diff options
Diffstat (limited to 'bsps/arm/imxrt/mcux-sdk/drivers/pwm/fsl_pwm.h')
-rw-r--r-- | bsps/arm/imxrt/mcux-sdk/drivers/pwm/fsl_pwm.h | 1225 |
1 files changed, 1225 insertions, 0 deletions
diff --git a/bsps/arm/imxrt/mcux-sdk/drivers/pwm/fsl_pwm.h b/bsps/arm/imxrt/mcux-sdk/drivers/pwm/fsl_pwm.h new file mode 100644 index 0000000000..f90f384a4a --- /dev/null +++ b/bsps/arm/imxrt/mcux-sdk/drivers/pwm/fsl_pwm.h @@ -0,0 +1,1225 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016-2022 NXP + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ +#ifndef _FSL_PWM_H_ +#define _FSL_PWM_H_ + +#include "fsl_common.h" + +/*! + * @addtogroup pwm_driver + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ +/*! @name Driver version */ +/*@{*/ +#define FSL_PWM_DRIVER_VERSION (MAKE_VERSION(2, 5, 1)) /*!< Version 2.5.1 */ +/*@}*/ + +/*! Number of bits per submodule for software output control */ +#define PWM_SUBMODULE_SWCONTROL_WIDTH 2 +/*! Because setting the pwm duty cycle doesn't support PWMX, getting the pwm duty cycle also doesn't support PWMX. */ +#define PWM_SUBMODULE_CHANNEL 2 + +/*! @brief List of PWM submodules */ +typedef enum _pwm_submodule +{ + kPWM_Module_0 = 0U, /*!< Submodule 0 */ + kPWM_Module_1, /*!< Submodule 1 */ + kPWM_Module_2, /*!< Submodule 2 */ + kPWM_Module_3 /*!< Submodule 3 */ +} pwm_submodule_t; + +/*! @brief List of PWM channels in each module */ +typedef enum _pwm_channels +{ + kPWM_PwmB = 0U, + kPWM_PwmA, + kPWM_PwmX +} pwm_channels_t; + +/*! @brief List of PWM value registers */ +typedef enum _pwm_value_register +{ + kPWM_ValueRegister_0 = 0U, /*!< PWM Value0 register */ + kPWM_ValueRegister_1, /*!< PWM Value1 register */ + kPWM_ValueRegister_2, /*!< PWM Value2 register */ + kPWM_ValueRegister_3, /*!< PWM Value3 register */ + kPWM_ValueRegister_4, /*!< PWM Value4 register */ + kPWM_ValueRegister_5 /*!< PWM Value5 register */ +} pwm_value_register_t; + +/*! @brief List of PWM value registers mask */ +enum _pwm_value_register_mask +{ + kPWM_ValueRegisterMask_0 = (1U << 0), /*!< PWM Value0 register mask */ + kPWM_ValueRegisterMask_1 = (1U << 1), /*!< PWM Value1 register mask */ + kPWM_ValueRegisterMask_2 = (1U << 2), /*!< PWM Value2 register mask */ + kPWM_ValueRegisterMask_3 = (1U << 3), /*!< PWM Value3 register mask */ + kPWM_ValueRegisterMask_4 = (1U << 4), /*!< PWM Value4 register mask */ + kPWM_ValueRegisterMask_5 = (1U << 5) /*!< PWM Value5 register mask */ +}; + +/*! @brief PWM clock source selection.*/ +typedef enum _pwm_clock_source +{ + kPWM_BusClock = 0U, /*!< The IPBus clock is used as the clock */ + kPWM_ExternalClock, /*!< EXT_CLK is used as the clock */ + kPWM_Submodule0Clock /*!< Clock of the submodule 0 (AUX_CLK) is used as the source clock */ +} pwm_clock_source_t; + +/*! @brief PWM prescaler factor selection for clock source*/ +typedef enum _pwm_clock_prescale +{ + kPWM_Prescale_Divide_1 = 0U, /*!< PWM clock frequency = fclk/1 */ + kPWM_Prescale_Divide_2, /*!< PWM clock frequency = fclk/2 */ + kPWM_Prescale_Divide_4, /*!< PWM clock frequency = fclk/4 */ + kPWM_Prescale_Divide_8, /*!< PWM clock frequency = fclk/8 */ + kPWM_Prescale_Divide_16, /*!< PWM clock frequency = fclk/16 */ + kPWM_Prescale_Divide_32, /*!< PWM clock frequency = fclk/32 */ + kPWM_Prescale_Divide_64, /*!< PWM clock frequency = fclk/64 */ + kPWM_Prescale_Divide_128 /*!< PWM clock frequency = fclk/128 */ +} pwm_clock_prescale_t; + +/*! @brief Options that can trigger a PWM FORCE_OUT */ +typedef enum _pwm_force_output_trigger +{ + kPWM_Force_Local = 0U, /*!< The local force signal, CTRL2[FORCE], from the submodule is used to force updates */ + kPWM_Force_Master, /*!< The master force signal from submodule 0 is used to force updates */ + kPWM_Force_LocalReload, /*!< The local reload signal from this submodule is used to force updates without regard to + the state of LDOK */ + kPWM_Force_MasterReload, /*!< The master reload signal from submodule 0 is used to force updates if LDOK is set */ + kPWM_Force_LocalSync, /*!< The local sync signal from this submodule is used to force updates */ + kPWM_Force_MasterSync, /*!< The master sync signal from submodule0 is used to force updates */ + kPWM_Force_External, /*!< The external force signal, EXT_FORCE, from outside the PWM module causes updates */ + kPWM_Force_ExternalSync /*!< The external sync signal, EXT_SYNC, from outside the PWM module causes updates */ +} pwm_force_output_trigger_t; + +/*! @brief PWM channel output status */ +typedef enum _pwm_output_state +{ + kPWM_HighState = 0, /*!< The output state of PWM channel is high */ + kPWM_LowState, /*!< The output state of PWM channel is low */ + kPWM_NormalState, /*!< The output state of PWM channel is normal */ + kPWM_InvertState, /*!< The output state of PWM channel is invert */ + kPWM_MaskState /*!< The output state of PWM channel is mask */ +} pwm_output_state_t; + +/*! @brief PWM counter initialization options */ +typedef enum _pwm_init_source +{ + kPWM_Initialize_LocalSync = 0U, /*!< Local sync causes initialization */ + kPWM_Initialize_MasterReload, /*!< Master reload from submodule 0 causes initialization */ + kPWM_Initialize_MasterSync, /*!< Master sync from submodule 0 causes initialization */ + kPWM_Initialize_ExtSync /*!< EXT_SYNC causes initialization */ +} pwm_init_source_t; + +/*! @brief PWM load frequency selection */ +typedef enum _pwm_load_frequency +{ + kPWM_LoadEveryOportunity = 0U, /*!< Every PWM opportunity */ + kPWM_LoadEvery2Oportunity, /*!< Every 2 PWM opportunities */ + kPWM_LoadEvery3Oportunity, /*!< Every 3 PWM opportunities */ + kPWM_LoadEvery4Oportunity, /*!< Every 4 PWM opportunities */ + kPWM_LoadEvery5Oportunity, /*!< Every 5 PWM opportunities */ + kPWM_LoadEvery6Oportunity, /*!< Every 6 PWM opportunities */ + kPWM_LoadEvery7Oportunity, /*!< Every 7 PWM opportunities */ + kPWM_LoadEvery8Oportunity, /*!< Every 8 PWM opportunities */ + kPWM_LoadEvery9Oportunity, /*!< Every 9 PWM opportunities */ + kPWM_LoadEvery10Oportunity, /*!< Every 10 PWM opportunities */ + kPWM_LoadEvery11Oportunity, /*!< Every 11 PWM opportunities */ + kPWM_LoadEvery12Oportunity, /*!< Every 12 PWM opportunities */ + kPWM_LoadEvery13Oportunity, /*!< Every 13 PWM opportunities */ + kPWM_LoadEvery14Oportunity, /*!< Every 14 PWM opportunities */ + kPWM_LoadEvery15Oportunity, /*!< Every 15 PWM opportunities */ + kPWM_LoadEvery16Oportunity /*!< Every 16 PWM opportunities */ +} pwm_load_frequency_t; + +/*! @brief List of PWM fault selections */ +typedef enum _pwm_fault_input +{ + kPWM_Fault_0 = 0U, /*!< Fault 0 input pin */ + kPWM_Fault_1, /*!< Fault 1 input pin */ + kPWM_Fault_2, /*!< Fault 2 input pin */ + kPWM_Fault_3 /*!< Fault 3 input pin */ +} pwm_fault_input_t; + +/*! @brief List of PWM fault disable mapping selections */ +typedef enum _pwm_fault_disable +{ + kPWM_FaultDisable_0 = (1U << 0), /*!< Fault 0 disable mapping */ + kPWM_FaultDisable_1 = (1U << 1), /*!< Fault 1 disable mapping */ + kPWM_FaultDisable_2 = (1U << 2), /*!< Fault 2 disable mapping */ + kPWM_FaultDisable_3 = (1U << 3) /*!< Fault 3 disable mapping */ +} pwm_fault_disable_t; + +/*! @brief List of PWM fault channels */ +typedef enum _pwm_fault_channels +{ + kPWM_faultchannel_0 = 0U, + kPWM_faultchannel_1 +} pwm_fault_channels_t; + +/*! @brief PWM capture edge select */ +typedef enum _pwm_input_capture_edge +{ + kPWM_Disable = 0U, /*!< Disabled */ + kPWM_FallingEdge, /*!< Capture on falling edge only */ + kPWM_RisingEdge, /*!< Capture on rising edge only */ + kPWM_RiseAndFallEdge /*!< Capture on rising or falling edge */ +} pwm_input_capture_edge_t; + +/*! @brief PWM output options when a FORCE_OUT signal is asserted */ +typedef enum _pwm_force_signal +{ + kPWM_UsePwm = 0U, /*!< Generated PWM signal is used by the deadtime logic.*/ + kPWM_InvertedPwm, /*!< Inverted PWM signal is used by the deadtime logic.*/ + kPWM_SoftwareControl, /*!< Software controlled value is used by the deadtime logic. */ + kPWM_UseExternal /*!< PWM_EXTA signal is used by the deadtime logic. */ +} pwm_force_signal_t; + +/*! @brief Options available for the PWM A & B pair operation */ +typedef enum _pwm_chnl_pair_operation +{ + kPWM_Independent = 0U, /*!< PWM A & PWM B operate as 2 independent channels */ + kPWM_ComplementaryPwmA, /*!< PWM A & PWM B are complementary channels, PWM A generates the signal */ + kPWM_ComplementaryPwmB /*!< PWM A & PWM B are complementary channels, PWM B generates the signal */ +} pwm_chnl_pair_operation_t; + +/*! @brief Options available on how to load the buffered-registers with new values */ +typedef enum _pwm_register_reload +{ + kPWM_ReloadImmediate = 0U, /*!< Buffered-registers get loaded with new values as soon as LDOK bit is set */ + kPWM_ReloadPwmHalfCycle, /*!< Registers loaded on a PWM half cycle */ + kPWM_ReloadPwmFullCycle, /*!< Registers loaded on a PWM full cycle */ + kPWM_ReloadPwmHalfAndFullCycle /*!< Registers loaded on a PWM half & full cycle */ +} pwm_register_reload_t; + +/*! @brief Options available on how to re-enable the PWM output when recovering from a fault */ +typedef enum _pwm_fault_recovery_mode +{ + kPWM_NoRecovery = 0U, /*!< PWM output will stay inactive */ + kPWM_RecoverHalfCycle, /*!< PWM output re-enabled at the first half cycle */ + kPWM_RecoverFullCycle, /*!< PWM output re-enabled at the first full cycle */ + kPWM_RecoverHalfAndFullCycle /*!< PWM output re-enabled at the first half or full cycle */ +} pwm_fault_recovery_mode_t; + +/*! @brief List of PWM interrupt options */ +typedef enum _pwm_interrupt_enable +{ + kPWM_CompareVal0InterruptEnable = (1U << 0), /*!< PWM VAL0 compare interrupt */ + kPWM_CompareVal1InterruptEnable = (1U << 1), /*!< PWM VAL1 compare interrupt */ + kPWM_CompareVal2InterruptEnable = (1U << 2), /*!< PWM VAL2 compare interrupt */ + kPWM_CompareVal3InterruptEnable = (1U << 3), /*!< PWM VAL3 compare interrupt */ + kPWM_CompareVal4InterruptEnable = (1U << 4), /*!< PWM VAL4 compare interrupt */ + kPWM_CompareVal5InterruptEnable = (1U << 5), /*!< PWM VAL5 compare interrupt */ + kPWM_CaptureX0InterruptEnable = (1U << 6), /*!< PWM capture X0 interrupt */ + kPWM_CaptureX1InterruptEnable = (1U << 7), /*!< PWM capture X1 interrupt */ + kPWM_CaptureB0InterruptEnable = (1U << 8), /*!< PWM capture B0 interrupt */ + kPWM_CaptureB1InterruptEnable = (1U << 9), /*!< PWM capture B1 interrupt */ + kPWM_CaptureA0InterruptEnable = (1U << 10), /*!< PWM capture A0 interrupt */ + kPWM_CaptureA1InterruptEnable = (1U << 11), /*!< PWM capture A1 interrupt */ + kPWM_ReloadInterruptEnable = (1U << 12), /*!< PWM reload interrupt */ + kPWM_ReloadErrorInterruptEnable = (1U << 13), /*!< PWM reload error interrupt */ + kPWM_Fault0InterruptEnable = (1U << 16), /*!< PWM fault 0 interrupt */ + kPWM_Fault1InterruptEnable = (1U << 17), /*!< PWM fault 1 interrupt */ + kPWM_Fault2InterruptEnable = (1U << 18), /*!< PWM fault 2 interrupt */ + kPWM_Fault3InterruptEnable = (1U << 19) /*!< PWM fault 3 interrupt */ +} pwm_interrupt_enable_t; + +/*! @brief List of PWM status flags */ +typedef enum _pwm_status_flags +{ + kPWM_CompareVal0Flag = (1U << 0), /*!< PWM VAL0 compare flag */ + kPWM_CompareVal1Flag = (1U << 1), /*!< PWM VAL1 compare flag */ + kPWM_CompareVal2Flag = (1U << 2), /*!< PWM VAL2 compare flag */ + kPWM_CompareVal3Flag = (1U << 3), /*!< PWM VAL3 compare flag */ + kPWM_CompareVal4Flag = (1U << 4), /*!< PWM VAL4 compare flag */ + kPWM_CompareVal5Flag = (1U << 5), /*!< PWM VAL5 compare flag */ + kPWM_CaptureX0Flag = (1U << 6), /*!< PWM capture X0 flag */ + kPWM_CaptureX1Flag = (1U << 7), /*!< PWM capture X1 flag */ + kPWM_CaptureB0Flag = (1U << 8), /*!< PWM capture B0 flag */ + kPWM_CaptureB1Flag = (1U << 9), /*!< PWM capture B1 flag */ + kPWM_CaptureA0Flag = (1U << 10), /*!< PWM capture A0 flag */ + kPWM_CaptureA1Flag = (1U << 11), /*!< PWM capture A1 flag */ + kPWM_ReloadFlag = (1U << 12), /*!< PWM reload flag */ + kPWM_ReloadErrorFlag = (1U << 13), /*!< PWM reload error flag */ + kPWM_RegUpdatedFlag = (1U << 14), /*!< PWM registers updated flag */ + kPWM_Fault0Flag = (1U << 16), /*!< PWM fault 0 flag */ + kPWM_Fault1Flag = (1U << 17), /*!< PWM fault 1 flag */ + kPWM_Fault2Flag = (1U << 18), /*!< PWM fault 2 flag */ + kPWM_Fault3Flag = (1U << 19) /*!< PWM fault 3 flag */ +} pwm_status_flags_t; + +/*! @brief List of PWM DMA options */ +typedef enum _pwm_dma_enable +{ + kPWM_CaptureX0DMAEnable = (1U << 0), /*!< PWM capture X0 DMA */ + kPWM_CaptureX1DMAEnable = (1U << 1), /*!< PWM capture X1 DMA */ + kPWM_CaptureB0DMAEnable = (1U << 2), /*!< PWM capture B0 DMA */ + kPWM_CaptureB1DMAEnable = (1U << 3), /*!< PWM capture B1 DMA */ + kPWM_CaptureA0DMAEnable = (1U << 4), /*!< PWM capture A0 DMA */ + kPWM_CaptureA1DMAEnable = (1U << 5) /*!< PWM capture A1 DMA */ +} pwm_dma_enable_t; + +/*! @brief List of PWM capture DMA enable source select */ +typedef enum _pwm_dma_source_select +{ + kPWM_DMARequestDisable = 0U, /*!< Read DMA requests disabled */ + kPWM_DMAWatermarksEnable, /*!< Exceeding a FIFO watermark sets the DMA read request */ + kPWM_DMALocalSync, /*!< A local sync (VAL1 matches counter) sets the read DMA request */ + kPWM_DMALocalReload /*!< A local reload (STS[RF] being set) sets the read DMA request */ +} pwm_dma_source_select_t; + +/*! @brief PWM FIFO Watermark AND Control */ +typedef enum _pwm_watermark_control +{ + kPWM_FIFOWatermarksOR = 0U, /*!< Selected FIFO watermarks are OR'ed together */ + kPWM_FIFOWatermarksAND /*!< Selected FIFO watermarks are AND'ed together */ +} pwm_watermark_control_t; + +/*! @brief PWM operation mode */ +typedef enum _pwm_mode +{ + kPWM_SignedCenterAligned = 0U, /*!< Signed center-aligned */ + kPWM_CenterAligned, /*!< Unsigned cente-aligned */ + kPWM_SignedEdgeAligned, /*!< Signed edge-aligned */ + kPWM_EdgeAligned /*!< Unsigned edge-aligned */ +} pwm_mode_t; + +/*! @brief PWM output pulse mode, high-true or low-true */ +typedef enum _pwm_level_select +{ + kPWM_HighTrue = 0U, /*!< High level represents "on" or "active" state */ + kPWM_LowTrue /*!< Low level represents "on" or "active" state */ +} pwm_level_select_t; + +/*! @brief PWM output fault status */ +typedef enum _pwm_fault_state +{ + kPWM_PwmFaultState0 = + 0U, /*!< Output is forced to logic 0 state prior to consideration of output polarity control. */ + kPWM_PwmFaultState1, /*!< Output is forced to logic 1 state prior to consideration of output polarity control. */ + kPWM_PwmFaultState2, /*!< Output is tristated. */ + kPWM_PwmFaultState3 /*!< Output is tristated. */ +} pwm_fault_state_t; + +/*! @brief PWM reload source select */ +typedef enum _pwm_reload_source_select +{ + kPWM_LocalReload = 0U, /*!< The local reload signal is used to reload registers */ + kPWM_MasterReload /*!< The master reload signal (from submodule 0) is used to reload */ +} pwm_reload_source_select_t; + +/*! @brief PWM fault clearing options */ +typedef enum _pwm_fault_clear +{ + kPWM_Automatic = 0U, /*!< Automatic fault clearing */ + kPWM_ManualNormal, /*!< Manual fault clearing with no fault safety mode */ + kPWM_ManualSafety /*!< Manual fault clearing with fault safety mode */ +} pwm_fault_clear_t; + +/*! @brief Options for submodule master control operation */ +typedef enum _pwm_module_control +{ + kPWM_Control_Module_0 = (1U << 0), /*!< Control submodule 0's start/stop,buffer reload operation */ + kPWM_Control_Module_1 = (1U << 1), /*!< Control submodule 1's start/stop,buffer reload operation */ + kPWM_Control_Module_2 = (1U << 2), /*!< Control submodule 2's start/stop,buffer reload operation */ + kPWM_Control_Module_3 = (1U << 3) /*!< Control submodule 3's start/stop,buffer reload operation */ +} pwm_module_control_t; + +/*! @brief Structure for the user to define the PWM signal characteristics */ +typedef struct _pwm_signal_param +{ + pwm_channels_t pwmChannel; /*!< PWM channel being configured; PWM A or PWM B */ + uint8_t dutyCyclePercent; /*!< PWM pulse width, value should be between 0 to 100 + 0=inactive signal(0% duty cycle)... + 100=always active signal (100% duty cycle)*/ + pwm_level_select_t level; /*!< PWM output active level select */ + uint16_t deadtimeValue; /*!< The deadtime value; only used if channel pair is operating in complementary mode */ + pwm_fault_state_t faultState; /*!< PWM output fault status */ + bool pwmchannelenable; /*!< Enable PWM output */ +} pwm_signal_param_t; + +/*! + * @brief PWM config structure + * + * This structure holds the configuration settings for the PWM peripheral. To initialize this + * structure to reasonable defaults, call the PWM_GetDefaultConfig() function and pass a + * pointer to your config structure instance. + * + * The config struct can be made const so it resides in flash + */ +typedef struct _pwm_config +{ + bool enableDebugMode; /*!< true: PWM continues to run in debug mode; + false: PWM is paused in debug mode */ +#if !defined(FSL_FEATURE_PWM_HAS_NO_WAITEN) || (!FSL_FEATURE_PWM_HAS_NO_WAITEN) + bool enableWait; /*!< true: PWM continues to run in WAIT mode; + false: PWM is paused in WAIT mode */ +#endif /* FSL_FEATURE_PWM_HAS_NO_WAITEN */ + pwm_init_source_t initializationControl; /*!< Option to initialize the counter */ + pwm_clock_source_t clockSource; /*!< Clock source for the counter */ + pwm_clock_prescale_t prescale; /*!< Pre-scaler to divide down the clock */ + pwm_chnl_pair_operation_t pairOperation; /*!< Channel pair in indepedent or complementary mode */ + pwm_register_reload_t reloadLogic; /*!< PWM Reload logic setup */ + pwm_reload_source_select_t reloadSelect; /*!< Reload source select */ + pwm_load_frequency_t reloadFrequency; /*!< Specifies when to reload, used when user's choice + is not immediate reload */ + pwm_force_output_trigger_t forceTrigger; /*!< Specify which signal will trigger a FORCE_OUT */ +} pwm_config_t; + +/*! @brief Structure for the user to configure the fault input filter. */ +typedef struct _pwm_fault_input_filter_param +{ + uint8_t faultFilterCount; /*!< Fault filter count */ + uint8_t faultFilterPeriod; /*!< Fault filter period;value of 0 will bypass the filter */ + bool faultGlitchStretch; /*!< Fault Glitch Stretch Enable: A logic 1 means that input + fault signals will be stretched to at least 2 IPBus clock cycles */ +} pwm_fault_input_filter_param_t; + +/*! @brief Structure is used to hold the parameters to configure a PWM fault */ +typedef struct _pwm_fault_param +{ + pwm_fault_clear_t faultClearingMode; /*!< Fault clearing mode to use */ + bool faultLevel; /*!< true: Logic 1 indicates fault; + false: Logic 0 indicates fault */ + bool enableCombinationalPath; /*!< true: Combinational Path from fault input is enabled; + false: No combination path is available */ + pwm_fault_recovery_mode_t recoverMode; /*!< Specify when to re-enable the PWM output */ +} pwm_fault_param_t; + +/*! + * @brief Structure is used to hold parameters to configure the capture capability of a signal pin + */ +typedef struct _pwm_input_capture_param +{ + bool captureInputSel; /*!< true: Use the edge counter signal as source + false: Use the raw input signal from the pin as source */ + uint8_t edgeCompareValue; /*!< Compare value, used only if edge counter is used as source */ + pwm_input_capture_edge_t edge0; /*!< Specify which edge causes a capture for input circuitry 0 */ + pwm_input_capture_edge_t edge1; /*!< Specify which edge causes a capture for input circuitry 1 */ + bool enableOneShotCapture; /*!< true: Use one-shot capture mode; + false: Use free-running capture mode */ + uint8_t fifoWatermark; /*!< Watermark level for capture FIFO. The capture flags in + the status register will set if the word count in the FIFO + is greater than this watermark level */ +} pwm_input_capture_param_t; + +/******************************************************************************* + * API + ******************************************************************************/ + +#if defined(__cplusplus) +extern "C" { +#endif + +/*! + * @name Initialization and deinitialization + * @{ + */ + +/*! + * @brief Ungates the PWM submodule clock and configures the peripheral for basic operation. + * + * @note This API should be called at the beginning of the application using the PWM driver. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param config Pointer to user's PWM config structure. + * + * @return kStatus_Success means success; else failed. + */ +status_t PWM_Init(PWM_Type *base, pwm_submodule_t subModule, const pwm_config_t *config); + +/*! + * @brief Gate the PWM submodule clock + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to deinitialize + */ +void PWM_Deinit(PWM_Type *base, pwm_submodule_t subModule); + +/*! + * @brief Fill in the PWM config struct with the default settings + * + * The default values are: + * @code + * config->enableDebugMode = false; + * config->enableWait = false; + * config->reloadSelect = kPWM_LocalReload; + * config->clockSource = kPWM_BusClock; + * config->prescale = kPWM_Prescale_Divide_1; + * config->initializationControl = kPWM_Initialize_LocalSync; + * config->forceTrigger = kPWM_Force_Local; + * config->reloadFrequency = kPWM_LoadEveryOportunity; + * config->reloadLogic = kPWM_ReloadImmediate; + * config->pairOperation = kPWM_Independent; + * @endcode + * @param config Pointer to user's PWM config structure. + */ +void PWM_GetDefaultConfig(pwm_config_t *config); + +/*! @}*/ + +/*! + * @name Module PWM output + * @{ + */ +/*! + * @brief Sets up the PWM signals for a PWM submodule. + * + * The function initializes the submodule according to the parameters passed in by the user. The function + * also sets up the value compare registers to match the PWM signal requirements. + * If the dead time insertion logic is enabled, the pulse period is reduced by the + * dead time period specified by the user. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param chnlParams Array of PWM channel parameters to configure the channel(s), PWMX submodule is not supported. + * @param numOfChnls Number of channels to configure, this should be the size of the array passed in. + * Array size should not be more than 2 as each submodule has 2 pins to output PWM + * @param mode PWM operation mode, options available in enumeration ::pwm_mode_t + * @param pwmFreq_Hz PWM signal frequency in Hz + * @param srcClock_Hz PWM main counter clock in Hz. + * + * @return Returns kStatus_Fail if there was error setting up the signal; kStatus_Success otherwise + */ +status_t PWM_SetupPwm(PWM_Type *base, + pwm_submodule_t subModule, + const pwm_signal_param_t *chnlParams, + uint8_t numOfChnls, + pwm_mode_t mode, + uint32_t pwmFreq_Hz, + uint32_t srcClock_Hz); + +/*! + * @brief Set PWM phase shift for PWM channel running on channel PWM_A, PWM_B which with 50% duty cycle.. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel PWM channel to configure + * @param pwmFreq_Hz PWM signal frequency in Hz + * @param srcClock_Hz PWM main counter clock in Hz. + * @param shiftvalue Phase shift value + * @param doSync true: Set LDOK bit for the submodule list; + * false: LDOK bit don't set, need to call PWM_SetPwmLdok to sync update. + * + * @return Returns kStatus_Fail if there was error setting up the signal; kStatus_Success otherwise + */ +status_t PWM_SetupPwmPhaseShift(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + uint32_t pwmFreq_Hz, + uint32_t srcClock_Hz, + uint8_t shiftvalue, + bool doSync); + +/*! + * @brief Updates the PWM signal's dutycycle. + * + * The function updates the PWM dutycyle to the new value that is passed in. + * If the dead time insertion logic is enabled then the pulse period is reduced by the + * dead time period specified by the user. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmSignal Signal (PWM A or PWM B) to update + * @param currPwmMode The current PWM mode set during PWM setup + * @param dutyCyclePercent New PWM pulse width, value should be between 0 to 100 + * 0=inactive signal(0% duty cycle)... + * 100=active signal (100% duty cycle) + */ +void PWM_UpdatePwmDutycycle(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmSignal, + pwm_mode_t currPwmMode, + uint8_t dutyCyclePercent); + +/*! + * @brief Updates the PWM signal's dutycycle with 16-bit accuracy. + * + * The function updates the PWM dutycyle to the new value that is passed in. + * If the dead time insertion logic is enabled then the pulse period is reduced by the + * dead time period specified by the user. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmSignal Signal (PWM A or PWM B) to update + * @param currPwmMode The current PWM mode set during PWM setup + * @param dutyCycle New PWM pulse width, value should be between 0 to 65535 + * 0=inactive signal(0% duty cycle)... + * 65535=active signal (100% duty cycle) + */ +void PWM_UpdatePwmDutycycleHighAccuracy( + PWM_Type *base, pwm_submodule_t subModule, pwm_channels_t pwmSignal, pwm_mode_t currPwmMode, uint16_t dutyCycle); + +/*! @}*/ + +/*! + * @brief Sets up the PWM input capture + * + * Each PWM submodule has 3 pins that can be configured for use as input capture pins. This function + * sets up the capture parameters for each pin and enables the pin for input capture operation. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel Channel in the submodule to setup + * @param inputCaptureParams Parameters passed in to set up the input pin + */ +void PWM_SetupInputCapture(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + const pwm_input_capture_param_t *inputCaptureParams); + +/*! + * @brief Sets up the PWM fault input filter. + * + * @param base PWM peripheral base address + * @param faultInputFilterParams Parameters passed in to set up the fault input filter. + */ +void PWM_SetupFaultInputFilter(PWM_Type *base, const pwm_fault_input_filter_param_t *faultInputFilterParams); + +/*! + * @brief Sets up the PWM fault protection. + * + * PWM has 4 fault inputs. + * + * @param base PWM peripheral base address + * @param faultNum PWM fault to configure. + * @param faultParams Pointer to the PWM fault config structure + */ +void PWM_SetupFaults(PWM_Type *base, pwm_fault_input_t faultNum, const pwm_fault_param_t *faultParams); + +/*! + * @brief Fill in the PWM fault config struct with the default settings + * + * The default values are: + * @code + * config->faultClearingMode = kPWM_Automatic; + * config->faultLevel = false; + * config->enableCombinationalPath = true; + * config->recoverMode = kPWM_NoRecovery; + * @endcode + * @param config Pointer to user's PWM fault config structure. + */ +void PWM_FaultDefaultConfig(pwm_fault_param_t *config); + +/*! + * @brief Selects the signal to output on a PWM pin when a FORCE_OUT signal is asserted. + * + * The user specifies which channel to configure by supplying the submodule number and whether + * to modify PWM A or PWM B within that submodule. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel Channel to configure + * @param mode Signal to output when a FORCE_OUT is triggered + */ +void PWM_SetupForceSignal(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + pwm_force_signal_t mode); + +/*! + * @name Interrupts Interface + * @{ + */ + +/*! + * @brief Enables the selected PWM interrupts + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param mask The interrupts to enable. This is a logical OR of members of the + * enumeration ::pwm_interrupt_enable_t + */ +void PWM_EnableInterrupts(PWM_Type *base, pwm_submodule_t subModule, uint32_t mask); + +/*! + * @brief Disables the selected PWM interrupts + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param mask The interrupts to enable. This is a logical OR of members of the + * enumeration ::pwm_interrupt_enable_t + */ +void PWM_DisableInterrupts(PWM_Type *base, pwm_submodule_t subModule, uint32_t mask); + +/*! + * @brief Gets the enabled PWM interrupts + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * + * @return The enabled interrupts. This is the logical OR of members of the + * enumeration ::pwm_interrupt_enable_t + */ +uint32_t PWM_GetEnabledInterrupts(PWM_Type *base, pwm_submodule_t subModule); + +/*! @}*/ + +/*! + * @name DMA Interface + * @{ + */ + +/*! + * @brief Capture DMA Enable Source Select. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwm_watermark_control PWM FIFO watermark and control + */ +static inline void PWM_DMAFIFOWatermarkControl(PWM_Type *base, + pwm_submodule_t subModule, + pwm_watermark_control_t pwm_watermark_control) +{ + uint16_t reg = base->SM[subModule].DMAEN; + if (pwm_watermark_control == kPWM_FIFOWatermarksOR) + { + reg &= ~((uint16_t)PWM_DMAEN_FAND_MASK); + } + else + { + reg |= ((uint16_t)PWM_DMAEN_FAND_MASK); + } + base->SM[subModule].DMAEN = reg; +} + +/*! + * @brief Capture DMA Enable Source Select. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwm_dma_source_select PWM capture DMA enable source select + */ +static inline void PWM_DMACaptureSourceSelect(PWM_Type *base, + pwm_submodule_t subModule, + pwm_dma_source_select_t pwm_dma_source_select) +{ + uint16_t reg = base->SM[subModule].DMAEN; + + reg &= ~((uint16_t)PWM_DMAEN_CAPTDE_MASK); + reg |= (((uint16_t)pwm_dma_source_select << (uint16_t)PWM_DMAEN_CAPTDE_SHIFT) & (uint16_t)PWM_DMAEN_CAPTDE_MASK); + + base->SM[subModule].DMAEN = reg; +} + +/*! + * @brief Enables or disables the selected PWM DMA Capture read request. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param mask The DMA to enable or disable. This is a logical OR of members of the + * enumeration ::pwm_dma_enable_t + * @param activate true: Enable DMA read request; false: Disable DMA read request + */ +static inline void PWM_EnableDMACapture(PWM_Type *base, pwm_submodule_t subModule, uint16_t mask, bool activate) +{ + uint16_t reg = base->SM[subModule].DMAEN; + if (activate) + { + reg |= (uint16_t)(mask); + } + else + { + reg &= ~((uint16_t)(mask)); + } + base->SM[subModule].DMAEN = reg; +} + +/*! + * @brief Enables or disables the PWM DMA write request. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param activate true: Enable DMA write request; false: Disable DMA write request + */ +static inline void PWM_EnableDMAWrite(PWM_Type *base, pwm_submodule_t subModule, bool activate) +{ + uint16_t reg = base->SM[subModule].DMAEN; + if (activate) + { + reg |= ((uint16_t)PWM_DMAEN_VALDE_MASK); + } + else + { + reg &= ~((uint16_t)PWM_DMAEN_VALDE_MASK); + } + base->SM[subModule].DMAEN = reg; +} + +/*! @}*/ + +/*! + * @name Status Interface + * @{ + */ + +/*! + * @brief Gets the PWM status flags + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * + * @return The status flags. This is the logical OR of members of the + * enumeration ::pwm_status_flags_t + */ +uint32_t PWM_GetStatusFlags(PWM_Type *base, pwm_submodule_t subModule); + +/*! + * @brief Clears the PWM status flags + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param mask The status flags to clear. This is a logical OR of members of the + * enumeration ::pwm_status_flags_t + */ +void PWM_ClearStatusFlags(PWM_Type *base, pwm_submodule_t subModule, uint32_t mask); + +/*! @}*/ + +/*! + * @name Timer Start and Stop + * @{ + */ + +/*! + * @brief Starts the PWM counter for a single or multiple submodules. + * + * Sets the Run bit which enables the clocks to the PWM submodule. This function can start multiple + * submodules at the same time. + * + * @param base PWM peripheral base address + * @param subModulesToStart PWM submodules to start. This is a logical OR of members of the + * enumeration ::pwm_module_control_t + */ +static inline void PWM_StartTimer(PWM_Type *base, uint8_t subModulesToStart) +{ + base->MCTRL |= PWM_MCTRL_RUN(subModulesToStart); +} + +/*! + * @brief Stops the PWM counter for a single or multiple submodules. + * + * Clears the Run bit which resets the submodule's counter. This function can stop multiple + * submodules at the same time. + * + * @param base PWM peripheral base address + * @param subModulesToStop PWM submodules to stop. This is a logical OR of members of the + * enumeration ::pwm_module_control_t + */ +static inline void PWM_StopTimer(PWM_Type *base, uint8_t subModulesToStop) +{ + base->MCTRL &= ~(PWM_MCTRL_RUN(subModulesToStop)); +} + +/*! @}*/ + +/*! + * @brief Set the PWM VALx registers. + * + * This function allows the user to write value into VAL registers directly. And it will destroying the PWM clock period + * set by the PWM_SetupPwm()/PWM_SetupPwmPhaseShift() functions. + * Due to VALx registers are bufferd, the new value will not active uless call PWM_SetPwmLdok() and the reload point is + * reached. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param valueRegister VALx register that will be writen new value + * @param value Value that will been write into VALx register + */ +static inline void PWM_SetVALxValue(PWM_Type *base, + pwm_submodule_t subModule, + pwm_value_register_t valueRegister, + uint16_t value) +{ + switch (valueRegister) + { + case kPWM_ValueRegister_0: + base->SM[subModule].VAL0 = value; + break; + case kPWM_ValueRegister_1: + base->SM[subModule].VAL1 = value; + break; + case kPWM_ValueRegister_2: + base->SM[subModule].VAL2 = value; + break; + case kPWM_ValueRegister_3: + base->SM[subModule].VAL3 = value; + break; + case kPWM_ValueRegister_4: + base->SM[subModule].VAL4 = value; + break; + case kPWM_ValueRegister_5: + base->SM[subModule].VAL5 = value; + break; + default: + assert(false); + break; + } +} + +/*! + * @brief Get the PWM VALx registers. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param valueRegister VALx register that will be read value + * @return The VALx register value + */ +static inline uint16_t PWM_GetVALxValue(PWM_Type *base, pwm_submodule_t subModule, pwm_value_register_t valueRegister) +{ + uint16_t temp = 0U; + + switch (valueRegister) + { + case kPWM_ValueRegister_0: + temp = base->SM[subModule].VAL0; + break; + case kPWM_ValueRegister_1: + temp = base->SM[subModule].VAL1; + break; + case kPWM_ValueRegister_2: + temp = base->SM[subModule].VAL2; + break; + case kPWM_ValueRegister_3: + temp = base->SM[subModule].VAL3; + break; + case kPWM_ValueRegister_4: + temp = base->SM[subModule].VAL4; + break; + case kPWM_ValueRegister_5: + temp = base->SM[subModule].VAL5; + break; + default: + assert(false); + break; + } + + return temp; +} + +/*! + * @brief Enables or disables the PWM output trigger. + * + * This function allows the user to enable or disable the PWM trigger. The PWM has 2 triggers. Trigger 0 + * is activated when the counter matches VAL 0, VAL 2, or VAL 4 register. Trigger 1 is activated + * when the counter matches VAL 1, VAL 3, or VAL 5 register. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param valueRegister Value register that will activate the trigger + * @param activate true: Enable the trigger; false: Disable the trigger + */ +static inline void PWM_OutputTriggerEnable(PWM_Type *base, + pwm_submodule_t subModule, + pwm_value_register_t valueRegister, + bool activate) +{ + if (activate) + { + base->SM[subModule].TCTRL |= ((uint16_t)1U << (uint16_t)valueRegister); + } + else + { + base->SM[subModule].TCTRL &= ~((uint16_t)1U << (uint16_t)valueRegister); + } +} + +/*! + * @brief Enables the PWM output trigger. + * + * This function allows the user to enable one or more (VAL0-5) PWM trigger. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param valueRegisterMask Value register mask that will activate one or more (VAL0-5) trigger + * enumeration ::_pwm_value_register_mask + */ +static inline void PWM_ActivateOutputTrigger(PWM_Type *base, pwm_submodule_t subModule, uint16_t valueRegisterMask) +{ + base->SM[subModule].TCTRL |= (PWM_TCTRL_OUT_TRIG_EN_MASK & (valueRegisterMask)); +} + +/*! + * @brief Disables the PWM output trigger. + * + * This function allows the user to disables one or more (VAL0-5) PWM trigger. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param valueRegisterMask Value register mask that will Deactivate one or more (VAL0-5) trigger + * enumeration ::_pwm_value_register_mask + */ +static inline void PWM_DeactivateOutputTrigger(PWM_Type *base, pwm_submodule_t subModule, uint16_t valueRegisterMask) +{ + base->SM[subModule].TCTRL &= ~(PWM_TCTRL_OUT_TRIG_EN_MASK & (valueRegisterMask)); +} + +/*! + * @brief Sets the software control output for a pin to high or low. + * + * The user specifies which channel to modify by supplying the submodule number and whether + * to modify PWM A or PWM B within that submodule. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel Channel to configure + * @param value true: Supply a logic 1, false: Supply a logic 0. + */ +static inline void PWM_SetupSwCtrlOut(PWM_Type *base, pwm_submodule_t subModule, pwm_channels_t pwmChannel, bool value) +{ + if (value) + { + base->SWCOUT |= + ((uint16_t)1U << (((uint16_t)subModule * (uint16_t)PWM_SUBMODULE_SWCONTROL_WIDTH) + (uint16_t)pwmChannel)); + } + else + { + base->SWCOUT &= + ~((uint16_t)1U << (((uint16_t)subModule * (uint16_t)PWM_SUBMODULE_SWCONTROL_WIDTH) + (uint16_t)pwmChannel)); + } +} + +/*! + * @brief Sets or clears the PWM LDOK bit on a single or multiple submodules + * + * Set LDOK bit to load buffered values into CTRL[PRSC] and the INIT, FRACVAL and VAL registers. The + * values are loaded immediately if kPWM_ReloadImmediate option was choosen during config. Else the + * values are loaded at the next PWM reload point. + * This function can issue the load command to multiple submodules at the same time. + * + * @param base PWM peripheral base address + * @param subModulesToUpdate PWM submodules to update with buffered values. This is a logical OR of + * members of the enumeration ::pwm_module_control_t + * @param value true: Set LDOK bit for the submodule list; false: Clear LDOK bit + */ +static inline void PWM_SetPwmLdok(PWM_Type *base, uint8_t subModulesToUpdate, bool value) +{ + if (value) + { + base->MCTRL |= PWM_MCTRL_LDOK(subModulesToUpdate); + } + else + { + base->MCTRL |= PWM_MCTRL_CLDOK(subModulesToUpdate); + } +} + +/*! + * @brief Set PWM output fault status + * + * These bits determine the fault state for the PWM_A output in fault conditions + * and STOP mode. It may also define the output state in WAIT and DEBUG modes + * depending on the settings of CTRL2[WAITEN] and CTRL2[DBGEN]. + * This function can update PWM output fault status. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel Channel to configure + * @param faultState PWM output fault status + */ +static inline void PWM_SetPwmFaultState(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + pwm_fault_state_t faultState) +{ + uint16_t reg = base->SM[subModule].OCTRL; + switch (pwmChannel) + { + case kPWM_PwmA: + reg &= ~((uint16_t)PWM_OCTRL_PWMAFS_MASK); + reg |= (((uint16_t)faultState << (uint16_t)PWM_OCTRL_PWMAFS_SHIFT) & (uint16_t)PWM_OCTRL_PWMAFS_MASK); + break; + case kPWM_PwmB: + reg &= ~((uint16_t)PWM_OCTRL_PWMBFS_MASK); + reg |= (((uint16_t)faultState << (uint16_t)PWM_OCTRL_PWMBFS_SHIFT) & (uint16_t)PWM_OCTRL_PWMBFS_MASK); + break; + case kPWM_PwmX: + reg &= ~((uint16_t)PWM_OCTRL_PWMXFS_MASK); + reg |= (((uint16_t)faultState << (uint16_t)PWM_OCTRL_PWMXFS_SHIFT) & (uint16_t)PWM_OCTRL_PWMXFS_MASK); + break; + default: + assert(false); + break; + } + base->SM[subModule].OCTRL = reg; +} + +/*! + * @brief Set PWM fault disable mapping + * + * Each of the four bits of this read/write field is one-to-one associated + * with the four FAULTx inputs of fault channel 0/1. The PWM output will be turned + * off if there is a logic 1 on an FAULTx input and a 1 in the corresponding + * bit of this field. A reset sets all bits in this field. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel PWM channel to configure + * @param pwm_fault_channels PWM fault channel to configure + * @param value Fault disable mapping mask value + * enumeration ::pwm_fault_disable_t + */ +static inline void PWM_SetupFaultDisableMap(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + pwm_fault_channels_t pwm_fault_channels, + uint16_t value) +{ + uint16_t reg = base->SM[subModule].DISMAP[pwm_fault_channels]; + switch (pwmChannel) + { + case kPWM_PwmA: + reg &= ~((uint16_t)PWM_DISMAP_DIS0A_MASK); + reg |= (((uint16_t)(value) << (uint16_t)PWM_DISMAP_DIS0A_SHIFT) & (uint16_t)PWM_DISMAP_DIS0A_MASK); + break; + case kPWM_PwmB: + reg &= ~((uint16_t)PWM_DISMAP_DIS0B_MASK); + reg |= (((uint16_t)(value) << (uint16_t)PWM_DISMAP_DIS0B_SHIFT) & (uint16_t)PWM_DISMAP_DIS0B_MASK); + break; + case kPWM_PwmX: + reg &= ~((uint16_t)PWM_DISMAP_DIS0X_MASK); + reg |= (((uint16_t)(value) << (uint16_t)PWM_DISMAP_DIS0X_SHIFT) & (uint16_t)PWM_DISMAP_DIS0X_MASK); + break; + default: + assert(false); + break; + } + base->SM[subModule].DISMAP[pwm_fault_channels] = reg; +} + +/*! + * @brief Set PWM output enable + * + * This feature allows the user to enable the PWM Output. + * + * @param base PWM peripheral base address + * @param pwmChannel PWM channel to configure + * @param subModule PWM submodule to configure + */ +static inline void PWM_OutputEnable(PWM_Type *base, pwm_channels_t pwmChannel, pwm_submodule_t subModule) +{ + /* Set PWM output */ + switch (pwmChannel) + { + case kPWM_PwmA: + base->OUTEN |= ((uint16_t)1U << ((uint16_t)PWM_OUTEN_PWMA_EN_SHIFT + (uint16_t)subModule)); + break; + case kPWM_PwmB: + base->OUTEN |= ((uint16_t)1U << ((uint16_t)PWM_OUTEN_PWMB_EN_SHIFT + (uint16_t)subModule)); + break; + case kPWM_PwmX: + base->OUTEN |= ((uint16_t)1U << ((uint16_t)PWM_OUTEN_PWMX_EN_SHIFT + (uint16_t)subModule)); + break; + default: + assert(false); + break; + } +} + +/*! + * @brief Set PWM output disable + * + *This feature allows the user to disable the PWM output. + * + * @param base PWM peripheral base address + * @param pwmChannel PWM channel to configure + * @param subModule PWM submodule to configure + */ +static inline void PWM_OutputDisable(PWM_Type *base, pwm_channels_t pwmChannel, pwm_submodule_t subModule) +{ + switch (pwmChannel) + { + case kPWM_PwmA: + base->OUTEN &= ~((uint16_t)1U << ((uint16_t)PWM_OUTEN_PWMA_EN_SHIFT + (uint16_t)subModule)); + break; + case kPWM_PwmB: + base->OUTEN &= ~((uint16_t)1U << ((uint16_t)PWM_OUTEN_PWMB_EN_SHIFT + (uint16_t)subModule)); + break; + case kPWM_PwmX: + base->OUTEN &= ~((uint16_t)1U << ((uint16_t)PWM_OUTEN_PWMX_EN_SHIFT + (uint16_t)subModule)); + break; + default: + assert(false); + break; + } +} + +/*! + * @brief Get the dutycycle value. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel PWM channel to configure + * + * @return Current channel dutycycle value. + */ +uint8_t PWM_GetPwmChannelState(PWM_Type *base, pwm_submodule_t subModule, pwm_channels_t pwmChannel); + +/*! + * @brief Set PWM output in idle status (high or low). + * + * @note This API should call after PWM_SetupPwm() APIs, and PWMX submodule is not supported. + * + * @param base PWM peripheral base address + * @param pwmChannel PWM channel to configure + * @param subModule PWM submodule to configure + * @param idleStatus True: PWM output is high in idle status; false: PWM output is low in idle status. + * + * @return kStatus_Fail if there was error setting up the signal; kStatus_Success if set output idle success + */ +status_t PWM_SetOutputToIdle(PWM_Type *base, pwm_channels_t pwmChannel, pwm_submodule_t subModule, bool idleStatus); + +/*! + * @brief Set the pwm submodule prescaler. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param prescaler Set prescaler value + */ +void PWM_SetClockMode(PWM_Type *base, pwm_submodule_t subModule, pwm_clock_prescale_t prescaler); + +/*! + * @brief This function enables-disables the forcing of the output of a given eFlexPwm channel to logic 0. + * + * @param base PWM peripheral base address + * @param pwmChannel PWM channel to configure + * @param subModule PWM submodule to configure + * @param forcetozero True: Enable the pwm force output to zero; False: Disable the pwm output resumes normal + * function. + */ +void PWM_SetPwmForceOutputToZero(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + bool forcetozero); + +/*! + * @brief This function set the output state of the PWM pin as requested for the current cycle. + * + * @param base PWM peripheral base address + * @param subModule PWM submodule to configure + * @param pwmChannel PWM channel to configure + * @param outputstate Set pwm output state, see @ref pwm_output_state_t. + */ +void PWM_SetChannelOutput(PWM_Type *base, + pwm_submodule_t subModule, + pwm_channels_t pwmChannel, + pwm_output_state_t outputstate); + +#if defined(__cplusplus) +} +#endif + +/*! @}*/ + +#endif /* _FSL_PWM_H_ */ |