// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef _SOC_RMT_REG_H_ #define _SOC_RMT_REG_H_ #include "soc.h" #define RMT_CH0DATA_REG (DR_REG_RMT_BASE + 0x0000) #define RMT_CH1DATA_REG (DR_REG_RMT_BASE + 0x0004) #define RMT_CH2DATA_REG (DR_REG_RMT_BASE + 0x0008) #define RMT_CH3DATA_REG (DR_REG_RMT_BASE + 0x000c) #define RMT_CH4DATA_REG (DR_REG_RMT_BASE + 0x0010) #define RMT_CH5DATA_REG (DR_REG_RMT_BASE + 0x0014) #define RMT_CH6DATA_REG (DR_REG_RMT_BASE + 0x0018) #define RMT_CH7DATA_REG (DR_REG_RMT_BASE + 0x001c) #define RMT_CH0CONF0_REG (DR_REG_RMT_BASE + 0x0020) /* RMT_CLK_EN : R/W ;bitpos:[31] ;default: 1'h0 ; */ /*description: This bit is used to control clock.when software config RMT internal registers it controls the register clock.*/ #define RMT_CLK_EN (BIT(31)) #define RMT_CLK_EN_M (BIT(31)) #define RMT_CLK_EN_V 0x1 #define RMT_CLK_EN_S 31 /* RMT_MEM_PD : R/W ;bitpos:[30] ;default: 1'b0 ; */ /*description: This bit is used to reduce power consumed by mem. 1:mem is in low power state.*/ #define RMT_MEM_PD (BIT(30)) #define RMT_MEM_PD_M (BIT(30)) #define RMT_MEM_PD_V 0x1 #define RMT_MEM_PD_S 30 /* RMT_CARRIER_OUT_LV_CH0 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure the way carrier wave is modulated for channel0.1'b1:transmit on low output level 1'b0:transmit on high output level.*/ #define RMT_CARRIER_OUT_LV_CH0 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH0_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH0_V 0x1 #define RMT_CARRIER_OUT_LV_CH0_S 29 /* RMT_CARRIER_EN_CH0 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel0.*/ #define RMT_CARRIER_EN_CH0 (BIT(28)) #define RMT_CARRIER_EN_CH0_M (BIT(28)) #define RMT_CARRIER_EN_CH0_V 0x1 #define RMT_CARRIER_EN_CH0_S 28 /* RMT_MEM_SIZE_CH0 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel0.*/ #define RMT_MEM_SIZE_CH0 0x0000000F #define RMT_MEM_SIZE_CH0_M ((RMT_MEM_SIZE_CH0_V)<<(RMT_MEM_SIZE_CH0_S)) #define RMT_MEM_SIZE_CH0_V 0xF #define RMT_MEM_SIZE_CH0_S 24 /* RMT_IDLE_THRES_CH0 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when no edge is detected on the input signal for longer than reg_idle_thres_ch0 then the receive process is done.*/ #define RMT_IDLE_THRES_CH0 0x0000FFFF #define RMT_IDLE_THRES_CH0_M ((RMT_IDLE_THRES_CH0_V)<<(RMT_IDLE_THRES_CH0_S)) #define RMT_IDLE_THRES_CH0_V 0xFFFF #define RMT_IDLE_THRES_CH0_S 8 /* RMT_DIV_CNT_CH0 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel0.*/ #define RMT_DIV_CNT_CH0 0x000000FF #define RMT_DIV_CNT_CH0_M ((RMT_DIV_CNT_CH0_V)<<(RMT_DIV_CNT_CH0_S)) #define RMT_DIV_CNT_CH0_V 0xFF #define RMT_DIV_CNT_CH0_S 0 #define RMT_CH0CONF1_REG (DR_REG_RMT_BASE + 0x0024) /* RMT_IDLE_OUT_EN_CH0 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel0 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH0 (BIT(19)) #define RMT_IDLE_OUT_EN_CH0_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH0_V 0x1 #define RMT_IDLE_OUT_EN_CH0_S 19 /* RMT_IDLE_OUT_LV_CH0 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel0 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH0 (BIT(18)) #define RMT_IDLE_OUT_LV_CH0_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH0_V 0x1 #define RMT_IDLE_OUT_LV_CH0_S 18 /* RMT_REF_ALWAYS_ON_CH0 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH0 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH0_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH0_V 0x1 #define RMT_REF_ALWAYS_ON_CH0_S 17 /* RMT_REF_CNT_RST_CH0 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel0.*/ #define RMT_REF_CNT_RST_CH0 (BIT(16)) #define RMT_REF_CNT_RST_CH0_M (BIT(16)) #define RMT_REF_CNT_RST_CH0_V 0x1 #define RMT_REF_CNT_RST_CH0_S 16 /* RMT_RX_FILTER_THRES_CH0 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel0 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH0 0x000000FF #define RMT_RX_FILTER_THRES_CH0_M ((RMT_RX_FILTER_THRES_CH0_V)<<(RMT_RX_FILTER_THRES_CH0_S)) #define RMT_RX_FILTER_THRES_CH0_V 0xFF #define RMT_RX_FILTER_THRES_CH0_S 8 /* RMT_RX_FILTER_EN_CH0 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel0.*/ #define RMT_RX_FILTER_EN_CH0 (BIT(7)) #define RMT_RX_FILTER_EN_CH0_M (BIT(7)) #define RMT_RX_FILTER_EN_CH0_V 0x1 #define RMT_RX_FILTER_EN_CH0_S 7 /* RMT_TX_CONTI_MODE_CH0 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel0 again and again.*/ #define RMT_TX_CONTI_MODE_CH0 (BIT(6)) #define RMT_TX_CONTI_MODE_CH0_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH0_V 0x1 #define RMT_TX_CONTI_MODE_CH0_S 6 /* RMT_MEM_OWNER_CH0 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel0's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH0 (BIT(5)) #define RMT_MEM_OWNER_CH0_M (BIT(5)) #define RMT_MEM_OWNER_CH0_V 0x1 #define RMT_MEM_OWNER_CH0_S 5 /* RMT_APB_MEM_RST_CH0 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel0 by apb fifo access*/ #define RMT_APB_MEM_RST_CH0 (BIT(4)) #define RMT_APB_MEM_RST_CH0_M (BIT(4)) #define RMT_APB_MEM_RST_CH0_V 0x1 #define RMT_APB_MEM_RST_CH0_S 4 /* RMT_MEM_RD_RST_CH0 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel0 by transmitter access.*/ #define RMT_MEM_RD_RST_CH0 (BIT(3)) #define RMT_MEM_RD_RST_CH0_M (BIT(3)) #define RMT_MEM_RD_RST_CH0_V 0x1 #define RMT_MEM_RD_RST_CH0_S 3 /* RMT_MEM_WR_RST_CH0 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel0 by receiver access.*/ #define RMT_MEM_WR_RST_CH0 (BIT(2)) #define RMT_MEM_WR_RST_CH0_M (BIT(2)) #define RMT_MEM_WR_RST_CH0_V 0x1 #define RMT_MEM_WR_RST_CH0_S 2 /* RMT_RX_EN_CH0 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel0.*/ #define RMT_RX_EN_CH0 (BIT(1)) #define RMT_RX_EN_CH0_M (BIT(1)) #define RMT_RX_EN_CH0_V 0x1 #define RMT_RX_EN_CH0_S 1 /* RMT_TX_START_CH0 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel0.*/ #define RMT_TX_START_CH0 (BIT(0)) #define RMT_TX_START_CH0_M (BIT(0)) #define RMT_TX_START_CH0_V 0x1 #define RMT_TX_START_CH0_S 0 #define RMT_CH1CONF0_REG (DR_REG_RMT_BASE + 0x0028) /* RMT_CARRIER_OUT_LV_CH1 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure the way carrier wave is modulated for channel1.1'b1:transmit on low output level 1'b0:transmit on high output level.*/ #define RMT_CARRIER_OUT_LV_CH1 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH1_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH1_V 0x1 #define RMT_CARRIER_OUT_LV_CH1_S 29 /* RMT_CARRIER_EN_CH1 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel1.*/ #define RMT_CARRIER_EN_CH1 (BIT(28)) #define RMT_CARRIER_EN_CH1_M (BIT(28)) #define RMT_CARRIER_EN_CH1_V 0x1 #define RMT_CARRIER_EN_CH1_S 28 /* RMT_MEM_SIZE_CH1 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel1.*/ #define RMT_MEM_SIZE_CH1 0x0000000F #define RMT_MEM_SIZE_CH1_M ((RMT_MEM_SIZE_CH1_V)<<(RMT_MEM_SIZE_CH1_S)) #define RMT_MEM_SIZE_CH1_V 0xF #define RMT_MEM_SIZE_CH1_S 24 /* RMT_IDLE_THRES_CH1 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel1.*/ #define RMT_IDLE_THRES_CH1 0x0000FFFF #define RMT_IDLE_THRES_CH1_M ((RMT_IDLE_THRES_CH1_V)<<(RMT_IDLE_THRES_CH1_S)) #define RMT_IDLE_THRES_CH1_V 0xFFFF #define RMT_IDLE_THRES_CH1_S 8 /* RMT_DIV_CNT_CH1 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel1.*/ #define RMT_DIV_CNT_CH1 0x000000FF #define RMT_DIV_CNT_CH1_M ((RMT_DIV_CNT_CH1_V)<<(RMT_DIV_CNT_CH1_S)) #define RMT_DIV_CNT_CH1_V 0xFF #define RMT_DIV_CNT_CH1_S 0 #define RMT_CH1CONF1_REG (DR_REG_RMT_BASE + 0x002c) /* RMT_IDLE_OUT_EN_CH1 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel1 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH1 (BIT(19)) #define RMT_IDLE_OUT_EN_CH1_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH1_V 0x1 #define RMT_IDLE_OUT_EN_CH1_S 19 /* RMT_IDLE_OUT_LV_CH1 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel1 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH1 (BIT(18)) #define RMT_IDLE_OUT_LV_CH1_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH1_V 0x1 #define RMT_IDLE_OUT_LV_CH1_S 18 /* RMT_REF_ALWAYS_ON_CH1 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH1 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH1_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH1_V 0x1 #define RMT_REF_ALWAYS_ON_CH1_S 17 /* RMT_REF_CNT_RST_CH1 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel1.*/ #define RMT_REF_CNT_RST_CH1 (BIT(16)) #define RMT_REF_CNT_RST_CH1_M (BIT(16)) #define RMT_REF_CNT_RST_CH1_V 0x1 #define RMT_REF_CNT_RST_CH1_S 16 /* RMT_RX_FILTER_THRES_CH1 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel1 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH1 0x000000FF #define RMT_RX_FILTER_THRES_CH1_M ((RMT_RX_FILTER_THRES_CH1_V)<<(RMT_RX_FILTER_THRES_CH1_S)) #define RMT_RX_FILTER_THRES_CH1_V 0xFF #define RMT_RX_FILTER_THRES_CH1_S 8 /* RMT_RX_FILTER_EN_CH1 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel1.*/ #define RMT_RX_FILTER_EN_CH1 (BIT(7)) #define RMT_RX_FILTER_EN_CH1_M (BIT(7)) #define RMT_RX_FILTER_EN_CH1_V 0x1 #define RMT_RX_FILTER_EN_CH1_S 7 /* RMT_TX_CONTI_MODE_CH1 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel1 again and again.*/ #define RMT_TX_CONTI_MODE_CH1 (BIT(6)) #define RMT_TX_CONTI_MODE_CH1_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH1_V 0x1 #define RMT_TX_CONTI_MODE_CH1_S 6 /* RMT_MEM_OWNER_CH1 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel1's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH1 (BIT(5)) #define RMT_MEM_OWNER_CH1_M (BIT(5)) #define RMT_MEM_OWNER_CH1_V 0x1 #define RMT_MEM_OWNER_CH1_S 5 /* RMT_APB_MEM_RST_CH1 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel1 by apb fifo access*/ #define RMT_APB_MEM_RST_CH1 (BIT(4)) #define RMT_APB_MEM_RST_CH1_M (BIT(4)) #define RMT_APB_MEM_RST_CH1_V 0x1 #define RMT_APB_MEM_RST_CH1_S 4 /* RMT_MEM_RD_RST_CH1 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel1 by transmitter access.*/ #define RMT_MEM_RD_RST_CH1 (BIT(3)) #define RMT_MEM_RD_RST_CH1_M (BIT(3)) #define RMT_MEM_RD_RST_CH1_V 0x1 #define RMT_MEM_RD_RST_CH1_S 3 /* RMT_MEM_WR_RST_CH1 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel1 by receiver access.*/ #define RMT_MEM_WR_RST_CH1 (BIT(2)) #define RMT_MEM_WR_RST_CH1_M (BIT(2)) #define RMT_MEM_WR_RST_CH1_V 0x1 #define RMT_MEM_WR_RST_CH1_S 2 /* RMT_RX_EN_CH1 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel1.*/ #define RMT_RX_EN_CH1 (BIT(1)) #define RMT_RX_EN_CH1_M (BIT(1)) #define RMT_RX_EN_CH1_V 0x1 #define RMT_RX_EN_CH1_S 1 /* RMT_TX_START_CH1 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel1.*/ #define RMT_TX_START_CH1 (BIT(0)) #define RMT_TX_START_CH1_M (BIT(0)) #define RMT_TX_START_CH1_V 0x1 #define RMT_TX_START_CH1_S 0 #define RMT_CH2CONF0_REG (DR_REG_RMT_BASE + 0x0030) /* RMT_CARRIER_OUT_LV_CH2 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure carrier wave's position for channel2.1'b1:add on low level 1'b0:add on high level.*/ #define RMT_CARRIER_OUT_LV_CH2 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH2_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH2_V 0x1 #define RMT_CARRIER_OUT_LV_CH2_S 29 /* RMT_CARRIER_EN_CH2 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel2.*/ #define RMT_CARRIER_EN_CH2 (BIT(28)) #define RMT_CARRIER_EN_CH2_M (BIT(28)) #define RMT_CARRIER_EN_CH2_V 0x1 #define RMT_CARRIER_EN_CH2_S 28 /* RMT_MEM_SIZE_CH2 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel2.*/ #define RMT_MEM_SIZE_CH2 0x0000000F #define RMT_MEM_SIZE_CH2_M ((RMT_MEM_SIZE_CH2_V)<<(RMT_MEM_SIZE_CH2_S)) #define RMT_MEM_SIZE_CH2_V 0xF #define RMT_MEM_SIZE_CH2_S 24 /* RMT_IDLE_THRES_CH2 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when the counter's value is bigger than reg_idle_thres_ch2 then the receive process is done.*/ #define RMT_IDLE_THRES_CH2 0x0000FFFF #define RMT_IDLE_THRES_CH2_M ((RMT_IDLE_THRES_CH2_V)<<(RMT_IDLE_THRES_CH2_S)) #define RMT_IDLE_THRES_CH2_V 0xFFFF #define RMT_IDLE_THRES_CH2_S 8 /* RMT_DIV_CNT_CH2 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel2.*/ #define RMT_DIV_CNT_CH2 0x000000FF #define RMT_DIV_CNT_CH2_M ((RMT_DIV_CNT_CH2_V)<<(RMT_DIV_CNT_CH2_S)) #define RMT_DIV_CNT_CH2_V 0xFF #define RMT_DIV_CNT_CH2_S 0 #define RMT_CH2CONF1_REG (DR_REG_RMT_BASE + 0x0034) /* RMT_IDLE_OUT_EN_CH2 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel2 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH2 (BIT(19)) #define RMT_IDLE_OUT_EN_CH2_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH2_V 0x1 #define RMT_IDLE_OUT_EN_CH2_S 19 /* RMT_IDLE_OUT_LV_CH2 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel2 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH2 (BIT(18)) #define RMT_IDLE_OUT_LV_CH2_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH2_V 0x1 #define RMT_IDLE_OUT_LV_CH2_S 18 /* RMT_REF_ALWAYS_ON_CH2 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH2 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH2_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH2_V 0x1 #define RMT_REF_ALWAYS_ON_CH2_S 17 /* RMT_REF_CNT_RST_CH2 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel2.*/ #define RMT_REF_CNT_RST_CH2 (BIT(16)) #define RMT_REF_CNT_RST_CH2_M (BIT(16)) #define RMT_REF_CNT_RST_CH2_V 0x1 #define RMT_REF_CNT_RST_CH2_S 16 /* RMT_RX_FILTER_THRES_CH2 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel2 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH2 0x000000FF #define RMT_RX_FILTER_THRES_CH2_M ((RMT_RX_FILTER_THRES_CH2_V)<<(RMT_RX_FILTER_THRES_CH2_S)) #define RMT_RX_FILTER_THRES_CH2_V 0xFF #define RMT_RX_FILTER_THRES_CH2_S 8 /* RMT_RX_FILTER_EN_CH2 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel2.*/ #define RMT_RX_FILTER_EN_CH2 (BIT(7)) #define RMT_RX_FILTER_EN_CH2_M (BIT(7)) #define RMT_RX_FILTER_EN_CH2_V 0x1 #define RMT_RX_FILTER_EN_CH2_S 7 /* RMT_TX_CONTI_MODE_CH2 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel2.*/ #define RMT_TX_CONTI_MODE_CH2 (BIT(6)) #define RMT_TX_CONTI_MODE_CH2_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH2_V 0x1 #define RMT_TX_CONTI_MODE_CH2_S 6 /* RMT_MEM_OWNER_CH2 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel2's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH2 (BIT(5)) #define RMT_MEM_OWNER_CH2_M (BIT(5)) #define RMT_MEM_OWNER_CH2_V 0x1 #define RMT_MEM_OWNER_CH2_S 5 /* RMT_APB_MEM_RST_CH2 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel2 by apb fifo access*/ #define RMT_APB_MEM_RST_CH2 (BIT(4)) #define RMT_APB_MEM_RST_CH2_M (BIT(4)) #define RMT_APB_MEM_RST_CH2_V 0x1 #define RMT_APB_MEM_RST_CH2_S 4 /* RMT_MEM_RD_RST_CH2 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel2 by transmitter access.*/ #define RMT_MEM_RD_RST_CH2 (BIT(3)) #define RMT_MEM_RD_RST_CH2_M (BIT(3)) #define RMT_MEM_RD_RST_CH2_V 0x1 #define RMT_MEM_RD_RST_CH2_S 3 /* RMT_MEM_WR_RST_CH2 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel2 by receiver access.*/ #define RMT_MEM_WR_RST_CH2 (BIT(2)) #define RMT_MEM_WR_RST_CH2_M (BIT(2)) #define RMT_MEM_WR_RST_CH2_V 0x1 #define RMT_MEM_WR_RST_CH2_S 2 /* RMT_RX_EN_CH2 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel2.*/ #define RMT_RX_EN_CH2 (BIT(1)) #define RMT_RX_EN_CH2_M (BIT(1)) #define RMT_RX_EN_CH2_V 0x1 #define RMT_RX_EN_CH2_S 1 /* RMT_TX_START_CH2 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel2.*/ #define RMT_TX_START_CH2 (BIT(0)) #define RMT_TX_START_CH2_M (BIT(0)) #define RMT_TX_START_CH2_V 0x1 #define RMT_TX_START_CH2_S 0 #define RMT_CH3CONF0_REG (DR_REG_RMT_BASE + 0x0038) /* RMT_CARRIER_OUT_LV_CH3 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure carrier wave's position for channel3.1'b1:add on low level 1'b0:add on high level.*/ #define RMT_CARRIER_OUT_LV_CH3 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH3_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH3_V 0x1 #define RMT_CARRIER_OUT_LV_CH3_S 29 /* RMT_CARRIER_EN_CH3 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel3.*/ #define RMT_CARRIER_EN_CH3 (BIT(28)) #define RMT_CARRIER_EN_CH3_M (BIT(28)) #define RMT_CARRIER_EN_CH3_V 0x1 #define RMT_CARRIER_EN_CH3_S 28 /* RMT_MEM_SIZE_CH3 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel3.*/ #define RMT_MEM_SIZE_CH3 0x0000000F #define RMT_MEM_SIZE_CH3_M ((RMT_MEM_SIZE_CH3_V)<<(RMT_MEM_SIZE_CH3_S)) #define RMT_MEM_SIZE_CH3_V 0xF #define RMT_MEM_SIZE_CH3_S 24 /* RMT_IDLE_THRES_CH3 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when the counter's value is bigger than reg_idle_thres_ch3 then the receive process is done.*/ #define RMT_IDLE_THRES_CH3 0x0000FFFF #define RMT_IDLE_THRES_CH3_M ((RMT_IDLE_THRES_CH3_V)<<(RMT_IDLE_THRES_CH3_S)) #define RMT_IDLE_THRES_CH3_V 0xFFFF #define RMT_IDLE_THRES_CH3_S 8 /* RMT_DIV_CNT_CH3 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel3.*/ #define RMT_DIV_CNT_CH3 0x000000FF #define RMT_DIV_CNT_CH3_M ((RMT_DIV_CNT_CH3_V)<<(RMT_DIV_CNT_CH3_S)) #define RMT_DIV_CNT_CH3_V 0xFF #define RMT_DIV_CNT_CH3_S 0 #define RMT_CH3CONF1_REG (DR_REG_RMT_BASE + 0x003c) /* RMT_IDLE_OUT_EN_CH3 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel3 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH3 (BIT(19)) #define RMT_IDLE_OUT_EN_CH3_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH3_V 0x1 #define RMT_IDLE_OUT_EN_CH3_S 19 /* RMT_IDLE_OUT_LV_CH3 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel3 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH3 (BIT(18)) #define RMT_IDLE_OUT_LV_CH3_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH3_V 0x1 #define RMT_IDLE_OUT_LV_CH3_S 18 /* RMT_REF_ALWAYS_ON_CH3 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH3 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH3_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH3_V 0x1 #define RMT_REF_ALWAYS_ON_CH3_S 17 /* RMT_REF_CNT_RST_CH3 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel3.*/ #define RMT_REF_CNT_RST_CH3 (BIT(16)) #define RMT_REF_CNT_RST_CH3_M (BIT(16)) #define RMT_REF_CNT_RST_CH3_V 0x1 #define RMT_REF_CNT_RST_CH3_S 16 /* RMT_RX_FILTER_THRES_CH3 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel3 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH3 0x000000FF #define RMT_RX_FILTER_THRES_CH3_M ((RMT_RX_FILTER_THRES_CH3_V)<<(RMT_RX_FILTER_THRES_CH3_S)) #define RMT_RX_FILTER_THRES_CH3_V 0xFF #define RMT_RX_FILTER_THRES_CH3_S 8 /* RMT_RX_FILTER_EN_CH3 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel3.*/ #define RMT_RX_FILTER_EN_CH3 (BIT(7)) #define RMT_RX_FILTER_EN_CH3_M (BIT(7)) #define RMT_RX_FILTER_EN_CH3_V 0x1 #define RMT_RX_FILTER_EN_CH3_S 7 /* RMT_TX_CONTI_MODE_CH3 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel3.*/ #define RMT_TX_CONTI_MODE_CH3 (BIT(6)) #define RMT_TX_CONTI_MODE_CH3_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH3_V 0x1 #define RMT_TX_CONTI_MODE_CH3_S 6 /* RMT_MEM_OWNER_CH3 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel3's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH3 (BIT(5)) #define RMT_MEM_OWNER_CH3_M (BIT(5)) #define RMT_MEM_OWNER_CH3_V 0x1 #define RMT_MEM_OWNER_CH3_S 5 /* RMT_APB_MEM_RST_CH3 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel3 by apb fifo access*/ #define RMT_APB_MEM_RST_CH3 (BIT(4)) #define RMT_APB_MEM_RST_CH3_M (BIT(4)) #define RMT_APB_MEM_RST_CH3_V 0x1 #define RMT_APB_MEM_RST_CH3_S 4 /* RMT_MEM_RD_RST_CH3 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel3 by transmitter access.*/ #define RMT_MEM_RD_RST_CH3 (BIT(3)) #define RMT_MEM_RD_RST_CH3_M (BIT(3)) #define RMT_MEM_RD_RST_CH3_V 0x1 #define RMT_MEM_RD_RST_CH3_S 3 /* RMT_MEM_WR_RST_CH3 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel3 by receiver access.*/ #define RMT_MEM_WR_RST_CH3 (BIT(2)) #define RMT_MEM_WR_RST_CH3_M (BIT(2)) #define RMT_MEM_WR_RST_CH3_V 0x1 #define RMT_MEM_WR_RST_CH3_S 2 /* RMT_RX_EN_CH3 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel3.*/ #define RMT_RX_EN_CH3 (BIT(1)) #define RMT_RX_EN_CH3_M (BIT(1)) #define RMT_RX_EN_CH3_V 0x1 #define RMT_RX_EN_CH3_S 1 /* RMT_TX_START_CH3 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel3.*/ #define RMT_TX_START_CH3 (BIT(0)) #define RMT_TX_START_CH3_M (BIT(0)) #define RMT_TX_START_CH3_V 0x1 #define RMT_TX_START_CH3_S 0 #define RMT_CH4CONF0_REG (DR_REG_RMT_BASE + 0x0040) /* RMT_CARRIER_OUT_LV_CH4 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure carrier wave's position for channel4.1'b1:add on low level 1'b0:add on high level.*/ #define RMT_CARRIER_OUT_LV_CH4 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH4_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH4_V 0x1 #define RMT_CARRIER_OUT_LV_CH4_S 29 /* RMT_CARRIER_EN_CH4 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel4.*/ #define RMT_CARRIER_EN_CH4 (BIT(28)) #define RMT_CARRIER_EN_CH4_M (BIT(28)) #define RMT_CARRIER_EN_CH4_V 0x1 #define RMT_CARRIER_EN_CH4_S 28 /* RMT_MEM_SIZE_CH4 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel4.*/ #define RMT_MEM_SIZE_CH4 0x0000000F #define RMT_MEM_SIZE_CH4_M ((RMT_MEM_SIZE_CH4_V)<<(RMT_MEM_SIZE_CH4_S)) #define RMT_MEM_SIZE_CH4_V 0xF #define RMT_MEM_SIZE_CH4_S 24 /* RMT_IDLE_THRES_CH4 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when the counter's value is bigger than reg_idle_thres_ch4 then the receive process is done.*/ #define RMT_IDLE_THRES_CH4 0x0000FFFF #define RMT_IDLE_THRES_CH4_M ((RMT_IDLE_THRES_CH4_V)<<(RMT_IDLE_THRES_CH4_S)) #define RMT_IDLE_THRES_CH4_V 0xFFFF #define RMT_IDLE_THRES_CH4_S 8 /* RMT_DIV_CNT_CH4 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel4.*/ #define RMT_DIV_CNT_CH4 0x000000FF #define RMT_DIV_CNT_CH4_M ((RMT_DIV_CNT_CH4_V)<<(RMT_DIV_CNT_CH4_S)) #define RMT_DIV_CNT_CH4_V 0xFF #define RMT_DIV_CNT_CH4_S 0 #define RMT_CH4CONF1_REG (DR_REG_RMT_BASE + 0x0044) /* RMT_IDLE_OUT_EN_CH4 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel4 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH4 (BIT(19)) #define RMT_IDLE_OUT_EN_CH4_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH4_V 0x1 #define RMT_IDLE_OUT_EN_CH4_S 19 /* RMT_IDLE_OUT_LV_CH4 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel4 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH4 (BIT(18)) #define RMT_IDLE_OUT_LV_CH4_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH4_V 0x1 #define RMT_IDLE_OUT_LV_CH4_S 18 /* RMT_REF_ALWAYS_ON_CH4 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH4 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH4_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH4_V 0x1 #define RMT_REF_ALWAYS_ON_CH4_S 17 /* RMT_REF_CNT_RST_CH4 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel4.*/ #define RMT_REF_CNT_RST_CH4 (BIT(16)) #define RMT_REF_CNT_RST_CH4_M (BIT(16)) #define RMT_REF_CNT_RST_CH4_V 0x1 #define RMT_REF_CNT_RST_CH4_S 16 /* RMT_RX_FILTER_THRES_CH4 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel4 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH4 0x000000FF #define RMT_RX_FILTER_THRES_CH4_M ((RMT_RX_FILTER_THRES_CH4_V)<<(RMT_RX_FILTER_THRES_CH4_S)) #define RMT_RX_FILTER_THRES_CH4_V 0xFF #define RMT_RX_FILTER_THRES_CH4_S 8 /* RMT_RX_FILTER_EN_CH4 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel4.*/ #define RMT_RX_FILTER_EN_CH4 (BIT(7)) #define RMT_RX_FILTER_EN_CH4_M (BIT(7)) #define RMT_RX_FILTER_EN_CH4_V 0x1 #define RMT_RX_FILTER_EN_CH4_S 7 /* RMT_TX_CONTI_MODE_CH4 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel4.*/ #define RMT_TX_CONTI_MODE_CH4 (BIT(6)) #define RMT_TX_CONTI_MODE_CH4_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH4_V 0x1 #define RMT_TX_CONTI_MODE_CH4_S 6 /* RMT_MEM_OWNER_CH4 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel4's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH4 (BIT(5)) #define RMT_MEM_OWNER_CH4_M (BIT(5)) #define RMT_MEM_OWNER_CH4_V 0x1 #define RMT_MEM_OWNER_CH4_S 5 /* RMT_APB_MEM_RST_CH4 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel4 by apb fifo access*/ #define RMT_APB_MEM_RST_CH4 (BIT(4)) #define RMT_APB_MEM_RST_CH4_M (BIT(4)) #define RMT_APB_MEM_RST_CH4_V 0x1 #define RMT_APB_MEM_RST_CH4_S 4 /* RMT_MEM_RD_RST_CH4 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel4 by transmitter access.*/ #define RMT_MEM_RD_RST_CH4 (BIT(3)) #define RMT_MEM_RD_RST_CH4_M (BIT(3)) #define RMT_MEM_RD_RST_CH4_V 0x1 #define RMT_MEM_RD_RST_CH4_S 3 /* RMT_MEM_WR_RST_CH4 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel4 by receiver access.*/ #define RMT_MEM_WR_RST_CH4 (BIT(2)) #define RMT_MEM_WR_RST_CH4_M (BIT(2)) #define RMT_MEM_WR_RST_CH4_V 0x1 #define RMT_MEM_WR_RST_CH4_S 2 /* RMT_RX_EN_CH4 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel4.*/ #define RMT_RX_EN_CH4 (BIT(1)) #define RMT_RX_EN_CH4_M (BIT(1)) #define RMT_RX_EN_CH4_V 0x1 #define RMT_RX_EN_CH4_S 1 /* RMT_TX_START_CH4 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel4.*/ #define RMT_TX_START_CH4 (BIT(0)) #define RMT_TX_START_CH4_M (BIT(0)) #define RMT_TX_START_CH4_V 0x1 #define RMT_TX_START_CH4_S 0 #define RMT_CH5CONF0_REG (DR_REG_RMT_BASE + 0x0048) /* RMT_CARRIER_OUT_LV_CH5 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure carrier wave's position for channel5.1'b1:add on low level 1'b0:add on high level.*/ #define RMT_CARRIER_OUT_LV_CH5 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH5_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH5_V 0x1 #define RMT_CARRIER_OUT_LV_CH5_S 29 /* RMT_CARRIER_EN_CH5 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel5.*/ #define RMT_CARRIER_EN_CH5 (BIT(28)) #define RMT_CARRIER_EN_CH5_M (BIT(28)) #define RMT_CARRIER_EN_CH5_V 0x1 #define RMT_CARRIER_EN_CH5_S 28 /* RMT_MEM_SIZE_CH5 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel5.*/ #define RMT_MEM_SIZE_CH5 0x0000000F #define RMT_MEM_SIZE_CH5_M ((RMT_MEM_SIZE_CH5_V)<<(RMT_MEM_SIZE_CH5_S)) #define RMT_MEM_SIZE_CH5_V 0xF #define RMT_MEM_SIZE_CH5_S 24 /* RMT_IDLE_THRES_CH5 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when the counter's value is bigger than reg_idle_thres_ch5 then the receive process is done.*/ #define RMT_IDLE_THRES_CH5 0x0000FFFF #define RMT_IDLE_THRES_CH5_M ((RMT_IDLE_THRES_CH5_V)<<(RMT_IDLE_THRES_CH5_S)) #define RMT_IDLE_THRES_CH5_V 0xFFFF #define RMT_IDLE_THRES_CH5_S 8 /* RMT_DIV_CNT_CH5 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel5.*/ #define RMT_DIV_CNT_CH5 0x000000FF #define RMT_DIV_CNT_CH5_M ((RMT_DIV_CNT_CH5_V)<<(RMT_DIV_CNT_CH5_S)) #define RMT_DIV_CNT_CH5_V 0xFF #define RMT_DIV_CNT_CH5_S 0 #define RMT_CH5CONF1_REG (DR_REG_RMT_BASE + 0x004c) /* RMT_IDLE_OUT_EN_CH5 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel5 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH5 (BIT(19)) #define RMT_IDLE_OUT_EN_CH5_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH5_V 0x1 #define RMT_IDLE_OUT_EN_CH5_S 19 /* RMT_IDLE_OUT_LV_CH5 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel5 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH5 (BIT(18)) #define RMT_IDLE_OUT_LV_CH5_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH5_V 0x1 #define RMT_IDLE_OUT_LV_CH5_S 18 /* RMT_REF_ALWAYS_ON_CH5 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH5 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH5_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH5_V 0x1 #define RMT_REF_ALWAYS_ON_CH5_S 17 /* RMT_REF_CNT_RST_CH5 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel5.*/ #define RMT_REF_CNT_RST_CH5 (BIT(16)) #define RMT_REF_CNT_RST_CH5_M (BIT(16)) #define RMT_REF_CNT_RST_CH5_V 0x1 #define RMT_REF_CNT_RST_CH5_S 16 /* RMT_RX_FILTER_THRES_CH5 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel5 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH5 0x000000FF #define RMT_RX_FILTER_THRES_CH5_M ((RMT_RX_FILTER_THRES_CH5_V)<<(RMT_RX_FILTER_THRES_CH5_S)) #define RMT_RX_FILTER_THRES_CH5_V 0xFF #define RMT_RX_FILTER_THRES_CH5_S 8 /* RMT_RX_FILTER_EN_CH5 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel5.*/ #define RMT_RX_FILTER_EN_CH5 (BIT(7)) #define RMT_RX_FILTER_EN_CH5_M (BIT(7)) #define RMT_RX_FILTER_EN_CH5_V 0x1 #define RMT_RX_FILTER_EN_CH5_S 7 /* RMT_TX_CONTI_MODE_CH5 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel5.*/ #define RMT_TX_CONTI_MODE_CH5 (BIT(6)) #define RMT_TX_CONTI_MODE_CH5_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH5_V 0x1 #define RMT_TX_CONTI_MODE_CH5_S 6 /* RMT_MEM_OWNER_CH5 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel5's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH5 (BIT(5)) #define RMT_MEM_OWNER_CH5_M (BIT(5)) #define RMT_MEM_OWNER_CH5_V 0x1 #define RMT_MEM_OWNER_CH5_S 5 /* RMT_APB_MEM_RST_CH5 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel5 by apb fifo access*/ #define RMT_APB_MEM_RST_CH5 (BIT(4)) #define RMT_APB_MEM_RST_CH5_M (BIT(4)) #define RMT_APB_MEM_RST_CH5_V 0x1 #define RMT_APB_MEM_RST_CH5_S 4 /* RMT_MEM_RD_RST_CH5 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel5 by transmitter access.*/ #define RMT_MEM_RD_RST_CH5 (BIT(3)) #define RMT_MEM_RD_RST_CH5_M (BIT(3)) #define RMT_MEM_RD_RST_CH5_V 0x1 #define RMT_MEM_RD_RST_CH5_S 3 /* RMT_MEM_WR_RST_CH5 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel5 by receiver access.*/ #define RMT_MEM_WR_RST_CH5 (BIT(2)) #define RMT_MEM_WR_RST_CH5_M (BIT(2)) #define RMT_MEM_WR_RST_CH5_V 0x1 #define RMT_MEM_WR_RST_CH5_S 2 /* RMT_RX_EN_CH5 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel5.*/ #define RMT_RX_EN_CH5 (BIT(1)) #define RMT_RX_EN_CH5_M (BIT(1)) #define RMT_RX_EN_CH5_V 0x1 #define RMT_RX_EN_CH5_S 1 /* RMT_TX_START_CH5 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel5.*/ #define RMT_TX_START_CH5 (BIT(0)) #define RMT_TX_START_CH5_M (BIT(0)) #define RMT_TX_START_CH5_V 0x1 #define RMT_TX_START_CH5_S 0 #define RMT_CH6CONF0_REG (DR_REG_RMT_BASE + 0x0050) /* RMT_CARRIER_OUT_LV_CH6 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure carrier wave's position for channel6.1'b1:add on low level 1'b0:add on high level.*/ #define RMT_CARRIER_OUT_LV_CH6 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH6_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH6_V 0x1 #define RMT_CARRIER_OUT_LV_CH6_S 29 /* RMT_CARRIER_EN_CH6 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel6.*/ #define RMT_CARRIER_EN_CH6 (BIT(28)) #define RMT_CARRIER_EN_CH6_M (BIT(28)) #define RMT_CARRIER_EN_CH6_V 0x1 #define RMT_CARRIER_EN_CH6_S 28 /* RMT_MEM_SIZE_CH6 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel6.*/ #define RMT_MEM_SIZE_CH6 0x0000000F #define RMT_MEM_SIZE_CH6_M ((RMT_MEM_SIZE_CH6_V)<<(RMT_MEM_SIZE_CH6_S)) #define RMT_MEM_SIZE_CH6_V 0xF #define RMT_MEM_SIZE_CH6_S 24 /* RMT_IDLE_THRES_CH6 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when the counter's value is bigger than reg_idle_thres_ch6 then the receive process is done.*/ #define RMT_IDLE_THRES_CH6 0x0000FFFF #define RMT_IDLE_THRES_CH6_M ((RMT_IDLE_THRES_CH6_V)<<(RMT_IDLE_THRES_CH6_S)) #define RMT_IDLE_THRES_CH6_V 0xFFFF #define RMT_IDLE_THRES_CH6_S 8 /* RMT_DIV_CNT_CH6 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel6.*/ #define RMT_DIV_CNT_CH6 0x000000FF #define RMT_DIV_CNT_CH6_M ((RMT_DIV_CNT_CH6_V)<<(RMT_DIV_CNT_CH6_S)) #define RMT_DIV_CNT_CH6_V 0xFF #define RMT_DIV_CNT_CH6_S 0 #define RMT_CH6CONF1_REG (DR_REG_RMT_BASE + 0x0054) /* RMT_IDLE_OUT_EN_CH6 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel6 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH6 (BIT(19)) #define RMT_IDLE_OUT_EN_CH6_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH6_V 0x1 #define RMT_IDLE_OUT_EN_CH6_S 19 /* RMT_IDLE_OUT_LV_CH6 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel6 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH6 (BIT(18)) #define RMT_IDLE_OUT_LV_CH6_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH6_V 0x1 #define RMT_IDLE_OUT_LV_CH6_S 18 /* RMT_REF_ALWAYS_ON_CH6 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH6 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH6_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH6_V 0x1 #define RMT_REF_ALWAYS_ON_CH6_S 17 /* RMT_REF_CNT_RST_CH6 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel6.*/ #define RMT_REF_CNT_RST_CH6 (BIT(16)) #define RMT_REF_CNT_RST_CH6_M (BIT(16)) #define RMT_REF_CNT_RST_CH6_V 0x1 #define RMT_REF_CNT_RST_CH6_S 16 /* RMT_RX_FILTER_THRES_CH6 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel6 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH6 0x000000FF #define RMT_RX_FILTER_THRES_CH6_M ((RMT_RX_FILTER_THRES_CH6_V)<<(RMT_RX_FILTER_THRES_CH6_S)) #define RMT_RX_FILTER_THRES_CH6_V 0xFF #define RMT_RX_FILTER_THRES_CH6_S 8 /* RMT_RX_FILTER_EN_CH6 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel6.*/ #define RMT_RX_FILTER_EN_CH6 (BIT(7)) #define RMT_RX_FILTER_EN_CH6_M (BIT(7)) #define RMT_RX_FILTER_EN_CH6_V 0x1 #define RMT_RX_FILTER_EN_CH6_S 7 /* RMT_TX_CONTI_MODE_CH6 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel6.*/ #define RMT_TX_CONTI_MODE_CH6 (BIT(6)) #define RMT_TX_CONTI_MODE_CH6_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH6_V 0x1 #define RMT_TX_CONTI_MODE_CH6_S 6 /* RMT_MEM_OWNER_CH6 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel6's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH6 (BIT(5)) #define RMT_MEM_OWNER_CH6_M (BIT(5)) #define RMT_MEM_OWNER_CH6_V 0x1 #define RMT_MEM_OWNER_CH6_S 5 /* RMT_APB_MEM_RST_CH6 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel6 by apb fifo access*/ #define RMT_APB_MEM_RST_CH6 (BIT(4)) #define RMT_APB_MEM_RST_CH6_M (BIT(4)) #define RMT_APB_MEM_RST_CH6_V 0x1 #define RMT_APB_MEM_RST_CH6_S 4 /* RMT_MEM_RD_RST_CH6 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel6 by transmitter access.*/ #define RMT_MEM_RD_RST_CH6 (BIT(3)) #define RMT_MEM_RD_RST_CH6_M (BIT(3)) #define RMT_MEM_RD_RST_CH6_V 0x1 #define RMT_MEM_RD_RST_CH6_S 3 /* RMT_MEM_WR_RST_CH6 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel6 by receiver access.*/ #define RMT_MEM_WR_RST_CH6 (BIT(2)) #define RMT_MEM_WR_RST_CH6_M (BIT(2)) #define RMT_MEM_WR_RST_CH6_V 0x1 #define RMT_MEM_WR_RST_CH6_S 2 /* RMT_RX_EN_CH6 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel6.*/ #define RMT_RX_EN_CH6 (BIT(1)) #define RMT_RX_EN_CH6_M (BIT(1)) #define RMT_RX_EN_CH6_V 0x1 #define RMT_RX_EN_CH6_S 1 /* RMT_TX_START_CH6 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel6.*/ #define RMT_TX_START_CH6 (BIT(0)) #define RMT_TX_START_CH6_M (BIT(0)) #define RMT_TX_START_CH6_V 0x1 #define RMT_TX_START_CH6_S 0 #define RMT_CH7CONF0_REG (DR_REG_RMT_BASE + 0x0058) /* RMT_CARRIER_OUT_LV_CH7 : R/W ;bitpos:[29] ;default: 1'b1 ; */ /*description: This bit is used to configure carrier wave's position for channel7.1'b1:add on low level 1'b0:add on high level.*/ #define RMT_CARRIER_OUT_LV_CH7 (BIT(29)) #define RMT_CARRIER_OUT_LV_CH7_M (BIT(29)) #define RMT_CARRIER_OUT_LV_CH7_V 0x1 #define RMT_CARRIER_OUT_LV_CH7_S 29 /* RMT_CARRIER_EN_CH7 : R/W ;bitpos:[28] ;default: 1'b1 ; */ /*description: This is the carrier modulation enable control bit for channel7.*/ #define RMT_CARRIER_EN_CH7 (BIT(28)) #define RMT_CARRIER_EN_CH7_M (BIT(28)) #define RMT_CARRIER_EN_CH7_V 0x1 #define RMT_CARRIER_EN_CH7_S 28 /* RMT_MEM_SIZE_CH7 : R/W ;bitpos:[27:24] ;default: 4'h1 ; */ /*description: This register is used to configure the the amount of memory blocks allocated to channel7.*/ #define RMT_MEM_SIZE_CH7 0x0000000F #define RMT_MEM_SIZE_CH7_M ((RMT_MEM_SIZE_CH7_V)<<(RMT_MEM_SIZE_CH7_S)) #define RMT_MEM_SIZE_CH7_V 0xF #define RMT_MEM_SIZE_CH7_S 24 /* RMT_IDLE_THRES_CH7 : R/W ;bitpos:[23:8] ;default: 16'h1000 ; */ /*description: In receive mode when the counter's value is bigger than reg_idle_thres_ch7 then the receive process is done.*/ #define RMT_IDLE_THRES_CH7 0x0000FFFF #define RMT_IDLE_THRES_CH7_M ((RMT_IDLE_THRES_CH7_V)<<(RMT_IDLE_THRES_CH7_S)) #define RMT_IDLE_THRES_CH7_V 0xFFFF #define RMT_IDLE_THRES_CH7_S 8 /* RMT_DIV_CNT_CH7 : R/W ;bitpos:[7:0] ;default: 8'h2 ; */ /*description: This register is used to configure the frequency divider's factor in channel7.*/ #define RMT_DIV_CNT_CH7 0x000000FF #define RMT_DIV_CNT_CH7_M ((RMT_DIV_CNT_CH7_V)<<(RMT_DIV_CNT_CH7_S)) #define RMT_DIV_CNT_CH7_V 0xFF #define RMT_DIV_CNT_CH7_S 0 #define RMT_CH7CONF1_REG (DR_REG_RMT_BASE + 0x005c) /* RMT_IDLE_OUT_EN_CH7 : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: This is the output enable control bit for channel6 in IDLE state.*/ #define RMT_IDLE_OUT_EN_CH7 (BIT(19)) #define RMT_IDLE_OUT_EN_CH7_M (BIT(19)) #define RMT_IDLE_OUT_EN_CH7_V 0x1 #define RMT_IDLE_OUT_EN_CH7_S 19 /* RMT_IDLE_OUT_LV_CH7 : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: This bit configures the output signal's level for channel7 in IDLE state.*/ #define RMT_IDLE_OUT_LV_CH7 (BIT(18)) #define RMT_IDLE_OUT_LV_CH7_M (BIT(18)) #define RMT_IDLE_OUT_LV_CH7_V 0x1 #define RMT_IDLE_OUT_LV_CH7_S 18 /* RMT_REF_ALWAYS_ON_CH7 : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: This bit is used to select base clock. 1'b1:clk_apb 1'b0:clk_ref*/ #define RMT_REF_ALWAYS_ON_CH7 (BIT(17)) #define RMT_REF_ALWAYS_ON_CH7_M (BIT(17)) #define RMT_REF_ALWAYS_ON_CH7_V 0x1 #define RMT_REF_ALWAYS_ON_CH7_S 17 /* RMT_REF_CNT_RST_CH7 : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: This bit is used to reset divider in channel7.*/ #define RMT_REF_CNT_RST_CH7 (BIT(16)) #define RMT_REF_CNT_RST_CH7_M (BIT(16)) #define RMT_REF_CNT_RST_CH7_V 0x1 #define RMT_REF_CNT_RST_CH7_S 16 /* RMT_RX_FILTER_THRES_CH7 : R/W ;bitpos:[15:8] ;default: 8'hf ; */ /*description: in receive mode channel7 ignore input pulse when the pulse width is smaller then this value.*/ #define RMT_RX_FILTER_THRES_CH7 0x000000FF #define RMT_RX_FILTER_THRES_CH7_M ((RMT_RX_FILTER_THRES_CH7_V)<<(RMT_RX_FILTER_THRES_CH7_S)) #define RMT_RX_FILTER_THRES_CH7_V 0xFF #define RMT_RX_FILTER_THRES_CH7_S 8 /* RMT_RX_FILTER_EN_CH7 : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: This is the receive filter enable bit for channel7.*/ #define RMT_RX_FILTER_EN_CH7 (BIT(7)) #define RMT_RX_FILTER_EN_CH7_M (BIT(7)) #define RMT_RX_FILTER_EN_CH7_V 0x1 #define RMT_RX_FILTER_EN_CH7_S 7 /* RMT_TX_CONTI_MODE_CH7 : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to continue sending from the first data to the last data in channel7.*/ #define RMT_TX_CONTI_MODE_CH7 (BIT(6)) #define RMT_TX_CONTI_MODE_CH7_M (BIT(6)) #define RMT_TX_CONTI_MODE_CH7_V 0x1 #define RMT_TX_CONTI_MODE_CH7_S 6 /* RMT_MEM_OWNER_CH7 : R/W ;bitpos:[5] ;default: 1'b1 ; */ /*description: This is the mark of channel7's ram usage right.1'b1:receiver uses the ram 0:transmitter uses the ram*/ #define RMT_MEM_OWNER_CH7 (BIT(5)) #define RMT_MEM_OWNER_CH7_M (BIT(5)) #define RMT_MEM_OWNER_CH7_V 0x1 #define RMT_MEM_OWNER_CH7_S 5 /* RMT_APB_MEM_RST_CH7 : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to reset W/R ram address for channel7 by apb fifo access*/ #define RMT_APB_MEM_RST_CH7 (BIT(4)) #define RMT_APB_MEM_RST_CH7_M (BIT(4)) #define RMT_APB_MEM_RST_CH7_V 0x1 #define RMT_APB_MEM_RST_CH7_S 4 /* RMT_MEM_RD_RST_CH7 : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to reset read ram address for channel7 by transmitter access.*/ #define RMT_MEM_RD_RST_CH7 (BIT(3)) #define RMT_MEM_RD_RST_CH7_M (BIT(3)) #define RMT_MEM_RD_RST_CH7_V 0x1 #define RMT_MEM_RD_RST_CH7_S 3 /* RMT_MEM_WR_RST_CH7 : R/W ;bitpos:[2] ;default: 1'h0 ; */ /*description: Set this bit to reset write ram address for channel7 by receiver access.*/ #define RMT_MEM_WR_RST_CH7 (BIT(2)) #define RMT_MEM_WR_RST_CH7_M (BIT(2)) #define RMT_MEM_WR_RST_CH7_V 0x1 #define RMT_MEM_WR_RST_CH7_S 2 /* RMT_RX_EN_CH7 : R/W ;bitpos:[1] ;default: 1'h0 ; */ /*description: Set this bit to enbale receving data for channel7.*/ #define RMT_RX_EN_CH7 (BIT(1)) #define RMT_RX_EN_CH7_M (BIT(1)) #define RMT_RX_EN_CH7_V 0x1 #define RMT_RX_EN_CH7_S 1 /* RMT_TX_START_CH7 : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to start sending data for channel7.*/ #define RMT_TX_START_CH7 (BIT(0)) #define RMT_TX_START_CH7_M (BIT(0)) #define RMT_TX_START_CH7_V 0x1 #define RMT_TX_START_CH7_S 0 #define RMT_CH0STATUS_REG (DR_REG_RMT_BASE + 0x0060) /* RMT_STATUS_CH0 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel0*/ #define RMT_STATUS_CH0 0xFFFFFFFF #define RMT_STATUS_CH0_M ((RMT_STATUS_CH0_V)<<(RMT_STATUS_CH0_S)) #define RMT_STATUS_CH0_V 0xFFFFFFFF #define RMT_STATUS_CH0_S 0 #define RMT_CH1STATUS_REG (DR_REG_RMT_BASE + 0x0064) /* RMT_STATUS_CH1 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel1*/ #define RMT_STATUS_CH1 0xFFFFFFFF #define RMT_STATUS_CH1_M ((RMT_STATUS_CH1_V)<<(RMT_STATUS_CH1_S)) #define RMT_STATUS_CH1_V 0xFFFFFFFF #define RMT_STATUS_CH1_S 0 #define RMT_CH2STATUS_REG (DR_REG_RMT_BASE + 0x0068) /* RMT_STATUS_CH2 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel2*/ #define RMT_STATUS_CH2 0xFFFFFFFF #define RMT_STATUS_CH2_M ((RMT_STATUS_CH2_V)<<(RMT_STATUS_CH2_S)) #define RMT_STATUS_CH2_V 0xFFFFFFFF #define RMT_STATUS_CH2_S 0 #define RMT_CH3STATUS_REG (DR_REG_RMT_BASE + 0x006c) /* RMT_STATUS_CH3 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel3*/ #define RMT_STATUS_CH3 0xFFFFFFFF #define RMT_STATUS_CH3_M ((RMT_STATUS_CH3_V)<<(RMT_STATUS_CH3_S)) #define RMT_STATUS_CH3_V 0xFFFFFFFF #define RMT_STATUS_CH3_S 0 #define RMT_CH4STATUS_REG (DR_REG_RMT_BASE + 0x0070) /* RMT_STATUS_CH4 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel4*/ #define RMT_STATUS_CH4 0xFFFFFFFF #define RMT_STATUS_CH4_M ((RMT_STATUS_CH4_V)<<(RMT_STATUS_CH4_S)) #define RMT_STATUS_CH4_V 0xFFFFFFFF #define RMT_STATUS_CH4_S 0 #define RMT_CH5STATUS_REG (DR_REG_RMT_BASE + 0x0074) /* RMT_STATUS_CH5 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel5*/ #define RMT_STATUS_CH5 0xFFFFFFFF #define RMT_STATUS_CH5_M ((RMT_STATUS_CH5_V)<<(RMT_STATUS_CH5_S)) #define RMT_STATUS_CH5_V 0xFFFFFFFF #define RMT_STATUS_CH5_S 0 #define RMT_CH6STATUS_REG (DR_REG_RMT_BASE + 0x0078) /* RMT_STATUS_CH6 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel6*/ #define RMT_STATUS_CH6 0xFFFFFFFF #define RMT_STATUS_CH6_M ((RMT_STATUS_CH6_V)<<(RMT_STATUS_CH6_S)) #define RMT_STATUS_CH6_V 0xFFFFFFFF #define RMT_STATUS_CH6_S 0 #define RMT_CH7STATUS_REG (DR_REG_RMT_BASE + 0x007c) /* RMT_STATUS_CH7 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The status for channel7*/ #define RMT_STATUS_CH7 0xFFFFFFFF #define RMT_STATUS_CH7_M ((RMT_STATUS_CH7_V)<<(RMT_STATUS_CH7_S)) #define RMT_STATUS_CH7_V 0xFFFFFFFF #define RMT_STATUS_CH7_S 0 #define RMT_CH0ADDR_REG (DR_REG_RMT_BASE + 0x0080) /* RMT_APB_MEM_ADDR_CH0 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel0 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH0 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH0_M ((RMT_APB_MEM_ADDR_CH0_V)<<(RMT_APB_MEM_ADDR_CH0_S)) #define RMT_APB_MEM_ADDR_CH0_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH0_S 0 #define RMT_CH1ADDR_REG (DR_REG_RMT_BASE + 0x0084) /* RMT_APB_MEM_ADDR_CH1 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel1 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH1 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH1_M ((RMT_APB_MEM_ADDR_CH1_V)<<(RMT_APB_MEM_ADDR_CH1_S)) #define RMT_APB_MEM_ADDR_CH1_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH1_S 0 #define RMT_CH2ADDR_REG (DR_REG_RMT_BASE + 0x0088) /* RMT_APB_MEM_ADDR_CH2 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel2 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH2 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH2_M ((RMT_APB_MEM_ADDR_CH2_V)<<(RMT_APB_MEM_ADDR_CH2_S)) #define RMT_APB_MEM_ADDR_CH2_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH2_S 0 #define RMT_CH3ADDR_REG (DR_REG_RMT_BASE + 0x008c) /* RMT_APB_MEM_ADDR_CH3 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel3 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH3 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH3_M ((RMT_APB_MEM_ADDR_CH3_V)<<(RMT_APB_MEM_ADDR_CH3_S)) #define RMT_APB_MEM_ADDR_CH3_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH3_S 0 #define RMT_CH4ADDR_REG (DR_REG_RMT_BASE + 0x0090) /* RMT_APB_MEM_ADDR_CH4 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel4 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH4 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH4_M ((RMT_APB_MEM_ADDR_CH4_V)<<(RMT_APB_MEM_ADDR_CH4_S)) #define RMT_APB_MEM_ADDR_CH4_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH4_S 0 #define RMT_CH5ADDR_REG (DR_REG_RMT_BASE + 0x0094) /* RMT_APB_MEM_ADDR_CH5 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel5 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH5 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH5_M ((RMT_APB_MEM_ADDR_CH5_V)<<(RMT_APB_MEM_ADDR_CH5_S)) #define RMT_APB_MEM_ADDR_CH5_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH5_S 0 #define RMT_CH6ADDR_REG (DR_REG_RMT_BASE + 0x0098) /* RMT_APB_MEM_ADDR_CH6 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel6 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH6 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH6_M ((RMT_APB_MEM_ADDR_CH6_V)<<(RMT_APB_MEM_ADDR_CH6_S)) #define RMT_APB_MEM_ADDR_CH6_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH6_S 0 #define RMT_CH7ADDR_REG (DR_REG_RMT_BASE + 0x009c) /* RMT_APB_MEM_ADDR_CH7 : RO ;bitpos:[31:0] ;default: 32'h0 ; */ /*description: The ram relative address in channel7 by apb fifo access*/ #define RMT_APB_MEM_ADDR_CH7 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH7_M ((RMT_APB_MEM_ADDR_CH7_V)<<(RMT_APB_MEM_ADDR_CH7_S)) #define RMT_APB_MEM_ADDR_CH7_V 0xFFFFFFFF #define RMT_APB_MEM_ADDR_CH7_S 0 #define RMT_INT_RAW_REG (DR_REG_RMT_BASE + 0x00a0) /* RMT_CH7_TX_THR_EVENT_INT_RAW : RO ;bitpos:[31] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 7 turns to high level when transmitter in channle7 have send datas more than reg_rmt_tx_lim_ch7 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH7_TX_THR_EVENT_INT_RAW (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_RAW_M (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH7_TX_THR_EVENT_INT_RAW_S 31 /* RMT_CH6_TX_THR_EVENT_INT_RAW : RO ;bitpos:[30] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 6 turns to high level when transmitter in channle6 have send datas more than reg_rmt_tx_lim_ch6 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH6_TX_THR_EVENT_INT_RAW (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_RAW_M (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH6_TX_THR_EVENT_INT_RAW_S 30 /* RMT_CH5_TX_THR_EVENT_INT_RAW : RO ;bitpos:[29] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 5 turns to high level when transmitter in channle5 have send datas more than reg_rmt_tx_lim_ch5 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH5_TX_THR_EVENT_INT_RAW (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_RAW_M (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH5_TX_THR_EVENT_INT_RAW_S 29 /* RMT_CH4_TX_THR_EVENT_INT_RAW : RO ;bitpos:[28] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 4 turns to high level when transmitter in channle4 have send datas more than reg_rmt_tx_lim_ch4 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH4_TX_THR_EVENT_INT_RAW (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_RAW_M (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH4_TX_THR_EVENT_INT_RAW_S 28 /* RMT_CH3_TX_THR_EVENT_INT_RAW : RO ;bitpos:[27] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 3 turns to high level when transmitter in channle3 have send datas more than reg_rmt_tx_lim_ch3 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH3_TX_THR_EVENT_INT_RAW (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_RAW_M (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH3_TX_THR_EVENT_INT_RAW_S 27 /* RMT_CH2_TX_THR_EVENT_INT_RAW : RO ;bitpos:[26] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 2 turns to high level when transmitter in channle2 have send datas more than reg_rmt_tx_lim_ch2 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH2_TX_THR_EVENT_INT_RAW (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_RAW_M (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH2_TX_THR_EVENT_INT_RAW_S 26 /* RMT_CH1_TX_THR_EVENT_INT_RAW : RO ;bitpos:[25] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 1 turns to high level when transmitter in channle1 have send datas more than reg_rmt_tx_lim_ch1 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH1_TX_THR_EVENT_INT_RAW (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_RAW_M (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH1_TX_THR_EVENT_INT_RAW_S 25 /* RMT_CH0_TX_THR_EVENT_INT_RAW : RO ;bitpos:[24] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 0 turns to high level when transmitter in channle0 have send datas more than reg_rmt_tx_lim_ch0 after detecting this interrupt software can updata the old datas with new datas.*/ #define RMT_CH0_TX_THR_EVENT_INT_RAW (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_RAW_M (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_RAW_V 0x1 #define RMT_CH0_TX_THR_EVENT_INT_RAW_S 24 /* RMT_CH7_ERR_INT_RAW : RO ;bitpos:[23] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 7 turns to high level when channle 7 detects some errors.*/ #define RMT_CH7_ERR_INT_RAW (BIT(23)) #define RMT_CH7_ERR_INT_RAW_M (BIT(23)) #define RMT_CH7_ERR_INT_RAW_V 0x1 #define RMT_CH7_ERR_INT_RAW_S 23 /* RMT_CH7_RX_END_INT_RAW : RO ;bitpos:[22] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 7 turns to high level when the receive process is done.*/ #define RMT_CH7_RX_END_INT_RAW (BIT(22)) #define RMT_CH7_RX_END_INT_RAW_M (BIT(22)) #define RMT_CH7_RX_END_INT_RAW_V 0x1 #define RMT_CH7_RX_END_INT_RAW_S 22 /* RMT_CH7_TX_END_INT_RAW : RO ;bitpos:[21] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 7 turns to high level when the transmit process is done.*/ #define RMT_CH7_TX_END_INT_RAW (BIT(21)) #define RMT_CH7_TX_END_INT_RAW_M (BIT(21)) #define RMT_CH7_TX_END_INT_RAW_V 0x1 #define RMT_CH7_TX_END_INT_RAW_S 21 /* RMT_CH6_ERR_INT_RAW : RO ;bitpos:[20] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 6 turns to high level when channle 6 detects some errors.*/ #define RMT_CH6_ERR_INT_RAW (BIT(20)) #define RMT_CH6_ERR_INT_RAW_M (BIT(20)) #define RMT_CH6_ERR_INT_RAW_V 0x1 #define RMT_CH6_ERR_INT_RAW_S 20 /* RMT_CH6_RX_END_INT_RAW : RO ;bitpos:[19] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 6 turns to high level when the receive process is done.*/ #define RMT_CH6_RX_END_INT_RAW (BIT(19)) #define RMT_CH6_RX_END_INT_RAW_M (BIT(19)) #define RMT_CH6_RX_END_INT_RAW_V 0x1 #define RMT_CH6_RX_END_INT_RAW_S 19 /* RMT_CH6_TX_END_INT_RAW : RO ;bitpos:[18] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 6 turns to high level when the transmit process is done.*/ #define RMT_CH6_TX_END_INT_RAW (BIT(18)) #define RMT_CH6_TX_END_INT_RAW_M (BIT(18)) #define RMT_CH6_TX_END_INT_RAW_V 0x1 #define RMT_CH6_TX_END_INT_RAW_S 18 /* RMT_CH5_ERR_INT_RAW : RO ;bitpos:[17] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 5 turns to high level when channle 5 detects some errors.*/ #define RMT_CH5_ERR_INT_RAW (BIT(17)) #define RMT_CH5_ERR_INT_RAW_M (BIT(17)) #define RMT_CH5_ERR_INT_RAW_V 0x1 #define RMT_CH5_ERR_INT_RAW_S 17 /* RMT_CH5_RX_END_INT_RAW : RO ;bitpos:[16] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 5 turns to high level when the receive process is done.*/ #define RMT_CH5_RX_END_INT_RAW (BIT(16)) #define RMT_CH5_RX_END_INT_RAW_M (BIT(16)) #define RMT_CH5_RX_END_INT_RAW_V 0x1 #define RMT_CH5_RX_END_INT_RAW_S 16 /* RMT_CH5_TX_END_INT_RAW : RO ;bitpos:[15] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 5 turns to high level when the transmit process is done.*/ #define RMT_CH5_TX_END_INT_RAW (BIT(15)) #define RMT_CH5_TX_END_INT_RAW_M (BIT(15)) #define RMT_CH5_TX_END_INT_RAW_V 0x1 #define RMT_CH5_TX_END_INT_RAW_S 15 /* RMT_CH4_ERR_INT_RAW : RO ;bitpos:[14] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 4 turns to high level when channle 4 detects some errors.*/ #define RMT_CH4_ERR_INT_RAW (BIT(14)) #define RMT_CH4_ERR_INT_RAW_M (BIT(14)) #define RMT_CH4_ERR_INT_RAW_V 0x1 #define RMT_CH4_ERR_INT_RAW_S 14 /* RMT_CH4_RX_END_INT_RAW : RO ;bitpos:[13] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 4 turns to high level when the receive process is done.*/ #define RMT_CH4_RX_END_INT_RAW (BIT(13)) #define RMT_CH4_RX_END_INT_RAW_M (BIT(13)) #define RMT_CH4_RX_END_INT_RAW_V 0x1 #define RMT_CH4_RX_END_INT_RAW_S 13 /* RMT_CH4_TX_END_INT_RAW : RO ;bitpos:[12] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 4 turns to high level when the transmit process is done.*/ #define RMT_CH4_TX_END_INT_RAW (BIT(12)) #define RMT_CH4_TX_END_INT_RAW_M (BIT(12)) #define RMT_CH4_TX_END_INT_RAW_V 0x1 #define RMT_CH4_TX_END_INT_RAW_S 12 /* RMT_CH3_ERR_INT_RAW : RO ;bitpos:[11] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 3 turns to high level when channle 3 detects some errors.*/ #define RMT_CH3_ERR_INT_RAW (BIT(11)) #define RMT_CH3_ERR_INT_RAW_M (BIT(11)) #define RMT_CH3_ERR_INT_RAW_V 0x1 #define RMT_CH3_ERR_INT_RAW_S 11 /* RMT_CH3_RX_END_INT_RAW : RO ;bitpos:[10] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 3 turns to high level when the receive process is done.*/ #define RMT_CH3_RX_END_INT_RAW (BIT(10)) #define RMT_CH3_RX_END_INT_RAW_M (BIT(10)) #define RMT_CH3_RX_END_INT_RAW_V 0x1 #define RMT_CH3_RX_END_INT_RAW_S 10 /* RMT_CH3_TX_END_INT_RAW : RO ;bitpos:[9] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 3 turns to high level when the transmit process is done.*/ #define RMT_CH3_TX_END_INT_RAW (BIT(9)) #define RMT_CH3_TX_END_INT_RAW_M (BIT(9)) #define RMT_CH3_TX_END_INT_RAW_V 0x1 #define RMT_CH3_TX_END_INT_RAW_S 9 /* RMT_CH2_ERR_INT_RAW : RO ;bitpos:[8] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 2 turns to high level when channle 2 detects some errors.*/ #define RMT_CH2_ERR_INT_RAW (BIT(8)) #define RMT_CH2_ERR_INT_RAW_M (BIT(8)) #define RMT_CH2_ERR_INT_RAW_V 0x1 #define RMT_CH2_ERR_INT_RAW_S 8 /* RMT_CH2_RX_END_INT_RAW : RO ;bitpos:[7] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 2 turns to high level when the receive process is done.*/ #define RMT_CH2_RX_END_INT_RAW (BIT(7)) #define RMT_CH2_RX_END_INT_RAW_M (BIT(7)) #define RMT_CH2_RX_END_INT_RAW_V 0x1 #define RMT_CH2_RX_END_INT_RAW_S 7 /* RMT_CH2_TX_END_INT_RAW : RO ;bitpos:[6] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 2 turns to high level when the transmit process is done.*/ #define RMT_CH2_TX_END_INT_RAW (BIT(6)) #define RMT_CH2_TX_END_INT_RAW_M (BIT(6)) #define RMT_CH2_TX_END_INT_RAW_V 0x1 #define RMT_CH2_TX_END_INT_RAW_S 6 /* RMT_CH1_ERR_INT_RAW : RO ;bitpos:[5] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 1 turns to high level when channle 1 detects some errors.*/ #define RMT_CH1_ERR_INT_RAW (BIT(5)) #define RMT_CH1_ERR_INT_RAW_M (BIT(5)) #define RMT_CH1_ERR_INT_RAW_V 0x1 #define RMT_CH1_ERR_INT_RAW_S 5 /* RMT_CH1_RX_END_INT_RAW : RO ;bitpos:[4] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 1 turns to high level when the receive process is done.*/ #define RMT_CH1_RX_END_INT_RAW (BIT(4)) #define RMT_CH1_RX_END_INT_RAW_M (BIT(4)) #define RMT_CH1_RX_END_INT_RAW_V 0x1 #define RMT_CH1_RX_END_INT_RAW_S 4 /* RMT_CH1_TX_END_INT_RAW : RO ;bitpos:[3] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 1 turns to high level when the transmit process is done.*/ #define RMT_CH1_TX_END_INT_RAW (BIT(3)) #define RMT_CH1_TX_END_INT_RAW_M (BIT(3)) #define RMT_CH1_TX_END_INT_RAW_V 0x1 #define RMT_CH1_TX_END_INT_RAW_S 3 /* RMT_CH0_ERR_INT_RAW : RO ;bitpos:[2] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 0 turns to high level when channle 0 detects some errors.*/ #define RMT_CH0_ERR_INT_RAW (BIT(2)) #define RMT_CH0_ERR_INT_RAW_M (BIT(2)) #define RMT_CH0_ERR_INT_RAW_V 0x1 #define RMT_CH0_ERR_INT_RAW_S 2 /* RMT_CH0_RX_END_INT_RAW : RO ;bitpos:[1] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 0 turns to high level when the receive process is done.*/ #define RMT_CH0_RX_END_INT_RAW (BIT(1)) #define RMT_CH0_RX_END_INT_RAW_M (BIT(1)) #define RMT_CH0_RX_END_INT_RAW_V 0x1 #define RMT_CH0_RX_END_INT_RAW_S 1 /* RMT_CH0_TX_END_INT_RAW : RO ;bitpos:[0] ;default: 1'b0 ; */ /*description: The interrupt raw bit for channel 0 turns to high level when the transmit process is done.*/ #define RMT_CH0_TX_END_INT_RAW (BIT(0)) #define RMT_CH0_TX_END_INT_RAW_M (BIT(0)) #define RMT_CH0_TX_END_INT_RAW_V 0x1 #define RMT_CH0_TX_END_INT_RAW_S 0 #define RMT_INT_ST_REG (DR_REG_RMT_BASE + 0x00a4) /* RMT_CH7_TX_THR_EVENT_INT_ST : RO ;bitpos:[31] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 7's rmt_ch7_tx_thr_event_int_raw when mt_ch7_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH7_TX_THR_EVENT_INT_ST (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_ST_M (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH7_TX_THR_EVENT_INT_ST_S 31 /* RMT_CH6_TX_THR_EVENT_INT_ST : RO ;bitpos:[30] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 6's rmt_ch6_tx_thr_event_int_raw when mt_ch6_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH6_TX_THR_EVENT_INT_ST (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_ST_M (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH6_TX_THR_EVENT_INT_ST_S 30 /* RMT_CH5_TX_THR_EVENT_INT_ST : RO ;bitpos:[29] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 5's rmt_ch5_tx_thr_event_int_raw when mt_ch5_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH5_TX_THR_EVENT_INT_ST (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_ST_M (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH5_TX_THR_EVENT_INT_ST_S 29 /* RMT_CH4_TX_THR_EVENT_INT_ST : RO ;bitpos:[28] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 4's rmt_ch4_tx_thr_event_int_raw when mt_ch4_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH4_TX_THR_EVENT_INT_ST (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_ST_M (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH4_TX_THR_EVENT_INT_ST_S 28 /* RMT_CH3_TX_THR_EVENT_INT_ST : RO ;bitpos:[27] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 3's rmt_ch3_tx_thr_event_int_raw when mt_ch3_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH3_TX_THR_EVENT_INT_ST (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_ST_M (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH3_TX_THR_EVENT_INT_ST_S 27 /* RMT_CH2_TX_THR_EVENT_INT_ST : RO ;bitpos:[26] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 2's rmt_ch2_tx_thr_event_int_raw when mt_ch2_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH2_TX_THR_EVENT_INT_ST (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_ST_M (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH2_TX_THR_EVENT_INT_ST_S 26 /* RMT_CH1_TX_THR_EVENT_INT_ST : RO ;bitpos:[25] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 1's rmt_ch1_tx_thr_event_int_raw when mt_ch1_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH1_TX_THR_EVENT_INT_ST (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_ST_M (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH1_TX_THR_EVENT_INT_ST_S 25 /* RMT_CH0_TX_THR_EVENT_INT_ST : RO ;bitpos:[24] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 0's rmt_ch0_tx_thr_event_int_raw when mt_ch0_tx_thr_event_int_ena is set to 1.*/ #define RMT_CH0_TX_THR_EVENT_INT_ST (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_ST_M (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_ST_V 0x1 #define RMT_CH0_TX_THR_EVENT_INT_ST_S 24 /* RMT_CH7_ERR_INT_ST : RO ;bitpos:[23] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 7's rmt_ch7_err_int_raw when rmt_ch7_err_int_ena is set to 1.*/ #define RMT_CH7_ERR_INT_ST (BIT(23)) #define RMT_CH7_ERR_INT_ST_M (BIT(23)) #define RMT_CH7_ERR_INT_ST_V 0x1 #define RMT_CH7_ERR_INT_ST_S 23 /* RMT_CH7_RX_END_INT_ST : RO ;bitpos:[22] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 7's rmt_ch7_rx_end_int_raw when rmt_ch7_rx_end_int_ena is set to 1.*/ #define RMT_CH7_RX_END_INT_ST (BIT(22)) #define RMT_CH7_RX_END_INT_ST_M (BIT(22)) #define RMT_CH7_RX_END_INT_ST_V 0x1 #define RMT_CH7_RX_END_INT_ST_S 22 /* RMT_CH7_TX_END_INT_ST : RO ;bitpos:[21] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 7's mt_ch7_tx_end_int_raw when mt_ch7_tx_end_int_ena is set to 1.*/ #define RMT_CH7_TX_END_INT_ST (BIT(21)) #define RMT_CH7_TX_END_INT_ST_M (BIT(21)) #define RMT_CH7_TX_END_INT_ST_V 0x1 #define RMT_CH7_TX_END_INT_ST_S 21 /* RMT_CH6_ERR_INT_ST : RO ;bitpos:[20] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 6's rmt_ch6_err_int_raw when rmt_ch6_err_int_ena is set to 1.*/ #define RMT_CH6_ERR_INT_ST (BIT(20)) #define RMT_CH6_ERR_INT_ST_M (BIT(20)) #define RMT_CH6_ERR_INT_ST_V 0x1 #define RMT_CH6_ERR_INT_ST_S 20 /* RMT_CH6_RX_END_INT_ST : RO ;bitpos:[19] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 6's rmt_ch6_rx_end_int_raw when rmt_ch6_rx_end_int_ena is set to 1.*/ #define RMT_CH6_RX_END_INT_ST (BIT(19)) #define RMT_CH6_RX_END_INT_ST_M (BIT(19)) #define RMT_CH6_RX_END_INT_ST_V 0x1 #define RMT_CH6_RX_END_INT_ST_S 19 /* RMT_CH6_TX_END_INT_ST : RO ;bitpos:[18] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 6's mt_ch6_tx_end_int_raw when mt_ch6_tx_end_int_ena is set to 1.*/ #define RMT_CH6_TX_END_INT_ST (BIT(18)) #define RMT_CH6_TX_END_INT_ST_M (BIT(18)) #define RMT_CH6_TX_END_INT_ST_V 0x1 #define RMT_CH6_TX_END_INT_ST_S 18 /* RMT_CH5_ERR_INT_ST : RO ;bitpos:[17] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 5's rmt_ch5_err_int_raw when rmt_ch5_err_int_ena is set to 1.*/ #define RMT_CH5_ERR_INT_ST (BIT(17)) #define RMT_CH5_ERR_INT_ST_M (BIT(17)) #define RMT_CH5_ERR_INT_ST_V 0x1 #define RMT_CH5_ERR_INT_ST_S 17 /* RMT_CH5_RX_END_INT_ST : RO ;bitpos:[16] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 5's rmt_ch5_rx_end_int_raw when rmt_ch5_rx_end_int_ena is set to 1.*/ #define RMT_CH5_RX_END_INT_ST (BIT(16)) #define RMT_CH5_RX_END_INT_ST_M (BIT(16)) #define RMT_CH5_RX_END_INT_ST_V 0x1 #define RMT_CH5_RX_END_INT_ST_S 16 /* RMT_CH5_TX_END_INT_ST : RO ;bitpos:[15] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 5's mt_ch5_tx_end_int_raw when mt_ch5_tx_end_int_ena is set to 1.*/ #define RMT_CH5_TX_END_INT_ST (BIT(15)) #define RMT_CH5_TX_END_INT_ST_M (BIT(15)) #define RMT_CH5_TX_END_INT_ST_V 0x1 #define RMT_CH5_TX_END_INT_ST_S 15 /* RMT_CH4_ERR_INT_ST : RO ;bitpos:[14] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 4's rmt_ch4_err_int_raw when rmt_ch4_err_int_ena is set to 1.*/ #define RMT_CH4_ERR_INT_ST (BIT(14)) #define RMT_CH4_ERR_INT_ST_M (BIT(14)) #define RMT_CH4_ERR_INT_ST_V 0x1 #define RMT_CH4_ERR_INT_ST_S 14 /* RMT_CH4_RX_END_INT_ST : RO ;bitpos:[13] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 4's rmt_ch4_rx_end_int_raw when rmt_ch4_rx_end_int_ena is set to 1.*/ #define RMT_CH4_RX_END_INT_ST (BIT(13)) #define RMT_CH4_RX_END_INT_ST_M (BIT(13)) #define RMT_CH4_RX_END_INT_ST_V 0x1 #define RMT_CH4_RX_END_INT_ST_S 13 /* RMT_CH4_TX_END_INT_ST : RO ;bitpos:[12] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 4's mt_ch4_tx_end_int_raw when mt_ch4_tx_end_int_ena is set to 1.*/ #define RMT_CH4_TX_END_INT_ST (BIT(12)) #define RMT_CH4_TX_END_INT_ST_M (BIT(12)) #define RMT_CH4_TX_END_INT_ST_V 0x1 #define RMT_CH4_TX_END_INT_ST_S 12 /* RMT_CH3_ERR_INT_ST : RO ;bitpos:[11] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 3's rmt_ch3_err_int_raw when rmt_ch3_err_int_ena is set to 1.*/ #define RMT_CH3_ERR_INT_ST (BIT(11)) #define RMT_CH3_ERR_INT_ST_M (BIT(11)) #define RMT_CH3_ERR_INT_ST_V 0x1 #define RMT_CH3_ERR_INT_ST_S 11 /* RMT_CH3_RX_END_INT_ST : RO ;bitpos:[10] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 3's rmt_ch3_rx_end_int_raw when rmt_ch3_rx_end_int_ena is set to 1.*/ #define RMT_CH3_RX_END_INT_ST (BIT(10)) #define RMT_CH3_RX_END_INT_ST_M (BIT(10)) #define RMT_CH3_RX_END_INT_ST_V 0x1 #define RMT_CH3_RX_END_INT_ST_S 10 /* RMT_CH3_TX_END_INT_ST : RO ;bitpos:[9] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 3's mt_ch3_tx_end_int_raw when mt_ch3_tx_end_int_ena is set to 1.*/ #define RMT_CH3_TX_END_INT_ST (BIT(9)) #define RMT_CH3_TX_END_INT_ST_M (BIT(9)) #define RMT_CH3_TX_END_INT_ST_V 0x1 #define RMT_CH3_TX_END_INT_ST_S 9 /* RMT_CH2_ERR_INT_ST : RO ;bitpos:[8] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 2's rmt_ch2_err_int_raw when rmt_ch2_err_int_ena is set to 1.*/ #define RMT_CH2_ERR_INT_ST (BIT(8)) #define RMT_CH2_ERR_INT_ST_M (BIT(8)) #define RMT_CH2_ERR_INT_ST_V 0x1 #define RMT_CH2_ERR_INT_ST_S 8 /* RMT_CH2_RX_END_INT_ST : RO ;bitpos:[7] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 2's rmt_ch2_rx_end_int_raw when rmt_ch2_rx_end_int_ena is set to 1.*/ #define RMT_CH2_RX_END_INT_ST (BIT(7)) #define RMT_CH2_RX_END_INT_ST_M (BIT(7)) #define RMT_CH2_RX_END_INT_ST_V 0x1 #define RMT_CH2_RX_END_INT_ST_S 7 /* RMT_CH2_TX_END_INT_ST : RO ;bitpos:[6] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 2's mt_ch2_tx_end_int_raw when mt_ch2_tx_end_int_ena is set to 1.*/ #define RMT_CH2_TX_END_INT_ST (BIT(6)) #define RMT_CH2_TX_END_INT_ST_M (BIT(6)) #define RMT_CH2_TX_END_INT_ST_V 0x1 #define RMT_CH2_TX_END_INT_ST_S 6 /* RMT_CH1_ERR_INT_ST : RO ;bitpos:[5] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 1's rmt_ch1_err_int_raw when rmt_ch1_err_int_ena is set to 1.*/ #define RMT_CH1_ERR_INT_ST (BIT(5)) #define RMT_CH1_ERR_INT_ST_M (BIT(5)) #define RMT_CH1_ERR_INT_ST_V 0x1 #define RMT_CH1_ERR_INT_ST_S 5 /* RMT_CH1_RX_END_INT_ST : RO ;bitpos:[4] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 1's rmt_ch1_rx_end_int_raw when rmt_ch1_rx_end_int_ena is set to 1.*/ #define RMT_CH1_RX_END_INT_ST (BIT(4)) #define RMT_CH1_RX_END_INT_ST_M (BIT(4)) #define RMT_CH1_RX_END_INT_ST_V 0x1 #define RMT_CH1_RX_END_INT_ST_S 4 /* RMT_CH1_TX_END_INT_ST : RO ;bitpos:[3] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 1's mt_ch1_tx_end_int_raw when mt_ch1_tx_end_int_ena is set to 1.*/ #define RMT_CH1_TX_END_INT_ST (BIT(3)) #define RMT_CH1_TX_END_INT_ST_M (BIT(3)) #define RMT_CH1_TX_END_INT_ST_V 0x1 #define RMT_CH1_TX_END_INT_ST_S 3 /* RMT_CH0_ERR_INT_ST : RO ;bitpos:[2] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 0's rmt_ch0_err_int_raw when rmt_ch0_err_int_ena is set to 0.*/ #define RMT_CH0_ERR_INT_ST (BIT(2)) #define RMT_CH0_ERR_INT_ST_M (BIT(2)) #define RMT_CH0_ERR_INT_ST_V 0x1 #define RMT_CH0_ERR_INT_ST_S 2 /* RMT_CH0_RX_END_INT_ST : RO ;bitpos:[1] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 0's rmt_ch0_rx_end_int_raw when rmt_ch0_rx_end_int_ena is set to 0.*/ #define RMT_CH0_RX_END_INT_ST (BIT(1)) #define RMT_CH0_RX_END_INT_ST_M (BIT(1)) #define RMT_CH0_RX_END_INT_ST_V 0x1 #define RMT_CH0_RX_END_INT_ST_S 1 /* RMT_CH0_TX_END_INT_ST : RO ;bitpos:[0] ;default: 1'b0 ; */ /*description: The interrupt state bit for channel 0's mt_ch0_tx_end_int_raw when mt_ch0_tx_end_int_ena is set to 0.*/ #define RMT_CH0_TX_END_INT_ST (BIT(0)) #define RMT_CH0_TX_END_INT_ST_M (BIT(0)) #define RMT_CH0_TX_END_INT_ST_V 0x1 #define RMT_CH0_TX_END_INT_ST_S 0 #define RMT_INT_ENA_REG (DR_REG_RMT_BASE + 0x00a8) /* RMT_CH7_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[31] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch7_tx_thr_event_int_st.*/ #define RMT_CH7_TX_THR_EVENT_INT_ENA (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_ENA_M (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH7_TX_THR_EVENT_INT_ENA_S 31 /* RMT_CH6_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[30] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch6_tx_thr_event_int_st.*/ #define RMT_CH6_TX_THR_EVENT_INT_ENA (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_ENA_M (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH6_TX_THR_EVENT_INT_ENA_S 30 /* RMT_CH5_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[29] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch5_tx_thr_event_int_st.*/ #define RMT_CH5_TX_THR_EVENT_INT_ENA (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_ENA_M (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH5_TX_THR_EVENT_INT_ENA_S 29 /* RMT_CH4_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[28] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch4_tx_thr_event_int_st.*/ #define RMT_CH4_TX_THR_EVENT_INT_ENA (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_ENA_M (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH4_TX_THR_EVENT_INT_ENA_S 28 /* RMT_CH3_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[27] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch3_tx_thr_event_int_st.*/ #define RMT_CH3_TX_THR_EVENT_INT_ENA (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_ENA_M (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH3_TX_THR_EVENT_INT_ENA_S 27 /* RMT_CH2_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[26] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch2_tx_thr_event_int_st.*/ #define RMT_CH2_TX_THR_EVENT_INT_ENA (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_ENA_M (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH2_TX_THR_EVENT_INT_ENA_S 26 /* RMT_CH1_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[25] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch1_tx_thr_event_int_st.*/ #define RMT_CH1_TX_THR_EVENT_INT_ENA (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_ENA_M (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH1_TX_THR_EVENT_INT_ENA_S 25 /* RMT_CH0_TX_THR_EVENT_INT_ENA : R/W ;bitpos:[24] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch0_tx_thr_event_int_st.*/ #define RMT_CH0_TX_THR_EVENT_INT_ENA (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_ENA_M (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_ENA_V 0x1 #define RMT_CH0_TX_THR_EVENT_INT_ENA_S 24 /* RMT_CH7_ERR_INT_ENA : R/W ;bitpos:[23] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch7_err_int_st.*/ #define RMT_CH7_ERR_INT_ENA (BIT(23)) #define RMT_CH7_ERR_INT_ENA_M (BIT(23)) #define RMT_CH7_ERR_INT_ENA_V 0x1 #define RMT_CH7_ERR_INT_ENA_S 23 /* RMT_CH7_RX_END_INT_ENA : R/W ;bitpos:[22] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch7_rx_end_int_st.*/ #define RMT_CH7_RX_END_INT_ENA (BIT(22)) #define RMT_CH7_RX_END_INT_ENA_M (BIT(22)) #define RMT_CH7_RX_END_INT_ENA_V 0x1 #define RMT_CH7_RX_END_INT_ENA_S 22 /* RMT_CH7_TX_END_INT_ENA : R/W ;bitpos:[21] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch7_tx_end_int_st.*/ #define RMT_CH7_TX_END_INT_ENA (BIT(21)) #define RMT_CH7_TX_END_INT_ENA_M (BIT(21)) #define RMT_CH7_TX_END_INT_ENA_V 0x1 #define RMT_CH7_TX_END_INT_ENA_S 21 /* RMT_CH6_ERR_INT_ENA : R/W ;bitpos:[20] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch6_err_int_st.*/ #define RMT_CH6_ERR_INT_ENA (BIT(20)) #define RMT_CH6_ERR_INT_ENA_M (BIT(20)) #define RMT_CH6_ERR_INT_ENA_V 0x1 #define RMT_CH6_ERR_INT_ENA_S 20 /* RMT_CH6_RX_END_INT_ENA : R/W ;bitpos:[19] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch6_rx_end_int_st.*/ #define RMT_CH6_RX_END_INT_ENA (BIT(19)) #define RMT_CH6_RX_END_INT_ENA_M (BIT(19)) #define RMT_CH6_RX_END_INT_ENA_V 0x1 #define RMT_CH6_RX_END_INT_ENA_S 19 /* RMT_CH6_TX_END_INT_ENA : R/W ;bitpos:[18] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch6_tx_end_int_st.*/ #define RMT_CH6_TX_END_INT_ENA (BIT(18)) #define RMT_CH6_TX_END_INT_ENA_M (BIT(18)) #define RMT_CH6_TX_END_INT_ENA_V 0x1 #define RMT_CH6_TX_END_INT_ENA_S 18 /* RMT_CH5_ERR_INT_ENA : R/W ;bitpos:[17] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch5_err_int_st.*/ #define RMT_CH5_ERR_INT_ENA (BIT(17)) #define RMT_CH5_ERR_INT_ENA_M (BIT(17)) #define RMT_CH5_ERR_INT_ENA_V 0x1 #define RMT_CH5_ERR_INT_ENA_S 17 /* RMT_CH5_RX_END_INT_ENA : R/W ;bitpos:[16] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch5_rx_end_int_st.*/ #define RMT_CH5_RX_END_INT_ENA (BIT(16)) #define RMT_CH5_RX_END_INT_ENA_M (BIT(16)) #define RMT_CH5_RX_END_INT_ENA_V 0x1 #define RMT_CH5_RX_END_INT_ENA_S 16 /* RMT_CH5_TX_END_INT_ENA : R/W ;bitpos:[15] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch5_tx_end_int_st.*/ #define RMT_CH5_TX_END_INT_ENA (BIT(15)) #define RMT_CH5_TX_END_INT_ENA_M (BIT(15)) #define RMT_CH5_TX_END_INT_ENA_V 0x1 #define RMT_CH5_TX_END_INT_ENA_S 15 /* RMT_CH4_ERR_INT_ENA : R/W ;bitpos:[14] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch4_err_int_st.*/ #define RMT_CH4_ERR_INT_ENA (BIT(14)) #define RMT_CH4_ERR_INT_ENA_M (BIT(14)) #define RMT_CH4_ERR_INT_ENA_V 0x1 #define RMT_CH4_ERR_INT_ENA_S 14 /* RMT_CH4_RX_END_INT_ENA : R/W ;bitpos:[13] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch4_rx_end_int_st.*/ #define RMT_CH4_RX_END_INT_ENA (BIT(13)) #define RMT_CH4_RX_END_INT_ENA_M (BIT(13)) #define RMT_CH4_RX_END_INT_ENA_V 0x1 #define RMT_CH4_RX_END_INT_ENA_S 13 /* RMT_CH4_TX_END_INT_ENA : R/W ;bitpos:[12] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch4_tx_end_int_st.*/ #define RMT_CH4_TX_END_INT_ENA (BIT(12)) #define RMT_CH4_TX_END_INT_ENA_M (BIT(12)) #define RMT_CH4_TX_END_INT_ENA_V 0x1 #define RMT_CH4_TX_END_INT_ENA_S 12 /* RMT_CH3_ERR_INT_ENA : R/W ;bitpos:[11] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch3_err_int_st.*/ #define RMT_CH3_ERR_INT_ENA (BIT(11)) #define RMT_CH3_ERR_INT_ENA_M (BIT(11)) #define RMT_CH3_ERR_INT_ENA_V 0x1 #define RMT_CH3_ERR_INT_ENA_S 11 /* RMT_CH3_RX_END_INT_ENA : R/W ;bitpos:[10] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch3_rx_end_int_st.*/ #define RMT_CH3_RX_END_INT_ENA (BIT(10)) #define RMT_CH3_RX_END_INT_ENA_M (BIT(10)) #define RMT_CH3_RX_END_INT_ENA_V 0x1 #define RMT_CH3_RX_END_INT_ENA_S 10 /* RMT_CH3_TX_END_INT_ENA : R/W ;bitpos:[9] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch3_tx_end_int_st.*/ #define RMT_CH3_TX_END_INT_ENA (BIT(9)) #define RMT_CH3_TX_END_INT_ENA_M (BIT(9)) #define RMT_CH3_TX_END_INT_ENA_V 0x1 #define RMT_CH3_TX_END_INT_ENA_S 9 /* RMT_CH2_ERR_INT_ENA : R/W ;bitpos:[8] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch2_err_int_st.*/ #define RMT_CH2_ERR_INT_ENA (BIT(8)) #define RMT_CH2_ERR_INT_ENA_M (BIT(8)) #define RMT_CH2_ERR_INT_ENA_V 0x1 #define RMT_CH2_ERR_INT_ENA_S 8 /* RMT_CH2_RX_END_INT_ENA : R/W ;bitpos:[7] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch2_rx_end_int_st.*/ #define RMT_CH2_RX_END_INT_ENA (BIT(7)) #define RMT_CH2_RX_END_INT_ENA_M (BIT(7)) #define RMT_CH2_RX_END_INT_ENA_V 0x1 #define RMT_CH2_RX_END_INT_ENA_S 7 /* RMT_CH2_TX_END_INT_ENA : R/W ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch2_tx_end_int_st.*/ #define RMT_CH2_TX_END_INT_ENA (BIT(6)) #define RMT_CH2_TX_END_INT_ENA_M (BIT(6)) #define RMT_CH2_TX_END_INT_ENA_V 0x1 #define RMT_CH2_TX_END_INT_ENA_S 6 /* RMT_CH1_ERR_INT_ENA : R/W ;bitpos:[5] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch1_err_int_st.*/ #define RMT_CH1_ERR_INT_ENA (BIT(5)) #define RMT_CH1_ERR_INT_ENA_M (BIT(5)) #define RMT_CH1_ERR_INT_ENA_V 0x1 #define RMT_CH1_ERR_INT_ENA_S 5 /* RMT_CH1_RX_END_INT_ENA : R/W ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch1_rx_end_int_st.*/ #define RMT_CH1_RX_END_INT_ENA (BIT(4)) #define RMT_CH1_RX_END_INT_ENA_M (BIT(4)) #define RMT_CH1_RX_END_INT_ENA_V 0x1 #define RMT_CH1_RX_END_INT_ENA_S 4 /* RMT_CH1_TX_END_INT_ENA : R/W ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch1_tx_end_int_st.*/ #define RMT_CH1_TX_END_INT_ENA (BIT(3)) #define RMT_CH1_TX_END_INT_ENA_M (BIT(3)) #define RMT_CH1_TX_END_INT_ENA_V 0x1 #define RMT_CH1_TX_END_INT_ENA_S 3 /* RMT_CH0_ERR_INT_ENA : R/W ;bitpos:[2] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch0_err_int_st.*/ #define RMT_CH0_ERR_INT_ENA (BIT(2)) #define RMT_CH0_ERR_INT_ENA_M (BIT(2)) #define RMT_CH0_ERR_INT_ENA_V 0x1 #define RMT_CH0_ERR_INT_ENA_S 2 /* RMT_CH0_RX_END_INT_ENA : R/W ;bitpos:[1] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch0_rx_end_int_st.*/ #define RMT_CH0_RX_END_INT_ENA (BIT(1)) #define RMT_CH0_RX_END_INT_ENA_M (BIT(1)) #define RMT_CH0_RX_END_INT_ENA_V 0x1 #define RMT_CH0_RX_END_INT_ENA_S 1 /* RMT_CH0_TX_END_INT_ENA : R/W ;bitpos:[0] ;default: 1'b0 ; */ /*description: Set this bit to enable rmt_ch0_tx_end_int_st.*/ #define RMT_CH0_TX_END_INT_ENA (BIT(0)) #define RMT_CH0_TX_END_INT_ENA_M (BIT(0)) #define RMT_CH0_TX_END_INT_ENA_V 0x1 #define RMT_CH0_TX_END_INT_ENA_S 0 #define RMT_INT_CLR_REG (DR_REG_RMT_BASE + 0x00ac) /* RMT_CH7_TX_THR_EVENT_INT_CLR : WO ;bitpos:[31] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch7_tx_thr_event_int_raw interrupt.*/ #define RMT_CH7_TX_THR_EVENT_INT_CLR (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_CLR_M (BIT(31)) #define RMT_CH7_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH7_TX_THR_EVENT_INT_CLR_S 31 /* RMT_CH6_TX_THR_EVENT_INT_CLR : WO ;bitpos:[30] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch6_tx_thr_event_int_raw interrupt.*/ #define RMT_CH6_TX_THR_EVENT_INT_CLR (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_CLR_M (BIT(30)) #define RMT_CH6_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH6_TX_THR_EVENT_INT_CLR_S 30 /* RMT_CH5_TX_THR_EVENT_INT_CLR : WO ;bitpos:[29] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch5_tx_thr_event_int_raw interrupt.*/ #define RMT_CH5_TX_THR_EVENT_INT_CLR (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_CLR_M (BIT(29)) #define RMT_CH5_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH5_TX_THR_EVENT_INT_CLR_S 29 /* RMT_CH4_TX_THR_EVENT_INT_CLR : WO ;bitpos:[28] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch4_tx_thr_event_int_raw interrupt.*/ #define RMT_CH4_TX_THR_EVENT_INT_CLR (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_CLR_M (BIT(28)) #define RMT_CH4_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH4_TX_THR_EVENT_INT_CLR_S 28 /* RMT_CH3_TX_THR_EVENT_INT_CLR : WO ;bitpos:[27] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch3_tx_thr_event_int_raw interrupt.*/ #define RMT_CH3_TX_THR_EVENT_INT_CLR (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_CLR_M (BIT(27)) #define RMT_CH3_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH3_TX_THR_EVENT_INT_CLR_S 27 /* RMT_CH2_TX_THR_EVENT_INT_CLR : WO ;bitpos:[26] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch2_tx_thr_event_int_raw interrupt.*/ #define RMT_CH2_TX_THR_EVENT_INT_CLR (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_CLR_M (BIT(26)) #define RMT_CH2_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH2_TX_THR_EVENT_INT_CLR_S 26 /* RMT_CH1_TX_THR_EVENT_INT_CLR : WO ;bitpos:[25] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch1_tx_thr_event_int_raw interrupt.*/ #define RMT_CH1_TX_THR_EVENT_INT_CLR (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_CLR_M (BIT(25)) #define RMT_CH1_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH1_TX_THR_EVENT_INT_CLR_S 25 /* RMT_CH0_TX_THR_EVENT_INT_CLR : WO ;bitpos:[24] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch0_tx_thr_event_int_raw interrupt.*/ #define RMT_CH0_TX_THR_EVENT_INT_CLR (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_CLR_M (BIT(24)) #define RMT_CH0_TX_THR_EVENT_INT_CLR_V 0x1 #define RMT_CH0_TX_THR_EVENT_INT_CLR_S 24 /* RMT_CH7_ERR_INT_CLR : WO ;bitpos:[23] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch7_err_int_raw.*/ #define RMT_CH7_ERR_INT_CLR (BIT(23)) #define RMT_CH7_ERR_INT_CLR_M (BIT(23)) #define RMT_CH7_ERR_INT_CLR_V 0x1 #define RMT_CH7_ERR_INT_CLR_S 23 /* RMT_CH7_RX_END_INT_CLR : WO ;bitpos:[22] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch7_tx_end_int_raw.*/ #define RMT_CH7_RX_END_INT_CLR (BIT(22)) #define RMT_CH7_RX_END_INT_CLR_M (BIT(22)) #define RMT_CH7_RX_END_INT_CLR_V 0x1 #define RMT_CH7_RX_END_INT_CLR_S 22 /* RMT_CH7_TX_END_INT_CLR : WO ;bitpos:[21] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch7_rx_end_int_raw..*/ #define RMT_CH7_TX_END_INT_CLR (BIT(21)) #define RMT_CH7_TX_END_INT_CLR_M (BIT(21)) #define RMT_CH7_TX_END_INT_CLR_V 0x1 #define RMT_CH7_TX_END_INT_CLR_S 21 /* RMT_CH6_ERR_INT_CLR : WO ;bitpos:[20] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch6_err_int_raw.*/ #define RMT_CH6_ERR_INT_CLR (BIT(20)) #define RMT_CH6_ERR_INT_CLR_M (BIT(20)) #define RMT_CH6_ERR_INT_CLR_V 0x1 #define RMT_CH6_ERR_INT_CLR_S 20 /* RMT_CH6_RX_END_INT_CLR : WO ;bitpos:[19] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch6_tx_end_int_raw.*/ #define RMT_CH6_RX_END_INT_CLR (BIT(19)) #define RMT_CH6_RX_END_INT_CLR_M (BIT(19)) #define RMT_CH6_RX_END_INT_CLR_V 0x1 #define RMT_CH6_RX_END_INT_CLR_S 19 /* RMT_CH6_TX_END_INT_CLR : WO ;bitpos:[18] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch6_rx_end_int_raw..*/ #define RMT_CH6_TX_END_INT_CLR (BIT(18)) #define RMT_CH6_TX_END_INT_CLR_M (BIT(18)) #define RMT_CH6_TX_END_INT_CLR_V 0x1 #define RMT_CH6_TX_END_INT_CLR_S 18 /* RMT_CH5_ERR_INT_CLR : WO ;bitpos:[17] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch5_err_int_raw.*/ #define RMT_CH5_ERR_INT_CLR (BIT(17)) #define RMT_CH5_ERR_INT_CLR_M (BIT(17)) #define RMT_CH5_ERR_INT_CLR_V 0x1 #define RMT_CH5_ERR_INT_CLR_S 17 /* RMT_CH5_RX_END_INT_CLR : WO ;bitpos:[16] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch5_tx_end_int_raw.*/ #define RMT_CH5_RX_END_INT_CLR (BIT(16)) #define RMT_CH5_RX_END_INT_CLR_M (BIT(16)) #define RMT_CH5_RX_END_INT_CLR_V 0x1 #define RMT_CH5_RX_END_INT_CLR_S 16 /* RMT_CH5_TX_END_INT_CLR : WO ;bitpos:[15] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch5_rx_end_int_raw..*/ #define RMT_CH5_TX_END_INT_CLR (BIT(15)) #define RMT_CH5_TX_END_INT_CLR_M (BIT(15)) #define RMT_CH5_TX_END_INT_CLR_V 0x1 #define RMT_CH5_TX_END_INT_CLR_S 15 /* RMT_CH4_ERR_INT_CLR : WO ;bitpos:[14] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch4_err_int_raw.*/ #define RMT_CH4_ERR_INT_CLR (BIT(14)) #define RMT_CH4_ERR_INT_CLR_M (BIT(14)) #define RMT_CH4_ERR_INT_CLR_V 0x1 #define RMT_CH4_ERR_INT_CLR_S 14 /* RMT_CH4_RX_END_INT_CLR : WO ;bitpos:[13] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch4_tx_end_int_raw.*/ #define RMT_CH4_RX_END_INT_CLR (BIT(13)) #define RMT_CH4_RX_END_INT_CLR_M (BIT(13)) #define RMT_CH4_RX_END_INT_CLR_V 0x1 #define RMT_CH4_RX_END_INT_CLR_S 13 /* RMT_CH4_TX_END_INT_CLR : WO ;bitpos:[12] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch4_rx_end_int_raw..*/ #define RMT_CH4_TX_END_INT_CLR (BIT(12)) #define RMT_CH4_TX_END_INT_CLR_M (BIT(12)) #define RMT_CH4_TX_END_INT_CLR_V 0x1 #define RMT_CH4_TX_END_INT_CLR_S 12 /* RMT_CH3_ERR_INT_CLR : WO ;bitpos:[11] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch3_err_int_raw.*/ #define RMT_CH3_ERR_INT_CLR (BIT(11)) #define RMT_CH3_ERR_INT_CLR_M (BIT(11)) #define RMT_CH3_ERR_INT_CLR_V 0x1 #define RMT_CH3_ERR_INT_CLR_S 11 /* RMT_CH3_RX_END_INT_CLR : WO ;bitpos:[10] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch3_tx_end_int_raw.*/ #define RMT_CH3_RX_END_INT_CLR (BIT(10)) #define RMT_CH3_RX_END_INT_CLR_M (BIT(10)) #define RMT_CH3_RX_END_INT_CLR_V 0x1 #define RMT_CH3_RX_END_INT_CLR_S 10 /* RMT_CH3_TX_END_INT_CLR : WO ;bitpos:[9] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch3_rx_end_int_raw..*/ #define RMT_CH3_TX_END_INT_CLR (BIT(9)) #define RMT_CH3_TX_END_INT_CLR_M (BIT(9)) #define RMT_CH3_TX_END_INT_CLR_V 0x1 #define RMT_CH3_TX_END_INT_CLR_S 9 /* RMT_CH2_ERR_INT_CLR : WO ;bitpos:[8] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch2_err_int_raw.*/ #define RMT_CH2_ERR_INT_CLR (BIT(8)) #define RMT_CH2_ERR_INT_CLR_M (BIT(8)) #define RMT_CH2_ERR_INT_CLR_V 0x1 #define RMT_CH2_ERR_INT_CLR_S 8 /* RMT_CH2_RX_END_INT_CLR : WO ;bitpos:[7] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch2_tx_end_int_raw.*/ #define RMT_CH2_RX_END_INT_CLR (BIT(7)) #define RMT_CH2_RX_END_INT_CLR_M (BIT(7)) #define RMT_CH2_RX_END_INT_CLR_V 0x1 #define RMT_CH2_RX_END_INT_CLR_S 7 /* RMT_CH2_TX_END_INT_CLR : WO ;bitpos:[6] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch2_rx_end_int_raw..*/ #define RMT_CH2_TX_END_INT_CLR (BIT(6)) #define RMT_CH2_TX_END_INT_CLR_M (BIT(6)) #define RMT_CH2_TX_END_INT_CLR_V 0x1 #define RMT_CH2_TX_END_INT_CLR_S 6 /* RMT_CH1_ERR_INT_CLR : WO ;bitpos:[5] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch1_err_int_raw.*/ #define RMT_CH1_ERR_INT_CLR (BIT(5)) #define RMT_CH1_ERR_INT_CLR_M (BIT(5)) #define RMT_CH1_ERR_INT_CLR_V 0x1 #define RMT_CH1_ERR_INT_CLR_S 5 /* RMT_CH1_RX_END_INT_CLR : WO ;bitpos:[4] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch1_tx_end_int_raw.*/ #define RMT_CH1_RX_END_INT_CLR (BIT(4)) #define RMT_CH1_RX_END_INT_CLR_M (BIT(4)) #define RMT_CH1_RX_END_INT_CLR_V 0x1 #define RMT_CH1_RX_END_INT_CLR_S 4 /* RMT_CH1_TX_END_INT_CLR : WO ;bitpos:[3] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch1_rx_end_int_raw..*/ #define RMT_CH1_TX_END_INT_CLR (BIT(3)) #define RMT_CH1_TX_END_INT_CLR_M (BIT(3)) #define RMT_CH1_TX_END_INT_CLR_V 0x1 #define RMT_CH1_TX_END_INT_CLR_S 3 /* RMT_CH0_ERR_INT_CLR : WO ;bitpos:[2] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch0_err_int_raw.*/ #define RMT_CH0_ERR_INT_CLR (BIT(2)) #define RMT_CH0_ERR_INT_CLR_M (BIT(2)) #define RMT_CH0_ERR_INT_CLR_V 0x1 #define RMT_CH0_ERR_INT_CLR_S 2 /* RMT_CH0_RX_END_INT_CLR : WO ;bitpos:[1] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch0_tx_end_int_raw.*/ #define RMT_CH0_RX_END_INT_CLR (BIT(1)) #define RMT_CH0_RX_END_INT_CLR_M (BIT(1)) #define RMT_CH0_RX_END_INT_CLR_V 0x1 #define RMT_CH0_RX_END_INT_CLR_S 1 /* RMT_CH0_TX_END_INT_CLR : WO ;bitpos:[0] ;default: 1'b0 ; */ /*description: Set this bit to clear the rmt_ch0_rx_end_int_raw..*/ #define RMT_CH0_TX_END_INT_CLR (BIT(0)) #define RMT_CH0_TX_END_INT_CLR_M (BIT(0)) #define RMT_CH0_TX_END_INT_CLR_V 0x1 #define RMT_CH0_TX_END_INT_CLR_S 0 #define RMT_CH0CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00b0) /* RMT_CARRIER_HIGH_CH0 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel0.*/ #define RMT_CARRIER_HIGH_CH0 0x0000FFFF #define RMT_CARRIER_HIGH_CH0_M ((RMT_CARRIER_HIGH_CH0_V)<<(RMT_CARRIER_HIGH_CH0_S)) #define RMT_CARRIER_HIGH_CH0_V 0xFFFF #define RMT_CARRIER_HIGH_CH0_S 16 /* RMT_CARRIER_LOW_CH0 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel0.*/ #define RMT_CARRIER_LOW_CH0 0x0000FFFF #define RMT_CARRIER_LOW_CH0_M ((RMT_CARRIER_LOW_CH0_V)<<(RMT_CARRIER_LOW_CH0_S)) #define RMT_CARRIER_LOW_CH0_V 0xFFFF #define RMT_CARRIER_LOW_CH0_S 0 #define RMT_CH1CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00b4) /* RMT_CARRIER_HIGH_CH1 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel1.*/ #define RMT_CARRIER_HIGH_CH1 0x0000FFFF #define RMT_CARRIER_HIGH_CH1_M ((RMT_CARRIER_HIGH_CH1_V)<<(RMT_CARRIER_HIGH_CH1_S)) #define RMT_CARRIER_HIGH_CH1_V 0xFFFF #define RMT_CARRIER_HIGH_CH1_S 16 /* RMT_CARRIER_LOW_CH1 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel1.*/ #define RMT_CARRIER_LOW_CH1 0x0000FFFF #define RMT_CARRIER_LOW_CH1_M ((RMT_CARRIER_LOW_CH1_V)<<(RMT_CARRIER_LOW_CH1_S)) #define RMT_CARRIER_LOW_CH1_V 0xFFFF #define RMT_CARRIER_LOW_CH1_S 0 #define RMT_CH2CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00b8) /* RMT_CARRIER_HIGH_CH2 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel2.*/ #define RMT_CARRIER_HIGH_CH2 0x0000FFFF #define RMT_CARRIER_HIGH_CH2_M ((RMT_CARRIER_HIGH_CH2_V)<<(RMT_CARRIER_HIGH_CH2_S)) #define RMT_CARRIER_HIGH_CH2_V 0xFFFF #define RMT_CARRIER_HIGH_CH2_S 16 /* RMT_CARRIER_LOW_CH2 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel2.*/ #define RMT_CARRIER_LOW_CH2 0x0000FFFF #define RMT_CARRIER_LOW_CH2_M ((RMT_CARRIER_LOW_CH2_V)<<(RMT_CARRIER_LOW_CH2_S)) #define RMT_CARRIER_LOW_CH2_V 0xFFFF #define RMT_CARRIER_LOW_CH2_S 0 #define RMT_CH3CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00bc) /* RMT_CARRIER_HIGH_CH3 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel3.*/ #define RMT_CARRIER_HIGH_CH3 0x0000FFFF #define RMT_CARRIER_HIGH_CH3_M ((RMT_CARRIER_HIGH_CH3_V)<<(RMT_CARRIER_HIGH_CH3_S)) #define RMT_CARRIER_HIGH_CH3_V 0xFFFF #define RMT_CARRIER_HIGH_CH3_S 16 /* RMT_CARRIER_LOW_CH3 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel3.*/ #define RMT_CARRIER_LOW_CH3 0x0000FFFF #define RMT_CARRIER_LOW_CH3_M ((RMT_CARRIER_LOW_CH3_V)<<(RMT_CARRIER_LOW_CH3_S)) #define RMT_CARRIER_LOW_CH3_V 0xFFFF #define RMT_CARRIER_LOW_CH3_S 0 #define RMT_CH4CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00c0) /* RMT_CARRIER_HIGH_CH4 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel4.*/ #define RMT_CARRIER_HIGH_CH4 0x0000FFFF #define RMT_CARRIER_HIGH_CH4_M ((RMT_CARRIER_HIGH_CH4_V)<<(RMT_CARRIER_HIGH_CH4_S)) #define RMT_CARRIER_HIGH_CH4_V 0xFFFF #define RMT_CARRIER_HIGH_CH4_S 16 /* RMT_CARRIER_LOW_CH4 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel4.*/ #define RMT_CARRIER_LOW_CH4 0x0000FFFF #define RMT_CARRIER_LOW_CH4_M ((RMT_CARRIER_LOW_CH4_V)<<(RMT_CARRIER_LOW_CH4_S)) #define RMT_CARRIER_LOW_CH4_V 0xFFFF #define RMT_CARRIER_LOW_CH4_S 0 #define RMT_CH5CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00c4) /* RMT_CARRIER_HIGH_CH5 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel5.*/ #define RMT_CARRIER_HIGH_CH5 0x0000FFFF #define RMT_CARRIER_HIGH_CH5_M ((RMT_CARRIER_HIGH_CH5_V)<<(RMT_CARRIER_HIGH_CH5_S)) #define RMT_CARRIER_HIGH_CH5_V 0xFFFF #define RMT_CARRIER_HIGH_CH5_S 16 /* RMT_CARRIER_LOW_CH5 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel5.*/ #define RMT_CARRIER_LOW_CH5 0x0000FFFF #define RMT_CARRIER_LOW_CH5_M ((RMT_CARRIER_LOW_CH5_V)<<(RMT_CARRIER_LOW_CH5_S)) #define RMT_CARRIER_LOW_CH5_V 0xFFFF #define RMT_CARRIER_LOW_CH5_S 0 #define RMT_CH6CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00c8) /* RMT_CARRIER_HIGH_CH6 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel6.*/ #define RMT_CARRIER_HIGH_CH6 0x0000FFFF #define RMT_CARRIER_HIGH_CH6_M ((RMT_CARRIER_HIGH_CH6_V)<<(RMT_CARRIER_HIGH_CH6_S)) #define RMT_CARRIER_HIGH_CH6_V 0xFFFF #define RMT_CARRIER_HIGH_CH6_S 16 /* RMT_CARRIER_LOW_CH6 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel6.*/ #define RMT_CARRIER_LOW_CH6 0x0000FFFF #define RMT_CARRIER_LOW_CH6_M ((RMT_CARRIER_LOW_CH6_V)<<(RMT_CARRIER_LOW_CH6_S)) #define RMT_CARRIER_LOW_CH6_V 0xFFFF #define RMT_CARRIER_LOW_CH6_S 0 #define RMT_CH7CARRIER_DUTY_REG (DR_REG_RMT_BASE + 0x00cc) /* RMT_CARRIER_HIGH_CH7 : R/W ;bitpos:[31:16] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's high level value for channel7.*/ #define RMT_CARRIER_HIGH_CH7 0x0000FFFF #define RMT_CARRIER_HIGH_CH7_M ((RMT_CARRIER_HIGH_CH7_V)<<(RMT_CARRIER_HIGH_CH7_S)) #define RMT_CARRIER_HIGH_CH7_V 0xFFFF #define RMT_CARRIER_HIGH_CH7_S 16 /* RMT_CARRIER_LOW_CH7 : R/W ;bitpos:[15:0] ;default: 16'h40 ; */ /*description: This register is used to configure carrier wave's low level value for channel7.*/ #define RMT_CARRIER_LOW_CH7 0x0000FFFF #define RMT_CARRIER_LOW_CH7_M ((RMT_CARRIER_LOW_CH7_V)<<(RMT_CARRIER_LOW_CH7_S)) #define RMT_CARRIER_LOW_CH7_V 0xFFFF #define RMT_CARRIER_LOW_CH7_S 0 #define RMT_CH0_TX_LIM_REG (DR_REG_RMT_BASE + 0x00d0) /* RMT_TX_LIM_CH0 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel0 sends more than reg_rmt_tx_lim_ch0 datas then channel0 produce the relative interrupt.*/ #define RMT_TX_LIM_CH0 0x000001FF #define RMT_TX_LIM_CH0_M ((RMT_TX_LIM_CH0_V)<<(RMT_TX_LIM_CH0_S)) #define RMT_TX_LIM_CH0_V 0x1FF #define RMT_TX_LIM_CH0_S 0 #define RMT_CH1_TX_LIM_REG (DR_REG_RMT_BASE + 0x00d4) /* RMT_TX_LIM_CH1 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel1 sends more than reg_rmt_tx_lim_ch1 datas then channel1 produce the relative interrupt.*/ #define RMT_TX_LIM_CH1 0x000001FF #define RMT_TX_LIM_CH1_M ((RMT_TX_LIM_CH1_V)<<(RMT_TX_LIM_CH1_S)) #define RMT_TX_LIM_CH1_V 0x1FF #define RMT_TX_LIM_CH1_S 0 #define RMT_CH2_TX_LIM_REG (DR_REG_RMT_BASE + 0x00d8) /* RMT_TX_LIM_CH2 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel2 sends more than reg_rmt_tx_lim_ch2 datas then channel2 produce the relative interrupt.*/ #define RMT_TX_LIM_CH2 0x000001FF #define RMT_TX_LIM_CH2_M ((RMT_TX_LIM_CH2_V)<<(RMT_TX_LIM_CH2_S)) #define RMT_TX_LIM_CH2_V 0x1FF #define RMT_TX_LIM_CH2_S 0 #define RMT_CH3_TX_LIM_REG (DR_REG_RMT_BASE + 0x00dc) /* RMT_TX_LIM_CH3 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel3 sends more than reg_rmt_tx_lim_ch3 datas then channel3 produce the relative interrupt.*/ #define RMT_TX_LIM_CH3 0x000001FF #define RMT_TX_LIM_CH3_M ((RMT_TX_LIM_CH3_V)<<(RMT_TX_LIM_CH3_S)) #define RMT_TX_LIM_CH3_V 0x1FF #define RMT_TX_LIM_CH3_S 0 #define RMT_CH4_TX_LIM_REG (DR_REG_RMT_BASE + 0x00e0) /* RMT_TX_LIM_CH4 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel4 sends more than reg_rmt_tx_lim_ch4 datas then channel4 produce the relative interrupt.*/ #define RMT_TX_LIM_CH4 0x000001FF #define RMT_TX_LIM_CH4_M ((RMT_TX_LIM_CH4_V)<<(RMT_TX_LIM_CH4_S)) #define RMT_TX_LIM_CH4_V 0x1FF #define RMT_TX_LIM_CH4_S 0 #define RMT_CH5_TX_LIM_REG (DR_REG_RMT_BASE + 0x00e4) /* RMT_TX_LIM_CH5 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel5 sends more than reg_rmt_tx_lim_ch5 datas then channel5 produce the relative interrupt.*/ #define RMT_TX_LIM_CH5 0x000001FF #define RMT_TX_LIM_CH5_M ((RMT_TX_LIM_CH5_V)<<(RMT_TX_LIM_CH5_S)) #define RMT_TX_LIM_CH5_V 0x1FF #define RMT_TX_LIM_CH5_S 0 #define RMT_CH6_TX_LIM_REG (DR_REG_RMT_BASE + 0x00e8) /* RMT_TX_LIM_CH6 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel6 sends more than reg_rmt_tx_lim_ch6 datas then channel6 produce the relative interrupt.*/ #define RMT_TX_LIM_CH6 0x000001FF #define RMT_TX_LIM_CH6_M ((RMT_TX_LIM_CH6_V)<<(RMT_TX_LIM_CH6_S)) #define RMT_TX_LIM_CH6_V 0x1FF #define RMT_TX_LIM_CH6_S 0 #define RMT_CH7_TX_LIM_REG (DR_REG_RMT_BASE + 0x00ec) /* RMT_TX_LIM_CH7 : R/W ;bitpos:[8:0] ;default: 9'h80 ; */ /*description: When channel7 sends more than reg_rmt_tx_lim_ch7 datas then channel7 produce the relative interrupt.*/ #define RMT_TX_LIM_CH7 0x000001FF #define RMT_TX_LIM_CH7_M ((RMT_TX_LIM_CH7_V)<<(RMT_TX_LIM_CH7_S)) #define RMT_TX_LIM_CH7_V 0x1FF #define RMT_TX_LIM_CH7_S 0 #define RMT_APB_CONF_REG (DR_REG_RMT_BASE + 0x00f0) /* RMT_MEM_TX_WRAP_EN : R/W ;bitpos:[1] ;default: 1'b0 ; */ /*description: when datas need to be send is more than channel's mem can store then set this bit to enable reusage of mem this bit is used together with reg_rmt_tx_lim_chn.*/ #define RMT_MEM_TX_WRAP_EN (BIT(1)) #define RMT_MEM_TX_WRAP_EN_M (BIT(1)) #define RMT_MEM_TX_WRAP_EN_V 0x1 #define RMT_MEM_TX_WRAP_EN_S 1 /* RMT_APB_FIFO_MASK : R/W ;bitpos:[0] ;default: 1'h0 ; */ /*description: Set this bit to disable apb fifo access*/ #define RMT_APB_FIFO_MASK (BIT(0)) #define RMT_APB_FIFO_MASK_M (BIT(0)) #define RMT_APB_FIFO_MASK_V 0x1 #define RMT_APB_FIFO_MASK_S 0 #define RMT_DATE_REG (DR_REG_RMT_BASE + 0x00fc) /* RMT_DATE : R/W ;bitpos:[31:0] ;default: 32'h16022600 ; */ /*description: This is the version register.*/ #define RMT_DATE 0xFFFFFFFF #define RMT_DATE_M ((RMT_DATE_V)<<(RMT_DATE_S)) #define RMT_DATE_V 0xFFFFFFFF #define RMT_DATE_S 0 /* RMT memory block address */ #define RMT_CHANNEL_MEM(i) (DR_REG_RMT_BASE + 0x800 + 64 * 4 * (i)) #endif /*_SOC_RMT_REG_H_ */