rt-thread-official/bsp/imxrt/libraries/MIMXRT1020/MIMXRT1021/drivers/fsl_qtmr.h

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/*
* Copyright 2017-2020 NXP
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef _FSL_QTMR_H_
#define _FSL_QTMR_H_
#include "fsl_common.h"
/*!
* @addtogroup qtmr
* @{
*/
/*******************************************************************************
* Definitions
******************************************************************************/
/*! @name Driver version */
/*@{*/
#define FSL_QTMR_DRIVER_VERSION (MAKE_VERSION(2, 0, 2)) /*!< Version */
/*@}*/
/*! @brief Quad Timer primary clock source selection*/
typedef enum _qtmr_primary_count_source
{
kQTMR_ClockCounter0InputPin = 0, /*!< Use counter 0 input pin */
kQTMR_ClockCounter1InputPin, /*!< Use counter 1 input pin */
kQTMR_ClockCounter2InputPin, /*!< Use counter 2 input pin */
kQTMR_ClockCounter3InputPin, /*!< Use counter 3 input pin */
kQTMR_ClockCounter0Output, /*!< Use counter 0 output */
kQTMR_ClockCounter1Output, /*!< Use counter 1 output */
kQTMR_ClockCounter2Output, /*!< Use counter 2 output */
kQTMR_ClockCounter3Output, /*!< Use counter 3 output */
kQTMR_ClockDivide_1, /*!< IP bus clock divide by 1 prescaler */
kQTMR_ClockDivide_2, /*!< IP bus clock divide by 2 prescaler */
kQTMR_ClockDivide_4, /*!< IP bus clock divide by 4 prescaler */
kQTMR_ClockDivide_8, /*!< IP bus clock divide by 8 prescaler */
kQTMR_ClockDivide_16, /*!< IP bus clock divide by 16 prescaler */
kQTMR_ClockDivide_32, /*!< IP bus clock divide by 32 prescaler */
kQTMR_ClockDivide_64, /*!< IP bus clock divide by 64 prescaler */
kQTMR_ClockDivide_128 /*!< IP bus clock divide by 128 prescaler */
} qtmr_primary_count_source_t;
/*! @brief Quad Timer input sources selection*/
typedef enum _qtmr_input_source
{
kQTMR_Counter0InputPin = 0, /*!< Use counter 0 input pin */
kQTMR_Counter1InputPin, /*!< Use counter 1 input pin */
kQTMR_Counter2InputPin, /*!< Use counter 2 input pin */
kQTMR_Counter3InputPin /*!< Use counter 3 input pin */
} qtmr_input_source_t;
/*! @brief Quad Timer counting mode selection */
typedef enum _qtmr_counting_mode
{
kQTMR_NoOperation = 0, /*!< No operation */
kQTMR_PriSrcRiseEdge, /*!< Count rising edges of primary source */
kQTMR_PriSrcRiseAndFallEdge, /*!< Count rising and falling edges of primary source */
kQTMR_PriSrcRiseEdgeSecInpHigh, /*!< Count rise edges of pri SRC while sec inp high active */
kQTMR_QuadCountMode, /*!< Quadrature count mode, uses pri and sec sources */
kQTMR_PriSrcRiseEdgeSecDir, /*!< Count rising edges of pri SRC; sec SRC specifies dir */
kQTMR_SecSrcTrigPriCnt, /*!< Edge of sec SRC trigger primary count until compare*/
kQTMR_CascadeCount /*!< Cascaded count mode (up/down) */
} qtmr_counting_mode_t;
/*! @brief Quad Timer output mode selection*/
typedef enum _qtmr_output_mode
{
kQTMR_AssertWhenCountActive = 0, /*!< Assert OFLAG while counter is active*/
kQTMR_ClearOnCompare, /*!< Clear OFLAG on successful compare */
kQTMR_SetOnCompare, /*!< Set OFLAG on successful compare */
kQTMR_ToggleOnCompare, /*!< Toggle OFLAG on successful compare */
kQTMR_ToggleOnAltCompareReg, /*!< Toggle OFLAG using alternating compare registers */
kQTMR_SetOnCompareClearOnSecSrcInp, /*!< Set OFLAG on compare, clear on sec SRC input edge */
kQTMR_SetOnCompareClearOnCountRoll, /*!< Set OFLAG on compare, clear on counter rollover */
kQTMR_EnableGateClock /*!< Enable gated clock output while count is active */
} qtmr_output_mode_t;
/*! @brief Quad Timer input capture edge mode, rising edge, or falling edge */
typedef enum _qtmr_input_capture_edge
{
kQTMR_NoCapture = 0, /*!< Capture is disabled */
kQTMR_RisingEdge, /*!< Capture on rising edge (IPS=0) or falling edge (IPS=1)*/
kQTMR_FallingEdge, /*!< Capture on falling edge (IPS=0) or rising edge (IPS=1)*/
kQTMR_RisingAndFallingEdge /*!< Capture on both edges */
} qtmr_input_capture_edge_t;
/*! @brief Quad Timer input capture edge mode, rising edge, or falling edge */
typedef enum _qtmr_preload_control
{
kQTMR_NoPreload = 0, /*!< Never preload */
kQTMR_LoadOnComp1, /*!< Load upon successful compare with value in COMP1 */
kQTMR_LoadOnComp2 /*!< Load upon successful compare with value in COMP2*/
} qtmr_preload_control_t;
/*! @brief List of Quad Timer run options when in Debug mode */
typedef enum _qtmr_debug_action
{
kQTMR_RunNormalInDebug = 0U, /*!< Continue with normal operation */
kQTMR_HaltCounter, /*!< Halt counter */
kQTMR_ForceOutToZero, /*!< Force output to logic 0 */
kQTMR_HaltCountForceOutZero /*!< Halt counter and force output to logic 0 */
} qtmr_debug_action_t;
/*! @brief List of Quad Timer interrupts */
// typedef enum _qtmr_interrupt_enable
typedef enum _qtmr_interrupt_enable
{
kQTMR_CompareInterruptEnable = (1U << 0), /*!< Compare interrupt.*/
kQTMR_Compare1InterruptEnable = (1U << 1), /*!< Compare 1 interrupt.*/
kQTMR_Compare2InterruptEnable = (1U << 2), /*!< Compare 2 interrupt.*/
kQTMR_OverflowInterruptEnable = (1U << 3), /*!< Timer overflow interrupt.*/
kQTMR_EdgeInterruptEnable = (1U << 4) /*!< Input edge interrupt.*/
} qtmr_interrupt_enable_t;
/*! @brief List of Quad Timer flags */
typedef enum _qtmr_status_flags
{
kQTMR_CompareFlag = (1U << 0), /*!< Compare flag */
kQTMR_Compare1Flag = (1U << 1), /*!< Compare 1 flag */
kQTMR_Compare2Flag = (1U << 2), /*!< Compare 2 flag */
kQTMR_OverflowFlag = (1U << 3), /*!< Timer overflow flag */
kQTMR_EdgeFlag = (1U << 4) /*!< Input edge flag */
} qtmr_status_flags_t;
/*! @brief List of channel selection */
typedef enum _qtmr_channel_selection
{
kQTMR_Channel_0 = 0U, /*!< TMR Channel 0 */
kQTMR_Channel_1, /*!< TMR Channel 1 */
kQTMR_Channel_2, /*!< TMR Channel 2 */
kQTMR_Channel_3, /*!< TMR Channel 3 */
} qtmr_channel_selection_t;
/*! @brief List of Quad Timer DMA enable */
typedef enum _qtmr_dma_enable
{
kQTMR_InputEdgeFlagDmaEnable = (1U << 0), /*!< Input Edge Flag DMA Enable.*/
kQTMR_ComparatorPreload1DmaEnable = (1U << 1), /*!< Comparator Preload Register 1 DMA Enable.*/
kQTMR_ComparatorPreload2DmaEnable = (1U << 2), /*!< Comparator Preload Register 2 DMA Enable.*/
} qtmr_dma_enable_t;
/*!
* @brief Quad Timer config structure
*
* This structure holds the configuration settings for the Quad Timer peripheral. To initialize this
* structure to reasonable defaults, call the QTMR_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 _qtmr_config
{
qtmr_primary_count_source_t primarySource; /*!< Specify the primary count source */
qtmr_input_source_t secondarySource; /*!< Specify the secondary count source */
bool enableMasterMode; /*!< true: Broadcast compare function output to other counters;
false no broadcast */
bool enableExternalForce; /*!< true: Compare from another counter force state of OFLAG signal
false: OFLAG controlled by local counter */
uint8_t faultFilterCount; /*!< Fault filter count */
uint8_t faultFilterPeriod; /*!< Fault filter period;value of 0 will bypass the filter */
qtmr_debug_action_t debugMode; /*!< Operation in Debug mode */
} qtmr_config_t;
/*******************************************************************************
* API
******************************************************************************/
#if defined(__cplusplus)
extern "C" {
#endif
/*!
* @name Initialization and deinitialization
* @{
*/
/*!
* @brief Ungates the Quad Timer clock and configures the peripheral for basic operation.
*
* @note This API should be called at the beginning of the application using the Quad Timer driver.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param config Pointer to user's Quad Timer config structure
*/
void QTMR_Init(TMR_Type *base, qtmr_channel_selection_t channel, const qtmr_config_t *config);
/*!
* @brief Stops the counter and gates the Quad Timer clock
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
*/
void QTMR_Deinit(TMR_Type *base, qtmr_channel_selection_t channel);
/*!
* @brief Fill in the Quad Timer config struct with the default settings
*
* The default values are:
* @code
* config->debugMode = kQTMR_RunNormalInDebug;
* config->enableExternalForce = false;
* config->enableMasterMode = false;
* config->faultFilterCount = 0;
* config->faultFilterPeriod = 0;
* config->primarySource = kQTMR_ClockDivide_2;
* config->secondarySource = kQTMR_Counter0InputPin;
* @endcode
* @param config Pointer to user's Quad Timer config structure.
*/
void QTMR_GetDefaultConfig(qtmr_config_t *config);
/*! @}*/
/*!
* @brief Sets up Quad timer module for PWM signal output.
*
* The function initializes the timer module according to the parameters passed in by the user. The
* function also sets up the value compare registers to match the PWM signal requirements.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param pwmFreqHz PWM signal frequency in Hz
* @param dutyCyclePercent PWM pulse width, value should be between 0 to 100
* 0=inactive signal(0% duty cycle)...
* 100=active signal (100% duty cycle)
* @param outputPolarity true: invert polarity of the output signal, false: no inversion
* @param srcClock_Hz Main counter clock in Hz.
*
* @return Returns an error if there was error setting up the signal.
*/
status_t QTMR_SetupPwm(TMR_Type *base,
qtmr_channel_selection_t channel,
uint32_t pwmFreqHz,
uint8_t dutyCyclePercent,
bool outputPolarity,
uint32_t srcClock_Hz);
/*!
* @brief Allows the user to count the source clock cycles until a capture event arrives.
*
* The count is stored in the capture register.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param capturePin Pin through which we receive the input signal to trigger the capture
* @param inputPolarity true: invert polarity of the input signal, false: no inversion
* @param reloadOnCapture true: reload the counter when an input capture occurs, false: no reload
* @param captureMode Specifies which edge of the input signal triggers a capture
*/
void QTMR_SetupInputCapture(TMR_Type *base,
qtmr_channel_selection_t channel,
qtmr_input_source_t capturePin,
bool inputPolarity,
bool reloadOnCapture,
qtmr_input_capture_edge_t captureMode);
/*!
* @name Interrupt Interface
* @{
*/
/*!
* @brief Enables the selected Quad Timer interrupts
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param mask The interrupts to enable. This is a logical OR of members of the
* enumeration ::qtmr_interrupt_enable_t
*/
void QTMR_EnableInterrupts(TMR_Type *base, qtmr_channel_selection_t channel, uint32_t mask);
/*!
* @brief Disables the selected Quad Timer interrupts
*
* @param base Quad Timer peripheral base addres
* @param channel Quad Timer channel number
* @param mask The interrupts to enable. This is a logical OR of members of the
* enumeration ::qtmr_interrupt_enable_t
*/
void QTMR_DisableInterrupts(TMR_Type *base, qtmr_channel_selection_t channel, uint32_t mask);
/*!
* @brief Gets the enabled Quad Timer interrupts
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
*
* @return The enabled interrupts. This is the logical OR of members of the
* enumeration ::qtmr_interrupt_enable_t
*/
uint32_t QTMR_GetEnabledInterrupts(TMR_Type *base, qtmr_channel_selection_t channel);
/*! @}*/
/*!
* @name Status Interface
* @{
*/
/*!
* @brief Gets the Quad Timer status flags
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
*
* @return The status flags. This is the logical OR of members of the
* enumeration ::qtmr_status_flags_t
*/
uint32_t QTMR_GetStatus(TMR_Type *base, qtmr_channel_selection_t channel);
/*!
* @brief Clears the Quad Timer status flags.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param mask The status flags to clear. This is a logical OR of members of the
* enumeration ::qtmr_status_flags_t
*/
void QTMR_ClearStatusFlags(TMR_Type *base, qtmr_channel_selection_t channel, uint32_t mask);
/*! @}*/
/*!
* @name Read and Write the timer period
* @{
*/
/*!
* @brief Sets the timer period in ticks.
*
* Timers counts from initial value till it equals the count value set here. The counter
* will then reinitialize to the value specified in the Load register.
*
* @note
* 1. This function will write the time period in ticks to COMP1 or COMP2 register
* depending on the count direction
* 2. User can call the utility macros provided in fsl_common.h to convert to ticks
* 3. This function supports cases, providing only primary source clock without secondary source clock.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param ticks Timer period in units of ticks
*/
void QTMR_SetTimerPeriod(TMR_Type *base, qtmr_channel_selection_t channel, uint16_t ticks);
/*!
* @brief Reads the current timer counting value.
*
* This function returns the real-time timer counting value, in a range from 0 to a
* timer period.
*
* @note User can call the utility macros provided in fsl_common.h to convert ticks to usec or msec
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
*
* @return Current counter value in ticks
*/
static inline uint16_t QTMR_GetCurrentTimerCount(TMR_Type *base, qtmr_channel_selection_t channel)
{
return base->CHANNEL[channel].CNTR;
}
/*! @}*/
/*!
* @name Timer Start and Stop
* @{
*/
/*!
* @brief Starts the Quad Timer counter.
*
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param clockSource Quad Timer clock source
*/
static inline void QTMR_StartTimer(TMR_Type *base, qtmr_channel_selection_t channel, qtmr_counting_mode_t clockSource)
{
uint16_t reg = base->CHANNEL[channel].CTRL;
reg &= (uint16_t)(~(TMR_CTRL_CM_MASK));
reg |= TMR_CTRL_CM(clockSource);
base->CHANNEL[channel].CTRL = reg;
}
/*!
* @brief Stops the Quad Timer counter.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
*/
static inline void QTMR_StopTimer(TMR_Type *base, qtmr_channel_selection_t channel)
{
base->CHANNEL[channel].CTRL &= (uint16_t)(~TMR_CTRL_CM_MASK);
}
/*! @}*/
/*!
* @name Enable and Disable the Quad Timer DMA
* @{
*/
/*!
* @brief Enable the Quad Timer DMA.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param mask The DMA to enable. This is a logical OR of members of the
* enumeration ::qtmr_dma_enable_t
*/
void QTMR_EnableDma(TMR_Type *base, qtmr_channel_selection_t channel, uint32_t mask);
/*!
* @brief Disable the Quad Timer DMA.
*
* @param base Quad Timer peripheral base address
* @param channel Quad Timer channel number
* @param mask The DMA to enable. This is a logical OR of members of the
* enumeration ::qtmr_dma_enable_t
*/
void QTMR_DisableDma(TMR_Type *base, qtmr_channel_selection_t channel, uint32_t mask);
/*! @}*/
#if defined(__cplusplus)
}
#endif
/*! @}*/
#endif /* _FSL_QTMR_H_ */