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https://github.com/espressif/esp-idf
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177 lines
8.6 KiB
C
177 lines
8.6 KiB
C
/*
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* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include "soc/ledc_periph.h"
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#include "soc/gpio_sig_map.h"
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/*
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Bunch of constants for every LEDC peripheral: GPIO signals
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*/
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const ledc_signal_conn_t ledc_periph_signal[1] = {
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{
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.sig_out0_idx = LEDC_LS_SIG_OUT_PAD_OUT0_IDX,
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}
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};
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/**
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* LEDC registers to be saved for sleep retention
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*
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* channel:
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* LEDC_CHx_CONF0_REG, LEDC_CHx_HPOINT_REG, LEDC_CHx_DUTY_R_REG -> LEDC_CHx_DUTY_REG,
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* LEDC_CHx_GAMMA_CONF_REG, LEDC_CHx_GAMMA_RANGEi_REG
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*
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* timer:
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* LEDC_TIMERn_CONF_REG, LEDC_TIMERn_CMP_REG,
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*
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* common:
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* LEDC_INT_ENA_REG,
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* LEDC_EVT_TASK_EN0_REG, LEDC_EVT_TASK_EN1_REG, LEDC_EVT_TASK_EN2_REG,
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* LEDC_CONF_REG,
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*
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* Note 1: Gamma parameter registers are backuped and restored. But we won't start a fade automatically after wake-up.
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* Instead, we will only start a PWM with a fixed duty cycle, the same value as before entering the sleep.
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*
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* Note 2: For timer/channel registers to get synced, update bits need to be set
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*
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* Note 3: Gamma RAM registers R/W relies both APB and function clock, therefore, retention requires the existence of function clock
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*/
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#define LEDC_COMMON_RETENTION_REGS_CNT 5
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#define LEDC_COMMON_RETENTION_REGS_BASE (DR_REG_LEDC_BASE + 0xc8)
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static const uint32_t ledc_common_regs_map[4] = {0x1c00001, 0x400, 0x0, 0x0};
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static const regdma_entries_config_t ledc_common_regdma_entries[] = {
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// If a fade is in process, the DUTY_CHNG_END_CHx intr bit is enabled, however, we don't want it to be restored after wake-up (no fade after wake-up).
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// Therefore, we can set it to 0 before backup the LEDC_INT_ENA_REG.
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[0] = { .config = REGDMA_LINK_WRITE_INIT(REGDMA_LEDC_LINK(0x00),
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LEDC_INT_ENA_REG, 0,
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(LEDC_DUTY_CHNG_END_CH0_INT_ENA_M | LEDC_DUTY_CHNG_END_CH1_INT_ENA_M | LEDC_DUTY_CHNG_END_CH2_INT_ENA_M | LEDC_DUTY_CHNG_END_CH3_INT_ENA_M | LEDC_DUTY_CHNG_END_CH4_INT_ENA_M | LEDC_DUTY_CHNG_END_CH5_INT_ENA_M | LEDC_DUTY_CHNG_END_CH6_INT_ENA_M | LEDC_DUTY_CHNG_END_CH7_INT_ENA_M), 0, 1),
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.owner = LEDC_RETENTION_ENTRY },
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[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_LEDC_LINK(0x01),
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LEDC_COMMON_RETENTION_REGS_BASE, LEDC_COMMON_RETENTION_REGS_BASE,
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LEDC_COMMON_RETENTION_REGS_CNT, 0, 0,
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ledc_common_regs_map[0], ledc_common_regs_map[1],
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ledc_common_regs_map[2], ledc_common_regs_map[3]),
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.owner = LEDC_RETENTION_ENTRY },
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};
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#define LEDC_TIMER_RETENTION_ENTRIES(timer) { \
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[0] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_LEDC_LINK(0x00), \
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LEDC_TIMER##timer##_CONF_REG, LEDC_TIMER##timer##_CONF_REG, \
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1, 0, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[1] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_LEDC_LINK(0x01), \
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LEDC_TIMER##timer##_CMP_REG, LEDC_TIMER##timer##_CMP_REG, \
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1, 0, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[2] = { .config = REGDMA_LINK_WRITE_INIT(REGDMA_LEDC_LINK(0x02), \
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LEDC_TIMER##timer##_CONF_REG, LEDC_TIMER##timer##_PARA_UP, \
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LEDC_TIMER##timer##_PARA_UP_M, 1, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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}
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#define LEDC_CHANNEL_RETENTION_REGS_CNT 2
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static const uint32_t ledc_channel_regs_map[4] = {0x3, 0x0, 0x0, 0x0};
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static const uint32_t ledc_channel_gamma_regs_map[4] = {0xffff, 0x0, 0x0, 0x0};
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#define LEDC_CHANNEL_RETENTION_ENTRIES(chan) { \
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[0] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_LEDC_LINK(0x00), \
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LEDC_CH##chan##_CONF0_REG, LEDC_CH##chan##_CONF0_REG, \
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LEDC_CHANNEL_RETENTION_REGS_CNT, 0, 0, \
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ledc_channel_regs_map[0], ledc_channel_regs_map[1], \
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ledc_channel_regs_map[2], ledc_channel_regs_map[3]), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[1] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_LEDC_LINK(0x01), \
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LEDC_CH##chan##_DUTY_R_REG, LEDC_CH##chan##_DUTY_REG, \
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1, 0, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[2] = { .config = REGDMA_LINK_WRITE_INIT(REGDMA_LEDC_LINK(0x02), \
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LEDC_CH##chan##_CONF1_REG, LEDC_DUTY_START_CH##chan, \
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LEDC_DUTY_START_CH##chan##_M, 1, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[3] = { .config = REGDMA_LINK_WRITE_INIT(REGDMA_LEDC_LINK(0x03), \
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LEDC_CH##chan##_CONF0_REG, LEDC_PARA_UP_CH##chan, \
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LEDC_PARA_UP_CH##chan##_M, 1, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[4] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_LEDC_LINK(0x04), \
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LEDC_CH##chan##_GAMMA_CONF_REG, LEDC_CH##chan##_GAMMA_CONF_REG, \
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1, 0, 0), \
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.owner = LEDC_RETENTION_ENTRY }, \
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[5] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_LEDC_LINK(0x05), \
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LEDC_CH##chan##_GAMMA_RANGE0_REG, LEDC_CH##chan##_GAMMA_RANGE0_REG, \
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SOC_LEDC_GAMMA_CURVE_FADE_RANGE_MAX, 0, 0, \
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ledc_channel_gamma_regs_map[0], ledc_channel_gamma_regs_map[1], \
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ledc_channel_gamma_regs_map[2], ledc_channel_gamma_regs_map[3]), \
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.owner = LEDC_RETENTION_ENTRY }, \
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}
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static const regdma_entries_config_t ledc_timer0_regdma_entries[] = LEDC_TIMER_RETENTION_ENTRIES(0);
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static const regdma_entries_config_t ledc_timer1_regdma_entries[] = LEDC_TIMER_RETENTION_ENTRIES(1);
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static const regdma_entries_config_t ledc_timer2_regdma_entries[] = LEDC_TIMER_RETENTION_ENTRIES(2);
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static const regdma_entries_config_t ledc_timer3_regdma_entries[] = LEDC_TIMER_RETENTION_ENTRIES(3);
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static const regdma_entries_config_t ledc_channel0_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(0);
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static const regdma_entries_config_t ledc_channel1_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(1);
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static const regdma_entries_config_t ledc_channel2_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(2);
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static const regdma_entries_config_t ledc_channel3_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(3);
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static const regdma_entries_config_t ledc_channel4_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(4);
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static const regdma_entries_config_t ledc_channel5_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(5);
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static const regdma_entries_config_t ledc_channel6_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(6);
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static const regdma_entries_config_t ledc_channel7_regdma_entries[] = LEDC_CHANNEL_RETENTION_ENTRIES(7);
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const ledc_reg_retention_info_t ledc_reg_retention_info = {
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.common = {
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.regdma_entry_array = ledc_common_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_common_regdma_entries),
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},
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.timer[0] = {
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.regdma_entry_array = ledc_timer0_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_timer0_regdma_entries),
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},
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.timer[1] = {
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.regdma_entry_array = ledc_timer1_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_timer1_regdma_entries),
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},
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.timer[2] = {
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.regdma_entry_array = ledc_timer2_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_timer2_regdma_entries),
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},
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.timer[3] = {
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.regdma_entry_array = ledc_timer3_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_timer3_regdma_entries),
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},
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.channel[0] = {
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.regdma_entry_array = ledc_channel0_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel0_regdma_entries),
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},
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.channel[1] = {
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.regdma_entry_array = ledc_channel1_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel1_regdma_entries),
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},
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.channel[2] = {
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.regdma_entry_array = ledc_channel2_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel2_regdma_entries),
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},
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.channel[3] = {
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.regdma_entry_array = ledc_channel3_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel3_regdma_entries),
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},
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.channel[4] = {
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.regdma_entry_array = ledc_channel4_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel4_regdma_entries),
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},
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.channel[5] = {
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.regdma_entry_array = ledc_channel5_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel5_regdma_entries),
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},
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.channel[6] = {
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.regdma_entry_array = ledc_channel6_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel6_regdma_entries),
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},
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.channel[7] = {
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.regdma_entry_array = ledc_channel7_regdma_entries,
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.array_size = ARRAY_SIZE(ledc_channel7_regdma_entries),
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},
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.module_id = SLEEP_RETENTION_MODULE_LEDC,
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};
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