// 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_MCPWM_REG_H_
|
#define _SOC_MCPWM_REG_H_
|
#include "soc.h"
|
|
#define REG_MCPWM_BASE(i) (DR_REG_PWM_BASE + i * (0xE000))
|
#define MCPWM_CLK_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0000)
|
/* MCPWM_CLK_PRESCALE : R/W ;bitpos:[7:0] ;default: 8'h0 ; */
|
/*description: Period of PWM_clk = 6.25ns * (PWM_CLK_PRESCALE + 1)*/
|
#define MCPWM_CLK_PRESCALE 0x000000FF
|
#define MCPWM_CLK_PRESCALE_M ((MCPWM_CLK_PRESCALE_V)<<(MCPWM_CLK_PRESCALE_S))
|
#define MCPWM_CLK_PRESCALE_V 0xFF
|
#define MCPWM_CLK_PRESCALE_S 0
|
|
#define MCPWM_TIMER0_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x0004)
|
/* MCPWM_TIMER0_PERIOD_UPMETHOD : R/W ;bitpos:[25:24] ;default: 2'd0 ; */
|
/*description: Update method for active reg of PWM timer0 period 0: immediate
|
1: TEZ 2: sync 3: TEZ or sync. TEZ here and below means timer equal zero event*/
|
#define MCPWM_TIMER0_PERIOD_UPMETHOD 0x00000003
|
#define MCPWM_TIMER0_PERIOD_UPMETHOD_M ((MCPWM_TIMER0_PERIOD_UPMETHOD_V)<<(MCPWM_TIMER0_PERIOD_UPMETHOD_S))
|
#define MCPWM_TIMER0_PERIOD_UPMETHOD_V 0x3
|
#define MCPWM_TIMER0_PERIOD_UPMETHOD_S 24
|
/* MCPWM_TIMER0_PERIOD : R/W ;bitpos:[23:8] ;default: 16'h00ff ; */
|
/*description: Period shadow reg of PWM timer0*/
|
#define MCPWM_TIMER0_PERIOD 0x0000FFFF
|
#define MCPWM_TIMER0_PERIOD_M ((MCPWM_TIMER0_PERIOD_V)<<(MCPWM_TIMER0_PERIOD_S))
|
#define MCPWM_TIMER0_PERIOD_V 0xFFFF
|
#define MCPWM_TIMER0_PERIOD_S 8
|
/* MCPWM_TIMER0_PRESCALE : R/W ;bitpos:[7:0] ;default: 8'h0 ; */
|
/*description: Period of PT0_clk = Period of PWM_clk * (PWM_TIMER0_PRESCALE + 1)*/
|
#define MCPWM_TIMER0_PRESCALE 0x000000FF
|
#define MCPWM_TIMER0_PRESCALE_M ((MCPWM_TIMER0_PRESCALE_V)<<(MCPWM_TIMER0_PRESCALE_S))
|
#define MCPWM_TIMER0_PRESCALE_V 0xFF
|
#define MCPWM_TIMER0_PRESCALE_S 0
|
|
#define MCPWM_TIMER0_CFG1_REG(i) (REG_MCPWM_BASE(i) + 0x0008)
|
/* MCPWM_TIMER0_MOD : R/W ;bitpos:[4:3] ;default: 2'h0 ; */
|
/*description: PWM timer0 working mode 0: freeze 1: increase mod 2: decrease
|
mod 3: up-down mod*/
|
#define MCPWM_TIMER0_MOD 0x00000003
|
#define MCPWM_TIMER0_MOD_M ((MCPWM_TIMER0_MOD_V)<<(MCPWM_TIMER0_MOD_S))
|
#define MCPWM_TIMER0_MOD_V 0x3
|
#define MCPWM_TIMER0_MOD_S 3
|
/* MCPWM_TIMER0_START : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
|
/*description: PWM timer0 start and stop control. 0: stop @ TEZ 1: stop @ TEP
|
2: free run 3: start and stop @ next TEZ 4: start and stop @ next TEP. TEP here and below means timer equal period event*/
|
#define MCPWM_TIMER0_START 0x00000007
|
#define MCPWM_TIMER0_START_M ((MCPWM_TIMER0_START_V)<<(MCPWM_TIMER0_START_S))
|
#define MCPWM_TIMER0_START_V 0x7
|
#define MCPWM_TIMER0_START_S 0
|
|
#define MCPWM_TIMER0_SYNC_REG(i) (REG_MCPWM_BASE(i) + 0x000c)
|
/* MCPWM_TIMER0_PHASE : R/W ;bitpos:[20:4] ;default: 17'd0 ; */
|
/*description: Phase for timer reload on sync event*/
|
#define MCPWM_TIMER0_PHASE 0x0001FFFF
|
#define MCPWM_TIMER0_PHASE_M ((MCPWM_TIMER0_PHASE_V)<<(MCPWM_TIMER0_PHASE_S))
|
#define MCPWM_TIMER0_PHASE_V 0x1FFFF
|
#define MCPWM_TIMER0_PHASE_S 4
|
/* MCPWM_TIMER0_SYNCO_SEL : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: PWM timer0 synco selection 0: synci 1: TEZ 2: TEP else 0*/
|
#define MCPWM_TIMER0_SYNCO_SEL 0x00000003
|
#define MCPWM_TIMER0_SYNCO_SEL_M ((MCPWM_TIMER0_SYNCO_SEL_V)<<(MCPWM_TIMER0_SYNCO_SEL_S))
|
#define MCPWM_TIMER0_SYNCO_SEL_V 0x3
|
#define MCPWM_TIMER0_SYNCO_SEL_S 2
|
/* MCPWM_TIMER0_SYNC_SW : R/W ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: Toggling this bit will trigger a software sync*/
|
#define MCPWM_TIMER0_SYNC_SW (BIT(1))
|
#define MCPWM_TIMER0_SYNC_SW_M (BIT(1))
|
#define MCPWM_TIMER0_SYNC_SW_V 0x1
|
#define MCPWM_TIMER0_SYNC_SW_S 1
|
/* MCPWM_TIMER0_SYNCI_EN : R/W ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: When set timer reload with phase on sync input event is enabled*/
|
#define MCPWM_TIMER0_SYNCI_EN (BIT(0))
|
#define MCPWM_TIMER0_SYNCI_EN_M (BIT(0))
|
#define MCPWM_TIMER0_SYNCI_EN_V 0x1
|
#define MCPWM_TIMER0_SYNCI_EN_S 0
|
|
#define MCPWM_TIMER0_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x0010)
|
/* MCPWM_TIMER0_DIRECTION : RO ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: Current PWM timer0 counter direction 0: increment 1: decrement*/
|
#define MCPWM_TIMER0_DIRECTION (BIT(16))
|
#define MCPWM_TIMER0_DIRECTION_M (BIT(16))
|
#define MCPWM_TIMER0_DIRECTION_V 0x1
|
#define MCPWM_TIMER0_DIRECTION_S 16
|
/* MCPWM_TIMER0_VALUE : RO ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Current PWM timer0 counter value*/
|
#define MCPWM_TIMER0_VALUE 0x0000FFFF
|
#define MCPWM_TIMER0_VALUE_M ((MCPWM_TIMER0_VALUE_V)<<(MCPWM_TIMER0_VALUE_S))
|
#define MCPWM_TIMER0_VALUE_V 0xFFFF
|
#define MCPWM_TIMER0_VALUE_S 0
|
|
#define MCPWM_TIMER1_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x0014)
|
/* MCPWM_TIMER1_PERIOD_UPMETHOD : R/W ;bitpos:[25:24] ;default: 2'd0 ; */
|
/*description: Update method for active reg of PWM timer1 period 0: immediate
|
1: TEZ 2: sync 3: TEZ or sync*/
|
#define MCPWM_TIMER1_PERIOD_UPMETHOD 0x00000003
|
#define MCPWM_TIMER1_PERIOD_UPMETHOD_M ((MCPWM_TIMER1_PERIOD_UPMETHOD_V)<<(MCPWM_TIMER1_PERIOD_UPMETHOD_S))
|
#define MCPWM_TIMER1_PERIOD_UPMETHOD_V 0x3
|
#define MCPWM_TIMER1_PERIOD_UPMETHOD_S 24
|
/* MCPWM_TIMER1_PERIOD : R/W ;bitpos:[23:8] ;default: 16'h00ff ; */
|
/*description: Period shadow reg of PWM timer1*/
|
#define MCPWM_TIMER1_PERIOD 0x0000FFFF
|
#define MCPWM_TIMER1_PERIOD_M ((MCPWM_TIMER1_PERIOD_V)<<(MCPWM_TIMER1_PERIOD_S))
|
#define MCPWM_TIMER1_PERIOD_V 0xFFFF
|
#define MCPWM_TIMER1_PERIOD_S 8
|
/* MCPWM_TIMER1_PRESCALE : R/W ;bitpos:[7:0] ;default: 8'h0 ; */
|
/*description: Period of PT1_clk = Period of PWM_clk * (PWM_TIMER1_PRESCALE + 1)*/
|
#define MCPWM_TIMER1_PRESCALE 0x000000FF
|
#define MCPWM_TIMER1_PRESCALE_M ((MCPWM_TIMER1_PRESCALE_V)<<(MCPWM_TIMER1_PRESCALE_S))
|
#define MCPWM_TIMER1_PRESCALE_V 0xFF
|
#define MCPWM_TIMER1_PRESCALE_S 0
|
|
#define MCPWM_TIMER1_CFG1_REG(i) (REG_MCPWM_BASE(i) + 0x0018)
|
/* MCPWM_TIMER1_MOD : R/W ;bitpos:[4:3] ;default: 2'h0 ; */
|
/*description: PWM timer1 working mode 0: freeze 1: increase mod 2: decrease
|
mod 3: up-down mod*/
|
#define MCPWM_TIMER1_MOD 0x00000003
|
#define MCPWM_TIMER1_MOD_M ((MCPWM_TIMER1_MOD_V)<<(MCPWM_TIMER1_MOD_S))
|
#define MCPWM_TIMER1_MOD_V 0x3
|
#define MCPWM_TIMER1_MOD_S 3
|
/* MCPWM_TIMER1_START : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
|
/*description: PWM timer1 start and stop control. 0: stop @ TEZ 1: stop @ TEP
|
2: free run 3: start and stop @ next TEZ 4: start and stop @ next TEP.*/
|
#define MCPWM_TIMER1_START 0x00000007
|
#define MCPWM_TIMER1_START_M ((MCPWM_TIMER1_START_V)<<(MCPWM_TIMER1_START_S))
|
#define MCPWM_TIMER1_START_V 0x7
|
#define MCPWM_TIMER1_START_S 0
|
|
#define MCPWM_TIMER1_SYNC_REG(i) (REG_MCPWM_BASE(i) + 0x001c)
|
/* MCPWM_TIMER1_PHASE : R/W ;bitpos:[20:4] ;default: 17'd0 ; */
|
/*description: Phase for timer reload on sync event*/
|
#define MCPWM_TIMER1_PHASE 0x0001FFFF
|
#define MCPWM_TIMER1_PHASE_M ((MCPWM_TIMER1_PHASE_V)<<(MCPWM_TIMER1_PHASE_S))
|
#define MCPWM_TIMER1_PHASE_V 0x1FFFF
|
#define MCPWM_TIMER1_PHASE_S 4
|
/* MCPWM_TIMER1_SYNCO_SEL : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: PWM timer1 synco selection 0: synci 1: TEZ 2: TEP else 0*/
|
#define MCPWM_TIMER1_SYNCO_SEL 0x00000003
|
#define MCPWM_TIMER1_SYNCO_SEL_M ((MCPWM_TIMER1_SYNCO_SEL_V)<<(MCPWM_TIMER1_SYNCO_SEL_S))
|
#define MCPWM_TIMER1_SYNCO_SEL_V 0x3
|
#define MCPWM_TIMER1_SYNCO_SEL_S 2
|
/* MCPWM_TIMER1_SYNC_SW : R/W ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: Toggling this bit will trigger a software sync*/
|
#define MCPWM_TIMER1_SYNC_SW (BIT(1))
|
#define MCPWM_TIMER1_SYNC_SW_M (BIT(1))
|
#define MCPWM_TIMER1_SYNC_SW_V 0x1
|
#define MCPWM_TIMER1_SYNC_SW_S 1
|
/* MCPWM_TIMER1_SYNCI_EN : R/W ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: When set timer reload with phase on sync input event is enabled*/
|
#define MCPWM_TIMER1_SYNCI_EN (BIT(0))
|
#define MCPWM_TIMER1_SYNCI_EN_M (BIT(0))
|
#define MCPWM_TIMER1_SYNCI_EN_V 0x1
|
#define MCPWM_TIMER1_SYNCI_EN_S 0
|
|
#define MCPWM_TIMER1_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x0020)
|
/* MCPWM_TIMER1_DIRECTION : RO ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: Current PWM timer1 counter direction 0: increment 1: decrement*/
|
#define MCPWM_TIMER1_DIRECTION (BIT(16))
|
#define MCPWM_TIMER1_DIRECTION_M (BIT(16))
|
#define MCPWM_TIMER1_DIRECTION_V 0x1
|
#define MCPWM_TIMER1_DIRECTION_S 16
|
/* MCPWM_TIMER1_VALUE : RO ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Current PWM timer1 counter value*/
|
#define MCPWM_TIMER1_VALUE 0x0000FFFF
|
#define MCPWM_TIMER1_VALUE_M ((MCPWM_TIMER1_VALUE_V)<<(MCPWM_TIMER1_VALUE_S))
|
#define MCPWM_TIMER1_VALUE_V 0xFFFF
|
#define MCPWM_TIMER1_VALUE_S 0
|
|
#define MCPWM_TIMER2_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x0024)
|
/* MCPWM_TIMER2_PERIOD_UPMETHOD : R/W ;bitpos:[25:24] ;default: 2'd0 ; */
|
/*description: Update method for active reg of PWM timer2 period 0: immediate
|
1: TEZ 2: sync 3: TEZ or sync*/
|
#define MCPWM_TIMER2_PERIOD_UPMETHOD 0x00000003
|
#define MCPWM_TIMER2_PERIOD_UPMETHOD_M ((MCPWM_TIMER2_PERIOD_UPMETHOD_V)<<(MCPWM_TIMER2_PERIOD_UPMETHOD_S))
|
#define MCPWM_TIMER2_PERIOD_UPMETHOD_V 0x3
|
#define MCPWM_TIMER2_PERIOD_UPMETHOD_S 24
|
/* MCPWM_TIMER2_PERIOD : R/W ;bitpos:[23:8] ;default: 16'h00ff ; */
|
/*description: Period shadow reg of PWM timer2*/
|
#define MCPWM_TIMER2_PERIOD 0x0000FFFF
|
#define MCPWM_TIMER2_PERIOD_M ((MCPWM_TIMER2_PERIOD_V)<<(MCPWM_TIMER2_PERIOD_S))
|
#define MCPWM_TIMER2_PERIOD_V 0xFFFF
|
#define MCPWM_TIMER2_PERIOD_S 8
|
/* MCPWM_TIMER2_PRESCALE : R/W ;bitpos:[7:0] ;default: 8'h0 ; */
|
/*description: Period of PT2_clk = Period of PWM_clk * (PWM_TIMER2_PRESCALE + 1)*/
|
#define MCPWM_TIMER2_PRESCALE 0x000000FF
|
#define MCPWM_TIMER2_PRESCALE_M ((MCPWM_TIMER2_PRESCALE_V)<<(MCPWM_TIMER2_PRESCALE_S))
|
#define MCPWM_TIMER2_PRESCALE_V 0xFF
|
#define MCPWM_TIMER2_PRESCALE_S 0
|
|
#define MCPWM_TIMER2_CFG1_REG(i) (REG_MCPWM_BASE(i) + 0x0028)
|
/* MCPWM_TIMER2_MOD : R/W ;bitpos:[4:3] ;default: 2'h0 ; */
|
/*description: PWM timer2 working mode 0: freeze 1: increase mod 2: decrease
|
mod 3: up-down mod*/
|
#define MCPWM_TIMER2_MOD 0x00000003
|
#define MCPWM_TIMER2_MOD_M ((MCPWM_TIMER2_MOD_V)<<(MCPWM_TIMER2_MOD_S))
|
#define MCPWM_TIMER2_MOD_V 0x3
|
#define MCPWM_TIMER2_MOD_S 3
|
/* MCPWM_TIMER2_START : R/W ;bitpos:[2:0] ;default: 3'h0 ; */
|
/*description: PWM timer2 start and stop control. 0: stop @ TEZ 1: stop @ TEP
|
2: free run 3: start and stop @ next TEZ 4: start and stop @ next TEP.*/
|
#define MCPWM_TIMER2_START 0x00000007
|
#define MCPWM_TIMER2_START_M ((MCPWM_TIMER2_START_V)<<(MCPWM_TIMER2_START_S))
|
#define MCPWM_TIMER2_START_V 0x7
|
#define MCPWM_TIMER2_START_S 0
|
|
#define MCPWM_TIMER2_SYNC_REG(i) (REG_MCPWM_BASE(i) + 0x002c)
|
/* MCPWM_TIMER2_PHASE : R/W ;bitpos:[20:4] ;default: 17'd0 ; */
|
/*description: Phase for timer reload on sync event*/
|
#define MCPWM_TIMER2_PHASE 0x0001FFFF
|
#define MCPWM_TIMER2_PHASE_M ((MCPWM_TIMER2_PHASE_V)<<(MCPWM_TIMER2_PHASE_S))
|
#define MCPWM_TIMER2_PHASE_V 0x1FFFF
|
#define MCPWM_TIMER2_PHASE_S 4
|
/* MCPWM_TIMER2_SYNCO_SEL : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: PWM timer2 synco selection 0: synci 1: TEZ 2: TEP else 0*/
|
#define MCPWM_TIMER2_SYNCO_SEL 0x00000003
|
#define MCPWM_TIMER2_SYNCO_SEL_M ((MCPWM_TIMER2_SYNCO_SEL_V)<<(MCPWM_TIMER2_SYNCO_SEL_S))
|
#define MCPWM_TIMER2_SYNCO_SEL_V 0x3
|
#define MCPWM_TIMER2_SYNCO_SEL_S 2
|
/* MCPWM_TIMER2_SYNC_SW : R/W ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: Toggling this bit will trigger a software sync*/
|
#define MCPWM_TIMER2_SYNC_SW (BIT(1))
|
#define MCPWM_TIMER2_SYNC_SW_M (BIT(1))
|
#define MCPWM_TIMER2_SYNC_SW_V 0x1
|
#define MCPWM_TIMER2_SYNC_SW_S 1
|
/* MCPWM_TIMER2_SYNCI_EN : R/W ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: When set timer reload with phase on sync input event is enabled*/
|
#define MCPWM_TIMER2_SYNCI_EN (BIT(0))
|
#define MCPWM_TIMER2_SYNCI_EN_M (BIT(0))
|
#define MCPWM_TIMER2_SYNCI_EN_V 0x1
|
#define MCPWM_TIMER2_SYNCI_EN_S 0
|
|
#define MCPWM_TIMER2_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x0030)
|
/* MCPWM_TIMER2_DIRECTION : RO ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: Current PWM timer2 counter direction 0: increment 1: decrement*/
|
#define MCPWM_TIMER2_DIRECTION (BIT(16))
|
#define MCPWM_TIMER2_DIRECTION_M (BIT(16))
|
#define MCPWM_TIMER2_DIRECTION_V 0x1
|
#define MCPWM_TIMER2_DIRECTION_S 16
|
/* MCPWM_TIMER2_VALUE : RO ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Current PWM timer2 counter value*/
|
#define MCPWM_TIMER2_VALUE 0x0000FFFF
|
#define MCPWM_TIMER2_VALUE_M ((MCPWM_TIMER2_VALUE_V)<<(MCPWM_TIMER2_VALUE_S))
|
#define MCPWM_TIMER2_VALUE_V 0xFFFF
|
#define MCPWM_TIMER2_VALUE_S 0
|
|
#define MCPWM_TIMER_SYNCI_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0034)
|
/* MCPWM_EXTERNAL_SYNCI2_INVERT : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: Onvert SYNC2 from GPIO matrix*/
|
#define MCPWM_EXTERNAL_SYNCI2_INVERT (BIT(11))
|
#define MCPWM_EXTERNAL_SYNCI2_INVERT_M (BIT(11))
|
#define MCPWM_EXTERNAL_SYNCI2_INVERT_V 0x1
|
#define MCPWM_EXTERNAL_SYNCI2_INVERT_S 11
|
/* MCPWM_EXTERNAL_SYNCI1_INVERT : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: Invert SYNC1 from GPIO matrix*/
|
#define MCPWM_EXTERNAL_SYNCI1_INVERT (BIT(10))
|
#define MCPWM_EXTERNAL_SYNCI1_INVERT_M (BIT(10))
|
#define MCPWM_EXTERNAL_SYNCI1_INVERT_V 0x1
|
#define MCPWM_EXTERNAL_SYNCI1_INVERT_S 10
|
/* MCPWM_EXTERNAL_SYNCI0_INVERT : R/W ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: Invert SYNC0 from GPIO matrix*/
|
#define MCPWM_EXTERNAL_SYNCI0_INVERT (BIT(9))
|
#define MCPWM_EXTERNAL_SYNCI0_INVERT_M (BIT(9))
|
#define MCPWM_EXTERNAL_SYNCI0_INVERT_V 0x1
|
#define MCPWM_EXTERNAL_SYNCI0_INVERT_S 9
|
/* MCPWM_TIMER2_SYNCISEL : R/W ;bitpos:[8:6] ;default: 3'd0 ; */
|
/*description: Select sync input for PWM timer2 1: PWM timer0 synco 2: PWM
|
timer1 synco 3: PWM timer2 synco 4: SYNC0 from GPIO matrix 5: SYNC1 from GPIO matrix 6: SYNC2 from GPIO matrix other values: no sync input selected*/
|
#define MCPWM_TIMER2_SYNCISEL 0x00000007
|
#define MCPWM_TIMER2_SYNCISEL_M ((MCPWM_TIMER2_SYNCISEL_V)<<(MCPWM_TIMER2_SYNCISEL_S))
|
#define MCPWM_TIMER2_SYNCISEL_V 0x7
|
#define MCPWM_TIMER2_SYNCISEL_S 6
|
/* MCPWM_TIMER1_SYNCISEL : R/W ;bitpos:[5:3] ;default: 3'd0 ; */
|
/*description: Select sync input for PWM timer1 1: PWM timer0 synco 2: PWM
|
timer1 synco 3: PWM timer2 synco 4: SYNC0 from GPIO matrix 5: SYNC1 from GPIO matrix 6: SYNC2 from GPIO matrix other values: no sync input selected*/
|
#define MCPWM_TIMER1_SYNCISEL 0x00000007
|
#define MCPWM_TIMER1_SYNCISEL_M ((MCPWM_TIMER1_SYNCISEL_V)<<(MCPWM_TIMER1_SYNCISEL_S))
|
#define MCPWM_TIMER1_SYNCISEL_V 0x7
|
#define MCPWM_TIMER1_SYNCISEL_S 3
|
/* MCPWM_TIMER0_SYNCISEL : R/W ;bitpos:[2:0] ;default: 3'd0 ; */
|
/*description: Select sync input for PWM timer0 1: PWM timer0 synco 2: PWM
|
timer1 synco 3: PWM timer2 synco 4: SYNC0 from GPIO matrix 5: SYNC1 from GPIO matrix 6: SYNC2 from GPIO matrix other values: no sync input selected*/
|
#define MCPWM_TIMER0_SYNCISEL 0x00000007
|
#define MCPWM_TIMER0_SYNCISEL_M ((MCPWM_TIMER0_SYNCISEL_V)<<(MCPWM_TIMER0_SYNCISEL_S))
|
#define MCPWM_TIMER0_SYNCISEL_V 0x7
|
#define MCPWM_TIMER0_SYNCISEL_S 0
|
|
#define MCPWM_OPERATOR_TIMERSEL_REG(i) (REG_MCPWM_BASE(i) + 0x0038)
|
/* MCPWM_OPERATOR2_TIMERSEL : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Select which PWM timer's is the timing reference for PWM operator2
|
0: timer0 1: timer1 2: timer2*/
|
#define MCPWM_OPERATOR2_TIMERSEL 0x00000003
|
#define MCPWM_OPERATOR2_TIMERSEL_M ((MCPWM_OPERATOR2_TIMERSEL_V)<<(MCPWM_OPERATOR2_TIMERSEL_S))
|
#define MCPWM_OPERATOR2_TIMERSEL_V 0x3
|
#define MCPWM_OPERATOR2_TIMERSEL_S 4
|
/* MCPWM_OPERATOR1_TIMERSEL : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Select which PWM timer's is the timing reference for PWM operator1
|
0: timer0 1: timer1 2: timer2*/
|
#define MCPWM_OPERATOR1_TIMERSEL 0x00000003
|
#define MCPWM_OPERATOR1_TIMERSEL_M ((MCPWM_OPERATOR1_TIMERSEL_V)<<(MCPWM_OPERATOR1_TIMERSEL_S))
|
#define MCPWM_OPERATOR1_TIMERSEL_V 0x3
|
#define MCPWM_OPERATOR1_TIMERSEL_S 2
|
/* MCPWM_OPERATOR0_TIMERSEL : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Select which PWM timer's is the timing reference for PWM operator0
|
0: timer0 1: timer1 2: timer2*/
|
#define MCPWM_OPERATOR0_TIMERSEL 0x00000003
|
#define MCPWM_OPERATOR0_TIMERSEL_M ((MCPWM_OPERATOR0_TIMERSEL_V)<<(MCPWM_OPERATOR0_TIMERSEL_S))
|
#define MCPWM_OPERATOR0_TIMERSEL_V 0x3
|
#define MCPWM_OPERATOR0_TIMERSEL_S 0
|
|
#define MCPWM_GEN0_STMP_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x003c)
|
/* MCPWM_GEN0_B_SHDW_FULL : RO ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set PWM generator 0 time stamp
|
B's shadow reg is filled and waiting to be transferred to B's active reg. If cleared B's active reg has been updated with shadow reg latest value*/
|
#define MCPWM_GEN0_B_SHDW_FULL (BIT(9))
|
#define MCPWM_GEN0_B_SHDW_FULL_M (BIT(9))
|
#define MCPWM_GEN0_B_SHDW_FULL_V 0x1
|
#define MCPWM_GEN0_B_SHDW_FULL_S 9
|
/* MCPWM_GEN0_A_SHDW_FULL : RO ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set PWM generator 0 time stamp
|
A's shadow reg is filled and waiting to be transferred to A's active reg. If cleared A's active reg has been updated with shadow reg latest value*/
|
#define MCPWM_GEN0_A_SHDW_FULL (BIT(8))
|
#define MCPWM_GEN0_A_SHDW_FULL_M (BIT(8))
|
#define MCPWM_GEN0_A_SHDW_FULL_V 0x1
|
#define MCPWM_GEN0_A_SHDW_FULL_S 8
|
/* MCPWM_GEN0_B_UPMETHOD : R/W ;bitpos:[7:4] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 0 time stamp B's active reg.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_GEN0_B_UPMETHOD 0x0000000F
|
#define MCPWM_GEN0_B_UPMETHOD_M ((MCPWM_GEN0_B_UPMETHOD_V)<<(MCPWM_GEN0_B_UPMETHOD_S))
|
#define MCPWM_GEN0_B_UPMETHOD_V 0xF
|
#define MCPWM_GEN0_B_UPMETHOD_S 4
|
/* MCPWM_GEN0_A_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 0 time stamp A's active reg.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_GEN0_A_UPMETHOD 0x0000000F
|
#define MCPWM_GEN0_A_UPMETHOD_M ((MCPWM_GEN0_A_UPMETHOD_V)<<(MCPWM_GEN0_A_UPMETHOD_S))
|
#define MCPWM_GEN0_A_UPMETHOD_V 0xF
|
#define MCPWM_GEN0_A_UPMETHOD_S 0
|
|
#define MCPWM_GEN0_TSTMP_A_REG(i) (REG_MCPWM_BASE(i) + 0x0040)
|
/* MCPWM_GEN0_A : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: PWM generator 0 time stamp A's shadow reg*/
|
#define MCPWM_GEN0_A 0x0000FFFF
|
#define MCPWM_GEN0_A_M ((MCPWM_GEN0_A_V)<<(MCPWM_GEN0_A_S))
|
#define MCPWM_GEN0_A_V 0xFFFF
|
#define MCPWM_GEN0_A_S 0
|
|
#define MCPWM_GEN0_TSTMP_B_REG(i) (REG_MCPWM_BASE(i) + 0x0044)
|
/* MCPWM_GEN0_B : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: PWM generator 0 time stamp B's shadow reg*/
|
#define MCPWM_GEN0_B 0x0000FFFF
|
#define MCPWM_GEN0_B_M ((MCPWM_GEN0_B_V)<<(MCPWM_GEN0_B_S))
|
#define MCPWM_GEN0_B_V 0xFFFF
|
#define MCPWM_GEN0_B_S 0
|
|
#define MCPWM_GEN0_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x0048)
|
/* MCPWM_GEN0_T1_SEL : R/W ;bitpos:[9:7] ;default: 3'd0 ; */
|
/*description: Source selection for PWM generator 0 event_t1 take effect immediately
|
0: fault_event0 1: fault_event1 2: fault_event2 3: sync_taken 4: none*/
|
#define MCPWM_GEN0_T1_SEL 0x00000007
|
#define MCPWM_GEN0_T1_SEL_M ((MCPWM_GEN0_T1_SEL_V)<<(MCPWM_GEN0_T1_SEL_S))
|
#define MCPWM_GEN0_T1_SEL_V 0x7
|
#define MCPWM_GEN0_T1_SEL_S 7
|
/* MCPWM_GEN0_T0_SEL : R/W ;bitpos:[6:4] ;default: 3'd0 ; */
|
/*description: Source selection for PWM generator 0 event_t0 take effect immediately
|
0: fault_event0 1: fault_event1 2: fault_event2 3: sync_taken 4: none*/
|
#define MCPWM_GEN0_T0_SEL 0x00000007
|
#define MCPWM_GEN0_T0_SEL_M ((MCPWM_GEN0_T0_SEL_V)<<(MCPWM_GEN0_T0_SEL_S))
|
#define MCPWM_GEN0_T0_SEL_V 0x7
|
#define MCPWM_GEN0_T0_SEL_S 4
|
/* MCPWM_GEN0_CFG_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 0's active reg of configuration.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync. bit3: disable update*/
|
#define MCPWM_GEN0_CFG_UPMETHOD 0x0000000F
|
#define MCPWM_GEN0_CFG_UPMETHOD_M ((MCPWM_GEN0_CFG_UPMETHOD_V)<<(MCPWM_GEN0_CFG_UPMETHOD_S))
|
#define MCPWM_GEN0_CFG_UPMETHOD_V 0xF
|
#define MCPWM_GEN0_CFG_UPMETHOD_S 0
|
|
#define MCPWM_GEN0_FORCE_REG(i) (REG_MCPWM_BASE(i) + 0x004c)
|
/* MCPWM_GEN0_B_NCIFORCE_MODE : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Non-continuous immediate software force mode for PWM0B 0: disabled
|
1: low 2: high 3: disabled*/
|
#define MCPWM_GEN0_B_NCIFORCE_MODE 0x00000003
|
#define MCPWM_GEN0_B_NCIFORCE_MODE_M ((MCPWM_GEN0_B_NCIFORCE_MODE_V)<<(MCPWM_GEN0_B_NCIFORCE_MODE_S))
|
#define MCPWM_GEN0_B_NCIFORCE_MODE_V 0x3
|
#define MCPWM_GEN0_B_NCIFORCE_MODE_S 14
|
/* MCPWM_GEN0_B_NCIFORCE : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: Non-continuous immediate software force trigger for PWM0B a
|
toggle will trigger a force event*/
|
#define MCPWM_GEN0_B_NCIFORCE (BIT(13))
|
#define MCPWM_GEN0_B_NCIFORCE_M (BIT(13))
|
#define MCPWM_GEN0_B_NCIFORCE_V 0x1
|
#define MCPWM_GEN0_B_NCIFORCE_S 13
|
/* MCPWM_GEN0_A_NCIFORCE_MODE : R/W ;bitpos:[12:11] ;default: 2'd0 ; */
|
/*description: Non-continuous immediate software force mode for PWM0A 0: disabled
|
1: low 2: high 3: disabled*/
|
#define MCPWM_GEN0_A_NCIFORCE_MODE 0x00000003
|
#define MCPWM_GEN0_A_NCIFORCE_MODE_M ((MCPWM_GEN0_A_NCIFORCE_MODE_V)<<(MCPWM_GEN0_A_NCIFORCE_MODE_S))
|
#define MCPWM_GEN0_A_NCIFORCE_MODE_V 0x3
|
#define MCPWM_GEN0_A_NCIFORCE_MODE_S 11
|
/* MCPWM_GEN0_A_NCIFORCE : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: Non-continuous immediate software force trigger for PWM0A a
|
toggle will trigger a force event*/
|
#define MCPWM_GEN0_A_NCIFORCE (BIT(10))
|
#define MCPWM_GEN0_A_NCIFORCE_M (BIT(10))
|
#define MCPWM_GEN0_A_NCIFORCE_V 0x1
|
#define MCPWM_GEN0_A_NCIFORCE_S 10
|
/* MCPWM_GEN0_B_CNTUFORCE_MODE : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Continuous software force mode for PWM0B. 0: disabled 1: low
|
2: high 3: disabled*/
|
#define MCPWM_GEN0_B_CNTUFORCE_MODE 0x00000003
|
#define MCPWM_GEN0_B_CNTUFORCE_MODE_M ((MCPWM_GEN0_B_CNTUFORCE_MODE_V)<<(MCPWM_GEN0_B_CNTUFORCE_MODE_S))
|
#define MCPWM_GEN0_B_CNTUFORCE_MODE_V 0x3
|
#define MCPWM_GEN0_B_CNTUFORCE_MODE_S 8
|
/* MCPWM_GEN0_A_CNTUFORCE_MODE : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Continuous software force mode for PWM0A. 0: disabled 1: low
|
2: high 3: disabled*/
|
#define MCPWM_GEN0_A_CNTUFORCE_MODE 0x00000003
|
#define MCPWM_GEN0_A_CNTUFORCE_MODE_M ((MCPWM_GEN0_A_CNTUFORCE_MODE_V)<<(MCPWM_GEN0_A_CNTUFORCE_MODE_S))
|
#define MCPWM_GEN0_A_CNTUFORCE_MODE_V 0x3
|
#define MCPWM_GEN0_A_CNTUFORCE_MODE_S 6
|
/* MCPWM_GEN0_CNTUFORCE_UPMETHOD : R/W ;bitpos:[5:0] ;default: 6'h20 ; */
|
/*description: Update method for continuous software force of PWM generator0.
|
0: immediate bit0: TEZ bit1: TEP bit2: TEA bit3: TEB bit4: sync bit5: disable update. (TEA/B here and below means an event generated when timer value equals A/B register)*/
|
#define MCPWM_GEN0_CNTUFORCE_UPMETHOD 0x0000003F
|
#define MCPWM_GEN0_CNTUFORCE_UPMETHOD_M ((MCPWM_GEN0_CNTUFORCE_UPMETHOD_V)<<(MCPWM_GEN0_CNTUFORCE_UPMETHOD_S))
|
#define MCPWM_GEN0_CNTUFORCE_UPMETHOD_V 0x3F
|
#define MCPWM_GEN0_CNTUFORCE_UPMETHOD_S 0
|
|
#define MCPWM_GEN0_A_REG(i) (REG_MCPWM_BASE(i) + 0x0050)
|
/* MCPWM_GEN0_A_DT1 : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event_t1 when timer decreasing.
|
0: no change 1: low 2: high 3: toggle*/
|
#define MCPWM_GEN0_A_DT1 0x00000003
|
#define MCPWM_GEN0_A_DT1_M ((MCPWM_GEN0_A_DT1_V)<<(MCPWM_GEN0_A_DT1_S))
|
#define MCPWM_GEN0_A_DT1_V 0x3
|
#define MCPWM_GEN0_A_DT1_S 22
|
/* MCPWM_GEN0_A_DT0 : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event_t0 when timer decreasing*/
|
#define MCPWM_GEN0_A_DT0 0x00000003
|
#define MCPWM_GEN0_A_DT0_M ((MCPWM_GEN0_A_DT0_V)<<(MCPWM_GEN0_A_DT0_S))
|
#define MCPWM_GEN0_A_DT0_V 0x3
|
#define MCPWM_GEN0_A_DT0_S 20
|
/* MCPWM_GEN0_A_DTEB : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEB when timer decreasing*/
|
#define MCPWM_GEN0_A_DTEB 0x00000003
|
#define MCPWM_GEN0_A_DTEB_M ((MCPWM_GEN0_A_DTEB_V)<<(MCPWM_GEN0_A_DTEB_S))
|
#define MCPWM_GEN0_A_DTEB_V 0x3
|
#define MCPWM_GEN0_A_DTEB_S 18
|
/* MCPWM_GEN0_A_DTEA : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEA when timer decreasing*/
|
#define MCPWM_GEN0_A_DTEA 0x00000003
|
#define MCPWM_GEN0_A_DTEA_M ((MCPWM_GEN0_A_DTEA_V)<<(MCPWM_GEN0_A_DTEA_S))
|
#define MCPWM_GEN0_A_DTEA_V 0x3
|
#define MCPWM_GEN0_A_DTEA_S 16
|
/* MCPWM_GEN0_A_DTEP : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEP when timer decreasing*/
|
#define MCPWM_GEN0_A_DTEP 0x00000003
|
#define MCPWM_GEN0_A_DTEP_M ((MCPWM_GEN0_A_DTEP_V)<<(MCPWM_GEN0_A_DTEP_S))
|
#define MCPWM_GEN0_A_DTEP_V 0x3
|
#define MCPWM_GEN0_A_DTEP_S 14
|
/* MCPWM_GEN0_A_DTEZ : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEZ when timer decreasing*/
|
#define MCPWM_GEN0_A_DTEZ 0x00000003
|
#define MCPWM_GEN0_A_DTEZ_M ((MCPWM_GEN0_A_DTEZ_V)<<(MCPWM_GEN0_A_DTEZ_S))
|
#define MCPWM_GEN0_A_DTEZ_V 0x3
|
#define MCPWM_GEN0_A_DTEZ_S 12
|
/* MCPWM_GEN0_A_UT1 : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event_t1 when timer increasing*/
|
#define MCPWM_GEN0_A_UT1 0x00000003
|
#define MCPWM_GEN0_A_UT1_M ((MCPWM_GEN0_A_UT1_V)<<(MCPWM_GEN0_A_UT1_S))
|
#define MCPWM_GEN0_A_UT1_V 0x3
|
#define MCPWM_GEN0_A_UT1_S 10
|
/* MCPWM_GEN0_A_UT0 : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event_t0 when timer increasing*/
|
#define MCPWM_GEN0_A_UT0 0x00000003
|
#define MCPWM_GEN0_A_UT0_M ((MCPWM_GEN0_A_UT0_V)<<(MCPWM_GEN0_A_UT0_S))
|
#define MCPWM_GEN0_A_UT0_V 0x3
|
#define MCPWM_GEN0_A_UT0_S 8
|
/* MCPWM_GEN0_A_UTEB : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEB when timer increasing*/
|
#define MCPWM_GEN0_A_UTEB 0x00000003
|
#define MCPWM_GEN0_A_UTEB_M ((MCPWM_GEN0_A_UTEB_V)<<(MCPWM_GEN0_A_UTEB_S))
|
#define MCPWM_GEN0_A_UTEB_V 0x3
|
#define MCPWM_GEN0_A_UTEB_S 6
|
/* MCPWM_GEN0_A_UTEA : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEA when timer increasing*/
|
#define MCPWM_GEN0_A_UTEA 0x00000003
|
#define MCPWM_GEN0_A_UTEA_M ((MCPWM_GEN0_A_UTEA_V)<<(MCPWM_GEN0_A_UTEA_S))
|
#define MCPWM_GEN0_A_UTEA_V 0x3
|
#define MCPWM_GEN0_A_UTEA_S 4
|
/* MCPWM_GEN0_A_UTEP : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEP when timer increasing*/
|
#define MCPWM_GEN0_A_UTEP 0x00000003
|
#define MCPWM_GEN0_A_UTEP_M ((MCPWM_GEN0_A_UTEP_V)<<(MCPWM_GEN0_A_UTEP_S))
|
#define MCPWM_GEN0_A_UTEP_V 0x3
|
#define MCPWM_GEN0_A_UTEP_S 2
|
/* MCPWM_GEN0_A_UTEZ : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Action on PWM0A triggered by event TEZ when timer increasing*/
|
#define MCPWM_GEN0_A_UTEZ 0x00000003
|
#define MCPWM_GEN0_A_UTEZ_M ((MCPWM_GEN0_A_UTEZ_V)<<(MCPWM_GEN0_A_UTEZ_S))
|
#define MCPWM_GEN0_A_UTEZ_V 0x3
|
#define MCPWM_GEN0_A_UTEZ_S 0
|
|
#define MCPWM_GEN0_B_REG(i) (REG_MCPWM_BASE(i) + 0x0054)
|
/* MCPWM_GEN0_B_DT1 : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event_t1 when timer decreasing.
|
0: no change 1: low 2: high 3: toggle*/
|
#define MCPWM_GEN0_B_DT1 0x00000003
|
#define MCPWM_GEN0_B_DT1_M ((MCPWM_GEN0_B_DT1_V)<<(MCPWM_GEN0_B_DT1_S))
|
#define MCPWM_GEN0_B_DT1_V 0x3
|
#define MCPWM_GEN0_B_DT1_S 22
|
/* MCPWM_GEN0_B_DT0 : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event_t0 when timer decreasing*/
|
#define MCPWM_GEN0_B_DT0 0x00000003
|
#define MCPWM_GEN0_B_DT0_M ((MCPWM_GEN0_B_DT0_V)<<(MCPWM_GEN0_B_DT0_S))
|
#define MCPWM_GEN0_B_DT0_V 0x3
|
#define MCPWM_GEN0_B_DT0_S 20
|
/* MCPWM_GEN0_B_DTEB : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEB when timer decreasing*/
|
#define MCPWM_GEN0_B_DTEB 0x00000003
|
#define MCPWM_GEN0_B_DTEB_M ((MCPWM_GEN0_B_DTEB_V)<<(MCPWM_GEN0_B_DTEB_S))
|
#define MCPWM_GEN0_B_DTEB_V 0x3
|
#define MCPWM_GEN0_B_DTEB_S 18
|
/* MCPWM_GEN0_B_DTEA : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEA when timer decreasing*/
|
#define MCPWM_GEN0_B_DTEA 0x00000003
|
#define MCPWM_GEN0_B_DTEA_M ((MCPWM_GEN0_B_DTEA_V)<<(MCPWM_GEN0_B_DTEA_S))
|
#define MCPWM_GEN0_B_DTEA_V 0x3
|
#define MCPWM_GEN0_B_DTEA_S 16
|
/* MCPWM_GEN0_B_DTEP : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEP when timer decreasing*/
|
#define MCPWM_GEN0_B_DTEP 0x00000003
|
#define MCPWM_GEN0_B_DTEP_M ((MCPWM_GEN0_B_DTEP_V)<<(MCPWM_GEN0_B_DTEP_S))
|
#define MCPWM_GEN0_B_DTEP_V 0x3
|
#define MCPWM_GEN0_B_DTEP_S 14
|
/* MCPWM_GEN0_B_DTEZ : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEZ when timer decreasing*/
|
#define MCPWM_GEN0_B_DTEZ 0x00000003
|
#define MCPWM_GEN0_B_DTEZ_M ((MCPWM_GEN0_B_DTEZ_V)<<(MCPWM_GEN0_B_DTEZ_S))
|
#define MCPWM_GEN0_B_DTEZ_V 0x3
|
#define MCPWM_GEN0_B_DTEZ_S 12
|
/* MCPWM_GEN0_B_UT1 : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event_t1 when timer increasing*/
|
#define MCPWM_GEN0_B_UT1 0x00000003
|
#define MCPWM_GEN0_B_UT1_M ((MCPWM_GEN0_B_UT1_V)<<(MCPWM_GEN0_B_UT1_S))
|
#define MCPWM_GEN0_B_UT1_V 0x3
|
#define MCPWM_GEN0_B_UT1_S 10
|
/* MCPWM_GEN0_B_UT0 : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event_t0 when timer increasing*/
|
#define MCPWM_GEN0_B_UT0 0x00000003
|
#define MCPWM_GEN0_B_UT0_M ((MCPWM_GEN0_B_UT0_V)<<(MCPWM_GEN0_B_UT0_S))
|
#define MCPWM_GEN0_B_UT0_V 0x3
|
#define MCPWM_GEN0_B_UT0_S 8
|
/* MCPWM_GEN0_B_UTEB : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEB when timer increasing*/
|
#define MCPWM_GEN0_B_UTEB 0x00000003
|
#define MCPWM_GEN0_B_UTEB_M ((MCPWM_GEN0_B_UTEB_V)<<(MCPWM_GEN0_B_UTEB_S))
|
#define MCPWM_GEN0_B_UTEB_V 0x3
|
#define MCPWM_GEN0_B_UTEB_S 6
|
/* MCPWM_GEN0_B_UTEA : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEA when timer increasing*/
|
#define MCPWM_GEN0_B_UTEA 0x00000003
|
#define MCPWM_GEN0_B_UTEA_M ((MCPWM_GEN0_B_UTEA_V)<<(MCPWM_GEN0_B_UTEA_S))
|
#define MCPWM_GEN0_B_UTEA_V 0x3
|
#define MCPWM_GEN0_B_UTEA_S 4
|
/* MCPWM_GEN0_B_UTEP : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEP when timer increasing*/
|
#define MCPWM_GEN0_B_UTEP 0x00000003
|
#define MCPWM_GEN0_B_UTEP_M ((MCPWM_GEN0_B_UTEP_V)<<(MCPWM_GEN0_B_UTEP_S))
|
#define MCPWM_GEN0_B_UTEP_V 0x3
|
#define MCPWM_GEN0_B_UTEP_S 2
|
/* MCPWM_GEN0_B_UTEZ : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Action on PWM0B triggered by event TEZ when timer increasing*/
|
#define MCPWM_GEN0_B_UTEZ 0x00000003
|
#define MCPWM_GEN0_B_UTEZ_M ((MCPWM_GEN0_B_UTEZ_V)<<(MCPWM_GEN0_B_UTEZ_S))
|
#define MCPWM_GEN0_B_UTEZ_V 0x3
|
#define MCPWM_GEN0_B_UTEZ_S 0
|
|
#define MCPWM_DT0_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0058)
|
/* MCPWM_DT0_CLK_SEL : R/W ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: Dead time generator 0 clock selection. 0: PWM_clk 1: PT_clk*/
|
#define MCPWM_DT0_CLK_SEL (BIT(17))
|
#define MCPWM_DT0_CLK_SEL_M (BIT(17))
|
#define MCPWM_DT0_CLK_SEL_V 0x1
|
#define MCPWM_DT0_CLK_SEL_S 17
|
/* MCPWM_DT0_B_OUTBYPASS : R/W ;bitpos:[16] ;default: 1'd1 ; */
|
/*description: S0 in documentation*/
|
#define MCPWM_DT0_B_OUTBYPASS (BIT(16))
|
#define MCPWM_DT0_B_OUTBYPASS_M (BIT(16))
|
#define MCPWM_DT0_B_OUTBYPASS_V 0x1
|
#define MCPWM_DT0_B_OUTBYPASS_S 16
|
/* MCPWM_DT0_A_OUTBYPASS : R/W ;bitpos:[15] ;default: 1'd1 ; */
|
/*description: S1 in documentation*/
|
#define MCPWM_DT0_A_OUTBYPASS (BIT(15))
|
#define MCPWM_DT0_A_OUTBYPASS_M (BIT(15))
|
#define MCPWM_DT0_A_OUTBYPASS_V 0x1
|
#define MCPWM_DT0_A_OUTBYPASS_S 15
|
/* MCPWM_DT0_FED_OUTINVERT : R/W ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: S3 in documentation*/
|
#define MCPWM_DT0_FED_OUTINVERT (BIT(14))
|
#define MCPWM_DT0_FED_OUTINVERT_M (BIT(14))
|
#define MCPWM_DT0_FED_OUTINVERT_V 0x1
|
#define MCPWM_DT0_FED_OUTINVERT_S 14
|
/* MCPWM_DT0_RED_OUTINVERT : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: S2 in documentation*/
|
#define MCPWM_DT0_RED_OUTINVERT (BIT(13))
|
#define MCPWM_DT0_RED_OUTINVERT_M (BIT(13))
|
#define MCPWM_DT0_RED_OUTINVERT_V 0x1
|
#define MCPWM_DT0_RED_OUTINVERT_S 13
|
/* MCPWM_DT0_FED_INSEL : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: S5 in documentation*/
|
#define MCPWM_DT0_FED_INSEL (BIT(12))
|
#define MCPWM_DT0_FED_INSEL_M (BIT(12))
|
#define MCPWM_DT0_FED_INSEL_V 0x1
|
#define MCPWM_DT0_FED_INSEL_S 12
|
/* MCPWM_DT0_RED_INSEL : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: S4 in documentation*/
|
#define MCPWM_DT0_RED_INSEL (BIT(11))
|
#define MCPWM_DT0_RED_INSEL_M (BIT(11))
|
#define MCPWM_DT0_RED_INSEL_V 0x1
|
#define MCPWM_DT0_RED_INSEL_S 11
|
/* MCPWM_DT0_B_OUTSWAP : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: S7 in documentation*/
|
#define MCPWM_DT0_B_OUTSWAP (BIT(10))
|
#define MCPWM_DT0_B_OUTSWAP_M (BIT(10))
|
#define MCPWM_DT0_B_OUTSWAP_V 0x1
|
#define MCPWM_DT0_B_OUTSWAP_S 10
|
/* MCPWM_DT0_A_OUTSWAP : R/W ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: S6 in documentation*/
|
#define MCPWM_DT0_A_OUTSWAP (BIT(9))
|
#define MCPWM_DT0_A_OUTSWAP_M (BIT(9))
|
#define MCPWM_DT0_A_OUTSWAP_V 0x1
|
#define MCPWM_DT0_A_OUTSWAP_S 9
|
/* MCPWM_DT0_DEB_MODE : R/W ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: S8 in documentation dual-edge B mode 0: FED/RED take effect
|
on different path separately 1: FED/RED take effect on B path A out is in bypass or normal operation mode*/
|
#define MCPWM_DT0_DEB_MODE (BIT(8))
|
#define MCPWM_DT0_DEB_MODE_M (BIT(8))
|
#define MCPWM_DT0_DEB_MODE_V 0x1
|
#define MCPWM_DT0_DEB_MODE_S 8
|
/* MCPWM_DT0_RED_UPMETHOD : R/W ;bitpos:[7:4] ;default: 4'd0 ; */
|
/*description: Update method for RED (rising edge delay) active reg. 0: immediate
|
bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_DT0_RED_UPMETHOD 0x0000000F
|
#define MCPWM_DT0_RED_UPMETHOD_M ((MCPWM_DT0_RED_UPMETHOD_V)<<(MCPWM_DT0_RED_UPMETHOD_S))
|
#define MCPWM_DT0_RED_UPMETHOD_V 0xF
|
#define MCPWM_DT0_RED_UPMETHOD_S 4
|
/* MCPWM_DT0_FED_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for FED (falling edge delay) active reg. 0: immediate
|
bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_DT0_FED_UPMETHOD 0x0000000F
|
#define MCPWM_DT0_FED_UPMETHOD_M ((MCPWM_DT0_FED_UPMETHOD_V)<<(MCPWM_DT0_FED_UPMETHOD_S))
|
#define MCPWM_DT0_FED_UPMETHOD_V 0xF
|
#define MCPWM_DT0_FED_UPMETHOD_S 0
|
|
#define MCPWM_DT0_FED_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x005c)
|
/* MCPWM_DT0_FED : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Shadow reg for FED*/
|
#define MCPWM_DT0_FED 0x0000FFFF
|
#define MCPWM_DT0_FED_M ((MCPWM_DT0_FED_V)<<(MCPWM_DT0_FED_S))
|
#define MCPWM_DT0_FED_V 0xFFFF
|
#define MCPWM_DT0_FED_S 0
|
|
#define MCPWM_DT0_RED_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0060)
|
/* MCPWM_DT0_RED : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Shadow reg for RED*/
|
#define MCPWM_DT0_RED 0x0000FFFF
|
#define MCPWM_DT0_RED_M ((MCPWM_DT0_RED_V)<<(MCPWM_DT0_RED_S))
|
#define MCPWM_DT0_RED_V 0xFFFF
|
#define MCPWM_DT0_RED_S 0
|
|
#define MCPWM_CARRIER0_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0064)
|
/* MCPWM_CARRIER0_IN_INVERT : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: When set invert the input of PWM0A and PWM0B for this submodule*/
|
#define MCPWM_CARRIER0_IN_INVERT (BIT(13))
|
#define MCPWM_CARRIER0_IN_INVERT_M (BIT(13))
|
#define MCPWM_CARRIER0_IN_INVERT_V 0x1
|
#define MCPWM_CARRIER0_IN_INVERT_S 13
|
/* MCPWM_CARRIER0_OUT_INVERT : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: When set invert the output of PWM0A and PWM0B for this submodule*/
|
#define MCPWM_CARRIER0_OUT_INVERT (BIT(12))
|
#define MCPWM_CARRIER0_OUT_INVERT_M (BIT(12))
|
#define MCPWM_CARRIER0_OUT_INVERT_V 0x1
|
#define MCPWM_CARRIER0_OUT_INVERT_S 12
|
/* MCPWM_CARRIER0_OSHWTH : R/W ;bitpos:[11:8] ;default: 4'd0 ; */
|
/*description: Width of the fist pulse in number of periods of the carrier*/
|
#define MCPWM_CARRIER0_OSHWTH 0x0000000F
|
#define MCPWM_CARRIER0_OSHWTH_M ((MCPWM_CARRIER0_OSHWTH_V)<<(MCPWM_CARRIER0_OSHWTH_S))
|
#define MCPWM_CARRIER0_OSHWTH_V 0xF
|
#define MCPWM_CARRIER0_OSHWTH_S 8
|
/* MCPWM_CARRIER0_DUTY : R/W ;bitpos:[7:5] ;default: 3'd0 ; */
|
/*description: Carrier duty selection. Duty = PWM_CARRIER0_DUTY / 8*/
|
#define MCPWM_CARRIER0_DUTY 0x00000007
|
#define MCPWM_CARRIER0_DUTY_M ((MCPWM_CARRIER0_DUTY_V)<<(MCPWM_CARRIER0_DUTY_S))
|
#define MCPWM_CARRIER0_DUTY_V 0x7
|
#define MCPWM_CARRIER0_DUTY_S 5
|
/* MCPWM_CARRIER0_PRESCALE : R/W ;bitpos:[4:1] ;default: 4'd0 ; */
|
/*description: PWM carrier0 clock (PC_clk) prescale value. Period of PC_clk
|
= period of PWM_clk * (PWM_CARRIER0_PRESCALE + 1)*/
|
#define MCPWM_CARRIER0_PRESCALE 0x0000000F
|
#define MCPWM_CARRIER0_PRESCALE_M ((MCPWM_CARRIER0_PRESCALE_V)<<(MCPWM_CARRIER0_PRESCALE_S))
|
#define MCPWM_CARRIER0_PRESCALE_V 0xF
|
#define MCPWM_CARRIER0_PRESCALE_S 1
|
/* MCPWM_CARRIER0_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set carrier0 function is enabled. When cleared carrier0 is bypassed*/
|
#define MCPWM_CARRIER0_EN (BIT(0))
|
#define MCPWM_CARRIER0_EN_M (BIT(0))
|
#define MCPWM_CARRIER0_EN_V 0x1
|
#define MCPWM_CARRIER0_EN_S 0
|
|
#define MCPWM_FH0_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x0068)
|
/* MCPWM_FH0_B_OST_U : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM0B when fault event occurs and timer
|
is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_B_OST_U 0x00000003
|
#define MCPWM_FH0_B_OST_U_M ((MCPWM_FH0_B_OST_U_V)<<(MCPWM_FH0_B_OST_U_S))
|
#define MCPWM_FH0_B_OST_U_V 0x3
|
#define MCPWM_FH0_B_OST_U_S 22
|
/* MCPWM_FH0_B_OST_D : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM0B when fault event occurs and timer
|
is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_B_OST_D 0x00000003
|
#define MCPWM_FH0_B_OST_D_M ((MCPWM_FH0_B_OST_D_V)<<(MCPWM_FH0_B_OST_D_S))
|
#define MCPWM_FH0_B_OST_D_V 0x3
|
#define MCPWM_FH0_B_OST_D_S 20
|
/* MCPWM_FH0_B_CBC_U : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM0B when fault event occurs and
|
timer is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_B_CBC_U 0x00000003
|
#define MCPWM_FH0_B_CBC_U_M ((MCPWM_FH0_B_CBC_U_V)<<(MCPWM_FH0_B_CBC_U_S))
|
#define MCPWM_FH0_B_CBC_U_V 0x3
|
#define MCPWM_FH0_B_CBC_U_S 18
|
/* MCPWM_FH0_B_CBC_D : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM0B when fault event occurs and
|
timer is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_B_CBC_D 0x00000003
|
#define MCPWM_FH0_B_CBC_D_M ((MCPWM_FH0_B_CBC_D_V)<<(MCPWM_FH0_B_CBC_D_S))
|
#define MCPWM_FH0_B_CBC_D_V 0x3
|
#define MCPWM_FH0_B_CBC_D_S 16
|
/* MCPWM_FH0_A_OST_U : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM0A when fault event occurs and timer
|
is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_A_OST_U 0x00000003
|
#define MCPWM_FH0_A_OST_U_M ((MCPWM_FH0_A_OST_U_V)<<(MCPWM_FH0_A_OST_U_S))
|
#define MCPWM_FH0_A_OST_U_V 0x3
|
#define MCPWM_FH0_A_OST_U_S 14
|
/* MCPWM_FH0_A_OST_D : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM0A when fault event occurs and timer
|
is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_A_OST_D 0x00000003
|
#define MCPWM_FH0_A_OST_D_M ((MCPWM_FH0_A_OST_D_V)<<(MCPWM_FH0_A_OST_D_S))
|
#define MCPWM_FH0_A_OST_D_V 0x3
|
#define MCPWM_FH0_A_OST_D_S 12
|
/* MCPWM_FH0_A_CBC_U : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM0A when fault event occurs and
|
timer is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_A_CBC_U 0x00000003
|
#define MCPWM_FH0_A_CBC_U_M ((MCPWM_FH0_A_CBC_U_V)<<(MCPWM_FH0_A_CBC_U_S))
|
#define MCPWM_FH0_A_CBC_U_V 0x3
|
#define MCPWM_FH0_A_CBC_U_S 10
|
/* MCPWM_FH0_A_CBC_D : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM0A when fault event occurs and
|
timer is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH0_A_CBC_D 0x00000003
|
#define MCPWM_FH0_A_CBC_D_M ((MCPWM_FH0_A_CBC_D_V)<<(MCPWM_FH0_A_CBC_D_S))
|
#define MCPWM_FH0_A_CBC_D_V 0x3
|
#define MCPWM_FH0_A_CBC_D_S 8
|
/* MCPWM_FH0_F0_OST : R/W ;bitpos:[7] ;default: 1'd0 ; */
|
/*description: event_f0 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_F0_OST (BIT(7))
|
#define MCPWM_FH0_F0_OST_M (BIT(7))
|
#define MCPWM_FH0_F0_OST_V 0x1
|
#define MCPWM_FH0_F0_OST_S 7
|
/* MCPWM_FH0_F1_OST : R/W ;bitpos:[6] ;default: 1'd0 ; */
|
/*description: event_f1 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_F1_OST (BIT(6))
|
#define MCPWM_FH0_F1_OST_M (BIT(6))
|
#define MCPWM_FH0_F1_OST_V 0x1
|
#define MCPWM_FH0_F1_OST_S 6
|
/* MCPWM_FH0_F2_OST : R/W ;bitpos:[5] ;default: 1'd0 ; */
|
/*description: event_f2 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_F2_OST (BIT(5))
|
#define MCPWM_FH0_F2_OST_M (BIT(5))
|
#define MCPWM_FH0_F2_OST_V 0x1
|
#define MCPWM_FH0_F2_OST_S 5
|
/* MCPWM_FH0_SW_OST : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: Enable register for software force one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_SW_OST (BIT(4))
|
#define MCPWM_FH0_SW_OST_M (BIT(4))
|
#define MCPWM_FH0_SW_OST_V 0x1
|
#define MCPWM_FH0_SW_OST_S 4
|
/* MCPWM_FH0_F0_CBC : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: event_f0 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_F0_CBC (BIT(3))
|
#define MCPWM_FH0_F0_CBC_M (BIT(3))
|
#define MCPWM_FH0_F0_CBC_V 0x1
|
#define MCPWM_FH0_F0_CBC_S 3
|
/* MCPWM_FH0_F1_CBC : R/W ;bitpos:[2] ;default: 1'd0 ; */
|
/*description: event_f1 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_F1_CBC (BIT(2))
|
#define MCPWM_FH0_F1_CBC_M (BIT(2))
|
#define MCPWM_FH0_F1_CBC_V 0x1
|
#define MCPWM_FH0_F1_CBC_S 2
|
/* MCPWM_FH0_F2_CBC : R/W ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: event_f2 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH0_F2_CBC (BIT(1))
|
#define MCPWM_FH0_F2_CBC_M (BIT(1))
|
#define MCPWM_FH0_F2_CBC_V 0x1
|
#define MCPWM_FH0_F2_CBC_S 1
|
/* MCPWM_FH0_SW_CBC : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Enable register for software force cycle-by-cycle mode action.
|
0: disable 1: enable*/
|
#define MCPWM_FH0_SW_CBC (BIT(0))
|
#define MCPWM_FH0_SW_CBC_M (BIT(0))
|
#define MCPWM_FH0_SW_CBC_V 0x1
|
#define MCPWM_FH0_SW_CBC_S 0
|
|
#define MCPWM_FH0_CFG1_REG(i) (REG_MCPWM_BASE(i) + 0x006c)
|
/* MCPWM_FH0_FORCE_OST : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) triggers a
|
one-shot mode action*/
|
#define MCPWM_FH0_FORCE_OST (BIT(4))
|
#define MCPWM_FH0_FORCE_OST_M (BIT(4))
|
#define MCPWM_FH0_FORCE_OST_V 0x1
|
#define MCPWM_FH0_FORCE_OST_S 4
|
/* MCPWM_FH0_FORCE_CBC : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: A toggle triggers a cycle-by-cycle mode action*/
|
#define MCPWM_FH0_FORCE_CBC (BIT(3))
|
#define MCPWM_FH0_FORCE_CBC_M (BIT(3))
|
#define MCPWM_FH0_FORCE_CBC_V 0x1
|
#define MCPWM_FH0_FORCE_CBC_S 3
|
/* MCPWM_FH0_CBCPULSE : R/W ;bitpos:[2:1] ;default: 2'd0 ; */
|
/*description: The cycle-by-cycle mode action refresh moment selection. Bit0: TEZ bit1:TEP*/
|
#define MCPWM_FH0_CBCPULSE 0x00000003
|
#define MCPWM_FH0_CBCPULSE_M ((MCPWM_FH0_CBCPULSE_V)<<(MCPWM_FH0_CBCPULSE_S))
|
#define MCPWM_FH0_CBCPULSE_V 0x3
|
#define MCPWM_FH0_CBCPULSE_S 1
|
/* MCPWM_FH0_CLR_OST : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: A toggle will clear on going one-shot mode action*/
|
#define MCPWM_FH0_CLR_OST (BIT(0))
|
#define MCPWM_FH0_CLR_OST_M (BIT(0))
|
#define MCPWM_FH0_CLR_OST_V 0x1
|
#define MCPWM_FH0_CLR_OST_S 0
|
|
#define MCPWM_FH0_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x0070)
|
/* MCPWM_FH0_OST_ON : RO ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set an one-shot mode action is on going*/
|
#define MCPWM_FH0_OST_ON (BIT(1))
|
#define MCPWM_FH0_OST_ON_M (BIT(1))
|
#define MCPWM_FH0_OST_ON_V 0x1
|
#define MCPWM_FH0_OST_ON_S 1
|
/* MCPWM_FH0_CBC_ON : RO ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set an cycle-by-cycle mode action is on going*/
|
#define MCPWM_FH0_CBC_ON (BIT(0))
|
#define MCPWM_FH0_CBC_ON_M (BIT(0))
|
#define MCPWM_FH0_CBC_ON_V 0x1
|
#define MCPWM_FH0_CBC_ON_S 0
|
|
#define MCPWM_GEN1_STMP_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0074)
|
/* MCPWM_GEN1_B_SHDW_FULL : RO ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set PWM generator 1 time stamp
|
B's shadow reg is filled and waiting to be transferred to B's active reg. If cleared B's active reg has been updated with shadow reg latest value*/
|
#define MCPWM_GEN1_B_SHDW_FULL (BIT(9))
|
#define MCPWM_GEN1_B_SHDW_FULL_M (BIT(9))
|
#define MCPWM_GEN1_B_SHDW_FULL_V 0x1
|
#define MCPWM_GEN1_B_SHDW_FULL_S 9
|
/* MCPWM_GEN1_A_SHDW_FULL : RO ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set PWM generator 1 time stamp
|
A's shadow reg is filled and waiting to be transferred to A's active reg. If cleared A's active reg has been updated with shadow reg latest value*/
|
#define MCPWM_GEN1_A_SHDW_FULL (BIT(8))
|
#define MCPWM_GEN1_A_SHDW_FULL_M (BIT(8))
|
#define MCPWM_GEN1_A_SHDW_FULL_V 0x1
|
#define MCPWM_GEN1_A_SHDW_FULL_S 8
|
/* MCPWM_GEN1_B_UPMETHOD : R/W ;bitpos:[7:4] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 1 time stamp B's active reg.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_GEN1_B_UPMETHOD 0x0000000F
|
#define MCPWM_GEN1_B_UPMETHOD_M ((MCPWM_GEN1_B_UPMETHOD_V)<<(MCPWM_GEN1_B_UPMETHOD_S))
|
#define MCPWM_GEN1_B_UPMETHOD_V 0xF
|
#define MCPWM_GEN1_B_UPMETHOD_S 4
|
/* MCPWM_GEN1_A_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 1 time stamp A's active reg.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_GEN1_A_UPMETHOD 0x0000000F
|
#define MCPWM_GEN1_A_UPMETHOD_M ((MCPWM_GEN1_A_UPMETHOD_V)<<(MCPWM_GEN1_A_UPMETHOD_S))
|
#define MCPWM_GEN1_A_UPMETHOD_V 0xF
|
#define MCPWM_GEN1_A_UPMETHOD_S 0
|
|
#define MCPWM_GEN1_TSTMP_A_REG(i) (REG_MCPWM_BASE(i) + 0x0078)
|
/* MCPWM_GEN1_A : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: PWM generator 1 time stamp A's shadow reg*/
|
#define MCPWM_GEN1_A 0x0000FFFF
|
#define MCPWM_GEN1_A_M ((MCPWM_GEN1_A_V)<<(MCPWM_GEN1_A_S))
|
#define MCPWM_GEN1_A_V 0xFFFF
|
#define MCPWM_GEN1_A_S 0
|
|
#define MCPWM_GEN1_TSTMP_B_REG(i) (REG_MCPWM_BASE(i) + 0x007c)
|
/* MCPWM_GEN1_B : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: PWM generator 1 time stamp B's shadow reg*/
|
#define MCPWM_GEN1_B 0x0000FFFF
|
#define MCPWM_GEN1_B_M ((MCPWM_GEN1_B_V)<<(MCPWM_GEN1_B_S))
|
#define MCPWM_GEN1_B_V 0xFFFF
|
#define MCPWM_GEN1_B_S 0
|
|
#define MCPWM_GEN1_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x0080)
|
/* MCPWM_GEN1_T1_SEL : R/W ;bitpos:[9:7] ;default: 3'd0 ; */
|
/*description: Source selection for PWM generate1 event_t1 take effect immediately
|
0: fault_event0 1: fault_event1 2: fault_event2 3: sync_taken 4: none*/
|
#define MCPWM_GEN1_T1_SEL 0x00000007
|
#define MCPWM_GEN1_T1_SEL_M ((MCPWM_GEN1_T1_SEL_V)<<(MCPWM_GEN1_T1_SEL_S))
|
#define MCPWM_GEN1_T1_SEL_V 0x7
|
#define MCPWM_GEN1_T1_SEL_S 7
|
/* MCPWM_GEN1_T0_SEL : R/W ;bitpos:[6:4] ;default: 3'd0 ; */
|
/*description: Source selection for PWM generate1 event_t0 take effect immediately
|
0: fault_event0 1: fault_event1 2: fault_event2 3: sync_taken 4: none*/
|
#define MCPWM_GEN1_T0_SEL 0x00000007
|
#define MCPWM_GEN1_T0_SEL_M ((MCPWM_GEN1_T0_SEL_V)<<(MCPWM_GEN1_T0_SEL_S))
|
#define MCPWM_GEN1_T0_SEL_V 0x7
|
#define MCPWM_GEN1_T0_SEL_S 4
|
/* MCPWM_GEN1_CFG_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for PWM generate1's active reg of configuration.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync. bit3: disable update*/
|
#define MCPWM_GEN1_CFG_UPMETHOD 0x0000000F
|
#define MCPWM_GEN1_CFG_UPMETHOD_M ((MCPWM_GEN1_CFG_UPMETHOD_V)<<(MCPWM_GEN1_CFG_UPMETHOD_S))
|
#define MCPWM_GEN1_CFG_UPMETHOD_V 0xF
|
#define MCPWM_GEN1_CFG_UPMETHOD_S 0
|
|
#define MCPWM_GEN1_FORCE_REG(i) (REG_MCPWM_BASE(i) + 0x0084)
|
/* MCPWM_GEN1_B_NCIFORCE_MODE : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Non-continuous immediate software force mode for PWM1B 0: disabled
|
1: low 2: high 3: disabled*/
|
#define MCPWM_GEN1_B_NCIFORCE_MODE 0x00000003
|
#define MCPWM_GEN1_B_NCIFORCE_MODE_M ((MCPWM_GEN1_B_NCIFORCE_MODE_V)<<(MCPWM_GEN1_B_NCIFORCE_MODE_S))
|
#define MCPWM_GEN1_B_NCIFORCE_MODE_V 0x3
|
#define MCPWM_GEN1_B_NCIFORCE_MODE_S 14
|
/* MCPWM_GEN1_B_NCIFORCE : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: Non-continuous immediate software force trigger for PWM1B a
|
toggle will trigger a force event*/
|
#define MCPWM_GEN1_B_NCIFORCE (BIT(13))
|
#define MCPWM_GEN1_B_NCIFORCE_M (BIT(13))
|
#define MCPWM_GEN1_B_NCIFORCE_V 0x1
|
#define MCPWM_GEN1_B_NCIFORCE_S 13
|
/* MCPWM_GEN1_A_NCIFORCE_MODE : R/W ;bitpos:[12:11] ;default: 2'd0 ; */
|
/*description: Non-continuous immediate software force mode for PWM1A 0: disabled
|
1: low 2: high 3: disabled*/
|
#define MCPWM_GEN1_A_NCIFORCE_MODE 0x00000003
|
#define MCPWM_GEN1_A_NCIFORCE_MODE_M ((MCPWM_GEN1_A_NCIFORCE_MODE_V)<<(MCPWM_GEN1_A_NCIFORCE_MODE_S))
|
#define MCPWM_GEN1_A_NCIFORCE_MODE_V 0x3
|
#define MCPWM_GEN1_A_NCIFORCE_MODE_S 11
|
/* MCPWM_GEN1_A_NCIFORCE : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: Non-continuous immediate software force trigger for PWM1A a
|
toggle will trigger a force event*/
|
#define MCPWM_GEN1_A_NCIFORCE (BIT(10))
|
#define MCPWM_GEN1_A_NCIFORCE_M (BIT(10))
|
#define MCPWM_GEN1_A_NCIFORCE_V 0x1
|
#define MCPWM_GEN1_A_NCIFORCE_S 10
|
/* MCPWM_GEN1_B_CNTUFORCE_MODE : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Continuous software force mode for PWM1B. 0: disabled 1: low
|
2: high 3: disabled*/
|
#define MCPWM_GEN1_B_CNTUFORCE_MODE 0x00000003
|
#define MCPWM_GEN1_B_CNTUFORCE_MODE_M ((MCPWM_GEN1_B_CNTUFORCE_MODE_V)<<(MCPWM_GEN1_B_CNTUFORCE_MODE_S))
|
#define MCPWM_GEN1_B_CNTUFORCE_MODE_V 0x3
|
#define MCPWM_GEN1_B_CNTUFORCE_MODE_S 8
|
/* MCPWM_GEN1_A_CNTUFORCE_MODE : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Continuous software force mode for PWM1A. 0: disabled 1: low
|
2: high 3: disabled*/
|
#define MCPWM_GEN1_A_CNTUFORCE_MODE 0x00000003
|
#define MCPWM_GEN1_A_CNTUFORCE_MODE_M ((MCPWM_GEN1_A_CNTUFORCE_MODE_V)<<(MCPWM_GEN1_A_CNTUFORCE_MODE_S))
|
#define MCPWM_GEN1_A_CNTUFORCE_MODE_V 0x3
|
#define MCPWM_GEN1_A_CNTUFORCE_MODE_S 6
|
/* MCPWM_GEN1_CNTUFORCE_UPMETHOD : R/W ;bitpos:[5:0] ;default: 6'h20 ; */
|
/*description: Update method for continuous software force of PWM generator1.
|
0: immediate bit0: TEZ bit1: TEP bit2: TEA bit3: TEB bit4: sync bit5: disable update. (TEA/B here and below means an event generated when timer value equals A/B register)*/
|
#define MCPWM_GEN1_CNTUFORCE_UPMETHOD 0x0000003F
|
#define MCPWM_GEN1_CNTUFORCE_UPMETHOD_M ((MCPWM_GEN1_CNTUFORCE_UPMETHOD_V)<<(MCPWM_GEN1_CNTUFORCE_UPMETHOD_S))
|
#define MCPWM_GEN1_CNTUFORCE_UPMETHOD_V 0x3F
|
#define MCPWM_GEN1_CNTUFORCE_UPMETHOD_S 0
|
|
#define MCPWM_GEN1_A_REG(i) (REG_MCPWM_BASE(i) + 0x0088)
|
/* MCPWM_GEN1_A_DT1 : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event_t1 when timer decreasing.
|
0: no change 1: low 2: high 3: toggle*/
|
#define MCPWM_GEN1_A_DT1 0x00000003
|
#define MCPWM_GEN1_A_DT1_M ((MCPWM_GEN1_A_DT1_V)<<(MCPWM_GEN1_A_DT1_S))
|
#define MCPWM_GEN1_A_DT1_V 0x3
|
#define MCPWM_GEN1_A_DT1_S 22
|
/* MCPWM_GEN1_A_DT0 : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event_t0 when timer decreasing*/
|
#define MCPWM_GEN1_A_DT0 0x00000003
|
#define MCPWM_GEN1_A_DT0_M ((MCPWM_GEN1_A_DT0_V)<<(MCPWM_GEN1_A_DT0_S))
|
#define MCPWM_GEN1_A_DT0_V 0x3
|
#define MCPWM_GEN1_A_DT0_S 20
|
/* MCPWM_GEN1_A_DTEB : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEB when timer decreasing*/
|
#define MCPWM_GEN1_A_DTEB 0x00000003
|
#define MCPWM_GEN1_A_DTEB_M ((MCPWM_GEN1_A_DTEB_V)<<(MCPWM_GEN1_A_DTEB_S))
|
#define MCPWM_GEN1_A_DTEB_V 0x3
|
#define MCPWM_GEN1_A_DTEB_S 18
|
/* MCPWM_GEN1_A_DTEA : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEA when timer decreasing*/
|
#define MCPWM_GEN1_A_DTEA 0x00000003
|
#define MCPWM_GEN1_A_DTEA_M ((MCPWM_GEN1_A_DTEA_V)<<(MCPWM_GEN1_A_DTEA_S))
|
#define MCPWM_GEN1_A_DTEA_V 0x3
|
#define MCPWM_GEN1_A_DTEA_S 16
|
/* MCPWM_GEN1_A_DTEP : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEP when timer decreasing*/
|
#define MCPWM_GEN1_A_DTEP 0x00000003
|
#define MCPWM_GEN1_A_DTEP_M ((MCPWM_GEN1_A_DTEP_V)<<(MCPWM_GEN1_A_DTEP_S))
|
#define MCPWM_GEN1_A_DTEP_V 0x3
|
#define MCPWM_GEN1_A_DTEP_S 14
|
/* MCPWM_GEN1_A_DTEZ : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEZ when timer decreasing*/
|
#define MCPWM_GEN1_A_DTEZ 0x00000003
|
#define MCPWM_GEN1_A_DTEZ_M ((MCPWM_GEN1_A_DTEZ_V)<<(MCPWM_GEN1_A_DTEZ_S))
|
#define MCPWM_GEN1_A_DTEZ_V 0x3
|
#define MCPWM_GEN1_A_DTEZ_S 12
|
/* MCPWM_GEN1_A_UT1 : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event_t1 when timer increasing*/
|
#define MCPWM_GEN1_A_UT1 0x00000003
|
#define MCPWM_GEN1_A_UT1_M ((MCPWM_GEN1_A_UT1_V)<<(MCPWM_GEN1_A_UT1_S))
|
#define MCPWM_GEN1_A_UT1_V 0x3
|
#define MCPWM_GEN1_A_UT1_S 10
|
/* MCPWM_GEN1_A_UT0 : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event_t0 when timer increasing*/
|
#define MCPWM_GEN1_A_UT0 0x00000003
|
#define MCPWM_GEN1_A_UT0_M ((MCPWM_GEN1_A_UT0_V)<<(MCPWM_GEN1_A_UT0_S))
|
#define MCPWM_GEN1_A_UT0_V 0x3
|
#define MCPWM_GEN1_A_UT0_S 8
|
/* MCPWM_GEN1_A_UTEB : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEB when timer increasing*/
|
#define MCPWM_GEN1_A_UTEB 0x00000003
|
#define MCPWM_GEN1_A_UTEB_M ((MCPWM_GEN1_A_UTEB_V)<<(MCPWM_GEN1_A_UTEB_S))
|
#define MCPWM_GEN1_A_UTEB_V 0x3
|
#define MCPWM_GEN1_A_UTEB_S 6
|
/* MCPWM_GEN1_A_UTEA : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEA when timer increasing*/
|
#define MCPWM_GEN1_A_UTEA 0x00000003
|
#define MCPWM_GEN1_A_UTEA_M ((MCPWM_GEN1_A_UTEA_V)<<(MCPWM_GEN1_A_UTEA_S))
|
#define MCPWM_GEN1_A_UTEA_V 0x3
|
#define MCPWM_GEN1_A_UTEA_S 4
|
/* MCPWM_GEN1_A_UTEP : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEP when timer increasing*/
|
#define MCPWM_GEN1_A_UTEP 0x00000003
|
#define MCPWM_GEN1_A_UTEP_M ((MCPWM_GEN1_A_UTEP_V)<<(MCPWM_GEN1_A_UTEP_S))
|
#define MCPWM_GEN1_A_UTEP_V 0x3
|
#define MCPWM_GEN1_A_UTEP_S 2
|
/* MCPWM_GEN1_A_UTEZ : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Action on PWM1A triggered by event TEZ when timer increasing*/
|
#define MCPWM_GEN1_A_UTEZ 0x00000003
|
#define MCPWM_GEN1_A_UTEZ_M ((MCPWM_GEN1_A_UTEZ_V)<<(MCPWM_GEN1_A_UTEZ_S))
|
#define MCPWM_GEN1_A_UTEZ_V 0x3
|
#define MCPWM_GEN1_A_UTEZ_S 0
|
|
#define MCPWM_GEN1_B_REG(i) (REG_MCPWM_BASE(i) + 0x008c)
|
/* MCPWM_GEN1_B_DT1 : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event_t1 when timer decreasing.
|
0: no change 1: low 2: high 3: toggle*/
|
#define MCPWM_GEN1_B_DT1 0x00000003
|
#define MCPWM_GEN1_B_DT1_M ((MCPWM_GEN1_B_DT1_V)<<(MCPWM_GEN1_B_DT1_S))
|
#define MCPWM_GEN1_B_DT1_V 0x3
|
#define MCPWM_GEN1_B_DT1_S 22
|
/* MCPWM_GEN1_B_DT0 : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event_t0 when timer decreasing*/
|
#define MCPWM_GEN1_B_DT0 0x00000003
|
#define MCPWM_GEN1_B_DT0_M ((MCPWM_GEN1_B_DT0_V)<<(MCPWM_GEN1_B_DT0_S))
|
#define MCPWM_GEN1_B_DT0_V 0x3
|
#define MCPWM_GEN1_B_DT0_S 20
|
/* MCPWM_GEN1_B_DTEB : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEB when timer decreasing*/
|
#define MCPWM_GEN1_B_DTEB 0x00000003
|
#define MCPWM_GEN1_B_DTEB_M ((MCPWM_GEN1_B_DTEB_V)<<(MCPWM_GEN1_B_DTEB_S))
|
#define MCPWM_GEN1_B_DTEB_V 0x3
|
#define MCPWM_GEN1_B_DTEB_S 18
|
/* MCPWM_GEN1_B_DTEA : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEA when timer decreasing*/
|
#define MCPWM_GEN1_B_DTEA 0x00000003
|
#define MCPWM_GEN1_B_DTEA_M ((MCPWM_GEN1_B_DTEA_V)<<(MCPWM_GEN1_B_DTEA_S))
|
#define MCPWM_GEN1_B_DTEA_V 0x3
|
#define MCPWM_GEN1_B_DTEA_S 16
|
/* MCPWM_GEN1_B_DTEP : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEP when timer decreasing*/
|
#define MCPWM_GEN1_B_DTEP 0x00000003
|
#define MCPWM_GEN1_B_DTEP_M ((MCPWM_GEN1_B_DTEP_V)<<(MCPWM_GEN1_B_DTEP_S))
|
#define MCPWM_GEN1_B_DTEP_V 0x3
|
#define MCPWM_GEN1_B_DTEP_S 14
|
/* MCPWM_GEN1_B_DTEZ : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEZ when timer decreasing*/
|
#define MCPWM_GEN1_B_DTEZ 0x00000003
|
#define MCPWM_GEN1_B_DTEZ_M ((MCPWM_GEN1_B_DTEZ_V)<<(MCPWM_GEN1_B_DTEZ_S))
|
#define MCPWM_GEN1_B_DTEZ_V 0x3
|
#define MCPWM_GEN1_B_DTEZ_S 12
|
/* MCPWM_GEN1_B_UT1 : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event_t1 when timer increasing*/
|
#define MCPWM_GEN1_B_UT1 0x00000003
|
#define MCPWM_GEN1_B_UT1_M ((MCPWM_GEN1_B_UT1_V)<<(MCPWM_GEN1_B_UT1_S))
|
#define MCPWM_GEN1_B_UT1_V 0x3
|
#define MCPWM_GEN1_B_UT1_S 10
|
/* MCPWM_GEN1_B_UT0 : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event_t0 when timer increasing*/
|
#define MCPWM_GEN1_B_UT0 0x00000003
|
#define MCPWM_GEN1_B_UT0_M ((MCPWM_GEN1_B_UT0_V)<<(MCPWM_GEN1_B_UT0_S))
|
#define MCPWM_GEN1_B_UT0_V 0x3
|
#define MCPWM_GEN1_B_UT0_S 8
|
/* MCPWM_GEN1_B_UTEB : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEB when timer increasing*/
|
#define MCPWM_GEN1_B_UTEB 0x00000003
|
#define MCPWM_GEN1_B_UTEB_M ((MCPWM_GEN1_B_UTEB_V)<<(MCPWM_GEN1_B_UTEB_S))
|
#define MCPWM_GEN1_B_UTEB_V 0x3
|
#define MCPWM_GEN1_B_UTEB_S 6
|
/* MCPWM_GEN1_B_UTEA : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEA when timer increasing*/
|
#define MCPWM_GEN1_B_UTEA 0x00000003
|
#define MCPWM_GEN1_B_UTEA_M ((MCPWM_GEN1_B_UTEA_V)<<(MCPWM_GEN1_B_UTEA_S))
|
#define MCPWM_GEN1_B_UTEA_V 0x3
|
#define MCPWM_GEN1_B_UTEA_S 4
|
/* MCPWM_GEN1_B_UTEP : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEP when timer increasing*/
|
#define MCPWM_GEN1_B_UTEP 0x00000003
|
#define MCPWM_GEN1_B_UTEP_M ((MCPWM_GEN1_B_UTEP_V)<<(MCPWM_GEN1_B_UTEP_S))
|
#define MCPWM_GEN1_B_UTEP_V 0x3
|
#define MCPWM_GEN1_B_UTEP_S 2
|
/* MCPWM_GEN1_B_UTEZ : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Action on PWM1B triggered by event TEZ when timer increasing*/
|
#define MCPWM_GEN1_B_UTEZ 0x00000003
|
#define MCPWM_GEN1_B_UTEZ_M ((MCPWM_GEN1_B_UTEZ_V)<<(MCPWM_GEN1_B_UTEZ_S))
|
#define MCPWM_GEN1_B_UTEZ_V 0x3
|
#define MCPWM_GEN1_B_UTEZ_S 0
|
|
#define MCPWM_DT1_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0090)
|
/* MCPWM_DT1_CLK_SEL : R/W ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: Dead time generator 1 clock selection. 0: PWM_clk 1: PT_clk*/
|
#define MCPWM_DT1_CLK_SEL (BIT(17))
|
#define MCPWM_DT1_CLK_SEL_M (BIT(17))
|
#define MCPWM_DT1_CLK_SEL_V 0x1
|
#define MCPWM_DT1_CLK_SEL_S 17
|
/* MCPWM_DT1_B_OUTBYPASS : R/W ;bitpos:[16] ;default: 1'd1 ; */
|
/*description: S0 in documentation*/
|
#define MCPWM_DT1_B_OUTBYPASS (BIT(16))
|
#define MCPWM_DT1_B_OUTBYPASS_M (BIT(16))
|
#define MCPWM_DT1_B_OUTBYPASS_V 0x1
|
#define MCPWM_DT1_B_OUTBYPASS_S 16
|
/* MCPWM_DT1_A_OUTBYPASS : R/W ;bitpos:[15] ;default: 1'd1 ; */
|
/*description: S1 in documentation*/
|
#define MCPWM_DT1_A_OUTBYPASS (BIT(15))
|
#define MCPWM_DT1_A_OUTBYPASS_M (BIT(15))
|
#define MCPWM_DT1_A_OUTBYPASS_V 0x1
|
#define MCPWM_DT1_A_OUTBYPASS_S 15
|
/* MCPWM_DT1_FED_OUTINVERT : R/W ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: S3 in documentation*/
|
#define MCPWM_DT1_FED_OUTINVERT (BIT(14))
|
#define MCPWM_DT1_FED_OUTINVERT_M (BIT(14))
|
#define MCPWM_DT1_FED_OUTINVERT_V 0x1
|
#define MCPWM_DT1_FED_OUTINVERT_S 14
|
/* MCPWM_DT1_RED_OUTINVERT : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: S2 in documentation*/
|
#define MCPWM_DT1_RED_OUTINVERT (BIT(13))
|
#define MCPWM_DT1_RED_OUTINVERT_M (BIT(13))
|
#define MCPWM_DT1_RED_OUTINVERT_V 0x1
|
#define MCPWM_DT1_RED_OUTINVERT_S 13
|
/* MCPWM_DT1_FED_INSEL : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: S5 in documentation*/
|
#define MCPWM_DT1_FED_INSEL (BIT(12))
|
#define MCPWM_DT1_FED_INSEL_M (BIT(12))
|
#define MCPWM_DT1_FED_INSEL_V 0x1
|
#define MCPWM_DT1_FED_INSEL_S 12
|
/* MCPWM_DT1_RED_INSEL : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: S4 in documentation*/
|
#define MCPWM_DT1_RED_INSEL (BIT(11))
|
#define MCPWM_DT1_RED_INSEL_M (BIT(11))
|
#define MCPWM_DT1_RED_INSEL_V 0x1
|
#define MCPWM_DT1_RED_INSEL_S 11
|
/* MCPWM_DT1_B_OUTSWAP : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: S7 in documentation*/
|
#define MCPWM_DT1_B_OUTSWAP (BIT(10))
|
#define MCPWM_DT1_B_OUTSWAP_M (BIT(10))
|
#define MCPWM_DT1_B_OUTSWAP_V 0x1
|
#define MCPWM_DT1_B_OUTSWAP_S 10
|
/* MCPWM_DT1_A_OUTSWAP : R/W ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: S6 in documentation*/
|
#define MCPWM_DT1_A_OUTSWAP (BIT(9))
|
#define MCPWM_DT1_A_OUTSWAP_M (BIT(9))
|
#define MCPWM_DT1_A_OUTSWAP_V 0x1
|
#define MCPWM_DT1_A_OUTSWAP_S 9
|
/* MCPWM_DT1_DEB_MODE : R/W ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: S8 in documentation dual-edge B mode 0: FED/RED take effect
|
on different path separately 1: FED/RED take effect on B path A out is in bypass or normal operation mode*/
|
#define MCPWM_DT1_DEB_MODE (BIT(8))
|
#define MCPWM_DT1_DEB_MODE_M (BIT(8))
|
#define MCPWM_DT1_DEB_MODE_V 0x1
|
#define MCPWM_DT1_DEB_MODE_S 8
|
/* MCPWM_DT1_RED_UPMETHOD : R/W ;bitpos:[7:4] ;default: 4'd0 ; */
|
/*description: Update method for RED (rising edge delay) active reg. 0: immediate
|
bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_DT1_RED_UPMETHOD 0x0000000F
|
#define MCPWM_DT1_RED_UPMETHOD_M ((MCPWM_DT1_RED_UPMETHOD_V)<<(MCPWM_DT1_RED_UPMETHOD_S))
|
#define MCPWM_DT1_RED_UPMETHOD_V 0xF
|
#define MCPWM_DT1_RED_UPMETHOD_S 4
|
/* MCPWM_DT1_FED_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for FED (falling edge delay) active reg. 0: immediate
|
bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_DT1_FED_UPMETHOD 0x0000000F
|
#define MCPWM_DT1_FED_UPMETHOD_M ((MCPWM_DT1_FED_UPMETHOD_V)<<(MCPWM_DT1_FED_UPMETHOD_S))
|
#define MCPWM_DT1_FED_UPMETHOD_V 0xF
|
#define MCPWM_DT1_FED_UPMETHOD_S 0
|
|
#define MCPWM_DT1_FED_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0094)
|
/* MCPWM_DT1_FED : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Shadow reg for FED*/
|
#define MCPWM_DT1_FED 0x0000FFFF
|
#define MCPWM_DT1_FED_M ((MCPWM_DT1_FED_V)<<(MCPWM_DT1_FED_S))
|
#define MCPWM_DT1_FED_V 0xFFFF
|
#define MCPWM_DT1_FED_S 0
|
|
#define MCPWM_DT1_RED_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x0098)
|
/* MCPWM_DT1_RED : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Shadow reg for RED*/
|
#define MCPWM_DT1_RED 0x0000FFFF
|
#define MCPWM_DT1_RED_M ((MCPWM_DT1_RED_V)<<(MCPWM_DT1_RED_S))
|
#define MCPWM_DT1_RED_V 0xFFFF
|
#define MCPWM_DT1_RED_S 0
|
|
#define MCPWM_CARRIER1_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x009c)
|
/* MCPWM_CARRIER1_IN_INVERT : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: When set invert the input of PWM1A and PWM1B for this submodule*/
|
#define MCPWM_CARRIER1_IN_INVERT (BIT(13))
|
#define MCPWM_CARRIER1_IN_INVERT_M (BIT(13))
|
#define MCPWM_CARRIER1_IN_INVERT_V 0x1
|
#define MCPWM_CARRIER1_IN_INVERT_S 13
|
/* MCPWM_CARRIER1_OUT_INVERT : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: When set invert the output of PWM1A and PWM1B for this submodule*/
|
#define MCPWM_CARRIER1_OUT_INVERT (BIT(12))
|
#define MCPWM_CARRIER1_OUT_INVERT_M (BIT(12))
|
#define MCPWM_CARRIER1_OUT_INVERT_V 0x1
|
#define MCPWM_CARRIER1_OUT_INVERT_S 12
|
/* MCPWM_CARRIER1_OSHWTH : R/W ;bitpos:[11:8] ;default: 4'd0 ; */
|
/*description: Width of the fist pulse in number of periods of the carrier*/
|
#define MCPWM_CARRIER1_OSHWTH 0x0000000F
|
#define MCPWM_CARRIER1_OSHWTH_M ((MCPWM_CARRIER1_OSHWTH_V)<<(MCPWM_CARRIER1_OSHWTH_S))
|
#define MCPWM_CARRIER1_OSHWTH_V 0xF
|
#define MCPWM_CARRIER1_OSHWTH_S 8
|
/* MCPWM_CARRIER1_DUTY : R/W ;bitpos:[7:5] ;default: 3'd0 ; */
|
/*description: Carrier duty selection. Duty = PWM_CARRIER1_DUTY / 8*/
|
#define MCPWM_CARRIER1_DUTY 0x00000007
|
#define MCPWM_CARRIER1_DUTY_M ((MCPWM_CARRIER1_DUTY_V)<<(MCPWM_CARRIER1_DUTY_S))
|
#define MCPWM_CARRIER1_DUTY_V 0x7
|
#define MCPWM_CARRIER1_DUTY_S 5
|
/* MCPWM_CARRIER1_PRESCALE : R/W ;bitpos:[4:1] ;default: 4'd0 ; */
|
/*description: PWM carrier1 clock (PC_clk) prescale value. Period of PC_clk
|
= period of PWM_clk * (PWM_CARRIER1_PRESCALE + 1)*/
|
#define MCPWM_CARRIER1_PRESCALE 0x0000000F
|
#define MCPWM_CARRIER1_PRESCALE_M ((MCPWM_CARRIER1_PRESCALE_V)<<(MCPWM_CARRIER1_PRESCALE_S))
|
#define MCPWM_CARRIER1_PRESCALE_V 0xF
|
#define MCPWM_CARRIER1_PRESCALE_S 1
|
/* MCPWM_CARRIER1_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set carrier1 function is enabled. When cleared carrier1 is bypassed*/
|
#define MCPWM_CARRIER1_EN (BIT(0))
|
#define MCPWM_CARRIER1_EN_M (BIT(0))
|
#define MCPWM_CARRIER1_EN_V 0x1
|
#define MCPWM_CARRIER1_EN_S 0
|
|
#define MCPWM_FH1_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x00a0)
|
/* MCPWM_FH1_B_OST_U : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM1B when fault event occurs and timer
|
is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_B_OST_U 0x00000003
|
#define MCPWM_FH1_B_OST_U_M ((MCPWM_FH1_B_OST_U_V)<<(MCPWM_FH1_B_OST_U_S))
|
#define MCPWM_FH1_B_OST_U_V 0x3
|
#define MCPWM_FH1_B_OST_U_S 22
|
/* MCPWM_FH1_B_OST_D : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM1B when fault event occurs and timer
|
is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_B_OST_D 0x00000003
|
#define MCPWM_FH1_B_OST_D_M ((MCPWM_FH1_B_OST_D_V)<<(MCPWM_FH1_B_OST_D_S))
|
#define MCPWM_FH1_B_OST_D_V 0x3
|
#define MCPWM_FH1_B_OST_D_S 20
|
/* MCPWM_FH1_B_CBC_U : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM1B when fault event occurs and
|
timer is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_B_CBC_U 0x00000003
|
#define MCPWM_FH1_B_CBC_U_M ((MCPWM_FH1_B_CBC_U_V)<<(MCPWM_FH1_B_CBC_U_S))
|
#define MCPWM_FH1_B_CBC_U_V 0x3
|
#define MCPWM_FH1_B_CBC_U_S 18
|
/* MCPWM_FH1_B_CBC_D : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM1B when fault event occurs and
|
timer is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_B_CBC_D 0x00000003
|
#define MCPWM_FH1_B_CBC_D_M ((MCPWM_FH1_B_CBC_D_V)<<(MCPWM_FH1_B_CBC_D_S))
|
#define MCPWM_FH1_B_CBC_D_V 0x3
|
#define MCPWM_FH1_B_CBC_D_S 16
|
/* MCPWM_FH1_A_OST_U : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM1A when fault event occurs and timer
|
is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_A_OST_U 0x00000003
|
#define MCPWM_FH1_A_OST_U_M ((MCPWM_FH1_A_OST_U_V)<<(MCPWM_FH1_A_OST_U_S))
|
#define MCPWM_FH1_A_OST_U_V 0x3
|
#define MCPWM_FH1_A_OST_U_S 14
|
/* MCPWM_FH1_A_OST_D : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM1A when fault event occurs and timer
|
is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_A_OST_D 0x00000003
|
#define MCPWM_FH1_A_OST_D_M ((MCPWM_FH1_A_OST_D_V)<<(MCPWM_FH1_A_OST_D_S))
|
#define MCPWM_FH1_A_OST_D_V 0x3
|
#define MCPWM_FH1_A_OST_D_S 12
|
/* MCPWM_FH1_A_CBC_U : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM1A when fault event occurs and
|
timer is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_A_CBC_U 0x00000003
|
#define MCPWM_FH1_A_CBC_U_M ((MCPWM_FH1_A_CBC_U_V)<<(MCPWM_FH1_A_CBC_U_S))
|
#define MCPWM_FH1_A_CBC_U_V 0x3
|
#define MCPWM_FH1_A_CBC_U_S 10
|
/* MCPWM_FH1_A_CBC_D : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM1A when fault event occurs and
|
timer is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH1_A_CBC_D 0x00000003
|
#define MCPWM_FH1_A_CBC_D_M ((MCPWM_FH1_A_CBC_D_V)<<(MCPWM_FH1_A_CBC_D_S))
|
#define MCPWM_FH1_A_CBC_D_V 0x3
|
#define MCPWM_FH1_A_CBC_D_S 8
|
/* MCPWM_FH1_F0_OST : R/W ;bitpos:[7] ;default: 1'd0 ; */
|
/*description: event_f0 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_F0_OST (BIT(7))
|
#define MCPWM_FH1_F0_OST_M (BIT(7))
|
#define MCPWM_FH1_F0_OST_V 0x1
|
#define MCPWM_FH1_F0_OST_S 7
|
/* MCPWM_FH1_F1_OST : R/W ;bitpos:[6] ;default: 1'd0 ; */
|
/*description: event_f1 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_F1_OST (BIT(6))
|
#define MCPWM_FH1_F1_OST_M (BIT(6))
|
#define MCPWM_FH1_F1_OST_V 0x1
|
#define MCPWM_FH1_F1_OST_S 6
|
/* MCPWM_FH1_F2_OST : R/W ;bitpos:[5] ;default: 1'd0 ; */
|
/*description: event_f2 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_F2_OST (BIT(5))
|
#define MCPWM_FH1_F2_OST_M (BIT(5))
|
#define MCPWM_FH1_F2_OST_V 0x1
|
#define MCPWM_FH1_F2_OST_S 5
|
/* MCPWM_FH1_SW_OST : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: Enable register for software force one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_SW_OST (BIT(4))
|
#define MCPWM_FH1_SW_OST_M (BIT(4))
|
#define MCPWM_FH1_SW_OST_V 0x1
|
#define MCPWM_FH1_SW_OST_S 4
|
/* MCPWM_FH1_F0_CBC : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: event_f0 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_F0_CBC (BIT(3))
|
#define MCPWM_FH1_F0_CBC_M (BIT(3))
|
#define MCPWM_FH1_F0_CBC_V 0x1
|
#define MCPWM_FH1_F0_CBC_S 3
|
/* MCPWM_FH1_F1_CBC : R/W ;bitpos:[2] ;default: 1'd0 ; */
|
/*description: event_f1 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_F1_CBC (BIT(2))
|
#define MCPWM_FH1_F1_CBC_M (BIT(2))
|
#define MCPWM_FH1_F1_CBC_V 0x1
|
#define MCPWM_FH1_F1_CBC_S 2
|
/* MCPWM_FH1_F2_CBC : R/W ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: event_f2 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH1_F2_CBC (BIT(1))
|
#define MCPWM_FH1_F2_CBC_M (BIT(1))
|
#define MCPWM_FH1_F2_CBC_V 0x1
|
#define MCPWM_FH1_F2_CBC_S 1
|
/* MCPWM_FH1_SW_CBC : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Enable register for software force cycle-by-cycle mode action.
|
0: disable 1: enable*/
|
#define MCPWM_FH1_SW_CBC (BIT(0))
|
#define MCPWM_FH1_SW_CBC_M (BIT(0))
|
#define MCPWM_FH1_SW_CBC_V 0x1
|
#define MCPWM_FH1_SW_CBC_S 0
|
|
#define MCPWM_FH1_CFG1_REG(i) (REG_MCPWM_BASE(i) + 0x00a4)
|
/* MCPWM_FH1_FORCE_OST : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) triggers a
|
one-shot mode action*/
|
#define MCPWM_FH1_FORCE_OST (BIT(4))
|
#define MCPWM_FH1_FORCE_OST_M (BIT(4))
|
#define MCPWM_FH1_FORCE_OST_V 0x1
|
#define MCPWM_FH1_FORCE_OST_S 4
|
/* MCPWM_FH1_FORCE_CBC : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: A toggle triggers a cycle-by-cycle mode action*/
|
#define MCPWM_FH1_FORCE_CBC (BIT(3))
|
#define MCPWM_FH1_FORCE_CBC_M (BIT(3))
|
#define MCPWM_FH1_FORCE_CBC_V 0x1
|
#define MCPWM_FH1_FORCE_CBC_S 3
|
/* MCPWM_FH1_CBCPULSE : R/W ;bitpos:[2:1] ;default: 2'd0 ; */
|
/*description: The cycle-by-cycle mode action refresh moment selection. Bit0: TEZ bit1:TEP*/
|
#define MCPWM_FH1_CBCPULSE 0x00000003
|
#define MCPWM_FH1_CBCPULSE_M ((MCPWM_FH1_CBCPULSE_V)<<(MCPWM_FH1_CBCPULSE_S))
|
#define MCPWM_FH1_CBCPULSE_V 0x3
|
#define MCPWM_FH1_CBCPULSE_S 1
|
/* MCPWM_FH1_CLR_OST : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: A toggle will clear on going one-shot mode action*/
|
#define MCPWM_FH1_CLR_OST (BIT(0))
|
#define MCPWM_FH1_CLR_OST_M (BIT(0))
|
#define MCPWM_FH1_CLR_OST_V 0x1
|
#define MCPWM_FH1_CLR_OST_S 0
|
|
#define MCPWM_FH1_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x00a8)
|
/* MCPWM_FH1_OST_ON : RO ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set an one-shot mode action is on going*/
|
#define MCPWM_FH1_OST_ON (BIT(1))
|
#define MCPWM_FH1_OST_ON_M (BIT(1))
|
#define MCPWM_FH1_OST_ON_V 0x1
|
#define MCPWM_FH1_OST_ON_S 1
|
/* MCPWM_FH1_CBC_ON : RO ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set an cycle-by-cycle mode action is on going*/
|
#define MCPWM_FH1_CBC_ON (BIT(0))
|
#define MCPWM_FH1_CBC_ON_M (BIT(0))
|
#define MCPWM_FH1_CBC_ON_V 0x1
|
#define MCPWM_FH1_CBC_ON_S 0
|
|
#define MCPWM_GEN2_STMP_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00ac)
|
/* MCPWM_GEN2_B_SHDW_FULL : RO ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set PWM generator 2 time stamp
|
B's shadow reg is filled and waiting to be transferred to B's active reg. If cleared B's active reg has been updated with shadow reg latest value*/
|
#define MCPWM_GEN2_B_SHDW_FULL (BIT(9))
|
#define MCPWM_GEN2_B_SHDW_FULL_M (BIT(9))
|
#define MCPWM_GEN2_B_SHDW_FULL_V 0x1
|
#define MCPWM_GEN2_B_SHDW_FULL_S 9
|
/* MCPWM_GEN2_A_SHDW_FULL : RO ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set PWM generator 2 time stamp
|
A's shadow reg is filled and waiting to be transferred to A's active reg. If cleared A's active reg has been updated with shadow reg latest value*/
|
#define MCPWM_GEN2_A_SHDW_FULL (BIT(8))
|
#define MCPWM_GEN2_A_SHDW_FULL_M (BIT(8))
|
#define MCPWM_GEN2_A_SHDW_FULL_V 0x1
|
#define MCPWM_GEN2_A_SHDW_FULL_S 8
|
/* MCPWM_GEN2_B_UPMETHOD : R/W ;bitpos:[7:4] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 2 time stamp B's active reg.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_GEN2_B_UPMETHOD 0x0000000F
|
#define MCPWM_GEN2_B_UPMETHOD_M ((MCPWM_GEN2_B_UPMETHOD_V)<<(MCPWM_GEN2_B_UPMETHOD_S))
|
#define MCPWM_GEN2_B_UPMETHOD_V 0xF
|
#define MCPWM_GEN2_B_UPMETHOD_S 4
|
/* MCPWM_GEN2_A_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for PWM generator 2 time stamp A's active reg.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_GEN2_A_UPMETHOD 0x0000000F
|
#define MCPWM_GEN2_A_UPMETHOD_M ((MCPWM_GEN2_A_UPMETHOD_V)<<(MCPWM_GEN2_A_UPMETHOD_S))
|
#define MCPWM_GEN2_A_UPMETHOD_V 0xF
|
#define MCPWM_GEN2_A_UPMETHOD_S 0
|
|
#define MCPWM_GEN2_TSTMP_A_REG(i) (REG_MCPWM_BASE(i) + 0x00b0)
|
/* MCPWM_GEN2_A : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: PWM generator 2 time stamp A's shadow reg*/
|
#define MCPWM_GEN2_A 0x0000FFFF
|
#define MCPWM_GEN2_A_M ((MCPWM_GEN2_A_V)<<(MCPWM_GEN2_A_S))
|
#define MCPWM_GEN2_A_V 0xFFFF
|
#define MCPWM_GEN2_A_S 0
|
|
#define MCPWM_GEN2_TSTMP_B_REG(i) (REG_MCPWM_BASE(i) + 0x00b4)
|
/* MCPWM_GEN2_B : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: PWM generator 2 time stamp B's shadow reg*/
|
#define MCPWM_GEN2_B 0x0000FFFF
|
#define MCPWM_GEN2_B_M ((MCPWM_GEN2_B_V)<<(MCPWM_GEN2_B_S))
|
#define MCPWM_GEN2_B_V 0xFFFF
|
#define MCPWM_GEN2_B_S 0
|
|
#define MCPWM_GEN2_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x00b8)
|
/* MCPWM_GEN2_T1_SEL : R/W ;bitpos:[9:7] ;default: 3'd0 ; */
|
/*description: Source selection for PWM generate2 event_t1 take effect immediately
|
0: fault_event0 1: fault_event1 2: fault_event2 3: sync_taken 4: none*/
|
#define MCPWM_GEN2_T1_SEL 0x00000007
|
#define MCPWM_GEN2_T1_SEL_M ((MCPWM_GEN2_T1_SEL_V)<<(MCPWM_GEN2_T1_SEL_S))
|
#define MCPWM_GEN2_T1_SEL_V 0x7
|
#define MCPWM_GEN2_T1_SEL_S 7
|
/* MCPWM_GEN2_T0_SEL : R/W ;bitpos:[6:4] ;default: 3'd0 ; */
|
/*description: Source selection for PWM generate2 event_t0 take effect immediately
|
0: fault_event0 1: fault_event1 2: fault_event2 3: sync_taken 4: none*/
|
#define MCPWM_GEN2_T0_SEL 0x00000007
|
#define MCPWM_GEN2_T0_SEL_M ((MCPWM_GEN2_T0_SEL_V)<<(MCPWM_GEN2_T0_SEL_S))
|
#define MCPWM_GEN2_T0_SEL_V 0x7
|
#define MCPWM_GEN2_T0_SEL_S 4
|
/* MCPWM_GEN2_CFG_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for PWM generate2's active reg of configuration.
|
0: immediate bit0: TEZ bit1: TEP bit2: sync. bit3: disable update*/
|
#define MCPWM_GEN2_CFG_UPMETHOD 0x0000000F
|
#define MCPWM_GEN2_CFG_UPMETHOD_M ((MCPWM_GEN2_CFG_UPMETHOD_V)<<(MCPWM_GEN2_CFG_UPMETHOD_S))
|
#define MCPWM_GEN2_CFG_UPMETHOD_V 0xF
|
#define MCPWM_GEN2_CFG_UPMETHOD_S 0
|
|
#define MCPWM_GEN2_FORCE_REG(i) (REG_MCPWM_BASE(i) + 0x00bc)
|
/* MCPWM_GEN2_B_NCIFORCE_MODE : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Non-continuous immediate software force mode for PWM2B 0: disabled
|
1: low 2: high 3: disabled*/
|
#define MCPWM_GEN2_B_NCIFORCE_MODE 0x00000003
|
#define MCPWM_GEN2_B_NCIFORCE_MODE_M ((MCPWM_GEN2_B_NCIFORCE_MODE_V)<<(MCPWM_GEN2_B_NCIFORCE_MODE_S))
|
#define MCPWM_GEN2_B_NCIFORCE_MODE_V 0x3
|
#define MCPWM_GEN2_B_NCIFORCE_MODE_S 14
|
/* MCPWM_GEN2_B_NCIFORCE : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: Non-continuous immediate software force trigger for PWM2B a
|
toggle will trigger a force event*/
|
#define MCPWM_GEN2_B_NCIFORCE (BIT(13))
|
#define MCPWM_GEN2_B_NCIFORCE_M (BIT(13))
|
#define MCPWM_GEN2_B_NCIFORCE_V 0x1
|
#define MCPWM_GEN2_B_NCIFORCE_S 13
|
/* MCPWM_GEN2_A_NCIFORCE_MODE : R/W ;bitpos:[12:11] ;default: 2'd0 ; */
|
/*description: Non-continuous immediate software force mode for PWM2A 0: disabled
|
1: low 2: high 3: disabled*/
|
#define MCPWM_GEN2_A_NCIFORCE_MODE 0x00000003
|
#define MCPWM_GEN2_A_NCIFORCE_MODE_M ((MCPWM_GEN2_A_NCIFORCE_MODE_V)<<(MCPWM_GEN2_A_NCIFORCE_MODE_S))
|
#define MCPWM_GEN2_A_NCIFORCE_MODE_V 0x3
|
#define MCPWM_GEN2_A_NCIFORCE_MODE_S 11
|
/* MCPWM_GEN2_A_NCIFORCE : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: Non-continuous immediate software force trigger for PWM2A a
|
toggle will trigger a force event*/
|
#define MCPWM_GEN2_A_NCIFORCE (BIT(10))
|
#define MCPWM_GEN2_A_NCIFORCE_M (BIT(10))
|
#define MCPWM_GEN2_A_NCIFORCE_V 0x1
|
#define MCPWM_GEN2_A_NCIFORCE_S 10
|
/* MCPWM_GEN2_B_CNTUFORCE_MODE : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Continuous software force mode for PWM2B. 0: disabled 1: low
|
2: high 3: disabled*/
|
#define MCPWM_GEN2_B_CNTUFORCE_MODE 0x00000003
|
#define MCPWM_GEN2_B_CNTUFORCE_MODE_M ((MCPWM_GEN2_B_CNTUFORCE_MODE_V)<<(MCPWM_GEN2_B_CNTUFORCE_MODE_S))
|
#define MCPWM_GEN2_B_CNTUFORCE_MODE_V 0x3
|
#define MCPWM_GEN2_B_CNTUFORCE_MODE_S 8
|
/* MCPWM_GEN2_A_CNTUFORCE_MODE : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Continuous software force mode for PWM2A. 0: disabled 1: low
|
2: high 3: disabled*/
|
#define MCPWM_GEN2_A_CNTUFORCE_MODE 0x00000003
|
#define MCPWM_GEN2_A_CNTUFORCE_MODE_M ((MCPWM_GEN2_A_CNTUFORCE_MODE_V)<<(MCPWM_GEN2_A_CNTUFORCE_MODE_S))
|
#define MCPWM_GEN2_A_CNTUFORCE_MODE_V 0x3
|
#define MCPWM_GEN2_A_CNTUFORCE_MODE_S 6
|
/* MCPWM_GEN2_CNTUFORCE_UPMETHOD : R/W ;bitpos:[5:0] ;default: 6'h20 ; */
|
/*description: Update method for continuous software force of PWM generator2.
|
0: immediate bit0: TEZ bit1: TEP bit2: TEA bit3: TEB bit4: sync bit5: disable update. (TEA/B here and below means an event generated when timer value equals A/B register)*/
|
#define MCPWM_GEN2_CNTUFORCE_UPMETHOD 0x0000003F
|
#define MCPWM_GEN2_CNTUFORCE_UPMETHOD_M ((MCPWM_GEN2_CNTUFORCE_UPMETHOD_V)<<(MCPWM_GEN2_CNTUFORCE_UPMETHOD_S))
|
#define MCPWM_GEN2_CNTUFORCE_UPMETHOD_V 0x3F
|
#define MCPWM_GEN2_CNTUFORCE_UPMETHOD_S 0
|
|
#define MCPWM_GEN2_A_REG(i) (REG_MCPWM_BASE(i) + 0x00c0)
|
/* MCPWM_GEN2_A_DT1 : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event_t1 when timer decreasing.
|
0: no change 1: low 2: high 3: toggle*/
|
#define MCPWM_GEN2_A_DT1 0x00000003
|
#define MCPWM_GEN2_A_DT1_M ((MCPWM_GEN2_A_DT1_V)<<(MCPWM_GEN2_A_DT1_S))
|
#define MCPWM_GEN2_A_DT1_V 0x3
|
#define MCPWM_GEN2_A_DT1_S 22
|
/* MCPWM_GEN2_A_DT0 : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event_t0 when timer decreasing*/
|
#define MCPWM_GEN2_A_DT0 0x00000003
|
#define MCPWM_GEN2_A_DT0_M ((MCPWM_GEN2_A_DT0_V)<<(MCPWM_GEN2_A_DT0_S))
|
#define MCPWM_GEN2_A_DT0_V 0x3
|
#define MCPWM_GEN2_A_DT0_S 20
|
/* MCPWM_GEN2_A_DTEB : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEB when timer decreasing*/
|
#define MCPWM_GEN2_A_DTEB 0x00000003
|
#define MCPWM_GEN2_A_DTEB_M ((MCPWM_GEN2_A_DTEB_V)<<(MCPWM_GEN2_A_DTEB_S))
|
#define MCPWM_GEN2_A_DTEB_V 0x3
|
#define MCPWM_GEN2_A_DTEB_S 18
|
/* MCPWM_GEN2_A_DTEA : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEA when timer decreasing*/
|
#define MCPWM_GEN2_A_DTEA 0x00000003
|
#define MCPWM_GEN2_A_DTEA_M ((MCPWM_GEN2_A_DTEA_V)<<(MCPWM_GEN2_A_DTEA_S))
|
#define MCPWM_GEN2_A_DTEA_V 0x3
|
#define MCPWM_GEN2_A_DTEA_S 16
|
/* MCPWM_GEN2_A_DTEP : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEP when timer decreasing*/
|
#define MCPWM_GEN2_A_DTEP 0x00000003
|
#define MCPWM_GEN2_A_DTEP_M ((MCPWM_GEN2_A_DTEP_V)<<(MCPWM_GEN2_A_DTEP_S))
|
#define MCPWM_GEN2_A_DTEP_V 0x3
|
#define MCPWM_GEN2_A_DTEP_S 14
|
/* MCPWM_GEN2_A_DTEZ : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEZ when timer decreasing*/
|
#define MCPWM_GEN2_A_DTEZ 0x00000003
|
#define MCPWM_GEN2_A_DTEZ_M ((MCPWM_GEN2_A_DTEZ_V)<<(MCPWM_GEN2_A_DTEZ_S))
|
#define MCPWM_GEN2_A_DTEZ_V 0x3
|
#define MCPWM_GEN2_A_DTEZ_S 12
|
/* MCPWM_GEN2_A_UT1 : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event_t1 when timer increasing*/
|
#define MCPWM_GEN2_A_UT1 0x00000003
|
#define MCPWM_GEN2_A_UT1_M ((MCPWM_GEN2_A_UT1_V)<<(MCPWM_GEN2_A_UT1_S))
|
#define MCPWM_GEN2_A_UT1_V 0x3
|
#define MCPWM_GEN2_A_UT1_S 10
|
/* MCPWM_GEN2_A_UT0 : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event_t0 when timer increasing*/
|
#define MCPWM_GEN2_A_UT0 0x00000003
|
#define MCPWM_GEN2_A_UT0_M ((MCPWM_GEN2_A_UT0_V)<<(MCPWM_GEN2_A_UT0_S))
|
#define MCPWM_GEN2_A_UT0_V 0x3
|
#define MCPWM_GEN2_A_UT0_S 8
|
/* MCPWM_GEN2_A_UTEB : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEB when timer increasing*/
|
#define MCPWM_GEN2_A_UTEB 0x00000003
|
#define MCPWM_GEN2_A_UTEB_M ((MCPWM_GEN2_A_UTEB_V)<<(MCPWM_GEN2_A_UTEB_S))
|
#define MCPWM_GEN2_A_UTEB_V 0x3
|
#define MCPWM_GEN2_A_UTEB_S 6
|
/* MCPWM_GEN2_A_UTEA : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEA when timer increasing*/
|
#define MCPWM_GEN2_A_UTEA 0x00000003
|
#define MCPWM_GEN2_A_UTEA_M ((MCPWM_GEN2_A_UTEA_V)<<(MCPWM_GEN2_A_UTEA_S))
|
#define MCPWM_GEN2_A_UTEA_V 0x3
|
#define MCPWM_GEN2_A_UTEA_S 4
|
/* MCPWM_GEN2_A_UTEP : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEP when timer increasing*/
|
#define MCPWM_GEN2_A_UTEP 0x00000003
|
#define MCPWM_GEN2_A_UTEP_M ((MCPWM_GEN2_A_UTEP_V)<<(MCPWM_GEN2_A_UTEP_S))
|
#define MCPWM_GEN2_A_UTEP_V 0x3
|
#define MCPWM_GEN2_A_UTEP_S 2
|
/* MCPWM_GEN2_A_UTEZ : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Action on PWM2A triggered by event TEZ when timer increasing*/
|
#define MCPWM_GEN2_A_UTEZ 0x00000003
|
#define MCPWM_GEN2_A_UTEZ_M ((MCPWM_GEN2_A_UTEZ_V)<<(MCPWM_GEN2_A_UTEZ_S))
|
#define MCPWM_GEN2_A_UTEZ_V 0x3
|
#define MCPWM_GEN2_A_UTEZ_S 0
|
|
#define MCPWM_GEN2_B_REG(i) (REG_MCPWM_BASE(i) + 0x00c4)
|
/* MCPWM_GEN2_B_DT1 : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event_t1 when timer decreasing.
|
0: no change 1: low 2: high 3: toggle*/
|
#define MCPWM_GEN2_B_DT1 0x00000003
|
#define MCPWM_GEN2_B_DT1_M ((MCPWM_GEN2_B_DT1_V)<<(MCPWM_GEN2_B_DT1_S))
|
#define MCPWM_GEN2_B_DT1_V 0x3
|
#define MCPWM_GEN2_B_DT1_S 22
|
/* MCPWM_GEN2_B_DT0 : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event_t0 when timer decreasing*/
|
#define MCPWM_GEN2_B_DT0 0x00000003
|
#define MCPWM_GEN2_B_DT0_M ((MCPWM_GEN2_B_DT0_V)<<(MCPWM_GEN2_B_DT0_S))
|
#define MCPWM_GEN2_B_DT0_V 0x3
|
#define MCPWM_GEN2_B_DT0_S 20
|
/* MCPWM_GEN2_B_DTEB : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEB when timer decreasing*/
|
#define MCPWM_GEN2_B_DTEB 0x00000003
|
#define MCPWM_GEN2_B_DTEB_M ((MCPWM_GEN2_B_DTEB_V)<<(MCPWM_GEN2_B_DTEB_S))
|
#define MCPWM_GEN2_B_DTEB_V 0x3
|
#define MCPWM_GEN2_B_DTEB_S 18
|
/* MCPWM_GEN2_B_DTEA : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEA when timer decreasing*/
|
#define MCPWM_GEN2_B_DTEA 0x00000003
|
#define MCPWM_GEN2_B_DTEA_M ((MCPWM_GEN2_B_DTEA_V)<<(MCPWM_GEN2_B_DTEA_S))
|
#define MCPWM_GEN2_B_DTEA_V 0x3
|
#define MCPWM_GEN2_B_DTEA_S 16
|
/* MCPWM_GEN2_B_DTEP : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEP when timer decreasing*/
|
#define MCPWM_GEN2_B_DTEP 0x00000003
|
#define MCPWM_GEN2_B_DTEP_M ((MCPWM_GEN2_B_DTEP_V)<<(MCPWM_GEN2_B_DTEP_S))
|
#define MCPWM_GEN2_B_DTEP_V 0x3
|
#define MCPWM_GEN2_B_DTEP_S 14
|
/* MCPWM_GEN2_B_DTEZ : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEZ when timer decreasing*/
|
#define MCPWM_GEN2_B_DTEZ 0x00000003
|
#define MCPWM_GEN2_B_DTEZ_M ((MCPWM_GEN2_B_DTEZ_V)<<(MCPWM_GEN2_B_DTEZ_S))
|
#define MCPWM_GEN2_B_DTEZ_V 0x3
|
#define MCPWM_GEN2_B_DTEZ_S 12
|
/* MCPWM_GEN2_B_UT1 : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event_t1 when timer increasing*/
|
#define MCPWM_GEN2_B_UT1 0x00000003
|
#define MCPWM_GEN2_B_UT1_M ((MCPWM_GEN2_B_UT1_V)<<(MCPWM_GEN2_B_UT1_S))
|
#define MCPWM_GEN2_B_UT1_V 0x3
|
#define MCPWM_GEN2_B_UT1_S 10
|
/* MCPWM_GEN2_B_UT0 : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event_t0 when timer increasing*/
|
#define MCPWM_GEN2_B_UT0 0x00000003
|
#define MCPWM_GEN2_B_UT0_M ((MCPWM_GEN2_B_UT0_V)<<(MCPWM_GEN2_B_UT0_S))
|
#define MCPWM_GEN2_B_UT0_V 0x3
|
#define MCPWM_GEN2_B_UT0_S 8
|
/* MCPWM_GEN2_B_UTEB : R/W ;bitpos:[7:6] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEB when timer increasing*/
|
#define MCPWM_GEN2_B_UTEB 0x00000003
|
#define MCPWM_GEN2_B_UTEB_M ((MCPWM_GEN2_B_UTEB_V)<<(MCPWM_GEN2_B_UTEB_S))
|
#define MCPWM_GEN2_B_UTEB_V 0x3
|
#define MCPWM_GEN2_B_UTEB_S 6
|
/* MCPWM_GEN2_B_UTEA : R/W ;bitpos:[5:4] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEA when timer increasing*/
|
#define MCPWM_GEN2_B_UTEA 0x00000003
|
#define MCPWM_GEN2_B_UTEA_M ((MCPWM_GEN2_B_UTEA_V)<<(MCPWM_GEN2_B_UTEA_S))
|
#define MCPWM_GEN2_B_UTEA_V 0x3
|
#define MCPWM_GEN2_B_UTEA_S 4
|
/* MCPWM_GEN2_B_UTEP : R/W ;bitpos:[3:2] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEP when timer increasing*/
|
#define MCPWM_GEN2_B_UTEP 0x00000003
|
#define MCPWM_GEN2_B_UTEP_M ((MCPWM_GEN2_B_UTEP_V)<<(MCPWM_GEN2_B_UTEP_S))
|
#define MCPWM_GEN2_B_UTEP_V 0x3
|
#define MCPWM_GEN2_B_UTEP_S 2
|
/* MCPWM_GEN2_B_UTEZ : R/W ;bitpos:[1:0] ;default: 2'd0 ; */
|
/*description: Action on PWM2B triggered by event TEZ when timer increasing*/
|
#define MCPWM_GEN2_B_UTEZ 0x00000003
|
#define MCPWM_GEN2_B_UTEZ_M ((MCPWM_GEN2_B_UTEZ_V)<<(MCPWM_GEN2_B_UTEZ_S))
|
#define MCPWM_GEN2_B_UTEZ_V 0x3
|
#define MCPWM_GEN2_B_UTEZ_S 0
|
|
#define MCPWM_DT2_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00c8)
|
/* MCPWM_DT2_CLK_SEL : R/W ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: Dead time generator 1 clock selection. 0: PWM_clk 1: PT_clk*/
|
#define MCPWM_DT2_CLK_SEL (BIT(17))
|
#define MCPWM_DT2_CLK_SEL_M (BIT(17))
|
#define MCPWM_DT2_CLK_SEL_V 0x1
|
#define MCPWM_DT2_CLK_SEL_S 17
|
/* MCPWM_DT2_B_OUTBYPASS : R/W ;bitpos:[16] ;default: 1'd1 ; */
|
/*description: S0 in documentation*/
|
#define MCPWM_DT2_B_OUTBYPASS (BIT(16))
|
#define MCPWM_DT2_B_OUTBYPASS_M (BIT(16))
|
#define MCPWM_DT2_B_OUTBYPASS_V 0x1
|
#define MCPWM_DT2_B_OUTBYPASS_S 16
|
/* MCPWM_DT2_A_OUTBYPASS : R/W ;bitpos:[15] ;default: 1'd1 ; */
|
/*description: S1 in documentation*/
|
#define MCPWM_DT2_A_OUTBYPASS (BIT(15))
|
#define MCPWM_DT2_A_OUTBYPASS_M (BIT(15))
|
#define MCPWM_DT2_A_OUTBYPASS_V 0x1
|
#define MCPWM_DT2_A_OUTBYPASS_S 15
|
/* MCPWM_DT2_FED_OUTINVERT : R/W ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: S3 in documentation*/
|
#define MCPWM_DT2_FED_OUTINVERT (BIT(14))
|
#define MCPWM_DT2_FED_OUTINVERT_M (BIT(14))
|
#define MCPWM_DT2_FED_OUTINVERT_V 0x1
|
#define MCPWM_DT2_FED_OUTINVERT_S 14
|
/* MCPWM_DT2_RED_OUTINVERT : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: S2 in documentation*/
|
#define MCPWM_DT2_RED_OUTINVERT (BIT(13))
|
#define MCPWM_DT2_RED_OUTINVERT_M (BIT(13))
|
#define MCPWM_DT2_RED_OUTINVERT_V 0x1
|
#define MCPWM_DT2_RED_OUTINVERT_S 13
|
/* MCPWM_DT2_FED_INSEL : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: S5 in documentation*/
|
#define MCPWM_DT2_FED_INSEL (BIT(12))
|
#define MCPWM_DT2_FED_INSEL_M (BIT(12))
|
#define MCPWM_DT2_FED_INSEL_V 0x1
|
#define MCPWM_DT2_FED_INSEL_S 12
|
/* MCPWM_DT2_RED_INSEL : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: S4 in documentation*/
|
#define MCPWM_DT2_RED_INSEL (BIT(11))
|
#define MCPWM_DT2_RED_INSEL_M (BIT(11))
|
#define MCPWM_DT2_RED_INSEL_V 0x1
|
#define MCPWM_DT2_RED_INSEL_S 11
|
/* MCPWM_DT2_B_OUTSWAP : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: S7 in documentation*/
|
#define MCPWM_DT2_B_OUTSWAP (BIT(10))
|
#define MCPWM_DT2_B_OUTSWAP_M (BIT(10))
|
#define MCPWM_DT2_B_OUTSWAP_V 0x1
|
#define MCPWM_DT2_B_OUTSWAP_S 10
|
/* MCPWM_DT2_A_OUTSWAP : R/W ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: S6 in documentation*/
|
#define MCPWM_DT2_A_OUTSWAP (BIT(9))
|
#define MCPWM_DT2_A_OUTSWAP_M (BIT(9))
|
#define MCPWM_DT2_A_OUTSWAP_V 0x1
|
#define MCPWM_DT2_A_OUTSWAP_S 9
|
/* MCPWM_DT2_DEB_MODE : R/W ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: S8 in documentation dual-edge B mode 0: FED/RED take effect
|
on different path separately 1: FED/RED take effect on B path A out is in bypass or normal operation mode*/
|
#define MCPWM_DT2_DEB_MODE (BIT(8))
|
#define MCPWM_DT2_DEB_MODE_M (BIT(8))
|
#define MCPWM_DT2_DEB_MODE_V 0x1
|
#define MCPWM_DT2_DEB_MODE_S 8
|
/* MCPWM_DT2_RED_UPMETHOD : R/W ;bitpos:[7:4] ;default: 4'd0 ; */
|
/*description: Update method for RED (rising edge delay) active reg. 0: immediate
|
bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_DT2_RED_UPMETHOD 0x0000000F
|
#define MCPWM_DT2_RED_UPMETHOD_M ((MCPWM_DT2_RED_UPMETHOD_V)<<(MCPWM_DT2_RED_UPMETHOD_S))
|
#define MCPWM_DT2_RED_UPMETHOD_V 0xF
|
#define MCPWM_DT2_RED_UPMETHOD_S 4
|
/* MCPWM_DT2_FED_UPMETHOD : R/W ;bitpos:[3:0] ;default: 4'd0 ; */
|
/*description: Update method for FED (falling edge delay) active reg. 0: immediate
|
bit0: TEZ bit1: TEP bit2: sync bit3: disable update*/
|
#define MCPWM_DT2_FED_UPMETHOD 0x0000000F
|
#define MCPWM_DT2_FED_UPMETHOD_M ((MCPWM_DT2_FED_UPMETHOD_V)<<(MCPWM_DT2_FED_UPMETHOD_S))
|
#define MCPWM_DT2_FED_UPMETHOD_V 0xF
|
#define MCPWM_DT2_FED_UPMETHOD_S 0
|
|
#define MCPWM_DT2_FED_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00cc)
|
/* MCPWM_DT2_FED : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Shadow reg for FED*/
|
#define MCPWM_DT2_FED 0x0000FFFF
|
#define MCPWM_DT2_FED_M ((MCPWM_DT2_FED_V)<<(MCPWM_DT2_FED_S))
|
#define MCPWM_DT2_FED_V 0xFFFF
|
#define MCPWM_DT2_FED_S 0
|
|
#define MCPWM_DT2_RED_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00d0)
|
/* MCPWM_DT2_RED : R/W ;bitpos:[15:0] ;default: 16'd0 ; */
|
/*description: Shadow reg for RED*/
|
#define MCPWM_DT2_RED 0x0000FFFF
|
#define MCPWM_DT2_RED_M ((MCPWM_DT2_RED_V)<<(MCPWM_DT2_RED_S))
|
#define MCPWM_DT2_RED_V 0xFFFF
|
#define MCPWM_DT2_RED_S 0
|
|
#define MCPWM_CARRIER2_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00d4)
|
/* MCPWM_CARRIER2_IN_INVERT : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: When set invert the input of PWM2A and PWM2B for this submodule*/
|
#define MCPWM_CARRIER2_IN_INVERT (BIT(13))
|
#define MCPWM_CARRIER2_IN_INVERT_M (BIT(13))
|
#define MCPWM_CARRIER2_IN_INVERT_V 0x1
|
#define MCPWM_CARRIER2_IN_INVERT_S 13
|
/* MCPWM_CARRIER2_OUT_INVERT : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: When set invert the output of PWM2A and PWM2B for this submodule*/
|
#define MCPWM_CARRIER2_OUT_INVERT (BIT(12))
|
#define MCPWM_CARRIER2_OUT_INVERT_M (BIT(12))
|
#define MCPWM_CARRIER2_OUT_INVERT_V 0x1
|
#define MCPWM_CARRIER2_OUT_INVERT_S 12
|
/* MCPWM_CARRIER2_OSHWTH : R/W ;bitpos:[11:8] ;default: 4'd0 ; */
|
/*description: Width of the fist pulse in number of periods of the carrier*/
|
#define MCPWM_CARRIER2_OSHWTH 0x0000000F
|
#define MCPWM_CARRIER2_OSHWTH_M ((MCPWM_CARRIER2_OSHWTH_V)<<(MCPWM_CARRIER2_OSHWTH_S))
|
#define MCPWM_CARRIER2_OSHWTH_V 0xF
|
#define MCPWM_CARRIER2_OSHWTH_S 8
|
/* MCPWM_CARRIER2_DUTY : R/W ;bitpos:[7:5] ;default: 3'd0 ; */
|
/*description: Carrier duty selection. Duty = PWM_CARRIER2_DUTY / 8*/
|
#define MCPWM_CARRIER2_DUTY 0x00000007
|
#define MCPWM_CARRIER2_DUTY_M ((MCPWM_CARRIER2_DUTY_V)<<(MCPWM_CARRIER2_DUTY_S))
|
#define MCPWM_CARRIER2_DUTY_V 0x7
|
#define MCPWM_CARRIER2_DUTY_S 5
|
/* MCPWM_CARRIER2_PRESCALE : R/W ;bitpos:[4:1] ;default: 4'd0 ; */
|
/*description: PWM carrier2 clock (PC_clk) prescale value. Period of PC_clk
|
= period of PWM_clk * (PWM_CARRIER2_PRESCALE + 1)*/
|
#define MCPWM_CARRIER2_PRESCALE 0x0000000F
|
#define MCPWM_CARRIER2_PRESCALE_M ((MCPWM_CARRIER2_PRESCALE_V)<<(MCPWM_CARRIER2_PRESCALE_S))
|
#define MCPWM_CARRIER2_PRESCALE_V 0xF
|
#define MCPWM_CARRIER2_PRESCALE_S 1
|
/* MCPWM_CARRIER2_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set carrier2 function is enabled. When cleared carrier2 is bypassed*/
|
#define MCPWM_CARRIER2_EN (BIT(0))
|
#define MCPWM_CARRIER2_EN_M (BIT(0))
|
#define MCPWM_CARRIER2_EN_V 0x1
|
#define MCPWM_CARRIER2_EN_S 0
|
|
#define MCPWM_FH2_CFG0_REG(i) (REG_MCPWM_BASE(i) + 0x00d8)
|
/* MCPWM_FH2_B_OST_U : R/W ;bitpos:[23:22] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM2B when fault event occurs and timer
|
is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_B_OST_U 0x00000003
|
#define MCPWM_FH2_B_OST_U_M ((MCPWM_FH2_B_OST_U_V)<<(MCPWM_FH2_B_OST_U_S))
|
#define MCPWM_FH2_B_OST_U_V 0x3
|
#define MCPWM_FH2_B_OST_U_S 22
|
/* MCPWM_FH2_B_OST_D : R/W ;bitpos:[21:20] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM2B when fault event occurs and timer
|
is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_B_OST_D 0x00000003
|
#define MCPWM_FH2_B_OST_D_M ((MCPWM_FH2_B_OST_D_V)<<(MCPWM_FH2_B_OST_D_S))
|
#define MCPWM_FH2_B_OST_D_V 0x3
|
#define MCPWM_FH2_B_OST_D_S 20
|
/* MCPWM_FH2_B_CBC_U : R/W ;bitpos:[19:18] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM2B when fault event occurs and
|
timer is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_B_CBC_U 0x00000003
|
#define MCPWM_FH2_B_CBC_U_M ((MCPWM_FH2_B_CBC_U_V)<<(MCPWM_FH2_B_CBC_U_S))
|
#define MCPWM_FH2_B_CBC_U_V 0x3
|
#define MCPWM_FH2_B_CBC_U_S 18
|
/* MCPWM_FH2_B_CBC_D : R/W ;bitpos:[17:16] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM2B when fault event occurs and
|
timer is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_B_CBC_D 0x00000003
|
#define MCPWM_FH2_B_CBC_D_M ((MCPWM_FH2_B_CBC_D_V)<<(MCPWM_FH2_B_CBC_D_S))
|
#define MCPWM_FH2_B_CBC_D_V 0x3
|
#define MCPWM_FH2_B_CBC_D_S 16
|
/* MCPWM_FH2_A_OST_U : R/W ;bitpos:[15:14] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM2A when fault event occurs and timer
|
is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_A_OST_U 0x00000003
|
#define MCPWM_FH2_A_OST_U_M ((MCPWM_FH2_A_OST_U_V)<<(MCPWM_FH2_A_OST_U_S))
|
#define MCPWM_FH2_A_OST_U_V 0x3
|
#define MCPWM_FH2_A_OST_U_S 14
|
/* MCPWM_FH2_A_OST_D : R/W ;bitpos:[13:12] ;default: 2'd0 ; */
|
/*description: One-shot mode action on PWM2A when fault event occurs and timer
|
is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_A_OST_D 0x00000003
|
#define MCPWM_FH2_A_OST_D_M ((MCPWM_FH2_A_OST_D_V)<<(MCPWM_FH2_A_OST_D_S))
|
#define MCPWM_FH2_A_OST_D_V 0x3
|
#define MCPWM_FH2_A_OST_D_S 12
|
/* MCPWM_FH2_A_CBC_U : R/W ;bitpos:[11:10] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM2A when fault event occurs and
|
timer is increasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_A_CBC_U 0x00000003
|
#define MCPWM_FH2_A_CBC_U_M ((MCPWM_FH2_A_CBC_U_V)<<(MCPWM_FH2_A_CBC_U_S))
|
#define MCPWM_FH2_A_CBC_U_V 0x3
|
#define MCPWM_FH2_A_CBC_U_S 10
|
/* MCPWM_FH2_A_CBC_D : R/W ;bitpos:[9:8] ;default: 2'd0 ; */
|
/*description: Cycle-by-cycle mode action on PWM2A when fault event occurs and
|
timer is decreasing. 0: do nothing 1: force lo 2: force hi 3: toggle*/
|
#define MCPWM_FH2_A_CBC_D 0x00000003
|
#define MCPWM_FH2_A_CBC_D_M ((MCPWM_FH2_A_CBC_D_V)<<(MCPWM_FH2_A_CBC_D_S))
|
#define MCPWM_FH2_A_CBC_D_V 0x3
|
#define MCPWM_FH2_A_CBC_D_S 8
|
/* MCPWM_FH2_F0_OST : R/W ;bitpos:[7] ;default: 1'd0 ; */
|
/*description: event_f0 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_F0_OST (BIT(7))
|
#define MCPWM_FH2_F0_OST_M (BIT(7))
|
#define MCPWM_FH2_F0_OST_V 0x1
|
#define MCPWM_FH2_F0_OST_S 7
|
/* MCPWM_FH2_F1_OST : R/W ;bitpos:[6] ;default: 1'd0 ; */
|
/*description: event_f1 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_F1_OST (BIT(6))
|
#define MCPWM_FH2_F1_OST_M (BIT(6))
|
#define MCPWM_FH2_F1_OST_V 0x1
|
#define MCPWM_FH2_F1_OST_S 6
|
/* MCPWM_FH2_F2_OST : R/W ;bitpos:[5] ;default: 1'd0 ; */
|
/*description: event_f2 will trigger one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_F2_OST (BIT(5))
|
#define MCPWM_FH2_F2_OST_M (BIT(5))
|
#define MCPWM_FH2_F2_OST_V 0x1
|
#define MCPWM_FH2_F2_OST_S 5
|
/* MCPWM_FH2_SW_OST : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: Enable register for software force one-shot mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_SW_OST (BIT(4))
|
#define MCPWM_FH2_SW_OST_M (BIT(4))
|
#define MCPWM_FH2_SW_OST_V 0x1
|
#define MCPWM_FH2_SW_OST_S 4
|
/* MCPWM_FH2_F0_CBC : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: event_f0 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_F0_CBC (BIT(3))
|
#define MCPWM_FH2_F0_CBC_M (BIT(3))
|
#define MCPWM_FH2_F0_CBC_V 0x1
|
#define MCPWM_FH2_F0_CBC_S 3
|
/* MCPWM_FH2_F1_CBC : R/W ;bitpos:[2] ;default: 1'd0 ; */
|
/*description: event_f1 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_F1_CBC (BIT(2))
|
#define MCPWM_FH2_F1_CBC_M (BIT(2))
|
#define MCPWM_FH2_F1_CBC_V 0x1
|
#define MCPWM_FH2_F1_CBC_S 2
|
/* MCPWM_FH2_F2_CBC : R/W ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: event_f2 will trigger cycle-by-cycle mode action. 0: disable 1: enable*/
|
#define MCPWM_FH2_F2_CBC (BIT(1))
|
#define MCPWM_FH2_F2_CBC_M (BIT(1))
|
#define MCPWM_FH2_F2_CBC_V 0x1
|
#define MCPWM_FH2_F2_CBC_S 1
|
/* MCPWM_FH2_SW_CBC : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Enable register for software force cycle-by-cycle mode action.
|
0: disable 1: enable*/
|
#define MCPWM_FH2_SW_CBC (BIT(0))
|
#define MCPWM_FH2_SW_CBC_M (BIT(0))
|
#define MCPWM_FH2_SW_CBC_V 0x1
|
#define MCPWM_FH2_SW_CBC_S 0
|
|
#define MCPWM_FH2_CFG1_REG(i) (REG_MCPWM_BASE(i) + 0x00dc)
|
/* MCPWM_FH2_FORCE_OST : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) triggers a
|
one-shot mode action*/
|
#define MCPWM_FH2_FORCE_OST (BIT(4))
|
#define MCPWM_FH2_FORCE_OST_M (BIT(4))
|
#define MCPWM_FH2_FORCE_OST_V 0x1
|
#define MCPWM_FH2_FORCE_OST_S 4
|
/* MCPWM_FH2_FORCE_CBC : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: A toggle triggers a cycle-by-cycle mode action*/
|
#define MCPWM_FH2_FORCE_CBC (BIT(3))
|
#define MCPWM_FH2_FORCE_CBC_M (BIT(3))
|
#define MCPWM_FH2_FORCE_CBC_V 0x1
|
#define MCPWM_FH2_FORCE_CBC_S 3
|
/* MCPWM_FH2_CBCPULSE : R/W ;bitpos:[2:1] ;default: 2'd0 ; */
|
/*description: The cycle-by-cycle mode action refresh moment selection. Bit0: TEZ bit1:TEP*/
|
#define MCPWM_FH2_CBCPULSE 0x00000003
|
#define MCPWM_FH2_CBCPULSE_M ((MCPWM_FH2_CBCPULSE_V)<<(MCPWM_FH2_CBCPULSE_S))
|
#define MCPWM_FH2_CBCPULSE_V 0x3
|
#define MCPWM_FH2_CBCPULSE_S 1
|
/* MCPWM_FH2_CLR_OST : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: A toggle will clear on going one-shot mode action*/
|
#define MCPWM_FH2_CLR_OST (BIT(0))
|
#define MCPWM_FH2_CLR_OST_M (BIT(0))
|
#define MCPWM_FH2_CLR_OST_V 0x1
|
#define MCPWM_FH2_CLR_OST_S 0
|
|
#define MCPWM_FH2_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x00e0)
|
/* MCPWM_FH2_OST_ON : RO ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set an one-shot mode action is on going*/
|
#define MCPWM_FH2_OST_ON (BIT(1))
|
#define MCPWM_FH2_OST_ON_M (BIT(1))
|
#define MCPWM_FH2_OST_ON_V 0x1
|
#define MCPWM_FH2_OST_ON_S 1
|
/* MCPWM_FH2_CBC_ON : RO ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set an cycle-by-cycle mode action is on going*/
|
#define MCPWM_FH2_CBC_ON (BIT(0))
|
#define MCPWM_FH2_CBC_ON_M (BIT(0))
|
#define MCPWM_FH2_CBC_ON_V 0x1
|
#define MCPWM_FH2_CBC_ON_S 0
|
|
#define MCPWM_FAULT_DETECT_REG(i) (REG_MCPWM_BASE(i) + 0x00e4)
|
/* MCPWM_EVENT_F2 : RO ;bitpos:[8] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set event_f2 is on going*/
|
#define MCPWM_EVENT_F2 (BIT(8))
|
#define MCPWM_EVENT_F2_M (BIT(8))
|
#define MCPWM_EVENT_F2_V 0x1
|
#define MCPWM_EVENT_F2_S 8
|
/* MCPWM_EVENT_F1 : RO ;bitpos:[7] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set event_f1 is on going*/
|
#define MCPWM_EVENT_F1 (BIT(7))
|
#define MCPWM_EVENT_F1_M (BIT(7))
|
#define MCPWM_EVENT_F1_V 0x1
|
#define MCPWM_EVENT_F1_S 7
|
/* MCPWM_EVENT_F0 : RO ;bitpos:[6] ;default: 1'd0 ; */
|
/*description: Set and reset by hardware. If set event_f0 is on going*/
|
#define MCPWM_EVENT_F0 (BIT(6))
|
#define MCPWM_EVENT_F0_M (BIT(6))
|
#define MCPWM_EVENT_F0_V 0x1
|
#define MCPWM_EVENT_F0_S 6
|
/* MCPWM_F2_POLE : R/W ;bitpos:[5] ;default: 1'd0 ; */
|
/*description: Set event_f2 trigger polarity on FAULT2 source from GPIO matrix.
|
0: level low 1: level high*/
|
#define MCPWM_F2_POLE (BIT(5))
|
#define MCPWM_F2_POLE_M (BIT(5))
|
#define MCPWM_F2_POLE_V 0x1
|
#define MCPWM_F2_POLE_S 5
|
/* MCPWM_F1_POLE : R/W ;bitpos:[4] ;default: 1'd0 ; */
|
/*description: Set event_f1 trigger polarity on FAULT2 source from GPIO matrix.
|
0: level low 1: level high*/
|
#define MCPWM_F1_POLE (BIT(4))
|
#define MCPWM_F1_POLE_M (BIT(4))
|
#define MCPWM_F1_POLE_V 0x1
|
#define MCPWM_F1_POLE_S 4
|
/* MCPWM_F0_POLE : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: Set event_f0 trigger polarity on FAULT2 source from GPIO matrix.
|
0: level low 1: level high*/
|
#define MCPWM_F0_POLE (BIT(3))
|
#define MCPWM_F0_POLE_M (BIT(3))
|
#define MCPWM_F0_POLE_V 0x1
|
#define MCPWM_F0_POLE_S 3
|
/* MCPWM_F2_EN : R/W ;bitpos:[2] ;default: 1'd0 ; */
|
/*description: Set to enable generation of event_f2*/
|
#define MCPWM_F2_EN (BIT(2))
|
#define MCPWM_F2_EN_M (BIT(2))
|
#define MCPWM_F2_EN_V 0x1
|
#define MCPWM_F2_EN_S 2
|
/* MCPWM_F1_EN : R/W ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: Set to enable generation of event_f1*/
|
#define MCPWM_F1_EN (BIT(1))
|
#define MCPWM_F1_EN_M (BIT(1))
|
#define MCPWM_F1_EN_V 0x1
|
#define MCPWM_F1_EN_S 1
|
/* MCPWM_F0_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Set to enable generation of event_f0*/
|
#define MCPWM_F0_EN (BIT(0))
|
#define MCPWM_F0_EN_M (BIT(0))
|
#define MCPWM_F0_EN_V 0x1
|
#define MCPWM_F0_EN_S 0
|
|
#define MCPWM_CAP_TIMER_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00e8)
|
/* MCPWM_CAP_SYNC_SW : WO ;bitpos:[5] ;default: 1'd0 ; */
|
/*description: Set this bit to force a capture timer sync capture timer is
|
loaded with value in phase register.*/
|
#define MCPWM_CAP_SYNC_SW (BIT(5))
|
#define MCPWM_CAP_SYNC_SW_M (BIT(5))
|
#define MCPWM_CAP_SYNC_SW_V 0x1
|
#define MCPWM_CAP_SYNC_SW_S 5
|
/* MCPWM_CAP_SYNCI_SEL : R/W ;bitpos:[4:2] ;default: 3'd0 ; */
|
/*description: Capture module sync input selection. 0: none 1: timer0 synco
|
2: timer1 synco 3: timer2 synco 4: SYNC0 from GPIO matrix 5: SYNC1 from GPIO matrix 6: SYNC2 from GPIO matrix*/
|
#define MCPWM_CAP_SYNCI_SEL 0x00000007
|
#define MCPWM_CAP_SYNCI_SEL_M ((MCPWM_CAP_SYNCI_SEL_V)<<(MCPWM_CAP_SYNCI_SEL_S))
|
#define MCPWM_CAP_SYNCI_SEL_V 0x7
|
#define MCPWM_CAP_SYNCI_SEL_S 2
|
/* MCPWM_CAP_SYNCI_EN : R/W ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: When set capture timer sync is enabled.*/
|
#define MCPWM_CAP_SYNCI_EN (BIT(1))
|
#define MCPWM_CAP_SYNCI_EN_M (BIT(1))
|
#define MCPWM_CAP_SYNCI_EN_V 0x1
|
#define MCPWM_CAP_SYNCI_EN_S 1
|
/* MCPWM_CAP_TIMER_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set capture timer incrementing under APB_clk is enabled.*/
|
#define MCPWM_CAP_TIMER_EN (BIT(0))
|
#define MCPWM_CAP_TIMER_EN_M (BIT(0))
|
#define MCPWM_CAP_TIMER_EN_V 0x1
|
#define MCPWM_CAP_TIMER_EN_S 0
|
|
#define MCPWM_CAP_TIMER_PHASE_REG(i) (REG_MCPWM_BASE(i) + 0x00ec)
|
/* MCPWM_CAP_PHASE : R/W ;bitpos:[31:0] ;default: 32'd0 ; */
|
/*description: Phase value for capture timer sync operation.*/
|
#define MCPWM_CAP_PHASE 0xFFFFFFFF
|
#define MCPWM_CAP_PHASE_M ((MCPWM_CAP_PHASE_V)<<(MCPWM_CAP_PHASE_S))
|
#define MCPWM_CAP_PHASE_V 0xFFFFFFFF
|
#define MCPWM_CAP_PHASE_S 0
|
|
#define MCPWM_CAP_CH0_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00f0)
|
/* MCPWM_CAP0_SW : WO ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: Write 1 will trigger a software forced capture on channel 0*/
|
#define MCPWM_CAP0_SW (BIT(12))
|
#define MCPWM_CAP0_SW_M (BIT(12))
|
#define MCPWM_CAP0_SW_V 0x1
|
#define MCPWM_CAP0_SW_S 12
|
/* MCPWM_CAP0_IN_INVERT : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: When set CAP0 form GPIO matrix is inverted before prescale*/
|
#define MCPWM_CAP0_IN_INVERT (BIT(11))
|
#define MCPWM_CAP0_IN_INVERT_M (BIT(11))
|
#define MCPWM_CAP0_IN_INVERT_V 0x1
|
#define MCPWM_CAP0_IN_INVERT_S 11
|
/* MCPWM_CAP0_PRESCALE : R/W ;bitpos:[10:3] ;default: 8'd0 ; */
|
/*description: Value of prescale on possitive edge of CAP0. Prescale value =
|
PWM_CAP0_PRESCALE + 1*/
|
#define MCPWM_CAP0_PRESCALE 0x000000FF
|
#define MCPWM_CAP0_PRESCALE_M ((MCPWM_CAP0_PRESCALE_V)<<(MCPWM_CAP0_PRESCALE_S))
|
#define MCPWM_CAP0_PRESCALE_V 0xFF
|
#define MCPWM_CAP0_PRESCALE_S 3
|
/* MCPWM_CAP0_MODE : R/W ;bitpos:[2:1] ;default: 2'd0 ; */
|
/*description: Edge of capture on channel 0 after prescale. bit0: negedge cap
|
en bit1: posedge cap en*/
|
#define MCPWM_CAP0_MODE 0x00000003
|
#define MCPWM_CAP0_MODE_M ((MCPWM_CAP0_MODE_V)<<(MCPWM_CAP0_MODE_S))
|
#define MCPWM_CAP0_MODE_V 0x3
|
#define MCPWM_CAP0_MODE_S 1
|
/* MCPWM_CAP0_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set capture on channel 0 is enabled*/
|
#define MCPWM_CAP0_EN (BIT(0))
|
#define MCPWM_CAP0_EN_M (BIT(0))
|
#define MCPWM_CAP0_EN_V 0x1
|
#define MCPWM_CAP0_EN_S 0
|
|
#define MCPWM_CAP_CH1_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00f4)
|
/* MCPWM_CAP1_SW : WO ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: Write 1 will trigger a software forced capture on channel 1*/
|
#define MCPWM_CAP1_SW (BIT(12))
|
#define MCPWM_CAP1_SW_M (BIT(12))
|
#define MCPWM_CAP1_SW_V 0x1
|
#define MCPWM_CAP1_SW_S 12
|
/* MCPWM_CAP1_IN_INVERT : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: When set CAP1 form GPIO matrix is inverted before prescale*/
|
#define MCPWM_CAP1_IN_INVERT (BIT(11))
|
#define MCPWM_CAP1_IN_INVERT_M (BIT(11))
|
#define MCPWM_CAP1_IN_INVERT_V 0x1
|
#define MCPWM_CAP1_IN_INVERT_S 11
|
/* MCPWM_CAP1_PRESCALE : R/W ;bitpos:[10:3] ;default: 8'd0 ; */
|
/*description: Value of prescale on possitive edge of CAP1. Prescale value =
|
PWM_CAP1_PRESCALE + 1*/
|
#define MCPWM_CAP1_PRESCALE 0x000000FF
|
#define MCPWM_CAP1_PRESCALE_M ((MCPWM_CAP1_PRESCALE_V)<<(MCPWM_CAP1_PRESCALE_S))
|
#define MCPWM_CAP1_PRESCALE_V 0xFF
|
#define MCPWM_CAP1_PRESCALE_S 3
|
/* MCPWM_CAP1_MODE : R/W ;bitpos:[2:1] ;default: 2'd0 ; */
|
/*description: Edge of capture on channel 1 after prescale. bit0: negedge cap
|
en bit1: posedge cap en*/
|
#define MCPWM_CAP1_MODE 0x00000003
|
#define MCPWM_CAP1_MODE_M ((MCPWM_CAP1_MODE_V)<<(MCPWM_CAP1_MODE_S))
|
#define MCPWM_CAP1_MODE_V 0x3
|
#define MCPWM_CAP1_MODE_S 1
|
/* MCPWM_CAP1_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set capture on channel 1 is enabled*/
|
#define MCPWM_CAP1_EN (BIT(0))
|
#define MCPWM_CAP1_EN_M (BIT(0))
|
#define MCPWM_CAP1_EN_V 0x1
|
#define MCPWM_CAP1_EN_S 0
|
|
#define MCPWM_CAP_CH2_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x00f8)
|
/* MCPWM_CAP2_SW : WO ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: Write 1 will trigger a software forced capture on channel 2*/
|
#define MCPWM_CAP2_SW (BIT(12))
|
#define MCPWM_CAP2_SW_M (BIT(12))
|
#define MCPWM_CAP2_SW_V 0x1
|
#define MCPWM_CAP2_SW_S 12
|
/* MCPWM_CAP2_IN_INVERT : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: When set CAP2 form GPIO matrix is inverted before prescale*/
|
#define MCPWM_CAP2_IN_INVERT (BIT(11))
|
#define MCPWM_CAP2_IN_INVERT_M (BIT(11))
|
#define MCPWM_CAP2_IN_INVERT_V 0x1
|
#define MCPWM_CAP2_IN_INVERT_S 11
|
/* MCPWM_CAP2_PRESCALE : R/W ;bitpos:[10:3] ;default: 8'd0 ; */
|
/*description: Value of prescale on possitive edge of CAP2. Prescale value =
|
PWM_CAP2_PRESCALE + 1*/
|
#define MCPWM_CAP2_PRESCALE 0x000000FF
|
#define MCPWM_CAP2_PRESCALE_M ((MCPWM_CAP2_PRESCALE_V)<<(MCPWM_CAP2_PRESCALE_S))
|
#define MCPWM_CAP2_PRESCALE_V 0xFF
|
#define MCPWM_CAP2_PRESCALE_S 3
|
/* MCPWM_CAP2_MODE : R/W ;bitpos:[2:1] ;default: 2'd0 ; */
|
/*description: Edge of capture on channel 2 after prescale. bit0: negedge cap
|
en bit1: posedge cap en*/
|
#define MCPWM_CAP2_MODE 0x00000003
|
#define MCPWM_CAP2_MODE_M ((MCPWM_CAP2_MODE_V)<<(MCPWM_CAP2_MODE_S))
|
#define MCPWM_CAP2_MODE_V 0x3
|
#define MCPWM_CAP2_MODE_S 1
|
/* MCPWM_CAP2_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: When set capture on channel 2 is enabled*/
|
#define MCPWM_CAP2_EN (BIT(0))
|
#define MCPWM_CAP2_EN_M (BIT(0))
|
#define MCPWM_CAP2_EN_V 0x1
|
#define MCPWM_CAP2_EN_S 0
|
|
#define MCPWM_CAP_CH0_REG(i) (REG_MCPWM_BASE(i) + 0x00fc)
|
/* MCPWM_CAP0_VALUE : RO ;bitpos:[31:0] ;default: 32'd0 ; */
|
/*description: Value of last capture on channel 0*/
|
#define MCPWM_CAP0_VALUE 0xFFFFFFFF
|
#define MCPWM_CAP0_VALUE_M ((MCPWM_CAP0_VALUE_V)<<(MCPWM_CAP0_VALUE_S))
|
#define MCPWM_CAP0_VALUE_V 0xFFFFFFFF
|
#define MCPWM_CAP0_VALUE_S 0
|
|
#define MCPWM_CAP_CH1_REG(i) (REG_MCPWM_BASE(i) + 0x0100)
|
/* MCPWM_CAP1_VALUE : RO ;bitpos:[31:0] ;default: 32'd0 ; */
|
/*description: Value of last capture on channel 1*/
|
#define MCPWM_CAP1_VALUE 0xFFFFFFFF
|
#define MCPWM_CAP1_VALUE_M ((MCPWM_CAP1_VALUE_V)<<(MCPWM_CAP1_VALUE_S))
|
#define MCPWM_CAP1_VALUE_V 0xFFFFFFFF
|
#define MCPWM_CAP1_VALUE_S 0
|
|
#define MCPWM_CAP_CH2_REG(i) (REG_MCPWM_BASE(i) + 0x0104)
|
/* MCPWM_CAP2_VALUE : RO ;bitpos:[31:0] ;default: 32'd0 ; */
|
/*description: Value of last capture on channel 2*/
|
#define MCPWM_CAP2_VALUE 0xFFFFFFFF
|
#define MCPWM_CAP2_VALUE_M ((MCPWM_CAP2_VALUE_V)<<(MCPWM_CAP2_VALUE_S))
|
#define MCPWM_CAP2_VALUE_V 0xFFFFFFFF
|
#define MCPWM_CAP2_VALUE_S 0
|
|
#define MCPWM_CAP_STATUS_REG(i) (REG_MCPWM_BASE(i) + 0x0108)
|
/* MCPWM_CAP2_EDGE : RO ;bitpos:[2] ;default: 1'd0 ; */
|
/*description: Edge of last capture trigger on channel 2 0: posedge 1: negedge*/
|
#define MCPWM_CAP2_EDGE (BIT(2))
|
#define MCPWM_CAP2_EDGE_M (BIT(2))
|
#define MCPWM_CAP2_EDGE_V 0x1
|
#define MCPWM_CAP2_EDGE_S 2
|
/* MCPWM_CAP1_EDGE : RO ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: Edge of last capture trigger on channel 1 0: posedge 1: negedge*/
|
#define MCPWM_CAP1_EDGE (BIT(1))
|
#define MCPWM_CAP1_EDGE_M (BIT(1))
|
#define MCPWM_CAP1_EDGE_V 0x1
|
#define MCPWM_CAP1_EDGE_S 1
|
/* MCPWM_CAP0_EDGE : RO ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Edge of last capture trigger on channel 0 0: posedge 1: negedge*/
|
#define MCPWM_CAP0_EDGE (BIT(0))
|
#define MCPWM_CAP0_EDGE_M (BIT(0))
|
#define MCPWM_CAP0_EDGE_V 0x1
|
#define MCPWM_CAP0_EDGE_S 0
|
|
#define MCPWM_UPDATE_CFG_REG(i) (REG_MCPWM_BASE(i) + 0x010c)
|
/* MCPWM_OP2_FORCE_UP : R/W ;bitpos:[7] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) will trigger
|
a forced update of active registers in PWM operator 2*/
|
#define MCPWM_OP2_FORCE_UP (BIT(7))
|
#define MCPWM_OP2_FORCE_UP_M (BIT(7))
|
#define MCPWM_OP2_FORCE_UP_V 0x1
|
#define MCPWM_OP2_FORCE_UP_S 7
|
/* MCPWM_OP2_UP_EN : R/W ;bitpos:[6] ;default: 1'd1 ; */
|
/*description: When set and PWM_GLOBAL_UP_EN is set update of active registers
|
in PWM operator 2 are enabled*/
|
#define MCPWM_OP2_UP_EN (BIT(6))
|
#define MCPWM_OP2_UP_EN_M (BIT(6))
|
#define MCPWM_OP2_UP_EN_V 0x1
|
#define MCPWM_OP2_UP_EN_S 6
|
/* MCPWM_OP1_FORCE_UP : R/W ;bitpos:[5] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) will trigger
|
a forced update of active registers in PWM operator 1*/
|
#define MCPWM_OP1_FORCE_UP (BIT(5))
|
#define MCPWM_OP1_FORCE_UP_M (BIT(5))
|
#define MCPWM_OP1_FORCE_UP_V 0x1
|
#define MCPWM_OP1_FORCE_UP_S 5
|
/* MCPWM_OP1_UP_EN : R/W ;bitpos:[4] ;default: 1'd1 ; */
|
/*description: When set and PWM_GLOBAL_UP_EN is set update of active registers
|
in PWM operator 1 are enabled*/
|
#define MCPWM_OP1_UP_EN (BIT(4))
|
#define MCPWM_OP1_UP_EN_M (BIT(4))
|
#define MCPWM_OP1_UP_EN_V 0x1
|
#define MCPWM_OP1_UP_EN_S 4
|
/* MCPWM_OP0_FORCE_UP : R/W ;bitpos:[3] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) will trigger
|
a forced update of active registers in PWM operator 0*/
|
#define MCPWM_OP0_FORCE_UP (BIT(3))
|
#define MCPWM_OP0_FORCE_UP_M (BIT(3))
|
#define MCPWM_OP0_FORCE_UP_V 0x1
|
#define MCPWM_OP0_FORCE_UP_S 3
|
/* MCPWM_OP0_UP_EN : R/W ;bitpos:[2] ;default: 1'd1 ; */
|
/*description: When set and PWM_GLOBAL_UP_EN is set update of active registers
|
in PWM operator 0 are enabled*/
|
#define MCPWM_OP0_UP_EN (BIT(2))
|
#define MCPWM_OP0_UP_EN_M (BIT(2))
|
#define MCPWM_OP0_UP_EN_V 0x1
|
#define MCPWM_OP0_UP_EN_S 2
|
/* MCPWM_GLOBAL_FORCE_UP : R/W ;bitpos:[1] ;default: 1'd0 ; */
|
/*description: A toggle (software negation of value of this bit) will trigger
|
a forced update of all active registers in MCPWM module*/
|
#define MCPWM_GLOBAL_FORCE_UP (BIT(1))
|
#define MCPWM_GLOBAL_FORCE_UP_M (BIT(1))
|
#define MCPWM_GLOBAL_FORCE_UP_V 0x1
|
#define MCPWM_GLOBAL_FORCE_UP_S 1
|
/* MCPWM_GLOBAL_UP_EN : R/W ;bitpos:[0] ;default: 1'd1 ; */
|
/*description: The global enable of update of all active registers in MCPWM module*/
|
#define MCPWM_GLOBAL_UP_EN (BIT(0))
|
#define MCPWM_GLOBAL_UP_EN_M (BIT(0))
|
#define MCPWM_GLOBAL_UP_EN_V 0x1
|
#define MCPWM_GLOBAL_UP_EN_S 0
|
|
#define MCMCPWM_INT_ENA_MCPWM_REG(i) (REG_MCPWM_BASE(i) + 0x0110)
|
/* MCPWM_CAP2_INT_ENA : R/W ;bitpos:[29] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by captureon channel 2*/
|
#define MCPWM_CAP2_INT_ENA (BIT(29))
|
#define MCPWM_CAP2_INT_ENA_M (BIT(29))
|
#define MCPWM_CAP2_INT_ENA_V 0x1
|
#define MCPWM_CAP2_INT_ENA_S 29
|
/* MCPWM_CAP1_INT_ENA : R/W ;bitpos:[28] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by captureon channel 1*/
|
#define MCPWM_CAP1_INT_ENA (BIT(28))
|
#define MCPWM_CAP1_INT_ENA_M (BIT(28))
|
#define MCPWM_CAP1_INT_ENA_V 0x1
|
#define MCPWM_CAP1_INT_ENA_S 28
|
/* MCPWM_CAP0_INT_ENA : R/W ;bitpos:[27] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by captureon channel 0*/
|
#define MCPWM_CAP0_INT_ENA (BIT(27))
|
#define MCPWM_CAP0_INT_ENA_M (BIT(27))
|
#define MCPWM_CAP0_INT_ENA_V 0x1
|
#define MCPWM_CAP0_INT_ENA_S 27
|
/* MCPWM_FH2_OST_INT_ENA : R/W ;bitpos:[26] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by an one-shot mode action on PWM2*/
|
#define MCPWM_FH2_OST_INT_ENA (BIT(26))
|
#define MCPWM_FH2_OST_INT_ENA_M (BIT(26))
|
#define MCPWM_FH2_OST_INT_ENA_V 0x1
|
#define MCPWM_FH2_OST_INT_ENA_S 26
|
/* MCPWM_FH1_OST_INT_ENA : R/W ;bitpos:[25] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH1_OST_INT_ENA (BIT(25))
|
#define MCPWM_FH1_OST_INT_ENA_M (BIT(25))
|
#define MCPWM_FH1_OST_INT_ENA_V 0x1
|
#define MCPWM_FH1_OST_INT_ENA_S 25
|
/* MCPWM_FH0_OST_INT_ENA : R/W ;bitpos:[24] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH0_OST_INT_ENA (BIT(24))
|
#define MCPWM_FH0_OST_INT_ENA_M (BIT(24))
|
#define MCPWM_FH0_OST_INT_ENA_V 0x1
|
#define MCPWM_FH0_OST_INT_ENA_S 24
|
/* MCPWM_FH2_CBC_INT_ENA : R/W ;bitpos:[23] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by an cycle-by-cycle mode action on PWM2*/
|
#define MCPWM_FH2_CBC_INT_ENA (BIT(23))
|
#define MCPWM_FH2_CBC_INT_ENA_M (BIT(23))
|
#define MCPWM_FH2_CBC_INT_ENA_V 0x1
|
#define MCPWM_FH2_CBC_INT_ENA_S 23
|
/* MCPWM_FH1_CBC_INT_ENA : R/W ;bitpos:[22] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by an cycle-by-cycle mode action on PWM1*/
|
#define MCPWM_FH1_CBC_INT_ENA (BIT(22))
|
#define MCPWM_FH1_CBC_INT_ENA_M (BIT(22))
|
#define MCPWM_FH1_CBC_INT_ENA_V 0x1
|
#define MCPWM_FH1_CBC_INT_ENA_S 22
|
/* MCPWM_FH0_CBC_INT_ENA : R/W ;bitpos:[21] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by an cycle-by-cycle mode action on PWM0*/
|
#define MCPWM_FH0_CBC_INT_ENA (BIT(21))
|
#define MCPWM_FH0_CBC_INT_ENA_M (BIT(21))
|
#define MCPWM_FH0_CBC_INT_ENA_V 0x1
|
#define MCPWM_FH0_CBC_INT_ENA_S 21
|
/* MCPWM_OP2_TEB_INT_ENA : R/W ;bitpos:[20] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM operator 2 TEB event*/
|
#define MCPWM_OP2_TEB_INT_ENA (BIT(20))
|
#define MCPWM_OP2_TEB_INT_ENA_M (BIT(20))
|
#define MCPWM_OP2_TEB_INT_ENA_V 0x1
|
#define MCPWM_OP2_TEB_INT_ENA_S 20
|
/* MCPWM_OP1_TEB_INT_ENA : R/W ;bitpos:[19] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM operator 1 TEB event*/
|
#define MCPWM_OP1_TEB_INT_ENA (BIT(19))
|
#define MCPWM_OP1_TEB_INT_ENA_M (BIT(19))
|
#define MCPWM_OP1_TEB_INT_ENA_V 0x1
|
#define MCPWM_OP1_TEB_INT_ENA_S 19
|
/* MCPWM_OP0_TEB_INT_ENA : R/W ;bitpos:[18] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM operator 0 TEB event*/
|
#define MCPWM_OP0_TEB_INT_ENA (BIT(18))
|
#define MCPWM_OP0_TEB_INT_ENA_M (BIT(18))
|
#define MCPWM_OP0_TEB_INT_ENA_V 0x1
|
#define MCPWM_OP0_TEB_INT_ENA_S 18
|
/* MCPWM_OP2_TEA_INT_ENA : R/W ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM operator 2 TEA event*/
|
#define MCPWM_OP2_TEA_INT_ENA (BIT(17))
|
#define MCPWM_OP2_TEA_INT_ENA_M (BIT(17))
|
#define MCPWM_OP2_TEA_INT_ENA_V 0x1
|
#define MCPWM_OP2_TEA_INT_ENA_S 17
|
/* MCPWM_OP1_TEA_INT_ENA : R/W ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM operator 1 TEA event*/
|
#define MCPWM_OP1_TEA_INT_ENA (BIT(16))
|
#define MCPWM_OP1_TEA_INT_ENA_M (BIT(16))
|
#define MCPWM_OP1_TEA_INT_ENA_V 0x1
|
#define MCPWM_OP1_TEA_INT_ENA_S 16
|
/* MCPWM_OP0_TEA_INT_ENA : R/W ;bitpos:[15] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM operator 0 TEA event*/
|
#define MCPWM_OP0_TEA_INT_ENA (BIT(15))
|
#define MCPWM_OP0_TEA_INT_ENA_M (BIT(15))
|
#define MCPWM_OP0_TEA_INT_ENA_V 0x1
|
#define MCPWM_OP0_TEA_INT_ENA_S 15
|
/* MCPWM_FAULT2_CLR_INT_ENA : R/W ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered when event_f2 ends*/
|
#define MCPWM_FAULT2_CLR_INT_ENA (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_ENA_M (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_ENA_V 0x1
|
#define MCPWM_FAULT2_CLR_INT_ENA_S 14
|
/* MCPWM_FAULT1_CLR_INT_ENA : R/W ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered when event_f1 ends*/
|
#define MCPWM_FAULT1_CLR_INT_ENA (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_ENA_M (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_ENA_V 0x1
|
#define MCPWM_FAULT1_CLR_INT_ENA_S 13
|
/* MCPWM_FAULT0_CLR_INT_ENA : R/W ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered when event_f0 ends*/
|
#define MCPWM_FAULT0_CLR_INT_ENA (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_ENA_M (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_ENA_V 0x1
|
#define MCPWM_FAULT0_CLR_INT_ENA_S 12
|
/* MCPWM_FAULT2_INT_ENA : R/W ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered when event_f2 starts*/
|
#define MCPWM_FAULT2_INT_ENA (BIT(11))
|
#define MCPWM_FAULT2_INT_ENA_M (BIT(11))
|
#define MCPWM_FAULT2_INT_ENA_V 0x1
|
#define MCPWM_FAULT2_INT_ENA_S 11
|
/* MCPWM_FAULT1_INT_ENA : R/W ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered when event_f1 starts*/
|
#define MCPWM_FAULT1_INT_ENA (BIT(10))
|
#define MCPWM_FAULT1_INT_ENA_M (BIT(10))
|
#define MCPWM_FAULT1_INT_ENA_V 0x1
|
#define MCPWM_FAULT1_INT_ENA_S 10
|
/* MCPWM_FAULT0_INT_ENA : R/W ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: The enable bit for interrupt triggered when event_f0 starts*/
|
#define MCPWM_FAULT0_INT_ENA (BIT(9))
|
#define MCPWM_FAULT0_INT_ENA_M (BIT(9))
|
#define MCPWM_FAULT0_INT_ENA_V 0x1
|
#define MCPWM_FAULT0_INT_ENA_S 9
|
/* MCPWM_TIMER2_TEP_INT_ENA : R/W ;bitpos:[8] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM timer 2 TEP event*/
|
#define MCPWM_TIMER2_TEP_INT_ENA (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_ENA_M (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_ENA_V 0x1
|
#define MCPWM_TIMER2_TEP_INT_ENA_S 8
|
/* MCPWM_TIMER1_TEP_INT_ENA : R/W ;bitpos:[7] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM timer 1 TEP event*/
|
#define MCPWM_TIMER1_TEP_INT_ENA (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_ENA_M (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_ENA_V 0x1
|
#define MCPWM_TIMER1_TEP_INT_ENA_S 7
|
/* MCPWM_TIMER0_TEP_INT_ENA : R/W ;bitpos:[6] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM timer 0 TEP event*/
|
#define MCPWM_TIMER0_TEP_INT_ENA (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_ENA_M (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_ENA_V 0x1
|
#define MCPWM_TIMER0_TEP_INT_ENA_S 6
|
/* MCPWM_TIMER2_TEZ_INT_ENA : R/W ;bitpos:[5] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM timer 2 TEZ event*/
|
#define MCPWM_TIMER2_TEZ_INT_ENA (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_ENA_M (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_ENA_V 0x1
|
#define MCPWM_TIMER2_TEZ_INT_ENA_S 5
|
/* MCPWM_TIMER1_TEZ_INT_ENA : R/W ;bitpos:[4] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM timer 1 TEZ event*/
|
#define MCPWM_TIMER1_TEZ_INT_ENA (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_ENA_M (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_ENA_V 0x1
|
#define MCPWM_TIMER1_TEZ_INT_ENA_S 4
|
/* MCPWM_TIMER0_TEZ_INT_ENA : R/W ;bitpos:[3] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered by a PWM timer 0 TEZ event*/
|
#define MCPWM_TIMER0_TEZ_INT_ENA (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_ENA_M (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_ENA_V 0x1
|
#define MCPWM_TIMER0_TEZ_INT_ENA_S 3
|
/* MCPWM_TIMER2_STOP_INT_ENA : R/W ;bitpos:[2] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered when timer 2 stops*/
|
#define MCPWM_TIMER2_STOP_INT_ENA (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_ENA_M (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_ENA_V 0x1
|
#define MCPWM_TIMER2_STOP_INT_ENA_S 2
|
/* MCPWM_TIMER1_STOP_INT_ENA : R/W ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered when timer 1 stops*/
|
#define MCPWM_TIMER1_STOP_INT_ENA (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_ENA_M (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_ENA_V 0x1
|
#define MCPWM_TIMER1_STOP_INT_ENA_S 1
|
/* MCPWM_TIMER0_STOP_INT_ENA : R/W ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: The enable bit for interrupt triggered when timer 0 stops*/
|
#define MCPWM_TIMER0_STOP_INT_ENA (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_ENA_M (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_ENA_V 0x1
|
#define MCPWM_TIMER0_STOP_INT_ENA_S 0
|
|
#define MCMCPWM_INT_RAW_MCPWM_REG(i) (REG_MCPWM_BASE(i) + 0x0114)
|
/* MCPWM_CAP2_INT_RAW : RO ;bitpos:[29] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by captureon channel 2*/
|
#define MCPWM_CAP2_INT_RAW (BIT(29))
|
#define MCPWM_CAP2_INT_RAW_M (BIT(29))
|
#define MCPWM_CAP2_INT_RAW_V 0x1
|
#define MCPWM_CAP2_INT_RAW_S 29
|
/* MCPWM_CAP1_INT_RAW : RO ;bitpos:[28] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by captureon channel 1*/
|
#define MCPWM_CAP1_INT_RAW (BIT(28))
|
#define MCPWM_CAP1_INT_RAW_M (BIT(28))
|
#define MCPWM_CAP1_INT_RAW_V 0x1
|
#define MCPWM_CAP1_INT_RAW_S 28
|
/* MCPWM_CAP0_INT_RAW : RO ;bitpos:[27] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by captureon channel 0*/
|
#define MCPWM_CAP0_INT_RAW (BIT(27))
|
#define MCPWM_CAP0_INT_RAW_M (BIT(27))
|
#define MCPWM_CAP0_INT_RAW_V 0x1
|
#define MCPWM_CAP0_INT_RAW_S 27
|
/* MCPWM_FH2_OST_INT_RAW : RO ;bitpos:[26] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by an one-shot mode action on PWM2*/
|
#define MCPWM_FH2_OST_INT_RAW (BIT(26))
|
#define MCPWM_FH2_OST_INT_RAW_M (BIT(26))
|
#define MCPWM_FH2_OST_INT_RAW_V 0x1
|
#define MCPWM_FH2_OST_INT_RAW_S 26
|
/* MCPWM_FH1_OST_INT_RAW : RO ;bitpos:[25] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH1_OST_INT_RAW (BIT(25))
|
#define MCPWM_FH1_OST_INT_RAW_M (BIT(25))
|
#define MCPWM_FH1_OST_INT_RAW_V 0x1
|
#define MCPWM_FH1_OST_INT_RAW_S 25
|
/* MCPWM_FH0_OST_INT_RAW : RO ;bitpos:[24] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH0_OST_INT_RAW (BIT(24))
|
#define MCPWM_FH0_OST_INT_RAW_M (BIT(24))
|
#define MCPWM_FH0_OST_INT_RAW_V 0x1
|
#define MCPWM_FH0_OST_INT_RAW_S 24
|
/* MCPWM_FH2_CBC_INT_RAW : RO ;bitpos:[23] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by an cycle-by-cycle
|
mode action on PWM2*/
|
#define MCPWM_FH2_CBC_INT_RAW (BIT(23))
|
#define MCPWM_FH2_CBC_INT_RAW_M (BIT(23))
|
#define MCPWM_FH2_CBC_INT_RAW_V 0x1
|
#define MCPWM_FH2_CBC_INT_RAW_S 23
|
/* MCPWM_FH1_CBC_INT_RAW : RO ;bitpos:[22] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by an cycle-by-cycle
|
mode action on PWM1*/
|
#define MCPWM_FH1_CBC_INT_RAW (BIT(22))
|
#define MCPWM_FH1_CBC_INT_RAW_M (BIT(22))
|
#define MCPWM_FH1_CBC_INT_RAW_V 0x1
|
#define MCPWM_FH1_CBC_INT_RAW_S 22
|
/* MCPWM_FH0_CBC_INT_RAW : RO ;bitpos:[21] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by an cycle-by-cycle
|
mode action on PWM0*/
|
#define MCPWM_FH0_CBC_INT_RAW (BIT(21))
|
#define MCPWM_FH0_CBC_INT_RAW_M (BIT(21))
|
#define MCPWM_FH0_CBC_INT_RAW_V 0x1
|
#define MCPWM_FH0_CBC_INT_RAW_S 21
|
/* MCPWM_OP2_TEB_INT_RAW : RO ;bitpos:[20] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM operator 2 TEB event*/
|
#define MCPWM_OP2_TEB_INT_RAW (BIT(20))
|
#define MCPWM_OP2_TEB_INT_RAW_M (BIT(20))
|
#define MCPWM_OP2_TEB_INT_RAW_V 0x1
|
#define MCPWM_OP2_TEB_INT_RAW_S 20
|
/* MCPWM_OP1_TEB_INT_RAW : RO ;bitpos:[19] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM operator 1 TEB event*/
|
#define MCPWM_OP1_TEB_INT_RAW (BIT(19))
|
#define MCPWM_OP1_TEB_INT_RAW_M (BIT(19))
|
#define MCPWM_OP1_TEB_INT_RAW_V 0x1
|
#define MCPWM_OP1_TEB_INT_RAW_S 19
|
/* MCPWM_OP0_TEB_INT_RAW : RO ;bitpos:[18] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM operator 0 TEB event*/
|
#define MCPWM_OP0_TEB_INT_RAW (BIT(18))
|
#define MCPWM_OP0_TEB_INT_RAW_M (BIT(18))
|
#define MCPWM_OP0_TEB_INT_RAW_V 0x1
|
#define MCPWM_OP0_TEB_INT_RAW_S 18
|
/* MCPWM_OP2_TEA_INT_RAW : RO ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM operator 2 TEA event*/
|
#define MCPWM_OP2_TEA_INT_RAW (BIT(17))
|
#define MCPWM_OP2_TEA_INT_RAW_M (BIT(17))
|
#define MCPWM_OP2_TEA_INT_RAW_V 0x1
|
#define MCPWM_OP2_TEA_INT_RAW_S 17
|
/* MCPWM_OP1_TEA_INT_RAW : RO ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM operator 1 TEA event*/
|
#define MCPWM_OP1_TEA_INT_RAW (BIT(16))
|
#define MCPWM_OP1_TEA_INT_RAW_M (BIT(16))
|
#define MCPWM_OP1_TEA_INT_RAW_V 0x1
|
#define MCPWM_OP1_TEA_INT_RAW_S 16
|
/* MCPWM_OP0_TEA_INT_RAW : RO ;bitpos:[15] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM operator 0 TEA event*/
|
#define MCPWM_OP0_TEA_INT_RAW (BIT(15))
|
#define MCPWM_OP0_TEA_INT_RAW_M (BIT(15))
|
#define MCPWM_OP0_TEA_INT_RAW_V 0x1
|
#define MCPWM_OP0_TEA_INT_RAW_S 15
|
/* MCPWM_FAULT2_CLR_INT_RAW : RO ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered when event_f2 ends*/
|
#define MCPWM_FAULT2_CLR_INT_RAW (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_RAW_M (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_RAW_V 0x1
|
#define MCPWM_FAULT2_CLR_INT_RAW_S 14
|
/* MCPWM_FAULT1_CLR_INT_RAW : RO ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered when event_f1 ends*/
|
#define MCPWM_FAULT1_CLR_INT_RAW (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_RAW_M (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_RAW_V 0x1
|
#define MCPWM_FAULT1_CLR_INT_RAW_S 13
|
/* MCPWM_FAULT0_CLR_INT_RAW : RO ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered when event_f0 ends*/
|
#define MCPWM_FAULT0_CLR_INT_RAW (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_RAW_M (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_RAW_V 0x1
|
#define MCPWM_FAULT0_CLR_INT_RAW_S 12
|
/* MCPWM_FAULT2_INT_RAW : RO ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered when event_f2 starts*/
|
#define MCPWM_FAULT2_INT_RAW (BIT(11))
|
#define MCPWM_FAULT2_INT_RAW_M (BIT(11))
|
#define MCPWM_FAULT2_INT_RAW_V 0x1
|
#define MCPWM_FAULT2_INT_RAW_S 11
|
/* MCPWM_FAULT1_INT_RAW : RO ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered when event_f1 starts*/
|
#define MCPWM_FAULT1_INT_RAW (BIT(10))
|
#define MCPWM_FAULT1_INT_RAW_M (BIT(10))
|
#define MCPWM_FAULT1_INT_RAW_V 0x1
|
#define MCPWM_FAULT1_INT_RAW_S 10
|
/* MCPWM_FAULT0_INT_RAW : RO ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: The raw status bit for interrupt triggered when event_f0 starts*/
|
#define MCPWM_FAULT0_INT_RAW (BIT(9))
|
#define MCPWM_FAULT0_INT_RAW_M (BIT(9))
|
#define MCPWM_FAULT0_INT_RAW_V 0x1
|
#define MCPWM_FAULT0_INT_RAW_S 9
|
/* MCPWM_TIMER2_TEP_INT_RAW : RO ;bitpos:[8] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM timer 2 TEP event*/
|
#define MCPWM_TIMER2_TEP_INT_RAW (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_RAW_M (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_RAW_V 0x1
|
#define MCPWM_TIMER2_TEP_INT_RAW_S 8
|
/* MCPWM_TIMER1_TEP_INT_RAW : RO ;bitpos:[7] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM timer 1 TEP event*/
|
#define MCPWM_TIMER1_TEP_INT_RAW (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_RAW_M (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_RAW_V 0x1
|
#define MCPWM_TIMER1_TEP_INT_RAW_S 7
|
/* MCPWM_TIMER0_TEP_INT_RAW : RO ;bitpos:[6] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM timer 0 TEP event*/
|
#define MCPWM_TIMER0_TEP_INT_RAW (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_RAW_M (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_RAW_V 0x1
|
#define MCPWM_TIMER0_TEP_INT_RAW_S 6
|
/* MCPWM_TIMER2_TEZ_INT_RAW : RO ;bitpos:[5] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM timer 2 TEZ event*/
|
#define MCPWM_TIMER2_TEZ_INT_RAW (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_RAW_M (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_RAW_V 0x1
|
#define MCPWM_TIMER2_TEZ_INT_RAW_S 5
|
/* MCPWM_TIMER1_TEZ_INT_RAW : RO ;bitpos:[4] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM timer 1 TEZ event*/
|
#define MCPWM_TIMER1_TEZ_INT_RAW (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_RAW_M (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_RAW_V 0x1
|
#define MCPWM_TIMER1_TEZ_INT_RAW_S 4
|
/* MCPWM_TIMER0_TEZ_INT_RAW : RO ;bitpos:[3] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered by a PWM timer 0 TEZ event*/
|
#define MCPWM_TIMER0_TEZ_INT_RAW (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_RAW_M (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_RAW_V 0x1
|
#define MCPWM_TIMER0_TEZ_INT_RAW_S 3
|
/* MCPWM_TIMER2_STOP_INT_RAW : RO ;bitpos:[2] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered when timer 2 stops*/
|
#define MCPWM_TIMER2_STOP_INT_RAW (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_RAW_M (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_RAW_V 0x1
|
#define MCPWM_TIMER2_STOP_INT_RAW_S 2
|
/* MCPWM_TIMER1_STOP_INT_RAW : RO ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered when timer 1 stops*/
|
#define MCPWM_TIMER1_STOP_INT_RAW (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_RAW_M (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_RAW_V 0x1
|
#define MCPWM_TIMER1_STOP_INT_RAW_S 1
|
/* MCPWM_TIMER0_STOP_INT_RAW : RO ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: The raw status bit for interrupt triggered when timer 0 stops*/
|
#define MCPWM_TIMER0_STOP_INT_RAW (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_RAW_M (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_RAW_V 0x1
|
#define MCPWM_TIMER0_STOP_INT_RAW_S 0
|
|
#define MCMCPWM_INT_ST_MCPWM_REG(i) (REG_MCPWM_BASE(i) + 0x0118)
|
/* MCPWM_CAP2_INT_ST : RO ;bitpos:[29] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by captureon channel 2*/
|
#define MCPWM_CAP2_INT_ST (BIT(29))
|
#define MCPWM_CAP2_INT_ST_M (BIT(29))
|
#define MCPWM_CAP2_INT_ST_V 0x1
|
#define MCPWM_CAP2_INT_ST_S 29
|
/* MCPWM_CAP1_INT_ST : RO ;bitpos:[28] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by captureon channel 1*/
|
#define MCPWM_CAP1_INT_ST (BIT(28))
|
#define MCPWM_CAP1_INT_ST_M (BIT(28))
|
#define MCPWM_CAP1_INT_ST_V 0x1
|
#define MCPWM_CAP1_INT_ST_S 28
|
/* MCPWM_CAP0_INT_ST : RO ;bitpos:[27] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by captureon channel 0*/
|
#define MCPWM_CAP0_INT_ST (BIT(27))
|
#define MCPWM_CAP0_INT_ST_M (BIT(27))
|
#define MCPWM_CAP0_INT_ST_V 0x1
|
#define MCPWM_CAP0_INT_ST_S 27
|
/* MCPWM_FH2_OST_INT_ST : RO ;bitpos:[26] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by an one-shot mode action on PWM2*/
|
#define MCPWM_FH2_OST_INT_ST (BIT(26))
|
#define MCPWM_FH2_OST_INT_ST_M (BIT(26))
|
#define MCPWM_FH2_OST_INT_ST_V 0x1
|
#define MCPWM_FH2_OST_INT_ST_S 26
|
/* MCPWM_FH1_OST_INT_ST : RO ;bitpos:[25] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH1_OST_INT_ST (BIT(25))
|
#define MCPWM_FH1_OST_INT_ST_M (BIT(25))
|
#define MCPWM_FH1_OST_INT_ST_V 0x1
|
#define MCPWM_FH1_OST_INT_ST_S 25
|
/* MCPWM_FH0_OST_INT_ST : RO ;bitpos:[24] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH0_OST_INT_ST (BIT(24))
|
#define MCPWM_FH0_OST_INT_ST_M (BIT(24))
|
#define MCPWM_FH0_OST_INT_ST_V 0x1
|
#define MCPWM_FH0_OST_INT_ST_S 24
|
/* MCPWM_FH2_CBC_INT_ST : RO ;bitpos:[23] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by an cycle-by-cycle
|
mode action on PWM2*/
|
#define MCPWM_FH2_CBC_INT_ST (BIT(23))
|
#define MCPWM_FH2_CBC_INT_ST_M (BIT(23))
|
#define MCPWM_FH2_CBC_INT_ST_V 0x1
|
#define MCPWM_FH2_CBC_INT_ST_S 23
|
/* MCPWM_FH1_CBC_INT_ST : RO ;bitpos:[22] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by an cycle-by-cycle
|
mode action on PWM1*/
|
#define MCPWM_FH1_CBC_INT_ST (BIT(22))
|
#define MCPWM_FH1_CBC_INT_ST_M (BIT(22))
|
#define MCPWM_FH1_CBC_INT_ST_V 0x1
|
#define MCPWM_FH1_CBC_INT_ST_S 22
|
/* MCPWM_FH0_CBC_INT_ST : RO ;bitpos:[21] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by an cycle-by-cycle
|
mode action on PWM0*/
|
#define MCPWM_FH0_CBC_INT_ST (BIT(21))
|
#define MCPWM_FH0_CBC_INT_ST_M (BIT(21))
|
#define MCPWM_FH0_CBC_INT_ST_V 0x1
|
#define MCPWM_FH0_CBC_INT_ST_S 21
|
/* MCPWM_OP2_TEB_INT_ST : RO ;bitpos:[20] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM operator 2 TEB event*/
|
#define MCPWM_OP2_TEB_INT_ST (BIT(20))
|
#define MCPWM_OP2_TEB_INT_ST_M (BIT(20))
|
#define MCPWM_OP2_TEB_INT_ST_V 0x1
|
#define MCPWM_OP2_TEB_INT_ST_S 20
|
/* MCPWM_OP1_TEB_INT_ST : RO ;bitpos:[19] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM operator 1 TEB event*/
|
#define MCPWM_OP1_TEB_INT_ST (BIT(19))
|
#define MCPWM_OP1_TEB_INT_ST_M (BIT(19))
|
#define MCPWM_OP1_TEB_INT_ST_V 0x1
|
#define MCPWM_OP1_TEB_INT_ST_S 19
|
/* MCPWM_OP0_TEB_INT_ST : RO ;bitpos:[18] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM operator 0 TEB event*/
|
#define MCPWM_OP0_TEB_INT_ST (BIT(18))
|
#define MCPWM_OP0_TEB_INT_ST_M (BIT(18))
|
#define MCPWM_OP0_TEB_INT_ST_V 0x1
|
#define MCPWM_OP0_TEB_INT_ST_S 18
|
/* MCPWM_OP2_TEA_INT_ST : RO ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM operator 2 TEA event*/
|
#define MCPWM_OP2_TEA_INT_ST (BIT(17))
|
#define MCPWM_OP2_TEA_INT_ST_M (BIT(17))
|
#define MCPWM_OP2_TEA_INT_ST_V 0x1
|
#define MCPWM_OP2_TEA_INT_ST_S 17
|
/* MCPWM_OP1_TEA_INT_ST : RO ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM operator 1 TEA event*/
|
#define MCPWM_OP1_TEA_INT_ST (BIT(16))
|
#define MCPWM_OP1_TEA_INT_ST_M (BIT(16))
|
#define MCPWM_OP1_TEA_INT_ST_V 0x1
|
#define MCPWM_OP1_TEA_INT_ST_S 16
|
/* MCPWM_OP0_TEA_INT_ST : RO ;bitpos:[15] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM operator 0 TEA event*/
|
#define MCPWM_OP0_TEA_INT_ST (BIT(15))
|
#define MCPWM_OP0_TEA_INT_ST_M (BIT(15))
|
#define MCPWM_OP0_TEA_INT_ST_V 0x1
|
#define MCPWM_OP0_TEA_INT_ST_S 15
|
/* MCPWM_FAULT2_CLR_INT_ST : RO ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered when event_f2 ends*/
|
#define MCPWM_FAULT2_CLR_INT_ST (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_ST_M (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_ST_V 0x1
|
#define MCPWM_FAULT2_CLR_INT_ST_S 14
|
/* MCPWM_FAULT1_CLR_INT_ST : RO ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered when event_f1 ends*/
|
#define MCPWM_FAULT1_CLR_INT_ST (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_ST_M (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_ST_V 0x1
|
#define MCPWM_FAULT1_CLR_INT_ST_S 13
|
/* MCPWM_FAULT0_CLR_INT_ST : RO ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered when event_f0 ends*/
|
#define MCPWM_FAULT0_CLR_INT_ST (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_ST_M (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_ST_V 0x1
|
#define MCPWM_FAULT0_CLR_INT_ST_S 12
|
/* MCPWM_FAULT2_INT_ST : RO ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered when event_f2 starts*/
|
#define MCPWM_FAULT2_INT_ST (BIT(11))
|
#define MCPWM_FAULT2_INT_ST_M (BIT(11))
|
#define MCPWM_FAULT2_INT_ST_V 0x1
|
#define MCPWM_FAULT2_INT_ST_S 11
|
/* MCPWM_FAULT1_INT_ST : RO ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered when event_f1 starts*/
|
#define MCPWM_FAULT1_INT_ST (BIT(10))
|
#define MCPWM_FAULT1_INT_ST_M (BIT(10))
|
#define MCPWM_FAULT1_INT_ST_V 0x1
|
#define MCPWM_FAULT1_INT_ST_S 10
|
/* MCPWM_FAULT0_INT_ST : RO ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: The masked status bit for interrupt triggered when event_f0 starts*/
|
#define MCPWM_FAULT0_INT_ST (BIT(9))
|
#define MCPWM_FAULT0_INT_ST_M (BIT(9))
|
#define MCPWM_FAULT0_INT_ST_V 0x1
|
#define MCPWM_FAULT0_INT_ST_S 9
|
/* MCPWM_TIMER2_TEP_INT_ST : RO ;bitpos:[8] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM timer 2 TEP event*/
|
#define MCPWM_TIMER2_TEP_INT_ST (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_ST_M (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_ST_V 0x1
|
#define MCPWM_TIMER2_TEP_INT_ST_S 8
|
/* MCPWM_TIMER1_TEP_INT_ST : RO ;bitpos:[7] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM timer 1 TEP event*/
|
#define MCPWM_TIMER1_TEP_INT_ST (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_ST_M (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_ST_V 0x1
|
#define MCPWM_TIMER1_TEP_INT_ST_S 7
|
/* MCPWM_TIMER0_TEP_INT_ST : RO ;bitpos:[6] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM timer 0 TEP event*/
|
#define MCPWM_TIMER0_TEP_INT_ST (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_ST_M (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_ST_V 0x1
|
#define MCPWM_TIMER0_TEP_INT_ST_S 6
|
/* MCPWM_TIMER2_TEZ_INT_ST : RO ;bitpos:[5] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM timer 2 TEZ event*/
|
#define MCPWM_TIMER2_TEZ_INT_ST (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_ST_M (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_ST_V 0x1
|
#define MCPWM_TIMER2_TEZ_INT_ST_S 5
|
/* MCPWM_TIMER1_TEZ_INT_ST : RO ;bitpos:[4] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM timer 1 TEZ event*/
|
#define MCPWM_TIMER1_TEZ_INT_ST (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_ST_M (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_ST_V 0x1
|
#define MCPWM_TIMER1_TEZ_INT_ST_S 4
|
/* MCPWM_TIMER0_TEZ_INT_ST : RO ;bitpos:[3] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered by a PWM timer 0 TEZ event*/
|
#define MCPWM_TIMER0_TEZ_INT_ST (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_ST_M (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_ST_V 0x1
|
#define MCPWM_TIMER0_TEZ_INT_ST_S 3
|
/* MCPWM_TIMER2_STOP_INT_ST : RO ;bitpos:[2] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered when timer 2 stops*/
|
#define MCPWM_TIMER2_STOP_INT_ST (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_ST_M (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_ST_V 0x1
|
#define MCPWM_TIMER2_STOP_INT_ST_S 2
|
/* MCPWM_TIMER1_STOP_INT_ST : RO ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered when timer 1 stops*/
|
#define MCPWM_TIMER1_STOP_INT_ST (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_ST_M (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_ST_V 0x1
|
#define MCPWM_TIMER1_STOP_INT_ST_S 1
|
/* MCPWM_TIMER0_STOP_INT_ST : RO ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: The masked status bit for interrupt triggered when timer 0 stops*/
|
#define MCPWM_TIMER0_STOP_INT_ST (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_ST_M (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_ST_V 0x1
|
#define MCPWM_TIMER0_STOP_INT_ST_S 0
|
|
#define MCMCPWM_INT_CLR_MCPWM_REG(i) (REG_MCPWM_BASE(i) + 0x011c)
|
/* MCPWM_CAP2_INT_CLR : WO ;bitpos:[29] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by captureon channel 2*/
|
#define MCPWM_CAP2_INT_CLR (BIT(29))
|
#define MCPWM_CAP2_INT_CLR_M (BIT(29))
|
#define MCPWM_CAP2_INT_CLR_V 0x1
|
#define MCPWM_CAP2_INT_CLR_S 29
|
/* MCPWM_CAP1_INT_CLR : WO ;bitpos:[28] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by captureon channel 1*/
|
#define MCPWM_CAP1_INT_CLR (BIT(28))
|
#define MCPWM_CAP1_INT_CLR_M (BIT(28))
|
#define MCPWM_CAP1_INT_CLR_V 0x1
|
#define MCPWM_CAP1_INT_CLR_S 28
|
/* MCPWM_CAP0_INT_CLR : WO ;bitpos:[27] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by captureon channel 0*/
|
#define MCPWM_CAP0_INT_CLR (BIT(27))
|
#define MCPWM_CAP0_INT_CLR_M (BIT(27))
|
#define MCPWM_CAP0_INT_CLR_V 0x1
|
#define MCPWM_CAP0_INT_CLR_S 27
|
/* MCPWM_FH2_OST_INT_CLR : WO ;bitpos:[26] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by an one-shot mode action on PWM2*/
|
#define MCPWM_FH2_OST_INT_CLR (BIT(26))
|
#define MCPWM_FH2_OST_INT_CLR_M (BIT(26))
|
#define MCPWM_FH2_OST_INT_CLR_V 0x1
|
#define MCPWM_FH2_OST_INT_CLR_S 26
|
/* MCPWM_FH1_OST_INT_CLR : WO ;bitpos:[25] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH1_OST_INT_CLR (BIT(25))
|
#define MCPWM_FH1_OST_INT_CLR_M (BIT(25))
|
#define MCPWM_FH1_OST_INT_CLR_V 0x1
|
#define MCPWM_FH1_OST_INT_CLR_S 25
|
/* MCPWM_FH0_OST_INT_CLR : WO ;bitpos:[24] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by an one-shot mode action on PWM0*/
|
#define MCPWM_FH0_OST_INT_CLR (BIT(24))
|
#define MCPWM_FH0_OST_INT_CLR_M (BIT(24))
|
#define MCPWM_FH0_OST_INT_CLR_V 0x1
|
#define MCPWM_FH0_OST_INT_CLR_S 24
|
/* MCPWM_FH2_CBC_INT_CLR : WO ;bitpos:[23] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by an cycle-by-cycle
|
mode action on PWM2*/
|
#define MCPWM_FH2_CBC_INT_CLR (BIT(23))
|
#define MCPWM_FH2_CBC_INT_CLR_M (BIT(23))
|
#define MCPWM_FH2_CBC_INT_CLR_V 0x1
|
#define MCPWM_FH2_CBC_INT_CLR_S 23
|
/* MCPWM_FH1_CBC_INT_CLR : WO ;bitpos:[22] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by an cycle-by-cycle
|
mode action on PWM1*/
|
#define MCPWM_FH1_CBC_INT_CLR (BIT(22))
|
#define MCPWM_FH1_CBC_INT_CLR_M (BIT(22))
|
#define MCPWM_FH1_CBC_INT_CLR_V 0x1
|
#define MCPWM_FH1_CBC_INT_CLR_S 22
|
/* MCPWM_FH0_CBC_INT_CLR : WO ;bitpos:[21] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by an cycle-by-cycle
|
mode action on PWM0*/
|
#define MCPWM_FH0_CBC_INT_CLR (BIT(21))
|
#define MCPWM_FH0_CBC_INT_CLR_M (BIT(21))
|
#define MCPWM_FH0_CBC_INT_CLR_V 0x1
|
#define MCPWM_FH0_CBC_INT_CLR_S 21
|
/* MCPWM_OP2_TEB_INT_CLR : WO ;bitpos:[20] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM operator 2 TEB event*/
|
#define MCPWM_OP2_TEB_INT_CLR (BIT(20))
|
#define MCPWM_OP2_TEB_INT_CLR_M (BIT(20))
|
#define MCPWM_OP2_TEB_INT_CLR_V 0x1
|
#define MCPWM_OP2_TEB_INT_CLR_S 20
|
/* MCPWM_OP1_TEB_INT_CLR : WO ;bitpos:[19] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM operator 1 TEB event*/
|
#define MCPWM_OP1_TEB_INT_CLR (BIT(19))
|
#define MCPWM_OP1_TEB_INT_CLR_M (BIT(19))
|
#define MCPWM_OP1_TEB_INT_CLR_V 0x1
|
#define MCPWM_OP1_TEB_INT_CLR_S 19
|
/* MCPWM_OP0_TEB_INT_CLR : WO ;bitpos:[18] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM operator 0 TEB event*/
|
#define MCPWM_OP0_TEB_INT_CLR (BIT(18))
|
#define MCPWM_OP0_TEB_INT_CLR_M (BIT(18))
|
#define MCPWM_OP0_TEB_INT_CLR_V 0x1
|
#define MCPWM_OP0_TEB_INT_CLR_S 18
|
/* MCPWM_OP2_TEA_INT_CLR : WO ;bitpos:[17] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM operator 2 TEA event*/
|
#define MCPWM_OP2_TEA_INT_CLR (BIT(17))
|
#define MCPWM_OP2_TEA_INT_CLR_M (BIT(17))
|
#define MCPWM_OP2_TEA_INT_CLR_V 0x1
|
#define MCPWM_OP2_TEA_INT_CLR_S 17
|
/* MCPWM_OP1_TEA_INT_CLR : WO ;bitpos:[16] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM operator 1 TEA event*/
|
#define MCPWM_OP1_TEA_INT_CLR (BIT(16))
|
#define MCPWM_OP1_TEA_INT_CLR_M (BIT(16))
|
#define MCPWM_OP1_TEA_INT_CLR_V 0x1
|
#define MCPWM_OP1_TEA_INT_CLR_S 16
|
/* MCPWM_OP0_TEA_INT_CLR : WO ;bitpos:[15] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM operator 0 TEA event*/
|
#define MCPWM_OP0_TEA_INT_CLR (BIT(15))
|
#define MCPWM_OP0_TEA_INT_CLR_M (BIT(15))
|
#define MCPWM_OP0_TEA_INT_CLR_V 0x1
|
#define MCPWM_OP0_TEA_INT_CLR_S 15
|
/* MCPWM_FAULT2_CLR_INT_CLR : WO ;bitpos:[14] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered when event_f2 ends*/
|
#define MCPWM_FAULT2_CLR_INT_CLR (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_CLR_M (BIT(14))
|
#define MCPWM_FAULT2_CLR_INT_CLR_V 0x1
|
#define MCPWM_FAULT2_CLR_INT_CLR_S 14
|
/* MCPWM_FAULT1_CLR_INT_CLR : WO ;bitpos:[13] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered when event_f1 ends*/
|
#define MCPWM_FAULT1_CLR_INT_CLR (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_CLR_M (BIT(13))
|
#define MCPWM_FAULT1_CLR_INT_CLR_V 0x1
|
#define MCPWM_FAULT1_CLR_INT_CLR_S 13
|
/* MCPWM_FAULT0_CLR_INT_CLR : WO ;bitpos:[12] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered when event_f0 ends*/
|
#define MCPWM_FAULT0_CLR_INT_CLR (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_CLR_M (BIT(12))
|
#define MCPWM_FAULT0_CLR_INT_CLR_V 0x1
|
#define MCPWM_FAULT0_CLR_INT_CLR_S 12
|
/* MCPWM_FAULT2_INT_CLR : WO ;bitpos:[11] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered when event_f2 starts*/
|
#define MCPWM_FAULT2_INT_CLR (BIT(11))
|
#define MCPWM_FAULT2_INT_CLR_M (BIT(11))
|
#define MCPWM_FAULT2_INT_CLR_V 0x1
|
#define MCPWM_FAULT2_INT_CLR_S 11
|
/* MCPWM_FAULT1_INT_CLR : WO ;bitpos:[10] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered when event_f1 starts*/
|
#define MCPWM_FAULT1_INT_CLR (BIT(10))
|
#define MCPWM_FAULT1_INT_CLR_M (BIT(10))
|
#define MCPWM_FAULT1_INT_CLR_V 0x1
|
#define MCPWM_FAULT1_INT_CLR_S 10
|
/* MCPWM_FAULT0_INT_CLR : WO ;bitpos:[9] ;default: 1'd0 ; */
|
/*description: Set this bit to clear interrupt triggered when event_f0 starts*/
|
#define MCPWM_FAULT0_INT_CLR (BIT(9))
|
#define MCPWM_FAULT0_INT_CLR_M (BIT(9))
|
#define MCPWM_FAULT0_INT_CLR_V 0x1
|
#define MCPWM_FAULT0_INT_CLR_S 9
|
/* MCPWM_TIMER2_TEP_INT_CLR : WO ;bitpos:[8] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM timer 2 TEP event*/
|
#define MCPWM_TIMER2_TEP_INT_CLR (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_CLR_M (BIT(8))
|
#define MCPWM_TIMER2_TEP_INT_CLR_V 0x1
|
#define MCPWM_TIMER2_TEP_INT_CLR_S 8
|
/* MCPWM_TIMER1_TEP_INT_CLR : WO ;bitpos:[7] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM timer 1 TEP event*/
|
#define MCPWM_TIMER1_TEP_INT_CLR (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_CLR_M (BIT(7))
|
#define MCPWM_TIMER1_TEP_INT_CLR_V 0x1
|
#define MCPWM_TIMER1_TEP_INT_CLR_S 7
|
/* MCPWM_TIMER0_TEP_INT_CLR : WO ;bitpos:[6] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM timer 0 TEP event*/
|
#define MCPWM_TIMER0_TEP_INT_CLR (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_CLR_M (BIT(6))
|
#define MCPWM_TIMER0_TEP_INT_CLR_V 0x1
|
#define MCPWM_TIMER0_TEP_INT_CLR_S 6
|
/* MCPWM_TIMER2_TEZ_INT_CLR : WO ;bitpos:[5] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM timer 2 TEZ event*/
|
#define MCPWM_TIMER2_TEZ_INT_CLR (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_CLR_M (BIT(5))
|
#define MCPWM_TIMER2_TEZ_INT_CLR_V 0x1
|
#define MCPWM_TIMER2_TEZ_INT_CLR_S 5
|
/* MCPWM_TIMER1_TEZ_INT_CLR : WO ;bitpos:[4] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM timer 1 TEZ event*/
|
#define MCPWM_TIMER1_TEZ_INT_CLR (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_CLR_M (BIT(4))
|
#define MCPWM_TIMER1_TEZ_INT_CLR_V 0x1
|
#define MCPWM_TIMER1_TEZ_INT_CLR_S 4
|
/* MCPWM_TIMER0_TEZ_INT_CLR : WO ;bitpos:[3] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered by a PWM timer 0 TEZ event*/
|
#define MCPWM_TIMER0_TEZ_INT_CLR (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_CLR_M (BIT(3))
|
#define MCPWM_TIMER0_TEZ_INT_CLR_V 0x1
|
#define MCPWM_TIMER0_TEZ_INT_CLR_S 3
|
/* MCPWM_TIMER2_STOP_INT_CLR : WO ;bitpos:[2] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered when timer 2 stops*/
|
#define MCPWM_TIMER2_STOP_INT_CLR (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_CLR_M (BIT(2))
|
#define MCPWM_TIMER2_STOP_INT_CLR_V 0x1
|
#define MCPWM_TIMER2_STOP_INT_CLR_S 2
|
/* MCPWM_TIMER1_STOP_INT_CLR : WO ;bitpos:[1] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered when timer 1 stops*/
|
#define MCPWM_TIMER1_STOP_INT_CLR (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_CLR_M (BIT(1))
|
#define MCPWM_TIMER1_STOP_INT_CLR_V 0x1
|
#define MCPWM_TIMER1_STOP_INT_CLR_S 1
|
/* MCPWM_TIMER0_STOP_INT_CLR : WO ;bitpos:[0] ;default: 1'h0 ; */
|
/*description: Set this bit to clear interrupt triggered when timer 0 stops*/
|
#define MCPWM_TIMER0_STOP_INT_CLR (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_CLR_M (BIT(0))
|
#define MCPWM_TIMER0_STOP_INT_CLR_V 0x1
|
#define MCPWM_TIMER0_STOP_INT_CLR_S 0
|
|
#define MCPWM_CLK_REG(i) (REG_MCPWM_BASE(i) + 0x0120)
|
/* MCPWM_CLK_EN : R/W ;bitpos:[0] ;default: 1'd0 ; */
|
/*description: Force clock on for this reg file*/
|
#define MCPWM_CLK_EN (BIT(0))
|
#define MCPWM_CLK_EN_M (BIT(0))
|
#define MCPWM_CLK_EN_V 0x1
|
#define MCPWM_CLK_EN_S 0
|
|
#define MCPWM_VERSION_REG(i) (REG_MCPWM_BASE(i) + 0x0124)
|
/* MCPWM_DATE : R/W ;bitpos:[27:0] ;default: 28'h1509110 ; */
|
/*description: Version of this reg file*/
|
#define MCPWM_DATE 0x0FFFFFFF
|
#define MCPWM_DATE_M ((MCPWM_DATE_V)<<(MCPWM_DATE_S))
|
#define MCPWM_DATE_V 0xFFFFFFF
|
#define MCPWM_DATE_S 0
|
|
|
|
|
#endif /*_SOC_MCPWM_REG_H_ */
|
