237 lines
9.6 KiB
Text
237 lines
9.6 KiB
Text
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These are the production and quality control notes for OVMS v3.1 modules
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(May 2018 onwards)
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********************************************************************************
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** TOOLS
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********************************************************************************
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1] DB9 CAN Bus QC tool
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DB9 Female with:
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* Pins 2, 4, and 6 connected (all CAN-L signals)
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* Pins 5, 7, and 8 connected (all CAN-H signals)
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* R120 between pins 2 and 5
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* External 12V power connector
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* GND on pin 3
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* +12V on pin 9
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********************************************************************************
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** SERIAL NUMBERS
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********************************************************************************
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Serial numbers are of the form:
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YYYYBBNNNNNRRRR
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* YYYY is four digit year. For example; 2018.
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* BB is two digit batch. For example; 00, 01, 02, etc.
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* NNNN is four digit sequence. For example; 0001, 0002, etc.
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* RRRR is four random characters. For example; ADEA, JKAE, etc.
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First production batch is 2018010001**** - 2018010120****.
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Second production batch is 2018020001**** - 2018020220****.
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********************************************************************************
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** PRODUCTION STEPS
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********************************************************************************
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1] Erase ENTIRE flash
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2] Flash bootloader, partition table, and firmware
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3] No need to set module password - leave it blank.
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4] Set SD CARD speed:
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config set sdcard maxfreq.khz 20000
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********************************************************************************
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** QC STEPS
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********************************************************************************
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1] CAN buses
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Plug in the 'DB9 CAN Bus QC tool' and power the OVMS module. Use 'enable' to
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enter secure mode. Start all three CAN buses, and prepare to examine the
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data:
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OVMS# can can1 start active 1000000
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OVMS# can can2 start active 1000000
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OVMS# can can3 start active 1000000
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OVMS# log level verbose
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OVMS# can log trace
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Try to transmit on each CAN bus in turn, and ensure that the other two
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buses show reception of the packet:
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OVMS# can can1 tx standard 100 01 02 03 04
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V (222509) canlog: TX can1 id 100 len 4: 01 02 03 04 | ....
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V (222509) canlog: RX can2 id 100 len 4: 01 02 03 04 | ....
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V (222509) canlog: RX can3 id 100 len 4: 01 02 03 04 | ....
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OVMS# can can2 tx standard 100 01 02 03 04
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V (229559) canlog: TX can2 id 100 len 4: 01 02 03 04 | ....
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V (229559) canlog: RX can1 id 100 len 4: 01 02 03 04 | ....
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V (229559) canlog: RX can3 id 100 len 4: 01 02 03 04 | ....
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OVMS# can can3 tx standard 100 01 02 03 04
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V (235139) canlog: TX can3 id 100 len 4: 01 02 03 04 | ....
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V (235139) canlog: RX can1 id 100 len 4: 01 02 03 04 | ....
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V (235139) canlog: RX can2 id 100 len 4: 01 02 03 04 | ....
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2] 12V power
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Power module from 12V source, wait a few seconds, and then check that the
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adc is showing correctly:
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OVMS# metrics list v.b.12v.voltage
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v.b.12v.voltage 12.102V
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The expected value is within +/- 0.5V of the power supply voltage.
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3] Test SD card
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With a micro SD card inserted, test it:
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OVMS# test sdcard
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SD CARD test starts...
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SD CARD written 0/2048
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SD CARD written 128/2048
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SD CARD written 256/2048
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SD CARD written 384/2048
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SD CARD written 512/2048
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SD CARD written 640/2048
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SD CARD written 768/2048
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SD CARD written 896/2048
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SD CARD written 1024/2048
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SD CARD written 1152/2048
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SD CARD written 1280/2048
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SD CARD written 1408/2048
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SD CARD written 1536/2048
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SD CARD written 1664/2048
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SD CARD written 1792/2048
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SD CARD written 1920/2048
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Cleaning up
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SD CARD test completes
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4] Test asynchronous console
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When connected via USB console cable, test the asynchronous console:
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OVMS# test chargen 10
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!"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh
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"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghi
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#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghij
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$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijk
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%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijkl
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&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklm
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'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmn
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()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmno
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)*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnop
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*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopq
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The expected output is as above.
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5] Test deep sleep current
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Power module from 12V source, with a meter showing power consumption. Be
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sure to power down all peripherals (power wifi off, power modem off, etc).
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OVMS# test sleep
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Entering deep sleep...
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During the sleep time, the power consumption should be 1mA to 2mA maximum.
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6] Test modem
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Power modem into sleep mode, from command line:
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OVMS# power modem sleep
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Power mode of modem is now sleep
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I (50190) modem: State: Enter PoweringOn state
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I (50190) modem: Power Cycle
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V (50910) modem: tx: 41 54 0d 0a | AT..
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D (50910) modem: tx scmd ch=0 len=4 : AT||
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V (51910) modem: tx: 41 54 0d 0a | AT..
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D (51910) modem: tx scmd ch=0 len=4 : AT||
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V (52910) modem: tx: 41 54 0d 0a | AT..
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D (52910) modem: tx scmd ch=0 len=4 : AT||
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V (53910) modem: tx: 41 54 0d 0a | AT..
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D (53910) modem: tx scmd ch=0 len=4 : AT||
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V (54910) modem: tx: 41 54 0d 0a | AT..
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D (54910) modem: tx scmd ch=0 len=4 : AT||
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V (55910) modem: tx: 41 54 0d 0a | AT..
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D (55910) modem: tx scmd ch=0 len=4 : AT||
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V (56580) modem: rx: 0d 0a 53 54 41 52 54 0d 0a | ..START..
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I (56580) modem: State: Enter PoweredOn state
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Cycle may repeat a few times, in order to power on modem, but make sure you
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get the ..START.. message. Then, look for the modem starting up:
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I (75940) gsm-mux: Channel #3 is open
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V (75940) modem: tx: f9 13 3f 01 96 f9 | ..?...
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V (75950) modem: rx: f9 13 73 01 5d f9 | ..s.].
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V (75950) gsm-mux: ProcessFrame(CHAN=4, ADDR=13, CTRL=73, FCS=5d, LEN=6)
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V (75950) gsm-mux: ChanProcessFrame(CHAN=4, ADDR=13, CTRL=73, LEN=3, IFP=3)
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I (75950) gsm-mux: Channel #4 is open
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I (76910) modem: State: Enter NetWait state
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D (76910) gsm-nmea: GPS disabled
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I (77910) modem: State: Enter NetSleep state
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Check the metric to ensure the ICCID and modem model has been read correctly:
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OVMS# metrics list m.net.mdm
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m.net.mdm.iccid 8944500XXXXXXXXXXXX
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m.net.mdm.model 35316B11SIM5360E
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7] Test GNS/GPS
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With modem in sleep mode (as above), enable the GPS/GNS system:
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OVMS# modem muxtx 4 AT+CGPSNMEA=66;+CGPS=1,1
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V (225328) modem: mux tx: 41 54 2b 43 47 50 53 4e 4d 45 41 3d 36 36 3b 2b | AT+CGPSNMEA=66;+
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V (225328) modem: mux tx: 43 47 50 53 3d 31 2c 31 0d 0a | CGPS=1,1..
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D (225328) modem: tx mcmd ch=4 len=26 : AT+CGPSNMEA=66;+CGPS=1,1||
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V (225328) modem: tx: f9 11 ff 35 41 54 2b 43 47 50 53 4e 4d 45 41 3d | ...5AT+CGPSNMEA=
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V (225328) modem: tx: 36 36 3b 2b 43 47 50 53 3d 31 2c 31 0d 0a 28 f9 | 66;+CGPS=1,1..(.
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V (225378) modem: rx: f9 11 ff 0d 0d 0a 4f 4b 0d 0a 02 f9 | ......OK....
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V (225378) gsm-mux: ProcessFrame(CHAN=4, ADDR=11, CTRL=ff, FCS=02, LEN=12)
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V (225388) gsm-mux: ChanProcessFrame(CHAN=4, ADDR=11, CTRL=ff, LEN=9, IFP=3)
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D (225388) modem: rx line ch=4 len=2 : OK
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You should then start to see GPS/GNS messages coming in on channel #1:
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V (227668) modem: rx: f9 05 ff 33 24 47 4e 47 4e 53 2c 2c 2c 2c 2c 2c | ...3$GNGNS,,,,,,
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V (227668) modem: rx: 4e 4e 2c 2c 2c 2c 2c 2c 2a 35 33 0d 0a 84 f9 f9 | NN,,,,,,*53.....
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V (227678) gsm-mux: ProcessFrame(CHAN=1, ADDR=05, CTRL=ff, FCS=84, LEN=31)
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V (227678) gsm-mux: ChanProcessFrame(CHAN=1, ADDR=05, CTRL=ff, LEN=28, IFP=3)
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V (227678) gsm-nmea: IncomingLine: $GNGNS,,,,,,NN,,,,,,*53
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V (227678) modem: rx: 05 ff 33 24 47 50 52 4d 43 2c 2c 56 2c 2c 2c 2c | ..3$GPRMC,,V,,,,
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V (227678) modem: rx: 2c 2c 2c 2c 2c 2c 4e 2a 35 33 0d 0a 84 f9 | ,,,,,,N*53....
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V (227678) gsm-mux: ProcessFrame(CHAN=1, ADDR=05, CTRL=ff, FCS=84, LEN=31)
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V (227678) gsm-mux: ChanProcessFrame(CHAN=1, ADDR=05, CTRL=ff, LEN=28, IFP=3)
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V (227678) gsm-nmea: IncomingLine: $GPRMC,,V,,,,,,,,,,N*53
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After GPS lock has been obtained, you should see the v.p metrics updated with GPS information:
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OVMS# metrics list v.p
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v.p.altitude 30m
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v.p.direction 10°
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v.p.gpshdop
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v.p.gpslock yes
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v.p.gpsmode
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v.p.gpsspeed
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v.p.latitude 22.2809
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v.p.longitude 114.161
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v.p.satcount 12
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8] Randomly test modules to ensure that without any USB connection (powered only
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by external 12V), SD CARD test operates correctly (using wifi).
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9] Power down the module.
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********************************************************************************
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** DOCUMENT ENDS
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********************************************************************************
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