esp-idf/components/soc/esp32c3/include/soc/clk_tree_defs.h
2022-06-15 10:30:04 +08:00

223 lines
11 KiB
C

/*
* SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#pragma once
#ifdef __cplusplus
extern "C" {
#endif
/*
************************* ESP32C3 Root Clock Source ****************************
* 1) Internal 17.5MHz RC Oscillator: RC_FAST (usually referred as FOSC or CK8M/CLK8M in TRM and reg. description)
*
* This RC oscillator generates a ~17.5MHz clock signal output as the RC_FAST_CLK.
* The ~17.5MHz signal output is also passed into a configurable divider, which by default divides the input clock
* frequency by 256, to generate a RC_FAST_D256_CLK (usually referred as 8md256 or simply d256 in reg. description).
*
* The exact frequency of RC_FAST_CLK can be computed in runtime through calibration on the RC_FAST_D256_CLK.
*
* 2) External 40MHz Crystal Clock: XTAL
*
* 3) Internal 136kHz RC Oscillator: RC_SLOW (usually referrred as RTC in TRM or reg. description)
*
* This RC oscillator generates a ~136kHz clock signal output as the RC_SLOW_CLK. The exact frequency of this clock
* can be computed in runtime through calibration.
*
* 4) External 32kHz Crystal Clock (optional): XTAL32K
*
* The clock source for this XTAL32K_CLK can be either a 32kHz crystal connecting to the XTAL_32K_P and XTAL_32K_N
* pins or a 32kHz clock signal generated by an external circuit. The external signal must be connected to the
* XTAL_32K_P pin.
*
* XTAL32K_CLK can also be calibrated to get its exact frequency.
*/
/* With the default value of CK8M_DFREQ = 100, RC_FAST clock frequency is 17.5 MHz +/- 7% */
#define SOC_CLK_RC_FAST_FREQ_APPROX 17500000 /*!< Approximate RC_FAST_CLK frequency in Hz */
#define SOC_CLK_RC_SLOW_FREQ_APPROX 136000 /*!< Approximate RC_SLOW_CLK frequency in Hz */
#define SOC_CLK_RC_FAST_D256_FREQ_APPROX (SOC_CLK_RC_FAST_FREQ_APPROX / 256) /*!< Approximate RC_FAST_D256_CLK frequency in Hz */
#define SOC_CLK_XTAL32K_FREQ_APPROX 32768 /*!< Approximate XTAL32K_CLK frequency in Hz */
// Naming convention: SOC_ROOT_CLK_{loc}_{type}_[attr]
// {loc}: EXT, INT
// {type}: XTAL, RC
// [attr] - optional: [frequency], FAST, SLOW
/**
* @brief Root clock
*/
typedef enum {
SOC_ROOT_CLK_INT_RC_FAST, /*!< Internal 17.5MHz RC oscillator */
SOC_ROOT_CLK_INT_RC_SLOW, /*!< Internal 136kHz RC oscillator */
SOC_ROOT_CLK_EXT_XTAL, /*!< External 40MHz crystal */
SOC_ROOT_CLK_EXT_XTAL32K, /*!< External 32kHz crystal/clock signal */
} soc_root_clk_t;
/**
* @brief CPU_CLK mux inputs, which are the supported clock sources for the CPU_CLK
* @note Enum values are matched with the register field values on purpose
*/
typedef enum {
SOC_CPU_CLK_SRC_XTAL = 0, /*!< Select XTAL_CLK as CPU_CLK source */
SOC_CPU_CLK_SRC_PLL = 1, /*!< Select PLL_CLK as CPU_CLK source (PLL_CLK is the output of 40MHz crystal oscillator frequency multiplier, can be 480MHz or 320MHz) */
SOC_CPU_CLK_SRC_RC_FAST = 2, /*!< Select RC_FAST_CLK as CPU_CLK source */
SOC_CPU_CLK_SRC_INVALID, /*!< Invalid CPU_CLK source */
} soc_cpu_clk_src_t;
/**
* @brief RTC_SLOW_CLK mux inputs, which are the supported clock sources for the RTC_SLOW_CLK
* @note Enum values are matched with the register field values on purpose
*/
typedef enum {
SOC_RTC_SLOW_CLK_SRC_RC_SLOW = 0, /*!< Select RC_SLOW_CLK as RTC_SLOW_CLK source */
SOC_RTC_SLOW_CLK_SRC_XTAL32K = 1, /*!< Select XTAL32K_CLK as RTC_SLOW_CLK source */
SOC_RTC_SLOW_CLK_SRC_RC_FAST_D256 = 2, /*!< Select RC_FAST_D256_CLK (referred as FOSC_DIV or 8m_d256/8md256 in TRM and reg. description) as RTC_SLOW_CLK source */
SOC_RTC_SLOW_CLK_SRC_INVALID, /*!< Invalid RTC_SLOW_CLK source */
} soc_rtc_slow_clk_src_t;
/**
* @brief RTC_FAST_CLK mux inputs, which are the supported clock sources for the RTC_FAST_CLK
* @note Enum values are matched with the register field values on purpose
*/
typedef enum {
SOC_RTC_FAST_CLK_SRC_XTAL_D2 = 0, /*!< Select XTAL_D2_CLK (may referred as XTAL_CLK_DIV_2) as RTC_FAST_CLK source */
SOC_RTC_FAST_CLK_SRC_XTAL_DIV = SOC_RTC_FAST_CLK_SRC_XTAL_D2, /*!< Alias name for `SOC_RTC_FAST_CLK_SRC_XTAL_D2` */
SOC_RTC_FAST_CLK_SRC_RC_FAST = 1, /*!< Select RC_FAST_CLK as RTC_FAST_CLK source */
SOC_RTC_FAST_CLK_SRC_INVALID, /*!< Invalid RTC_FAST_CLK source */
} soc_rtc_fast_clk_src_t;
// Naming convention: SOC_MOD_CLK_{[upstream]clock_name}_[attr]
// {[upstream]clock_name}: APB, (BB)PLL, etc.
// [attr] - optional: FAST, SLOW, D<divider>, F<freq>
/**
* @brief Supported clock sources for modules (CPU, peripherals, RTC, etc.)
*
* @note enum starts from 1, to save 0 for special purpose
*/
typedef enum {
// For CPU domain
SOC_MOD_CLK_CPU = 1, /*!< CPU_CLK can be sourced from XTAL, PLL, or RC_FAST by configuring soc_cpu_clk_src_t */
// For RTC domain
SOC_MOD_CLK_RTC_FAST, /*!< RTC_FAST_CLK can be sourced from XTAL_D2 or RC_FAST by configuring soc_rtc_fast_clk_src_t */
SOC_MOD_CLK_RTC_SLOW, /*!< RTC_SLOW_CLK can be sourced from RC_SLOW, XTAL32K, or RC_FAST_D256 by configuring soc_rtc_slow_clk_src_t */
// For digital domain: peripherals, WIFI, BLE
SOC_MOD_CLK_APB, /*!< APB_CLK is highly dependent on the CPU_CLK source */
SOC_MOD_CLK_PLL_F80M, /*!< PLL_F80M_CLK is derived from PLL, and has a fixed frequency of 80MHz */
SOC_MOD_CLK_PLL_F160M, /*!< PLL_F160M_CLK is derived from PLL, and has a fixed frequency of 160MHz */
SOC_MOD_CLK_PLL_D2, /*!< PLL_D2_CLK is derived from PLL, it has a fixed divider of 2 */
SOC_MOD_CLK_XTAL32K, /*!< XTAL32K_CLK comes from the external 32kHz crystal, passing a clock gating to the peripherals */
SOC_MOD_CLK_RC_FAST, /*!< RC_FAST_CLK comes from the internal 20MHz rc oscillator, passing a clock gating to the peripherals */
SOC_MOD_CLK_RC_FAST_D256, /*!< RC_FAST_D256_CLK comes from the internal 20MHz rc oscillator, divided by 256, and passing a clock gating to the peripherals */
SOC_MOD_CLK_XTAL, /*!< XTAL_CLK comes from the external 40MHz crystal */
} soc_module_clk_t;
//////////////////////////////////////////////////GPTimer///////////////////////////////////////////////////////////////
/**
* @brief Array initializer for all supported clock sources of GPTimer
*
* The following code can be used to iterate all possible clocks:
* @code{c}
* soc_periph_gptimer_clk_src_t gptimer_clks[] = (soc_periph_gptimer_clk_src_t)SOC_GPTIMER_CLKS;
* for (size_t i = 0; i< sizeof(gptimer_clks) / sizeof(gptimer_clks[0]); i++) {
* soc_periph_gptimer_clk_src_t clk = gptimer_clks[i];
* // Test GPTimer with the clock `clk`
* }
* @endcode
*/
#define SOC_GPTIMER_CLKS {SOC_MOD_CLK_APB, SOC_MOD_CLK_XTAL}
/**
* @brief Type of GPTimer clock source
*/
typedef enum {
GPTIMER_CLK_SRC_APB = SOC_MOD_CLK_APB, /*!< Select APB as the source clock */
GPTIMER_CLK_SRC_XTAL = SOC_MOD_CLK_XTAL, /*!< Select XTAL as the source clock */
GPTIMER_CLK_SRC_DEFAULT = SOC_MOD_CLK_APB, /*!< Select APB as the default choice */
} soc_periph_gptimer_clk_src_t;
/**
* @brief Type of Timer Group clock source, reserved for the legacy timer group driver
*/
typedef enum {
TIMER_SRC_CLK_APB = SOC_MOD_CLK_APB, /*!< Timer group clock source is APB */
TIMER_SRC_CLK_XTAL = SOC_MOD_CLK_XTAL, /*!< Timer group clock source is XTAL */
TIMER_SRC_CLK_DEFAULT = SOC_MOD_CLK_APB, /*!< Timer group clock source default choice is APB */
} soc_periph_tg_clk_src_legacy_t;
//////////////////////////////////////////////////RMT///////////////////////////////////////////////////////////////////
/**
* @brief Array initializer for all supported clock sources of RMT
*/
#define SOC_RMT_CLKS {SOC_MOD_CLK_APB, SOC_MOD_CLK_RC_FAST, SOC_MOD_CLK_XTAL}
/**
* @brief Type of RMT clock source
*/
typedef enum {
RMT_CLK_SRC_NONE = 0, /*!< No clock source is selected */
RMT_CLK_SRC_APB = SOC_MOD_CLK_APB, /*!< Select APB as the source clock */
RMT_CLK_SRC_RC_FAST = SOC_MOD_CLK_RC_FAST, /*!< Select RC_FAST as the source clock */
RMT_CLK_SRC_XTAL = SOC_MOD_CLK_XTAL, /*!< Select XTAL as the source clock */
RMT_CLK_SRC_DEFAULT = SOC_MOD_CLK_APB, /*!< Select APB as the default choice */
} soc_periph_rmt_clk_src_t;
/**
* @brief Type of RMT clock source, reserved for the legacy RMT driver
*/
typedef enum {
RMT_BASECLK_APB = SOC_MOD_CLK_APB, /*!< RMT source clock is APB */
RMT_BASECLK_XTAL = SOC_MOD_CLK_XTAL, /*!< RMT source clock is XTAL */
RMT_BASECLK_DEFAULT = SOC_MOD_CLK_APB, /*!< RMT source clock default choice is APB */
} soc_periph_rmt_clk_src_legacy_t;
//////////////////////////////////////////////////Temp Sensor///////////////////////////////////////////////////////////
/**
* @brief Array initializer for all supported clock sources of Temperature Sensor
*/
#define SOC_TEMP_SENSOR_CLKS {SOC_MOD_CLK_XTAL, SOC_MOD_CLK_RC_FAST}
/**
* @brief Type of Temp Sensor clock source
*/
typedef enum {
TEMPERATURE_SENSOR_CLK_SRC_XTAL = SOC_MOD_CLK_XTAL, /*!< Select XTAL as the source clock */
TEMPERATURE_SENSOR_CLK_SRC_RC_FAST = SOC_MOD_CLK_RC_FAST, /*!< Select RC_FAST as the source clock */
TEMPERATURE_SENSOR_CLK_SRC_DEFAULT = SOC_MOD_CLK_XTAL, /*!< Select XTAL as the default choice */
} soc_periph_temperature_sensor_clk_src_t;
///////////////////////////////////////////////////UART/////////////////////////////////////////////////////////////////
/**
* @brief Type of UART clock source, reserved for the legacy UART driver
*/
typedef enum {
UART_SCLK_APB = SOC_MOD_CLK_APB, /*!< UART source clock is APB CLK */
UART_SCLK_RTC = SOC_MOD_CLK_RC_FAST, /*!< UART source clock is RC_FAST */
UART_SCLK_XTAL = SOC_MOD_CLK_XTAL, /*!< UART source clock is XTAL */
UART_SCLK_DEFAULT = SOC_MOD_CLK_APB, /*!< UART source clock default choice is APB */
} soc_periph_uart_clk_src_legacy_t;
///////////////////////////////////////////////////// I2S //////////////////////////////////////////////////////////////
/**
* @brief Array initializer for all supported clock sources of
*/
#define SOC_I2S_CLKS {SOC_MOD_CLK_PLL_F160M}
/**
* @brief I2S clock source enum
*/
typedef enum {
I2S_CLK_SRC_DEFAULT = SOC_MOD_CLK_PLL_F160M, /*!< Select PLL_F160M as the default source clock */
I2S_CLK_SRC_PLL_160M = SOC_MOD_CLK_PLL_F160M, /*!< Select PLL_F160M as the source clock */
} soc_periph_i2s_clk_src_t;
#ifdef __cplusplus
}
#endif