBUF_UINT(614)) #define I3_RES_EME_STAT_DTC_88_DEN_WERT_TYPE unsigned short // Denominator of DTC 88 / Denominator von DTC 88 // Can't yet generate code for STAT_DTC_89_HEXCODE_DATA of type data[3] at offset 616. But we account for the 3 bytes // HexCode of DTC 89 / HexCode von DTC 89 #define I3_RES_EME_STAT_DTC_89_NUM_WERT (RXBUF_UINT(619)) #define I3_RES_EME_STAT_DTC_89_NUM_WERT_TYPE unsigned short // Numerator from DTC 89 / Numerator von DTC 89 #define I3_RES_EME_STAT_DTC_89_DEN_WERT (RXBUF_UINT(621)) #define I3_RES_EME_STAT_DTC_89_DEN_WERT_TYPE unsigned short // Denominator of DTC 89 / Denominator von DTC 89 // Can't yet generate code for STAT_DTC_90_HEXCODE_DATA of type data[3] at offset 623. But we account for the 3 bytes // HexCode of DTC 90 / HexCode von DTC 90 #define I3_RES_EME_STAT_DTC_90_NUM_WERT (RXBUF_UINT(626)) #define I3_RES_EME_STAT_DTC_90_NUM_WERT_TYPE unsigned short // Numerator from DTC 90 / Numerator von DTC 90 #define I3_RES_EME_STAT_DTC_90_DEN_WERT (RXBUF_UINT(628)) #define I3_RES_EME_STAT_DTC_90_DEN_WERT_TYPE unsigned short // Denominator of DTC 90 / Denominator von DTC 90 // Can't yet generate code for STAT_DTC_91_HEXCODE_DATA of type data[3] at offset 630. But we account for the 3 bytes // HexCode of DTC 91 / HexCode von DTC 91 #define I3_RES_EME_STAT_DTC_91_NUM_WERT (RXBUF_UINT(633)) #define I3_RES_EME_STAT_DTC_91_NUM_WERT_TYPE unsigned short // DTC 91 numerator / Numerator von DTC 91 #define I3_RES_EME_STAT_DTC_91_DEN_WERT (RXBUF_UINT(635)) #define I3_RES_EME_STAT_DTC_91_DEN_WERT_TYPE unsigned short // Denominator of DTC 91 / Denominator von DTC 91 // Can't yet generate code for STAT_DTC_92_HEXCODE_DATA of type data[3] at offset 637. But we account for the 3 bytes // HexCode of DTC 92 / HexCode von DTC 92 #define I3_RES_EME_STAT_DTC_92_NUM_WERT (RXBUF_UINT(640)) #define I3_RES_EME_STAT_DTC_92_NUM_WERT_TYPE unsigned short // Numerator from DTC 92 / Numerator von DTC 92 #define I3_RES_EME_STAT_DTC_92_DEN_WERT (RXBUF_UINT(642)) #define I3_RES_EME_STAT_DTC_92_DEN_WERT_TYPE unsigned short // Denominator of DTC 92 / Denominator von DTC 92 // Can't yet generate code for STAT_DTC_93_HEXCODE_DATA of type data[3] at offset 644. But we account for the 3 bytes // HexCode of DTC 93 / HexCode von DTC 93 #define I3_RES_EME_STAT_DTC_93_NUM_WERT (RXBUF_UINT(647)) #define I3_RES_EME_STAT_DTC_93_NUM_WERT_TYPE unsigned short // DTC 93 numerator / Numerator von DTC 93 #define I3_RES_EME_STAT_DTC_93_DEN_WERT (RXBUF_UINT(649)) #define I3_RES_EME_STAT_DTC_93_DEN_WERT_TYPE unsigned short // Denominator of DTC 93 / Denominator von DTC 93 // Can't yet generate code for STAT_DTC_94_HEXCODE_DATA of type data[3] at offset 651. But we account for the 3 bytes // HexCode of DTC 94 / HexCode von DTC 94 #define I3_RES_EME_STAT_DTC_94_NUM_WERT (RXBUF_UINT(654)) #define I3_RES_EME_STAT_DTC_94_NUM_WERT_TYPE unsigned short // DTC 94 numerator / Numerator von DTC 94 #define I3_RES_EME_STAT_DTC_94_DEN_WERT (RXBUF_UINT(656)) #define I3_RES_EME_STAT_DTC_94_DEN_WERT_TYPE unsigned short // Denominator of DTC 94 / Denominator von DTC 94 // Can't yet generate code for STAT_DTC_95_HEXCODE_DATA of type data[3] at offset 658. But we account for the 3 bytes // HexCode of DTC 95 / HexCode von DTC 95 #define I3_RES_EME_STAT_DTC_95_NUM_WERT (RXBUF_UINT(661)) #define I3_RES_EME_STAT_DTC_95_NUM_WERT_TYPE unsigned short // Numerator from DTC 95 / Numerator von DTC 95 #define I3_RES_EME_STAT_DTC_95_DEN_WERT (RXBUF_UINT(663)) #define I3_RES_EME_STAT_DTC_95_DEN_WERT_TYPE unsigned short // Denominator of DTC 95 / Denominator von DTC 95 // Can't yet generate code for STAT_DTC_96_HEXCODE_DATA of type data[3] at offset 665. But we account for the 3 bytes // HexCode of DTC 96 / HexCode von DTC 96 #define I3_RES_EME_STAT_DTC_96_NUM_WERT (RXBUF_UINT(668)) #define I3_RES_EME_STAT_DTC_96_NUM_WERT_TYPE unsigned short // Numerator from DTC 96 / Numerator von DTC 96 #define I3_RES_EME_STAT_DTC_96_DEN_WERT (RXBUF_UINT(670)) #define I3_RES_EME_STAT_DTC_96_DEN_WERT_TYPE unsigned short // Denominator of DTC 96 / Denominator von DTC 96 // Can't yet generate code for STAT_DTC_97_HEXCODE_DATA of type data[3] at offset 672. But we account for the 3 bytes // HexCode of DTC 97 / HexCode von DTC 97 #define I3_RES_EME_STAT_DTC_97_NUM_WERT (RXBUF_UINT(675)) #define I3_RES_EME_STAT_DTC_97_NUM_WERT_TYPE unsigned short // Numerator from DTC 97 / Numerator von DTC 97 #define I3_RES_EME_STAT_DTC_97_DEN_WERT (RXBUF_UINT(677)) #define I3_RES_EME_STAT_DTC_97_DEN_WERT_TYPE unsigned short // Denominator of DTC 97 / Denominator von DTC 97 // Can't yet generate code for STAT_DTC_98_HEXCODE_DATA of type data[3] at offset 679. But we account for the 3 bytes // HexCode of DTC 98 / HexCode von DTC 98 #define I3_RES_EME_STAT_DTC_98_NUM_WERT (RXBUF_UINT(682)) #define I3_RES_EME_STAT_DTC_98_NUM_WERT_TYPE unsigned short // Numerator from DTC 98 / Numerator von DTC 98 #define I3_RES_EME_STAT_DTC_98_DEN_WERT (RXBUF_UINT(684)) #define I3_RES_EME_STAT_DTC_98_DEN_WERT_TYPE unsigned short // Denominator of DTC 98 / Denominator von DTC 98 // Can't yet generate code for STAT_DTC_99_HEXCODE_DATA of type data[3] at offset 686. But we account for the 3 bytes // HexCode of DTC 99 / HexCode von DTC 99 #define I3_RES_EME_STAT_DTC_99_NUM_WERT (RXBUF_UINT(689)) #define I3_RES_EME_STAT_DTC_99_NUM_WERT_TYPE unsigned short // DTC 99 numerator / Numerator von DTC 99 #define I3_RES_EME_STAT_DTC_99_DEN_WERT (RXBUF_UINT(691)) #define I3_RES_EME_STAT_DTC_99_DEN_WERT_TYPE unsigned short // Denominator of DTC 99 / Denominator von DTC 99 // Can't yet generate code for STAT_DTC_100_HEXCODE_DATA of type data[3] at offset 693. But we account for the 3 bytes // HexCode of DTC 100 / HexCode von DTC 100 #define I3_RES_EME_STAT_DTC_100_NUM_WERT (RXBUF_UINT(696)) #define I3_RES_EME_STAT_DTC_100_NUM_WERT_TYPE unsigned short // DTC 100 numerator / Numerator von DTC 100 #define I3_RES_EME_STAT_DTC_100_DEN_WERT (RXBUF_UINT(698)) #define I3_RES_EME_STAT_DTC_100_DEN_WERT_TYPE unsigned short // Denominator of DTC 100 / Denominator von DTC 100 // Can't yet generate code for STAT_DTC_101_HEXCODE_DATA of type data[3] at offset 700. But we account for the 3 bytes // HexCode of DTC 101 / HexCode von DTC 101 #define I3_RES_EME_STAT_DTC_101_NUM_WERT (RXBUF_UINT(703)) #define I3_RES_EME_STAT_DTC_101_NUM_WERT_TYPE unsigned short // DTC 101 numerator / Numerator von DTC 101 #define I3_RES_EME_STAT_DTC_101_DEN_WERT (RXBUF_UINT(705)) #define I3_RES_EME_STAT_DTC_101_DEN_WERT_TYPE unsigned short // Denominator of DTC 101 / Denominator von DTC 101 // Can't yet generate code for STAT_DTC_102_HEXCODE_DATA of type data[3] at offset 707. But we account for the 3 bytes // HexCode of DTC 102 / HexCode von DTC 102 #define I3_RES_EME_STAT_DTC_102_NUM_WERT (RXBUF_UINT(710)) #define I3_RES_EME_STAT_DTC_102_NUM_WERT_TYPE unsigned short // Numerator from DTC 102 / Numerator von DTC 102 #define I3_RES_EME_STAT_DTC_102_DEN_WERT (RXBUF_UINT(712)) #define I3_RES_EME_STAT_DTC_102_DEN_WERT_TYPE unsigned short // Denominator of DTC 102 / Denominator von DTC 102 // Can't yet generate code for STAT_DTC_103_HEXCODE_DATA of type data[3] at offset 714. But we account for the 3 bytes // HexCode of DTC 103 / HexCode von DTC 103 #define I3_RES_EME_STAT_DTC_103_NUM_WERT (RXBUF_UINT(717)) #define I3_RES_EME_STAT_DTC_103_NUM_WERT_TYPE unsigned short // DTC 103 numerator / Numerator von DTC 103 #define I3_RES_EME_STAT_DTC_103_DEN_WERT (RXBUF_UINT(719)) #define I3_RES_EME_STAT_DTC_103_DEN_WERT_TYPE unsigned short // Denominator of DTC 103 / Denominator von DTC 103 // Can't yet generate code for STAT_DTC_104_HEXCODE_DATA of type data[3] at offset 721. But we account for the 3 bytes // HexCode of DTC 104 / HexCode von DTC 104 #define I3_RES_EME_STAT_DTC_104_NUM_WERT (RXBUF_UINT(724)) #define I3_RES_EME_STAT_DTC_104_NUM_WERT_TYPE unsigned short // DTC 104 numerator / Numerator von DTC 104 #define I3_RES_EME_STAT_DTC_104_DEN_WERT (RXBUF_UINT(726)) #define I3_RES_EME_STAT_DTC_104_DEN_WERT_TYPE unsigned short // Denominator of DTC 104 / Denominator von DTC 104 // Can't yet generate code for STAT_DTC_105_HEXCODE_DATA of type data[3] at offset 728. But we account for the 3 bytes // HexCode of DTC 105 / HexCode von DTC 105 #define I3_RES_EME_STAT_DTC_105_NUM_WERT (RXBUF_UINT(731)) #define I3_RES_EME_STAT_DTC_105_NUM_WERT_TYPE unsigned short // Numerator from DTC 105 / Numerator von DTC 105 #define I3_RES_EME_STAT_DTC_105_DEN_WERT (RXBUF_UINT(733)) #define I3_RES_EME_STAT_DTC_105_DEN_WERT_TYPE unsigned short // Denominator of DTC 105 / Denominator von DTC 105 // Can't yet generate code for STAT_DTC_106_HEXCODE_DATA of type data[3] at offset 735. But we account for the 3 bytes // HexCode of DTC 106 / HexCode von DTC 106 #define I3_RES_EME_STAT_DTC_106_NUM_WERT (RXBUF_UINT(738)) #define I3_RES_EME_STAT_DTC_106_NUM_WERT_TYPE unsigned short // DTC 106 numerator / Numerator von DTC 106 #define I3_RES_EME_STAT_DTC_106_DEN_WERT (RXBUF_UINT(740)) #define I3_RES_EME_STAT_DTC_106_DEN_WERT_TYPE unsigned short // Denominator of DTC 106 / Denominator von DTC 106 // Can't yet generate code for STAT_DTC_107_HEXCODE_DATA of type data[3] at offset 742. But we account for the 3 bytes // HexCode of DTC 107 / HexCode von DTC 107 #define I3_RES_EME_STAT_DTC_107_NUM_WERT (RXBUF_UINT(745)) #define I3_RES_EME_STAT_DTC_107_NUM_WERT_TYPE unsigned short // DTC 107 numerator / Numerator von DTC 107 #define I3_RES_EME_STAT_DTC_107_DEN_WERT (RXBUF_UINT(747)) #define I3_RES_EME_STAT_DTC_107_DEN_WERT_TYPE unsigned short // Denominator of DTC 107 / Denominator von DTC 107 // Can't yet generate code for STAT_DTC_108_HEXCODE_DATA of type data[3] at offset 749. But we account for the 3 bytes // HexCode of DTC 108 / HexCode von DTC 108 #define I3_RES_EME_STAT_DTC_108_NUM_WERT (RXBUF_UINT(752)) #define I3_RES_EME_STAT_DTC_108_NUM_WERT_TYPE unsigned short // Numerator from DTC 108 / Numerator von DTC 108 #define I3_RES_EME_STAT_DTC_108_DEN_WERT (RXBUF_UINT(754)) #define I3_RES_EME_STAT_DTC_108_DEN_WERT_TYPE unsigned short // Denominator of DTC 108 / Denominator von DTC 108 // Can't yet generate code for STAT_DTC_109_HEXCODE_DATA of type data[3] at offset 756. But we account for the 3 bytes // HexCode of DTC 109 / HexCode von DTC 109 #define I3_RES_EME_STAT_DTC_109_NUM_WERT (RXBUF_UINT(759)) #define I3_RES_EME_STAT_DTC_109_NUM_WERT_TYPE unsigned short // Numerator from DTC 109 / Numerator von DTC 109 #define I3_RES_EME_STAT_DTC_109_DEN_WERT (RXBUF_UINT(761)) #define I3_RES_EME_STAT_DTC_109_DEN_WERT_TYPE unsigned short // Denominator of DTC 109 / Denominator von DTC 109 // Can't yet generate code for STAT_DTC_110_HEXCODE_DATA of type data[3] at offset 763. But we account for the 3 bytes // HexCode of DTC 110 / HexCode von DTC 110 #define I3_RES_EME_STAT_DTC_110_NUM_WERT (RXBUF_UINT(766)) #define I3_RES_EME_STAT_DTC_110_NUM_WERT_TYPE unsigned short // Numerator from DTC 110 / Numerator von DTC 110 #define I3_RES_EME_STAT_DTC_110_DEN_WERT (RXBUF_UINT(768)) #define I3_RES_EME_STAT_DTC_110_DEN_WERT_TYPE unsigned short // Denominator of DTC 110 / Denominator von DTC 110 // Can't yet generate code for STAT_DTC_111_HEXCODE_DATA of type data[3] at offset 770. But we account for the 3 bytes // HexCode of DTC 111 / HexCode von DTC 111 #define I3_RES_EME_STAT_DTC_111_NUM_WERT (RXBUF_UINT(773)) #define I3_RES_EME_STAT_DTC_111_NUM_WERT_TYPE unsigned short // DTC 111 numerator / Numerator von DTC 111 #define I3_RES_EME_STAT_DTC_111_DEN_WERT (RXBUF_UINT(775)) #define I3_RES_EME_STAT_DTC_111_DEN_WERT_TYPE unsigned short // Denominator of DTC 111 / Denominator von DTC 111 // Can't yet generate code for STAT_DTC_112_HEXCODE_DATA of type data[3] at offset 777. But we account for the 3 bytes // HexCode of DTC 112 / HexCode von DTC 112 #define I3_RES_EME_STAT_DTC_112_NUM_WERT (RXBUF_UINT(780)) #define I3_RES_EME_STAT_DTC_112_NUM_WERT_TYPE unsigned short // Numerator from DTC 112 / Numerator von DTC 112 #define I3_RES_EME_STAT_DTC_112_DEN_WERT (RXBUF_UINT(782)) #define I3_RES_EME_STAT_DTC_112_DEN_WERT_TYPE unsigned short // Denominator of DTC 112 / Denominator von DTC 112 // Can't yet generate code for STAT_DTC_113_HEXCODE_DATA of type data[3] at offset 784. But we account for the 3 bytes // HexCode of DTC 113 / HexCode von DTC 113 #define I3_RES_EME_STAT_DTC_113_NUM_WERT (RXBUF_UINT(787)) #define I3_RES_EME_STAT_DTC_113_NUM_WERT_TYPE unsigned short // Numerator from DTC 113 / Numerator von DTC 113 #define I3_RES_EME_STAT_DTC_113_DEN_WERT (RXBUF_UINT(789)) #define I3_RES_EME_STAT_DTC_113_DEN_WERT_TYPE unsigned short // Denominator of DTC 113 / Denominator von DTC 113 // Can't yet generate code for STAT_DTC_114_HEXCODE_DATA of type data[3] at offset 791. But we account for the 3 bytes // Hex code from DTC 114 / HexCode von DTC 114 #define I3_RES_EME_STAT_DTC_114_NUM_WERT (RXBUF_UINT(794)) #define I3_RES_EME_STAT_DTC_114_NUM_WERT_TYPE unsigned short // Numerator from DTC 114 / Numerator von DTC 114 #define I3_RES_EME_STAT_DTC_114_DEN_WERT (RXBUF_UINT(796)) #define I3_RES_EME_STAT_DTC_114_DEN_WERT_TYPE unsigned short // Denominator of DTC 114 / Denominator von DTC 114 // Can't yet generate code for STAT_DTC_115_HEXCODE_DATA of type data[3] at offset 798. But we account for the 3 bytes // Hex code of DTC 115 / HexCode von DTC 115 #define I3_RES_EME_STAT_DTC_115_NUM_WERT (RXBUF_UINT(801)) #define I3_RES_EME_STAT_DTC_115_NUM_WERT_TYPE unsigned short // DTC 115 numerator / Numerator von DTC 115 #define I3_RES_EME_STAT_DTC_115_DEN_WERT (RXBUF_UINT(803)) #define I3_RES_EME_STAT_DTC_115_DEN_WERT_TYPE unsigned short // Denominator of DTC 115 / Denominator von DTC 115 // Can't yet generate code for STAT_DTC_116_HEXCODE_DATA of type data[3] at offset 805. But we account for the 3 bytes // HexCode of DTC 116 / HexCode von DTC 116 #define I3_RES_EME_STAT_DTC_116_NUM_WERT (RXBUF_UINT(808)) #define I3_RES_EME_STAT_DTC_116_NUM_WERT_TYPE unsigned short // DTC 116 numerator / Numerator von DTC 116 #define I3_RES_EME_STAT_DTC_116_DEN_WERT (RXBUF_UINT(810)) #define I3_RES_EME_STAT_DTC_116_DEN_WERT_TYPE unsigned short // Denominator of DTC 116 / Denominator von DTC 116 // Can't yet generate code for STAT_DTC_117_HEXCODE_DATA of type data[3] at offset 812. But we account for the 3 bytes // HexCode of DTC 117 / HexCode von DTC 117 #define I3_RES_EME_STAT_DTC_117_NUM_WERT (RXBUF_UINT(815)) #define I3_RES_EME_STAT_DTC_117_NUM_WERT_TYPE unsigned short // Numerator from DTC 117 / Numerator von DTC 117 #define I3_RES_EME_STAT_DTC_117_DEN_WERT (RXBUF_UINT(817)) #define I3_RES_EME_STAT_DTC_117_DEN_WERT_TYPE unsigned short // Denominator of DTC 117 / Denominator von DTC 117 // Can't yet generate code for STAT_DTC_118_HEXCODE_DATA of type data[3] at offset 819. But we account for the 3 bytes // HexCode of DTC 118 / HexCode von DTC 118 #define I3_RES_EME_STAT_DTC_118_NUM_WERT (RXBUF_UINT(822)) #define I3_RES_EME_STAT_DTC_118_NUM_WERT_TYPE unsigned short // Numerator from DTC 118 / Numerator von DTC 118 #define I3_RES_EME_STAT_DTC_118_DEN_WERT (RXBUF_UINT(824)) #define I3_RES_EME_STAT_DTC_118_DEN_WERT_TYPE unsigned short // Denominator of DTC 118 / Denominator von DTC 118 // Can't yet generate code for STAT_DTC_119_HEXCODE_DATA of type data[3] at offset 826. But we account for the 3 bytes // HexCode of DTC 119 / HexCode von DTC 119 #define I3_RES_EME_STAT_DTC_119_NUM_WERT (RXBUF_UINT(829)) #define I3_RES_EME_STAT_DTC_119_NUM_WERT_TYPE unsigned short // Numerator from DTC 119 / Numerator von DTC 119 #define I3_RES_EME_STAT_DTC_119_DEN_WERT (RXBUF_UINT(831)) #define I3_RES_EME_STAT_DTC_119_DEN_WERT_TYPE unsigned short // Denominator of DTC 119 / Denominator von DTC 119 // Can't yet generate code for STAT_DTC_120_HEXCODE_DATA of type data[3] at offset 833. But we account for the 3 bytes // HexCode of DTC 120 / HexCode von DTC 120 #define I3_RES_EME_STAT_DTC_120_NUM_WERT (RXBUF_UINT(836)) #define I3_RES_EME_STAT_DTC_120_NUM_WERT_TYPE unsigned short // DTC 120 numerator / Numerator von DTC 120 #define I3_RES_EME_STAT_DTC_120_DEN_WERT (RXBUF_UINT(838)) #define I3_RES_EME_STAT_DTC_120_DEN_WERT_TYPE unsigned short // Denominator of DTC 120 / Denominator von DTC 120 // Can't yet generate code for STAT_DTC_121_HEXCODE_DATA of type data[3] at offset 840. But we account for the 3 bytes // HexCode of DTC 121 / HexCode von DTC 121 #define I3_RES_EME_STAT_DTC_121_NUM_WERT (RXBUF_UINT(843)) #define I3_RES_EME_STAT_DTC_121_NUM_WERT_TYPE unsigned short // Numerator from DTC 121 / Numerator von DTC 121 #define I3_RES_EME_STAT_DTC_121_DEN_WERT (RXBUF_UINT(845)) #define I3_RES_EME_STAT_DTC_121_DEN_WERT_TYPE unsigned short // Denominator of DTC 121 / Denominator von DTC 121 // Can't yet generate code for STAT_DTC_122_HEXCODE_DATA of type data[3] at offset 847. But we account for the 3 bytes // HexCode of DTC 122 / HexCode von DTC 122 #define I3_RES_EME_STAT_DTC_122_NUM_WERT (RXBUF_UINT(850)) #define I3_RES_EME_STAT_DTC_122_NUM_WERT_TYPE unsigned short // DTC 122 numerator / Numerator von DTC 122 #define I3_RES_EME_STAT_DTC_122_DEN_WERT (RXBUF_UINT(852)) #define I3_RES_EME_STAT_DTC_122_DEN_WERT_TYPE unsigned short // Denominator of DTC 122 / Denominator von DTC 122 // Can't yet generate code for STAT_DTC_123_HEXCODE_DATA of type data[3] at offset 854. But we account for the 3 bytes // HexCode of DTC 123 / HexCode von DTC 123 #define I3_RES_EME_STAT_DTC_123_NUM_WERT (RXBUF_UINT(857)) #define I3_RES_EME_STAT_DTC_123_NUM_WERT_TYPE unsigned short // DTC 123 numerator / Numerator von DTC 123 #define I3_RES_EME_STAT_DTC_123_DEN_WERT (RXBUF_UINT(859)) #define I3_RES_EME_STAT_DTC_123_DEN_WERT_TYPE unsigned short // Denominator of DTC 123 / Denominator von DTC 123 // Can't yet generate code for STAT_DTC_124_HEXCODE_DATA of type data[3] at offset 861. But we account for the 3 bytes // HexCode of DTC 124 / HexCode von DTC 124 #define I3_RES_EME_STAT_DTC_124_NUM_WERT (RXBUF_UINT(864)) #define I3_RES_EME_STAT_DTC_124_NUM_WERT_TYPE unsigned short // DTC 124 numerator / Numerator von DTC 124 #define I3_RES_EME_STAT_DTC_124_DEN_WERT (RXBUF_UINT(866)) #define I3_RES_EME_STAT_DTC_124_DEN_WERT_TYPE unsigned short // Denominator of DTC 124 / Denominator von DTC 124 // Can't yet generate code for STAT_DTC_125_HEXCODE_DATA of type data[3] at offset 868. But we account for the 3 bytes // HexCode of DTC 125 / HexCode von DTC 125 #define I3_RES_EME_STAT_DTC_125_NUM_WERT (RXBUF_UINT(871)) #define I3_RES_EME_STAT_DTC_125_NUM_WERT_TYPE unsigned short // Numerator from DTC 125 / Numerator von DTC 125 #define I3_RES_EME_STAT_DTC_125_DEN_WERT (RXBUF_UINT(873)) #define I3_RES_EME_STAT_DTC_125_DEN_WERT_TYPE unsigned short // Denominator of DTC 125 / Denominator von DTC 125 // Can't yet generate code for STAT_DTC_126_HEXCODE_DATA of type data[3] at offset 875. But we account for the 3 bytes // HexCode of DTC 126 / HexCode von DTC 126 #define I3_RES_EME_STAT_DTC_126_NUM_WERT (RXBUF_UINT(878)) #define I3_RES_EME_STAT_DTC_126_NUM_WERT_TYPE unsigned short // Numerator from DTC 126 / Numerator von DTC 126 #define I3_RES_EME_STAT_DTC_126_DEN_WERT (RXBUF_UINT(880)) #define I3_RES_EME_STAT_DTC_126_DEN_WERT_TYPE unsigned short // Denominator of DTC 126 / Denominator von DTC 126 // Can't yet generate code for STAT_DTC_127_HEXCODE_DATA of type data[3] at offset 882. But we account for the 3 bytes // HexCode of DTC 127 / HexCode von DTC 127 #define I3_RES_EME_STAT_DTC_127_NUM_WERT (RXBUF_UINT(885)) #define I3_RES_EME_STAT_DTC_127_NUM_WERT_TYPE unsigned short // DTC 127 numerator / Numerator von DTC 127 #define I3_RES_EME_STAT_DTC_127_DEN_WERT (RXBUF_UINT(887)) #define I3_RES_EME_STAT_DTC_127_DEN_WERT_TYPE unsigned short // Denominator of DTC 127 / Denominator von DTC 127 // Can't yet generate code for STAT_DTC_128_HEXCODE_DATA of type data[3] at offset 889. But we account for the 3 bytes // HexCode of DTC 128 / HexCode von DTC 128 #define I3_RES_EME_STAT_DTC_128_NUM_WERT (RXBUF_UINT(892)) #define I3_RES_EME_STAT_DTC_128_NUM_WERT_TYPE unsigned short // DTC 128 numerator / Numerator von DTC 128 #define I3_RES_EME_STAT_DTC_128_DEN_WERT (RXBUF_UINT(894)) #define I3_RES_EME_STAT_DTC_128_DEN_WERT_TYPE unsigned short // Denominator of DTC 128 / Denominator von DTC 128 // Can't yet generate code for STAT_DTC_129_HEXCODE_DATA of type data[3] at offset 896. But we account for the 3 bytes // HexCode of DTC 129 / HexCode von DTC 129 #define I3_RES_EME_STAT_DTC_129_NUM_WERT (RXBUF_UINT(899)) #define I3_RES_EME_STAT_DTC_129_NUM_WERT_TYPE unsigned short // Numerator from DTC 129 / Numerator von DTC 129 #define I3_RES_EME_STAT_DTC_129_DEN_WERT (RXBUF_UINT(901)) #define I3_RES_EME_STAT_DTC_129_DEN_WERT_TYPE unsigned short // Denominator of DTC 129 / Denominator von DTC 129 // Can't yet generate code for STAT_DTC_130_HEXCODE_DATA of type data[3] at offset 903. But we account for the 3 bytes // HexCode of DTC 130 / HexCode von DTC 130 #define I3_RES_EME_STAT_DTC_130_NUM_WERT (RXBUF_UINT(906)) #define I3_RES_EME_STAT_DTC_130_NUM_WERT_TYPE unsigned short // DTC 130 numerator / Numerator von DTC 130 #define I3_RES_EME_STAT_DTC_130_DEN_WERT (RXBUF_UINT(908)) #define I3_RES_EME_STAT_DTC_130_DEN_WERT_TYPE unsigned short // Denominator of DTC 130 / Denominator von DTC 130 // Can't yet generate code for STAT_DTC_131_HEXCODE_DATA of type data[3] at offset 910. But we account for the 3 bytes // HexCode of DTC 131 / HexCode von DTC 131 #define I3_RES_EME_STAT_DTC_131_NUM_WERT (RXBUF_UINT(913)) #define I3_RES_EME_STAT_DTC_131_NUM_WERT_TYPE unsigned short // DTC 131 numerator / Numerator von DTC 131 #define I3_RES_EME_STAT_DTC_131_DEN_WERT (RXBUF_UINT(915)) #define I3_RES_EME_STAT_DTC_131_DEN_WERT_TYPE unsigned short // Denominator of DTC 131 / Denominator von DTC 131 // Can't yet generate code for STAT_DTC_132_HEXCODE_DATA of type data[3] at offset 917. But we account for the 3 bytes // HexCode of DTC 132 / HexCode von DTC 132 #define I3_RES_EME_STAT_DTC_132_NUM_WERT (RXBUF_UINT(920)) #define I3_RES_EME_STAT_DTC_132_NUM_WERT_TYPE unsigned short // Numerator from DTC 132 / Numerator von DTC 132 #define I3_RES_EME_STAT_DTC_132_DEN_WERT (RXBUF_UINT(922)) #define I3_RES_EME_STAT_DTC_132_DEN_WERT_TYPE unsigned short // Denominator of DTC 132 / Denominator von DTC 132 // Can't yet generate code for STAT_DTC_133_HEXCODE_DATA of type data[3] at offset 924. But we account for the 3 bytes // HexCode of DTC 133 / HexCode von DTC 133 #define I3_RES_EME_STAT_DTC_133_NUM_WERT (RXBUF_UINT(927)) #define I3_RES_EME_STAT_DTC_133_NUM_WERT_TYPE unsigned short // DTC 133 numerator / Numerator von DTC 133 #define I3_RES_EME_STAT_DTC_133_DEN_WERT (RXBUF_UINT(929)) #define I3_RES_EME_STAT_DTC_133_DEN_WERT_TYPE unsigned short // Denominator of DTC 133 / Denominator von DTC 133 // Can't yet generate code for STAT_DTC_134_HEXCODE_DATA of type data[3] at offset 931. But we account for the 3 bytes // HexCode of DTC 134 / HexCode von DTC 134 #define I3_RES_EME_STAT_DTC_134_NUM_WERT (RXBUF_UINT(934)) #define I3_RES_EME_STAT_DTC_134_NUM_WERT_TYPE unsigned short // DTC 134 numerator / Numerator von DTC 134 #define I3_RES_EME_STAT_DTC_134_DEN_WERT (RXBUF_UINT(936)) #define I3_RES_EME_STAT_DTC_134_DEN_WERT_TYPE unsigned short // Denominator of DTC 134 / Denominator von DTC 134 // Can't yet generate code for STAT_DTC_135_HEXCODE_DATA of type data[3] at offset 938. But we account for the 3 bytes // HexCode of DTC 135 / HexCode von DTC 135 #define I3_RES_EME_STAT_DTC_135_NUM_WERT (RXBUF_UINT(941)) #define I3_RES_EME_STAT_DTC_135_NUM_WERT_TYPE unsigned short // Numerator from DTC 135 / Numerator von DTC 135 #define I3_RES_EME_STAT_DTC_135_DEN_WERT (RXBUF_UINT(943)) #define I3_RES_EME_STAT_DTC_135_DEN_WERT_TYPE unsigned short // Denominator of DTC 135 / Denominator von DTC 135 // Can't yet generate code for STAT_DTC_136_HEXCODE_DATA of type data[3] at offset 945. But we account for the 3 bytes // HexCode of DTC 136 / HexCode von DTC 136 #define I3_RES_EME_STAT_DTC_136_NUM_WERT (RXBUF_UINT(948)) #define I3_RES_EME_STAT_DTC_136_NUM_WERT_TYPE unsigned short // Numerator from DTC 136 / Numerator von DTC 136 #define I3_RES_EME_STAT_DTC_136_DEN_WERT (RXBUF_UINT(950)) #define I3_RES_EME_STAT_DTC_136_DEN_WERT_TYPE unsigned short // Denominator of DTC 136 / Denominator von DTC 136 // Can't yet generate code for STAT_DTC_137_HEXCODE_DATA of type data[3] at offset 952. But we account for the 3 bytes // HexCode of DTC 137 / HexCode von DTC 137 #define I3_RES_EME_STAT_DTC_137_NUM_WERT (RXBUF_UINT(955)) #define I3_RES_EME_STAT_DTC_137_NUM_WERT_TYPE unsigned short // DTC 137 numerator / Numerator von DTC 137 #define I3_RES_EME_STAT_DTC_137_DEN_WERT (RXBUF_UINT(957)) #define I3_RES_EME_STAT_DTC_137_DEN_WERT_TYPE unsigned short // Denominator of DTC 137 / Denominator von DTC 137 // Can't yet generate code for STAT_DTC_138_HEXCODE_DATA of type data[3] at offset 959. But we account for the 3 bytes // HexCode of DTC 138 / HexCode von DTC 138 #define I3_RES_EME_STAT_DTC_138_NUM_WERT (RXBUF_UINT(962)) #define I3_RES_EME_STAT_DTC_138_NUM_WERT_TYPE unsigned short // DTC 138 numerator / Numerator von DTC 138 #define I3_RES_EME_STAT_DTC_138_DEN_WERT (RXBUF_UINT(964)) #define I3_RES_EME_STAT_DTC_138_DEN_WERT_TYPE unsigned short // Denominator of DTC 138 / Denominator von DTC 138 // Can't yet generate code for STAT_DTC_139_HEXCODE_DATA of type data[3] at offset 966. But we account for the 3 bytes // HexCode of DTC 139 / HexCode von DTC 139 #define I3_RES_EME_STAT_DTC_139_NUM_WERT (RXBUF_UINT(969)) #define I3_RES_EME_STAT_DTC_139_NUM_WERT_TYPE unsigned short // Numerator from DTC 139 / Numerator von DTC 139 #define I3_RES_EME_STAT_DTC_139_DEN_WERT (RXBUF_UINT(971)) #define I3_RES_EME_STAT_DTC_139_DEN_WERT_TYPE unsigned short // Denominator of DTC 139 / Denominator von DTC 139 // Can't yet generate code for STAT_DTC_140_HEXCODE_DATA of type data[3] at offset 973. But we account for the 3 bytes // HexCode of DTC 140 / HexCode von DTC 140 #define I3_RES_EME_STAT_DTC_140_NUM_WERT (RXBUF_UINT(976)) #define I3_RES_EME_STAT_DTC_140_NUM_WERT_TYPE unsigned short // Numerator from DTC 140 / Numerator von DTC 140 #define I3_RES_EME_STAT_DTC_140_DEN_WERT (RXBUF_UINT(978)) #define I3_RES_EME_STAT_DTC_140_DEN_WERT_TYPE unsigned short // Denominator of DTC 140 / Denominator von DTC 140 // Can't yet generate code for STAT_DTC_141_HEXCODE_DATA of type data[3] at offset 980. But we account for the 3 bytes // HexCode of DTC 141 / HexCode von DTC 141 #define I3_RES_EME_STAT_DTC_141_NUM_WERT (RXBUF_UINT(983)) #define I3_RES_EME_STAT_DTC_141_NUM_WERT_TYPE unsigned short // Numerator from DTC 141 / Numerator von DTC 141 #define I3_RES_EME_STAT_DTC_141_DEN_WERT (RXBUF_UINT(985)) #define I3_RES_EME_STAT_DTC_141_DEN_WERT_TYPE unsigned short // Denominator of DTC 141 / Denominator von DTC 141 // Can't yet generate code for STAT_DTC_142_HEXCODE_DATA of type data[3] at offset 987. But we account for the 3 bytes // HexCode of DTC 142 / HexCode von DTC 142 #define I3_RES_EME_STAT_DTC_142_NUM_WERT (RXBUF_UINT(990)) #define I3_RES_EME_STAT_DTC_142_NUM_WERT_TYPE unsigned short // Numerator from DTC 142 / Numerator von DTC 142 #define I3_RES_EME_STAT_DTC_142_DEN_WERT (RXBUF_UINT(992)) #define I3_RES_EME_STAT_DTC_142_DEN_WERT_TYPE unsigned short // Denominator of DTC 142 / Denominator von DTC 142 #define I3_PID_EME_LADEKOORDINATOR_INTERFACE 0xE5FE // Interfaces from the charging coordinator to HVPM and chargers / Schnittstellen von Ladekoordinator zu HVPM und // Ladern #define I3_RES_EME_STAT_TAR_OPMO_CHGE_WERT (RXBUF_UCHAR(0)) #define I3_RES_EME_STAT_TAR_OPMO_CHGE_WERT_TYPE unsigned char // Set operating mode from HVPM to charging coordinator / Soll Betriebsart von HVPM an Ladekoordinator #define I3_RES_EME_STAT_AVL_OPMOCHGE_WERT (RXBUF_UCHAR(1)) #define I3_RES_EME_STAT_AVL_OPMOCHGE_WERT_TYPE unsigned char // Is the operating mode from LDK to HVPM / Ist Betriebsart von LDK an HVPM #define I3_RES_EME_STAT_TAR_OPMO_INTLE_WERT (RXBUF_UCHAR(2)) #define I3_RES_EME_STAT_TAR_OPMO_INTLE_WERT_TYPE unsigned char // Set operating mode from LDK to internal loader / Soll Betriebsart von LDK an internen Lader #define I3_RES_EME_STAT_AVL_OPMO_INTLE_WERT (RXBUF_UCHAR(3)) #define I3_RES_EME_STAT_AVL_OPMO_INTLE_WERT_TYPE unsigned char // Is the operating mode of the internal loader on the LDK / Ist Betriebsart von internem Lader an LDK #define I3_RES_EME_STAT_TAR_OPMO_CF_CHGE_WERT (RXBUF_UCHAR(4)) #define I3_RES_EME_STAT_TAR_OPMO_CF_CHGE_WERT_TYPE unsigned char // Set operating mode from LDK to external loader / Soll Betriebsart von LDK an externen Lader #define I3_RES_EME_STAT_AVL_OPMO_CF_CHGE_WERT (RXBUF_UCHAR(5)) #define I3_RES_EME_STAT_AVL_OPMO_CF_CHGE_WERT_TYPE unsigned char // Is the operating mode of the external charger on the LDK / Ist Betriebsart von externem Lader an LDK #define I3_RES_EME_STAT_TAR_CHG_MOD_CF_CHGE_WERT (RXBUF_UCHAR(6)) #define I3_RES_EME_STAT_TAR_CHG_MOD_CF_CHGE_WERT_TYPE unsigned char // Target charging mode of the external charger (1- or multi-phase) / Soll-Lademodus des externer Laders (1- oder // mehrphasig) #define I3_RES_EME_STAT_AVL_CHG_MOD_CF_CHGE_WERT (RXBUF_UCHAR(7)) #define I3_RES_EME_STAT_AVL_CHG_MOD_CF_CHGE_WERT_TYPE unsigned char // Actual charging mode of the comfort charging electronics (1- or multi-phase) / Ist-Lademodus der Komfort // Ladeelektronik (1- oder mehrphasig) #define I3_RES_EME_STAT_TAR_PWR_CHGNG_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_TAR_PWR_CHGNG_WERT_UNIT 'W' #define I3_RES_EME_STAT_TAR_PWR_CHGNG_WERT_TYPE unsigned long // Target output from HVPM to LDK / Sollleistung von HVPM an LDK #define I3_RES_EME_STAT_AVL_PWR_CHGNG_WERT (RXBUF_UINT32(12)*0.1f) #define I3_RES_EME_STAT_AVL_PWR_CHGNG_WERT_UNIT 'W' #define I3_RES_EME_STAT_AVL_PWR_CHGNG_WERT_TYPE float // Actual performance from LDK to HVPM / Istleistung von LDK an HVPM #define I3_RES_EME_STAT_TAR_PWR_INTLE_WERT (RXBUF_UINT32(16)*0.1f) #define I3_RES_EME_STAT_TAR_PWR_INTLE_WERT_UNIT 'W' #define I3_RES_EME_STAT_TAR_PWR_INTLE_WERT_TYPE float // Target power from LDK to internal charger / Sollleistung von LDK an interen Lader #define I3_RES_EME_STAT_AVL_PWR_INTLE_WERT (RXBUF_UINT32(20)*0.1f) #define I3_RES_EME_STAT_AVL_PWR_INTLE_WERT_UNIT 'W' #define I3_RES_EME_STAT_AVL_PWR_INTLE_WERT_TYPE float // Actual HV power of the internal charger / Ist-HV-Leistung des internen Laders #define I3_RES_EME_STAT_TAR_PWR_CF_CHGE_WERT (RXBUF_UINT(24)) #define I3_RES_EME_STAT_TAR_PWR_CF_CHGE_WERT_UNIT 'W' #define I3_RES_EME_STAT_TAR_PWR_CF_CHGE_WERT_TYPE unsigned short // Target output from LDK to external charger / Sollleistung von LDK an exteren Lader #define I3_RES_EME_STAT_AVL_PWR_CF_CHGE_WERT (RXBUF_UINT(26)) #define I3_RES_EME_STAT_AVL_PWR_CF_CHGE_WERT_UNIT 'W' #define I3_RES_EME_STAT_AVL_PWR_CF_CHGE_WERT_TYPE unsigned short // Actual HV output from external charger / Ist-HV-leistung von externem Lader #define I3_RES_EME_STAT_SPEC_I_MAX_ALTC_CHGE_WERT (RXBUF_UINT32(28)*0.1f) #define I3_RES_EME_STAT_SPEC_I_MAX_ALTC_CHGE_WERT_UNIT 'A' #define I3_RES_EME_STAT_SPEC_I_MAX_ALTC_CHGE_WERT_TYPE float // HVPM specification of the maximum permissible AC conductor current (effective value) for all available network // phases / HVPM-Vorgabe des maximal zulässigen AC-Leiterstromes (Effektivwert) für alle verfügbaren Netzphasen #define I3_RES_EME_STAT_SPEC_I_MAX_ALTC_CF_CHGE_WERT (RXBUF_UINT(32)*0.1f) #define I3_RES_EME_STAT_SPEC_I_MAX_ALTC_CF_CHGE_WERT_UNIT 'A' #define I3_RES_EME_STAT_SPEC_I_MAX_ALTC_CF_CHGE_WERT_TYPE float // Specification of the maximum permissible AC conductor current (effective value) for all available mains phases // - external charger. / Vorgabe des maximal zulässigen AC-Leiterstromes (Effektivwert) für alle verfügbaren // Netzphasen - Externer Lader. #define I3_RES_EME_STAT_SPEC_I_MAX_DC_CHGE_WERT (RXBUF_UINT32(34)*0.1f) #define I3_RES_EME_STAT_SPEC_I_MAX_DC_CHGE_WERT_UNIT 'A' #define I3_RES_EME_STAT_SPEC_I_MAX_DC_CHGE_WERT_TYPE float // HVPM specification of the maximum permissible DC-HV current upper limit / HVPM-Vorgabe der maximal zulässigen // DC-HV-Stromobergrenze #define I3_RES_EME_STAT_AVL_I_CHGE_WERT (RXBUF_SINT(38)*0.1f-204.7) #define I3_RES_EME_STAT_AVL_I_CHGE_WERT_UNIT 'A' #define I3_RES_EME_STAT_AVL_I_CHGE_WERT_TYPE float // Information about the current DC-HV current supplied by the LDK / Information über den aktuell von der LDK // abgegebenen DC-HV-Strom #define I3_RES_EME_STAT_SPEC_I_MAX_DC_INTLE_WERT (RXBUF_UINT32(40)*0.1f) #define I3_RES_EME_STAT_SPEC_I_MAX_DC_INTLE_WERT_UNIT 'A' #define I3_RES_EME_STAT_SPEC_I_MAX_DC_INTLE_WERT_TYPE float // Specification of the maximum permissible DC-HV current upper limit - internal charger. / Vorgabe der maximal // zulässigen DC-HV-Stromobergrenze - Interner Lader. #define I3_RES_EME_STAT_AVL_I_INTLE_WERT (RXBUF_UINT32(44)*0.1f) #define I3_RES_EME_STAT_AVL_I_INTLE_WERT_UNIT 'A' #define I3_RES_EME_STAT_AVL_I_INTLE_WERT_TYPE float // Information about the DC-HV current currently being supplied by the KLE - internal charger / Information über // den aktuell von der KLE abgegebenen DC-HV-Strom - Interner Lader #define I3_RES_EME_STAT_SPEC_I_MAX_DC_CF_CHGE_WERT (RXBUF_UINT(48)*0.1f) #define I3_RES_EME_STAT_SPEC_I_MAX_DC_CF_CHGE_WERT_UNIT 'A' #define I3_RES_EME_STAT_SPEC_I_MAX_DC_CF_CHGE_WERT_TYPE float // Specification of the maximum permissible DC-HV current upper limit - external charger. / Vorgabe der maximal // zulässigen DC-HV-Stromobergrenze - Externer Lader. #define I3_RES_EME_STAT_AVL_I_CF_CHGE_WERT (RXBUF_SINT(50)*0.1f-204.7) #define I3_RES_EME_STAT_AVL_I_CF_CHGE_WERT_UNIT 'A' #define I3_RES_EME_STAT_AVL_I_CF_CHGE_WERT_TYPE float // Information about the DC-HV current currently being supplied by the KLE - external charger / Information über // den aktuell von der KLE abgegebenen DC-HV-Strom - Externer Lader #define I3_RES_EME_STAT_SPEC_U_MAX_CHG_CHGE_WERT (RXBUF_UINT(52)*0.1f) #define I3_RES_EME_STAT_SPEC_U_MAX_CHG_CHGE_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPEC_U_MAX_CHG_CHGE_WERT_TYPE float // HVPM specification of the maximum permissible DC-HV voltage upper limit of the charging electronics. / // HVPM-Vorgabe der maximal zulässigen DC-HV-Spannungsobergrenze der Ladeelektronik. #define I3_RES_EME_STAT_AVL_U_CHGE_WERT (RXBUF_UINT(54)*0.1f) #define I3_RES_EME_STAT_AVL_U_CHGE_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_CHGE_WERT_TYPE float // HV voltage measured by chargers (max from internal and external charger) / von Ladegeraeten gemessene // HV-Spannung (Max aus internem und externem Lader) #define I3_RES_EME_STAT_SPEC_U_MAX_INTLE_WERT (RXBUF_UINT32(56)) #define I3_RES_EME_STAT_SPEC_U_MAX_INTLE_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPEC_U_MAX_INTLE_WERT_TYPE unsigned long // Specification of the maximum permissible DC-HV voltage limit - internal charger. / Vorgabe der maximal // zulässigen DC-HV-Spannungsgrenze - Interner Lader. #define I3_RES_EME_STAT_AVL_U_INTLE_WERT (RXBUF_UINT32(60)*0.1f) #define I3_RES_EME_STAT_AVL_U_INTLE_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_INTLE_WERT_TYPE float // Actual HV voltage from internal charger / Ist-HV-Spannung von internem Lader #define I3_RES_EME_STAT_SPEC_U_MAX_CF_CHGE_WERT (RXBUF_SINT(64)*0.25f) #define I3_RES_EME_STAT_SPEC_U_MAX_CF_CHGE_WERT_UNIT 'V' #define I3_RES_EME_STAT_SPEC_U_MAX_CF_CHGE_WERT_TYPE float // Specification of the maximum permissible DC-HV voltage limit - external charger. / Vorgabe der maximal // zulässigen DC-HV-Spannungsgrenze - Externer Lader. #define I3_RES_EME_STAT_AVL_U_CF_CHGE_WERT (RXBUF_SINT(66)*0.1f) #define I3_RES_EME_STAT_AVL_U_CF_CHGE_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_CF_CHGE_WERT_TYPE float // Actual HV voltage from external charger / Ist-HV-Spannung von externem Lader #define I3_RES_EME_STAT_AVL_U_CHGE_ALTC_WR_1_WERT (RXBUF_UCHAR(68)) #define I3_RES_EME_STAT_AVL_U_CHGE_ALTC_WR_1_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_CHGE_ALTC_WR_1_WERT_TYPE unsigned char // Smoothed and filtered AC voltage rms actual value between conductor 1 and neutral conductor (internal charger) // / Geglätteter und gefilterter AC-Spannungseffektiv-Istwert zwischen Leiter 1 und Nullleiter (Internes // Ladegeraet) #define I3_RES_EME_STAT_AVL_U_1_CF_CHGE_ALTC_WERT (RXBUF_UCHAR(69)) #define I3_RES_EME_STAT_AVL_U_1_CF_CHGE_ALTC_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_1_CF_CHGE_ALTC_WERT_TYPE unsigned char // Smoothed and filtered AC voltage rms actual value between conductor 1 and neutral conductor (external charger) // / Geglätteter und gefilterter AC-Spannungseffektiv-Istwert zwischen Leiter 1 und Nullleiter (externes // Ladegeraet) #define I3_RES_EME_STAT_AVL_U_2_CF_CHGE_ALTC_WERT (RXBUF_UCHAR(70)) #define I3_RES_EME_STAT_AVL_U_2_CF_CHGE_ALTC_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_2_CF_CHGE_ALTC_WERT_TYPE unsigned char // Smoothed and filtered AC voltage rms actual value between conductor 2 and neutral conductor (external charger) // / Geglätteter und gefilterter AC-Spannungseffektiv-Istwert zwischen Leiter 2 und Nullleiter (externes // Ladegeraet) #define I3_RES_EME_STAT_AVL_TEMP_CHGE_WERT (RXBUF_SINT(71)-48.0) #define I3_RES_EME_STAT_AVL_TEMP_CHGE_WERT_UNIT '°C' #define I3_RES_EME_STAT_AVL_TEMP_CHGE_WERT_TYPE short // Current temperature of the charging electronics. / Aktuelle Temperatur der Ladeelektronik. #define I3_RES_EME_STAT_AVL_TEMP_INTLE_WERT (RXBUF_SINT(73)) #define I3_RES_EME_STAT_AVL_TEMP_INTLE_WERT_UNIT '°C' #define I3_RES_EME_STAT_AVL_TEMP_INTLE_WERT_TYPE short // Current temperature of the internal charger. / Aktuelle Temperatur des internen Laders. #define I3_RES_EME_STAT_AVL_TEMP_CF_CHGE_WERT (RXBUF_SINT(75)-48.0) #define I3_RES_EME_STAT_AVL_TEMP_CF_CHGE_WERT_UNIT '°C' #define I3_RES_EME_STAT_AVL_TEMP_CF_CHGE_WERT_TYPE short // Current temperature of the external charger. / Aktuelle Temperatur des externenLaders. #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_DER_WERT (RXBUF_UINT32(77)) #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_DER_WERT_UNIT 'W' #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_DER_WERT_TYPE unsigned long // Current derating performance of the charging electronics / Aktuelle Derating-Leistung der Ladeelektronik #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_INTLE_DER_WERT (RXBUF_UINT32(81)) #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_INTLE_DER_WERT_UNIT 'W' #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_INTLE_DER_WERT_TYPE unsigned long // Current derating power of the internal charger / Aktuelle Derating-Leistung des internen Laders #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_CF_CHGE_DER_WERT (RXBUF_UINT32(85)*10.0f) #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_CF_CHGE_DER_WERT_UNIT 'W' #define I3_RES_EME_STAT_PWR_HV_STAT_AVLB_CF_CHGE_DER_WERT_TYPE float // Current derating upper limit of the ExtLe. / Aktuelle Derating-Leistungsobergrenze der ExtLe. #define I3_RES_EME_STAT_REAS_FAILSAFE_CHGNG_WERT (RXBUF_UINT(89)) #define I3_RES_EME_STAT_REAS_FAILSAFE_CHGNG_WERT_TYPE unsigned short // Information about the trigger for the Failsafe state / Information über den Auslöser für den Zustand Failsafe #define I3_RES_EME_STAT_REAS_FAILSAFE_INTLE_WERT (RXBUF_UINT(91)) #define I3_RES_EME_STAT_REAS_FAILSAFE_INTLE_WERT_TYPE unsigned short // Information about the trigger for the failsafe state of the internal loader / Information über den Auslöser // für den Zustand Failsafe des internen Laders #define I3_RES_EME_STAT_REAS_CON_VRFD_CF_CHGE_WERT (RXBUF_UINT(93)) #define I3_RES_EME_STAT_REAS_CON_VRFD_CF_CHGE_WERT_TYPE unsigned short // Information about the trigger for the Failsafe state in the external loader. / Information über den Auslöser // für den Zustand Failsafe im externen Lader. #define I3_RES_EME_STAT_REAS_DER_CHGNG_WERT (RXBUF_UCHAR(95)) #define I3_RES_EME_STAT_REAS_DER_CHGNG_WERT_TYPE unsigned char // Information about the cause of the derating of the charging electronics / Information über die Deratingursache // der Ladeelektronik #define I3_RES_EME_STAT_REAS_DER_INTLE_WERT (RXBUF_UCHAR(96)) #define I3_RES_EME_STAT_REAS_DER_INTLE_WERT_TYPE unsigned char // Information about the cause of the derating of the internal charger / Information über die Deratingursache des // internen Laders #define I3_RES_EME_STAT_REAS_DER_CF_CHGNG_WERT (RXBUF_UCHAR(97)) #define I3_RES_EME_STAT_REAS_DER_CF_CHGNG_WERT_TYPE unsigned char // Information about the cause of the derating of the external charger / Information über die Deratingursache des // externen Laders #define I3_RES_EME_STAT_ST_ERR_CHGNG_WERT (RXBUF_UCHAR(98)) #define I3_RES_EME_STAT_ST_ERR_CHGNG_WERT_TYPE unsigned char // Information about error states of the charging electronics / Information über Fehlerzustände der // Ladeelektronik #define I3_RES_EME_STAT_ST_ERR_INTLE_WERT (RXBUF_UCHAR(99)) #define I3_RES_EME_STAT_ST_ERR_INTLE_WERT_TYPE unsigned char // Information about error states of the internal loader / Information über Fehlerzustände des internen Laders #define I3_RES_EME_STAT_ST_ERR_CF_CHGE_WERT (RXBUF_UCHAR(100)) #define I3_RES_EME_STAT_ST_ERR_CF_CHGE_WERT_TYPE unsigned char // Information about error states of the external charger / Information über Fehlerzustände des externer Laders #define I3_RES_EME_STAT_FREQWR_CHGNG_WERT (RXBUF_UINT32(101)) #define I3_RES_EME_STAT_FREQWR_CHGNG_WERT_UNIT 'Hz' #define I3_RES_EME_STAT_FREQWR_CHGNG_WERT_TYPE unsigned long // Frequency AC network of the charging electronics / Frequenz AC-Netz der Ladeelektronik #define I3_RES_EME_STAT_FREQWR_INTLE_WERT (RXBUF_UINT32(105)) #define I3_RES_EME_STAT_FREQWR_INTLE_WERT_UNIT 'Hz' #define I3_RES_EME_STAT_FREQWR_INTLE_WERT_TYPE unsigned long // Frequency AC network of the internal charger / Frequenz AC-Netz des internen Laders #define I3_RES_EME_STAT_FREQWR_1_CF_CHGE_ALTC_WERT (RXBUF_UINT32(109)*0.25f) #define I3_RES_EME_STAT_FREQWR_1_CF_CHGE_ALTC_WERT_UNIT 'Hz' #define I3_RES_EME_STAT_FREQWR_1_CF_CHGE_ALTC_WERT_TYPE float // Smoothed and filtered AC grid frequency between conductor 1 and neutral of the external charger. / Geglättete // und gefilterte AC-Netzfrequenz zwischen Leiter 1 und Nulleiter des externen Laders. #define I3_RES_EME_STAT_FREQWR_2_CF_CHGE_ALTC_WERT (RXBUF_UINT32(113)*0.25f) #define I3_RES_EME_STAT_FREQWR_2_CF_CHGE_ALTC_WERT_UNIT 'Hz' #define I3_RES_EME_STAT_FREQWR_2_CF_CHGE_ALTC_WERT_TYPE float // Smoothed and filtered AC grid frequency between conductor 2 and neutral of the external charger. / Geglättete // und gefilterte AC-Netzfrequenz zwischen Leiter 2 und Nulleiter des externen Laders. #define I3_RES_EME_STAT_AVL_EFFY_CHGNG_CYC_WERT (RXBUF_UINT32(117)) #define I3_RES_EME_STAT_AVL_EFFY_CHGNG_CYC_WERT_UNIT '%' #define I3_RES_EME_STAT_AVL_EFFY_CHGNG_CYC_WERT_TYPE unsigned long // Efficiency of the charging electronics / Effizienz der Ladeelektronik #define I3_RES_EME_STAT_AVL_EFFY_INTLE_CYC_WERT (RXBUF_UCHAR(121)) #define I3_RES_EME_STAT_AVL_EFFY_INTLE_CYC_WERT_UNIT '%' #define I3_RES_EME_STAT_AVL_EFFY_INTLE_CYC_WERT_TYPE unsigned char // Internal loader efficiency / Effizienz des internen Laders #define I3_RES_EME_STAT_AVL_EFFY_CF_CHGNG_CYC_WERT (RXBUF_UCHAR(122)) #define I3_RES_EME_STAT_AVL_EFFY_CF_CHGNG_CYC_WERT_UNIT '%' #define I3_RES_EME_STAT_AVL_EFFY_CF_CHGNG_CYC_WERT_TYPE unsigned char // External charger efficiency / Effizienz des externen Laders #define I3_RES_EME_STAT_TAR_CHGNG_TYP_WERT (RXBUF_UCHAR(123)) #define I3_RES_EME_STAT_TAR_CHGNG_TYP_WERT_TYPE unsigned char // Default charging type by HVPM (conductive, inductive) / Vorgabe-Ladetyp durch HVPM (konduktiv, induktiv) #define I3_RES_EME_STAT_AVL_CHGNG_TYP_WERT (RXBUF_UCHAR(124)) #define I3_RES_EME_STAT_AVL_CHGNG_TYP_WERT_TYPE unsigned char // Actual charging type feedback through LDK (conductive, inductive) / Ist-Ladetyp Rückmeldung durch LDK // (konduktiv, induktiv) #define I3_PID_EME_DCDC_MESSGROESSEN_KOMPLETT 0xE5FF // Status of all available DCDC measured values for both PKR2 and non-PKR2 software / Status aller verfügbaren // DCDC Messgrössen für beide PKR2 und nicht-PKR2 Software #define I3_RES_EME_STAT_AVL_CUTIL_DCDC_CNV_WERT (RXBUF_UINT32(0)) #define I3_RES_EME_STAT_AVL_CUTIL_DCDC_CNV_WERT_UNIT '%' #define I3_RES_EME_STAT_AVL_CUTIL_DCDC_CNV_WERT_TYPE unsigned long // Load DCDC / Auslastung DCDC #define I3_RES_EME_STAT_AVL_I_HV_DCDC_WERT (RXBUF_SINT32(4)*0.1f) #define I3_RES_EME_STAT_AVL_I_HV_DCDC_WERT_UNIT 'A' #define I3_RES_EME_STAT_AVL_I_HV_DCDC_WERT_TYPE float // Instantaneous HV current of the DC / DC converter / Momentaner HV-Strom des DC/DC-Wandlers #define I3_RES_EME_STAT_AVL_I_LV_DCDC_WERT (RXBUF_UINT32(8)) #define I3_RES_EME_STAT_AVL_I_LV_DCDC_WERT_UNIT 'A' #define I3_RES_EME_STAT_AVL_I_LV_DCDC_WERT_TYPE unsigned long // DCDC converter: ACTUAL current LV side at the B + bolt / DCDC Wandler: IST-Strom LV-Seite am B+ Bolzen #define I3_RES_EME_STAT_AVL_OPMO_DCDC_CNV_WERT (RXBUF_UCHAR(12)) #define I3_RES_EME_STAT_AVL_OPMO_DCDC_CNV_WERT_TYPE unsigned char // Actual operating mode of the DCDC converter / Ist-Betriebsart des DCDC-Wandlers #define I3_RES_EME_STAT_AVL_U_DCDC_CNV_HV_WERT (RXBUF_UINT32(13)) #define I3_RES_EME_STAT_AVL_U_DCDC_CNV_HV_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_DCDC_CNV_HV_WERT_TYPE unsigned long // HV voltage in the DC / DC converter / HV Spannung im DC/DC-Wandler #define I3_RES_EME_STAT_AVL_U_LV_DCDC_CNV_WERT (RXBUF_UINT32(17)*0.1f) #define I3_RES_EME_STAT_AVL_U_LV_DCDC_CNV_WERT_UNIT 'V' #define I3_RES_EME_STAT_AVL_U_LV_DCDC_CNV_WERT_TYPE float // DCDC converter: ACTUAL voltage LV side at B + bolt / DCDC Wandler: IST-Spannung LV-Seite am B+ Bolzen #define I3_RES_EME_STAT_SPEC_PWR_DCDC_CNV_MAX_WERT (RXBUF_UINT32(21)) #define I3_RES_EME_STAT_SPEC_PWR_DCDC_CNV_MAX_WERT_UNIT 'W' #define I3_RES_EME_STAT_SPEC_PWR_DCDC_CNV_MAX_WERT_TYPE unsigned long // Commanded maximum HV power / Kommandierte maximale HV-Leistung #define I3_RES_EME_STAT_ST_DCDC_CNV_DIAG_WERT (RXBUF_UINT32(25)) #define I3_RES_EME_STAT_ST_DCDC_CNV_DIAG_WERT_TYPE unsigned long // Status of which current limit / which derating of the DCDC converter is active / Status welche // Stromgrenze/welches Derating des DCDC-Wandlers aktiv ist #define I3_RES_EME_STAT_ST_ERR_DCDC_CNV_WERT (RXBUF_UINT(29)) #define I3_RES_EME_STAT_ST_ERR_DCDC_CNV_WERT_TYPE unsigned short // Return of the active / inactive errors of the DC / DC converter - bit-coded / Rückgabe der aktiven/inaktiven // Fehler des DC/DC Wandlers - bitcodiert #define I3_RES_EME_STAT_TAR_OPMO_DCDC_CNV_WERT (RXBUF_UCHAR(31)) #define I3_RES_EME_STAT_TAR_OPMO_DCDC_CNV_WERT_TYPE unsigned char // Target operating mode of the DC / DC converter: 1: Standby 2: Buck 5: AC emergency charging / Soll-Betriebsart // des DC/DC-Wandlers: 1: Standby 2: Buck 5: AC-Notladen #define I3_RES_EME_STAT_TAR_U_LV_DCDC_CNV_WERT (RXBUF_UINT32(32)*0.1f) #define I3_RES_EME_STAT_TAR_U_LV_DCDC_CNV_WERT_UNIT 'V' #define I3_RES_EME_STAT_TAR_U_LV_DCDC_CNV_WERT_TYPE float // Target LV voltage of the DCDC converter in buck operation (maximum value) / Soll-LV-Spannung des DCDC-Wandlers // im Buck-Betrieb (Maximaler Wert) #define I3_RES_EME_STAT_U_DCDC_CNV_HV_MIN_WERT (RXBUF_UINT32(36)) #define I3_RES_EME_STAT_U_DCDC_CNV_HV_MIN_WERT_UNIT 'V' #define I3_RES_EME_STAT_U_DCDC_CNV_HV_MIN_WERT_TYPE unsigned long // Minimum permissible HV voltage limit / Minimal zulässige HV-Spannungsgrenze #define I3_RES_EME_STAT_V_B_DCDC_HI_ENABLE_WERT (RXBUF_UCHAR(40)) #define I3_RES_EME_STAT_V_B_DCDC_HI_ENABLE_WERT_TYPE unsigned char // DCDC-enabled signal (HW signal to activate the DCDC HW) / DCDC-enabled-Signal (HW-Signal zum aktivieren der // DCDC-HW) #define I3_RES_EME_STAT_V_E_DCDC_BTS_STATUS_MC6_WERT (RXBUF_UINT(41)) #define I3_RES_EME_STAT_V_E_DCDC_BTS_STATUS_MC6_WERT_TYPE unsigned short // Status of the component protection diagnostics on the MC6 (PIC) - bit-coded / Status der // Bauteilschutzdiagnosen auf dem MC6 (PIC) - bitcodiert #define I3_RES_EME_STAT_V_E_DCDC_CTRL_STATUS_MC6_PKR2_WERT (RXBUF_UINT(43)) #define I3_RES_EME_STAT_V_E_DCDC_CTRL_STATUS_MC6_PKR2_WERT_TYPE unsigned short // Status of the DC / DC controller (from PIC) - bit-coded (only PKR2!) / Status des DC/DC-Controllers (von PIC) // - bitcodiert (nur PKR2!) #define I3_RES_EME_STAT_V_E_DCDC_HI_ST_OUT_WERT (RXBUF_UINT32(45)) #define I3_RES_EME_STAT_V_E_DCDC_HI_ST_OUT_WERT_TYPE unsigned long // The reason for the limit values of the DC / DC converter. / Die Ursache für die Begrenzungsgrößen des // DC/DC-Wandlers. #define I3_RES_EME_STAT_V_E_DCDC_MC0_CTRL_WERT (RXBUF_UINT32(49)) #define I3_RES_EME_STAT_V_E_DCDC_MC0_CTRL_WERT_TYPE unsigned long // Status and control bits for the DCDC: Bit 0: Release signal (at 1) for frequency modulation operation in DCDC // Bit 1: KL15 status Bit 2: Status ELUP startup (1: active) (Bit 2 - only for PKR2!) / Status und Steuerungsbits // für den DCDC: Bit 0: Freigabesignal (bei 1) für den Frequenzmodulation-Betrieb im DCDC Bit 1: KL15-Status // Bit 2: Status ELUP Anlauf (1: aktiv) (Bit 2 - nur für PKR2!) #define I3_RES_EME_STAT_V_H_SPI_DCDC_0_SPI_DATA_E_STATUS_WERT (RXBUF_UINT(53)) #define I3_RES_EME_STAT_V_H_SPI_DCDC_0_SPI_DATA_E_STATUS_WERT_TYPE unsigned short // Status of SPI communication from the point of view of MC0 / Status SPI-Kommunikation aus Sicht von MC0 #define I3_RES_EME_STAT_V_H_SPI_DCDC_6_SPI_DATA_E_STATUS_WERT (RXBUF_UINT(55)) #define I3_RES_EME_STAT_V_H_SPI_DCDC_6_SPI_DATA_E_STATUS_WERT_TYPE unsigned short // Status of SPI communication from the point of view of MC6 / Status SPI-Kommunikation aus Sicht von MC6 #define I3_RES_EME_STAT_V_I_DCDC_HV_MC6_WERT (RXBUF_UINT32(57)*0.1f) #define I3_RES_EME_STAT_V_I_DCDC_HV_MC6_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_DCDC_HV_MC6_WERT_TYPE float // HV electricity / HV-Strom #define I3_RES_EME_STAT_V_I_DCDC_TRA1_MC6_WERT (RXBUF_UINT32(61)*0.1f) #define I3_RES_EME_STAT_V_I_DCDC_TRA1_MC6_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_DCDC_TRA1_MC6_WERT_TYPE float // Transformer electricity / Transformator Strom #define I3_RES_EME_STAT_V_I_DCDC_TRA_FIL_WERT (RXBUF_UINT32(65)*0.1f) #define I3_RES_EME_STAT_V_I_DCDC_TRA_FIL_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_DCDC_TRA_FIL_WERT_TYPE float // Filtered transformer electricity / Gefilterter Transformator Strom #define I3_RES_EME_STAT_V_S_DCDC_PWM_HTS1_WERT (RXBUF_UINT(69)) #define I3_RES_EME_STAT_V_S_DCDC_PWM_HTS1_WERT_TYPE unsigned short // Duty cycle buck converter 1 (only for non-PKR2 software!) Push-pull converter phase shift between HSS1 and // HSS2 (only PKR2!) / Einschaltdauer Tiefsetzsteller 1 (nur für non-PKR2 Software!) Gegentaktwandler // Phasenverschiebung zwischen HSS1 und HSS2 (nur PKR2!) #define I3_RES_EME_STAT_V_S_DCDC_PWM_HTS2_WERT (RXBUF_UINT(71)) #define I3_RES_EME_STAT_V_S_DCDC_PWM_HTS2_WERT_TYPE unsigned short // Switch-on time buck converter 2 (only for non-PKR2 software!) Switch-on time rectifier (only PKR2!) / // Einschaltzeit Tiefsetzsteller 2 (nur für non-PKR2 Software!) Einschaltzeit Gleichrichter (nur PKR2!) #define I3_RES_EME_STAT_V_S_DCDC_SW_VERSION_WERT (RXBUF_UINT(73)) #define I3_RES_EME_STAT_V_S_DCDC_SW_VERSION_WERT_TYPE unsigned short // DCDC SW version / DCDC SW-Version #define I3_RES_EME_STAT_V_T_DCDC_BO_WERT (RXBUF_UINT32(75)) #define I3_RES_EME_STAT_V_T_DCDC_BO_WERT_UNIT '°C' #define I3_RES_EME_STAT_V_T_DCDC_BO_WERT_TYPE unsigned long // Temperature DCDC board / Temperatur DCDC Board #define I3_RES_EME_STAT_V_T_DCDC_GR_MC6_WERT (RXBUF_UINT32(79)) #define I3_RES_EME_STAT_V_T_DCDC_GR_MC6_WERT_UNIT '°C' #define I3_RES_EME_STAT_V_T_DCDC_GR_MC6_WERT_TYPE unsigned long // Temperature rectifier / Temperatur Gleichrichter #define I3_RES_EME_STAT_V_T_DCDC_GTW_MC6_WERT (RXBUF_UINT32(83)) #define I3_RES_EME_STAT_V_T_DCDC_GTW_MC6_WERT_UNIT '°C' #define I3_RES_EME_STAT_V_T_DCDC_GTW_MC6_WERT_TYPE unsigned long // Temperature push-pull converter / Temperatur Gegentaktwandler #define I3_RES_EME_STAT_V_U_DCDC_GT_MC6_PKR2_WERT (RXBUF_UINT32(87)) #define I3_RES_EME_STAT_V_U_DCDC_GT_MC6_PKR2_WERT_UNIT 'V' #define I3_RES_EME_STAT_V_U_DCDC_GT_MC6_PKR2_WERT_TYPE unsigned long // Gate driver supply voltage (only PKR2!) / Gatetreiber-Versorgungsspannung (nur PKR2!) #define I3_RES_EME_STAT_V_U_DCDC_LV_WERT (RXBUF_UINT32(91)*0.1f) #define I3_RES_EME_STAT_V_U_DCDC_LV_WERT_UNIT 'V' #define I3_RES_EME_STAT_V_U_DCDC_LV_WERT_TYPE float // LV actual voltage / LV Ist-Spannung #define I3_RES_EME_STAT_V_U_DCDC_LV_CAL_WERT (RXBUF_UINT32(95)*0.1f) #define I3_RES_EME_STAT_V_U_DCDC_LV_CAL_WERT_UNIT 'V' #define I3_RES_EME_STAT_V_U_DCDC_LV_CAL_WERT_TYPE float // Raw signal LV voltage measurement DCDC converter / Rohsignal LV Spannungsmessung DCDC Wandler #define I3_RES_EME_STAT_V_U_DCDC_LV_SOLL_WERT (RXBUF_UINT32(99)*0.1f) #define I3_RES_EME_STAT_V_U_DCDC_LV_SOLL_WERT_UNIT 'V' #define I3_RES_EME_STAT_V_U_DCDC_LV_SOLL_WERT_TYPE float // LV target voltage specification / LV-Soll-Spannung-Vorgabe #define I3_RES_EME_STAT_V_I_DCDC_TS1_MC6_RUKO_WERT (RXBUF_UINT32(103)) #define I3_RES_EME_STAT_V_I_DCDC_TS1_MC6_RUKO_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_DCDC_TS1_MC6_RUKO_WERT_TYPE unsigned long // Buck converter phase 1 current (only for non-PKR2 software!) / Tiefsetzsteller Phase1 Strom (nur für non-PKR2 // Software!) #define I3_RES_EME_STAT_V_I_DCDC_TS2_MC6_RUKO_WERT (RXBUF_UINT32(107)) #define I3_RES_EME_STAT_V_I_DCDC_TS2_MC6_RUKO_WERT_UNIT 'A' #define I3_RES_EME_STAT_V_I_DCDC_TS2_MC6_RUKO_WERT_TYPE unsigned long // Buck converter phase 2 current (only for non-PKR2 software!) / Tiefsetzsteller Phase 2 Strom (nur für non-PKR2 // Software!) #define I3_RES_EME_STAT_V_T_DCDC_TS_MC6_RUKO_WERT (RXBUF_UINT32(111)) #define I3_RES_EME_STAT_V_T_DCDC_TS_MC6_RUKO_WERT_UNIT '°C' #define I3_RES_EME_STAT_V_T_DCDC_TS_MC6_RUKO_WERT_TYPE unsigned long // Step-down converter temperature (only for non-PKR2 software!) / Tiefsetzsteller Temperatur (nur für non-PKR2 // Software!) // Skipping NV_FLASH_PRUEFEN on 0xF000 which takes arguments // Skipping RBM_TEST on 0xF001 which takes arguments // Skipping AE_HWCAL_LESEN on 0xF010 which takes arguments #define I3_PID_EME_AE_RESETINFO_LESEN 0xF011 // Reading out the reset info from the flash / Auslesen der Resetinfo aus dem Flash // Skipping AKS_DIAG_STATUS_SELECT on 0xF012 which takes arguments #define I3_PID_EME_AE_FREILAUF_MODUS 0xF050 // Free running mode / Freilauf Modus #define I3_RES_EME_STAT_STATUS (RXBUF_SCHAR(0)) #define I3_RES_EME_STAT_STATUS_UNIT '0-n' #define I3_RES_EME_STAT_STATUS_TYPE char // Free running status: 0 = inactive; 1 = active / Status Freilauf: 0=inaktiv; 1=aktiv