C++ (Cpp) CGU_BASE_SSP1_CLK_CLK_SEL Beispiele

Programmiersprache: C++ (Cpp)

Methode / Funktion: CGU_BASE_SSP1_CLK_CLK_SEL

Beispiele auf hotexamples.com: 3

C++ (Cpp) CGU_BASE_SSP1_CLK_CLK_SEL - 3 Beispiele gefunden. Dies sind die am besten bewerteten C++ (Cpp) Beispiele für die CGU_BASE_SSP1_CLK_CLK_SEL, die aus Open Source-Projekten extrahiert wurden. Sie können Beispiele bewerten, um die Qualität der Beispiele zu verbessern.

Beispiel #1

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Datei: ssp.c Projekt: MalcolmRobb/firmware

/*
* SSP Init function
*/
void ssp_init(ssp_num_t ssp_num,
			ssp_datasize_t data_size,
			ssp_frame_format_t frame_format,
			ssp_cpol_cpha_t cpol_cpha_format,
			uint8_t serial_clock_rate,
			uint8_t clk_prescale,
			ssp_mode_t mode,
			ssp_master_slave_t master_slave,
			ssp_slave_option_t slave_option)
{
	uint32_t ssp_port;
	uint32_t clock;

	if (ssp_num == SSP0_NUM)
	{
		ssp_port = SSP0;
		CGU_BASE_SSP0_CLK = CGU_BASE_SSP0_CLK_CLK_SEL(CGU_SRC_PLL1)
			| CGU_BASE_SSP0_CLK_AUTOBLOCK;
		CCU1_CLK_M4_SSP0_CFG |= 1; /* Enable SSP0 Clock */
		/* use PLL1 as clock source for SSP0 */
	} else
	{
		ssp_port = SSP1;
		/* use PLL1 as clock source for SSP1 */
		CGU_BASE_SSP1_CLK = CGU_BASE_SSP1_CLK_CLK_SEL(CGU_SRC_PLL1)
			| CGU_BASE_SSP1_CLK_AUTOBLOCK;
		CCU1_CLK_M4_SSP1_CFG |= 1; /* Enable SSP1 Clock */
	}

	/* Disable SSP before to configure it */
	SSP_CR1(ssp_port) = 0x0;

	/* Configure SSP */
	clock = serial_clock_rate;
	SSP_CPSR(ssp_port) = clk_prescale;
	SSP_CR0(ssp_port) =
		(data_size | frame_format | cpol_cpha_format | (clock<<8));

	/* Enable SSP */
	SSP_CR1(ssp_port) = (SSP_ENABLE | mode | master_slave | slave_option);
}

Beispiel #2

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Datei: greatfet_core.c Projekt: dodgymike/GreatFET-experimental

/* clock startup for Jellybean with Lemondrop attached
Configure PLL1 to max speed (204MHz).
Note: PLL1 clock is used by M4/M0 core, Peripheral, APB1. */ 
void cpu_clock_init(void)
{
	/* use IRC as clock source for APB1 (including I2C0) */
	CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_IRC);

	/* use IRC as clock source for APB3 */
	CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_IRC);

	//FIXME a lot of the details here should be in a CGU driver

	/* set xtal oscillator to low frequency mode */
	CGU_XTAL_OSC_CTRL &= ~CGU_XTAL_OSC_CTRL_HF_MASK;

	/* power on the oscillator and wait until stable */
	CGU_XTAL_OSC_CTRL &= ~CGU_XTAL_OSC_CTRL_ENABLE_MASK;

	/* Wait about 100us after Crystal Power ON */
	delay(WAIT_CPU_CLOCK_INIT_DELAY);

	/* use XTAL_OSC as clock source for BASE_M4_CLK (CPU) */
	CGU_BASE_M4_CLK = (CGU_BASE_M4_CLK_CLK_SEL(CGU_SRC_XTAL) | CGU_BASE_M4_CLK_AUTOBLOCK(1));

	/* use XTAL_OSC as clock source for APB1 */
	CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_XTAL);

	/* use XTAL_OSC as clock source for APB3 */
	CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_XTAL);

	cpu_clock_pll1_low_speed();

	/* use PLL1 as clock source for BASE_M4_CLK (CPU) */
	CGU_BASE_M4_CLK = (CGU_BASE_M4_CLK_CLK_SEL(CGU_SRC_PLL1) | CGU_BASE_M4_CLK_AUTOBLOCK(1));

	/* use XTAL_OSC as clock source for PLL0USB */
	CGU_PLL0USB_CTRL = CGU_PLL0USB_CTRL_PD(1)
			| CGU_PLL0USB_CTRL_AUTOBLOCK(1)
			| CGU_PLL0USB_CTRL_CLK_SEL(CGU_SRC_XTAL);
	while (CGU_PLL0USB_STAT & CGU_PLL0USB_STAT_LOCK_MASK);

	/* configure PLL0USB to produce 480 MHz clock from 12 MHz XTAL_OSC */
	/* Values from User Manual v1.4 Table 94, for 12MHz oscillator. */
	CGU_PLL0USB_MDIV = 0x06167FFA;
	CGU_PLL0USB_NP_DIV = 0x00302062;
	CGU_PLL0USB_CTRL |= (CGU_PLL0USB_CTRL_PD(1)
			| CGU_PLL0USB_CTRL_DIRECTI(1)
			| CGU_PLL0USB_CTRL_DIRECTO(1)
			| CGU_PLL0USB_CTRL_CLKEN(1));

	/* power on PLL0USB and wait until stable */
	CGU_PLL0USB_CTRL &= ~CGU_PLL0USB_CTRL_PD_MASK;
	while (!(CGU_PLL0USB_STAT & CGU_PLL0USB_STAT_LOCK_MASK));

	/* use PLL0USB as clock source for USB0 */
	CGU_BASE_USB0_CLK = CGU_BASE_USB0_CLK_AUTOBLOCK(1)
			| CGU_BASE_USB0_CLK_CLK_SEL(CGU_SRC_PLL0USB);

	/* use PLL0USB as clock source for IDIVA */
	/* divide by 4 */
	CGU_IDIVA_CTRL = CGU_IDIVA_CTRL_IDIV(3)
			| CGU_IDIVA_CTRL_AUTOBLOCK(1)
			| CGU_IDIVA_CTRL_CLK_SEL(CGU_SRC_PLL0USB);

	/* use IDIVA as clock source for IDIVB */
	/* divide by 2 */
	CGU_IDIVB_CTRL = CGU_IDIVB_CTRL_IDIV(1)
			| CGU_IDIVB_CTRL_AUTOBLOCK(1)
			| CGU_IDIVA_CTRL_CLK_SEL(CGU_SRC_IDIVA);

	/* Use IDIVB for CLKOUT */
	CGU_BASE_OUT_CLK = CGU_BASE_OUT_CLK_AUTOBLOCK(1)
			| CGU_BASE_OUT_CLK_CLK_SEL(CGU_SRC_IDIVB);

	/* use IDIVB as clock source for USB1 */
	CGU_BASE_USB1_CLK = CGU_BASE_USB1_CLK_AUTOBLOCK(1)
			| CGU_BASE_USB1_CLK_CLK_SEL(CGU_SRC_IDIVB);

	/* Switch peripheral clock over to use PLL1 (204MHz) */
	CGU_BASE_PERIPH_CLK = CGU_BASE_PERIPH_CLK_AUTOBLOCK(1)
			| CGU_BASE_PERIPH_CLK_CLK_SEL(CGU_SRC_PLL1);

	/* Switch APB1 clock over to use PLL1 (204MHz) */
	CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_PLL1);

	/* Switch APB3 clock over to use PLL1 (204MHz) */
	CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_PLL1);

	CGU_BASE_SSP0_CLK = CGU_BASE_SSP0_CLK_AUTOBLOCK(1)
			| CGU_BASE_SSP0_CLK_CLK_SEL(CGU_SRC_PLL1);

	CGU_BASE_SSP1_CLK = CGU_BASE_SSP1_CLK_AUTOBLOCK(1)
			| CGU_BASE_SSP1_CLK_CLK_SEL(CGU_SRC_PLL1);
}

Beispiel #3

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Datei: hackrf_core.c Projekt: barto-/hackrf

/* clock startup for LPC4320 configure PLL1 to max speed (204MHz).
Note: PLL1 clock is used by M4/M0 core, Peripheral, APB1. */ 
void cpu_clock_init(void)
{
	/* use IRC as clock source for APB1 (including I2C0) */
	CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_IRC);

	/* use IRC as clock source for APB3 */
	CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_IRC);

	i2c_bus_start(clock_gen.bus, &i2c_config_si5351c_slow_clock);

	si5351c_disable_all_outputs(&clock_gen);
	si5351c_disable_oeb_pin_control(&clock_gen);
	si5351c_power_down_all_clocks(&clock_gen);
	si5351c_set_crystal_configuration(&clock_gen);
	si5351c_enable_xo_and_ms_fanout(&clock_gen);
	si5351c_configure_pll_sources(&clock_gen);
	si5351c_configure_pll_multisynth(&clock_gen);

	/*
	 * Clocks:
	 *   CLK0 -> MAX5864/CPLD
	 *   CLK1 -> CPLD
	 *   CLK2 -> SGPIO
	 *   CLK3 -> External Clock Output (power down at boot)
	 *   CLK4 -> RFFC5072 (MAX2837 on rad1o)
	 *   CLK5 -> MAX2837 (MAX2871 on rad1o)
	 *   CLK6 -> none
	 *   CLK7 -> LPC43xx (uses a 12MHz crystal by default)
	 */

	/* MS4/CLK4 is the source for the RFFC5071 mixer (MAX2837 on rad1o). */
	si5351c_configure_multisynth(&clock_gen, 4, 20*128-512, 0, 1, 0); /* 800/20 = 40MHz */
 	/* MS5/CLK5 is the source for the MAX2837 clock input (MAX2871 on rad1o). */
	si5351c_configure_multisynth(&clock_gen, 5, 20*128-512, 0, 1, 0); /* 800/20 = 40MHz */

	/* MS6/CLK6 is unused. */
	/* MS7/CLK7 is unused. */

	/* Set to 10 MHz, the common rate between Jawbreaker and HackRF One. */
	sample_rate_set(10000000);

	si5351c_set_clock_source(&clock_gen, PLL_SOURCE_XTAL);
	// soft reset
	// uint8_t resetdata[] = { 177, 0xac };
	// si5351c_write(&clock_gen, resetdata, sizeof(resetdata));
	si5351c_reset_pll(&clock_gen);
	si5351c_enable_clock_outputs(&clock_gen);

	//FIXME disable I2C
	/* Kick I2C0 down to 400kHz when we switch over to APB1 clock = 204MHz */
	i2c_bus_start(clock_gen.bus, &i2c_config_si5351c_fast_clock);

	/*
	 * 12MHz clock is entering LPC XTAL1/OSC input now.
	 * On HackRF One and Jawbreaker, there is a 12 MHz crystal at the LPC.
	 * Set up PLL1 to run from XTAL1 input.
	 */

	//FIXME a lot of the details here should be in a CGU driver

	/* set xtal oscillator to low frequency mode */
	CGU_XTAL_OSC_CTRL &= ~CGU_XTAL_OSC_CTRL_HF_MASK;

	/* power on the oscillator and wait until stable */
	CGU_XTAL_OSC_CTRL &= ~CGU_XTAL_OSC_CTRL_ENABLE_MASK;

	/* Wait about 100us after Crystal Power ON */
	delay(WAIT_CPU_CLOCK_INIT_DELAY);

	/* use XTAL_OSC as clock source for BASE_M4_CLK (CPU) */
	CGU_BASE_M4_CLK = (CGU_BASE_M4_CLK_CLK_SEL(CGU_SRC_XTAL) | CGU_BASE_M4_CLK_AUTOBLOCK(1));

	/* use XTAL_OSC as clock source for APB1 */
	CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_XTAL);

	/* use XTAL_OSC as clock source for APB3 */
	CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_XTAL);

	cpu_clock_pll1_low_speed();

	/* use PLL1 as clock source for BASE_M4_CLK (CPU) */
	CGU_BASE_M4_CLK = (CGU_BASE_M4_CLK_CLK_SEL(CGU_SRC_PLL1) | CGU_BASE_M4_CLK_AUTOBLOCK(1));

	/* use XTAL_OSC as clock source for PLL0USB */
	CGU_PLL0USB_CTRL = CGU_PLL0USB_CTRL_PD(1)
			| CGU_PLL0USB_CTRL_AUTOBLOCK(1)
			| CGU_PLL0USB_CTRL_CLK_SEL(CGU_SRC_XTAL);
	while (CGU_PLL0USB_STAT & CGU_PLL0USB_STAT_LOCK_MASK);

	/* configure PLL0USB to produce 480 MHz clock from 12 MHz XTAL_OSC */
	/* Values from User Manual v1.4 Table 94, for 12MHz oscillator. */
	CGU_PLL0USB_MDIV = 0x06167FFA;
	CGU_PLL0USB_NP_DIV = 0x00302062;
	CGU_PLL0USB_CTRL |= (CGU_PLL0USB_CTRL_PD(1)
			| CGU_PLL0USB_CTRL_DIRECTI(1)
			| CGU_PLL0USB_CTRL_DIRECTO(1)
			| CGU_PLL0USB_CTRL_CLKEN(1));

	/* power on PLL0USB and wait until stable */
	CGU_PLL0USB_CTRL &= ~CGU_PLL0USB_CTRL_PD_MASK;
	while (!(CGU_PLL0USB_STAT & CGU_PLL0USB_STAT_LOCK_MASK));

	/* use PLL0USB as clock source for USB0 */
	CGU_BASE_USB0_CLK = CGU_BASE_USB0_CLK_AUTOBLOCK(1)
			| CGU_BASE_USB0_CLK_CLK_SEL(CGU_SRC_PLL0USB);

	/* Switch peripheral clock over to use PLL1 (204MHz) */
	CGU_BASE_PERIPH_CLK = CGU_BASE_PERIPH_CLK_AUTOBLOCK(1)
			| CGU_BASE_PERIPH_CLK_CLK_SEL(CGU_SRC_PLL1);

	/* Switch APB1 clock over to use PLL1 (204MHz) */
	CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_PLL1);

	/* Switch APB3 clock over to use PLL1 (204MHz) */
	CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_AUTOBLOCK(1)
			| CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_PLL1);

	CGU_BASE_SSP0_CLK = CGU_BASE_SSP0_CLK_AUTOBLOCK(1)
			| CGU_BASE_SSP0_CLK_CLK_SEL(CGU_SRC_PLL1);

	CGU_BASE_SSP1_CLK = CGU_BASE_SSP1_CLK_AUTOBLOCK(1)
			| CGU_BASE_SSP1_CLK_CLK_SEL(CGU_SRC_PLL1);

#if (defined JAWBREAKER || defined HACKRF_ONE)
	/* Disable unused clocks */
	/* Start with PLLs */
	CGU_PLL0AUDIO_CTRL = CGU_PLL0AUDIO_CTRL_PD(1);

	/* Dividers */
	CGU_IDIVA_CTRL = CGU_IDIVA_CTRL_PD(1);
	CGU_IDIVB_CTRL = CGU_IDIVB_CTRL_PD(1);
	CGU_IDIVC_CTRL = CGU_IDIVC_CTRL_PD(1);
	CGU_IDIVD_CTRL = CGU_IDIVD_CTRL_PD(1);
	CGU_IDIVE_CTRL = CGU_IDIVE_CTRL_PD(1);

	/* Base clocks */
	CGU_BASE_SPIFI_CLK =  CGU_BASE_SPIFI_CLK_PD(1); /* SPIFI is only used at boot */
	CGU_BASE_USB1_CLK = CGU_BASE_USB1_CLK_PD(1); /* USB1 is not exposed on HackRF */
	CGU_BASE_PHY_RX_CLK = CGU_BASE_PHY_RX_CLK_PD(1);
	CGU_BASE_PHY_TX_CLK = CGU_BASE_PHY_TX_CLK_PD(1);
	CGU_BASE_LCD_CLK = CGU_BASE_LCD_CLK_PD(1);
	CGU_BASE_VADC_CLK = CGU_BASE_VADC_CLK_PD(1);
	CGU_BASE_SDIO_CLK = CGU_BASE_SDIO_CLK_PD(1);
	CGU_BASE_UART0_CLK = CGU_BASE_UART0_CLK_PD(1);
	CGU_BASE_UART1_CLK = CGU_BASE_UART1_CLK_PD(1);
	CGU_BASE_UART2_CLK = CGU_BASE_UART2_CLK_PD(1);
	CGU_BASE_UART3_CLK = CGU_BASE_UART3_CLK_PD(1);
	CGU_BASE_OUT_CLK = CGU_BASE_OUT_CLK_PD(1);
	CGU_BASE_AUDIO_CLK = CGU_BASE_AUDIO_CLK_PD(1);
	CGU_BASE_CGU_OUT0_CLK = CGU_BASE_CGU_OUT0_CLK_PD(1);
	CGU_BASE_CGU_OUT1_CLK = CGU_BASE_CGU_OUT1_CLK_PD(1);

	/* Disable unused peripheral clocks */
	CCU1_CLK_APB1_CAN1_CFG = 0;
	CCU1_CLK_APB1_I2S_CFG = 0;
	CCU1_CLK_APB1_MOTOCONPWM_CFG = 0;
	CCU1_CLK_APB3_ADC0_CFG = 0;
	CCU1_CLK_APB3_ADC1_CFG = 0;
	CCU1_CLK_APB3_CAN0_CFG = 0;
	CCU1_CLK_APB3_DAC_CFG = 0;
	CCU1_CLK_M4_DMA_CFG = 0;
	CCU1_CLK_M4_EMC_CFG = 0;
	CCU1_CLK_M4_EMCDIV_CFG = 0;
	CCU1_CLK_M4_ETHERNET_CFG = 0;
	CCU1_CLK_M4_LCD_CFG = 0;
	CCU1_CLK_M4_QEI_CFG = 0;
	CCU1_CLK_M4_RITIMER_CFG = 0;
	CCU1_CLK_M4_SCT_CFG = 0;
	CCU1_CLK_M4_SDIO_CFG = 0;
	CCU1_CLK_M4_SPIFI_CFG = 0;
	CCU1_CLK_M4_TIMER0_CFG = 0;
	CCU1_CLK_M4_TIMER1_CFG = 0;
	CCU1_CLK_M4_TIMER2_CFG = 0;
	CCU1_CLK_M4_TIMER3_CFG = 0;
	CCU1_CLK_M4_UART1_CFG = 0;
	CCU1_CLK_M4_USART0_CFG = 0;
	CCU1_CLK_M4_USART2_CFG = 0;
	CCU1_CLK_M4_USART3_CFG = 0;
	CCU1_CLK_M4_USB1_CFG = 0;
	CCU1_CLK_M4_VADC_CFG = 0;
	// CCU1_CLK_SPIFI_CFG = 0;
	// CCU1_CLK_USB1_CFG = 0;
	// CCU1_CLK_VADC_CFG = 0;
	// CCU2_CLK_APB0_UART1_CFG = 0;
	// CCU2_CLK_APB0_USART0_CFG = 0;
	// CCU2_CLK_APB2_USART2_CFG = 0;
	// CCU2_CLK_APB2_USART3_CFG = 0;
	// CCU2_CLK_APLL_CFG = 0;
	// CCU2_CLK_SDIO_CFG = 0;
#endif

#ifdef RAD1O
	/* Disable unused clock outputs. They generate noise. */
	scu_pinmux(CLK0, SCU_CLK_IN | SCU_CONF_FUNCTION7);
	scu_pinmux(CLK2, SCU_CLK_IN | SCU_CONF_FUNCTION7);
#endif
}