/* * Copyright (C) 2017 Travis Griggs * Copyright (C) 2017 Dan Evans * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @ingroup boards_samd21-xpro * @{ * * @file * @brief Configuration of CPU peripherals for the Atmel SAM D21 Xplained * Pro board * * @author Travis Griggs * @author Dan Evans */ #ifndef PERIPH_CONF_H #define PERIPH_CONF_H #include #include "cpu.h" #include "periph_cpu.h" #ifdef __cplusplus extern "C" { #endif /** * @name External oscillator and clock configuration * * There are three choices for selection of CORECLOCK: * * - usage of the 48 MHz DFLL fed by external oscillator running at 32 kHz * - usage of the PLL fed by the internal 8MHz oscillator divided by 8 * - usage of the internal 8MHz oscillator directly, divided by N if needed * * * The PLL option allows for the usage of a wider frequency range and a more * stable clock with less jitter. This is why this option is default. * * The target frequency is computed from the PLL multiplier and the PLL divisor. * Use the following formula to compute your values: * * CORECLOCK = ((PLL_MUL + 1) * 1MHz) / PLL_DIV * * NOTE: The PLL circuit does not run with less than 32MHz while the maximum PLL * frequency is 96MHz. So PLL_MULL must be between 31 and 95! * * * The internal Oscillator used directly can lead to a slightly better power * efficiency to the cost of a less stable clock. Use this option when you know * what you are doing! The actual core frequency is adjusted as follows: * * CORECLOCK = 8MHz / DIV * * NOTE: A core clock frequency below 1MHz is not recommended * * @{ */ #define CLOCK_USE_PLL (1) #if CLOCK_USE_PLL /* edit these values to adjust the PLL output frequency */ #define CLOCK_PLL_MUL (47U) /* must be >= 31 & <= 95 */ #define CLOCK_PLL_DIV (1U) /* adjust to your needs */ /* generate the actual used core clock frequency */ #define CLOCK_CORECLOCK (((CLOCK_PLL_MUL + 1) * 1000000U) / CLOCK_PLL_DIV) #elif CLOCK_USE_XOSC32_DFLL /* Settings for 32 kHz external oscillator and 48 MHz DFLL */ #define CLOCK_CORECLOCK (48000000U) #define CLOCK_XOSC32K (32768UL) #define CLOCK_8MHZ (1) #define GEN2_ULP32K (1) #else /* edit this value to your needs */ #define CLOCK_DIV (1U) /* generate the actual core clock frequency */ #define CLOCK_CORECLOCK (8000000 / CLOCK_DIV) #endif /** @} */ /** * @name Timer peripheral configuration * @{ */ #define TIMER_NUMOF (2U) #define TIMER_0_EN 1 #define TIMER_1_EN 1 /* Timer 0 configuration */ #define TIMER_0_DEV TC3->COUNT16 #define TIMER_0_CHANNELS 2 #define TIMER_0_MAX_VALUE (0xffff) #define TIMER_0_ISR isr_tc3 /* Timer 1 configuration */ #define TIMER_1_DEV TC4->COUNT32 #define TIMER_1_CHANNELS 2 #define TIMER_1_MAX_VALUE (0xffffffff) #define TIMER_1_ISR isr_tc4 /** @} */ /** * @name UART configuration * @{ */ static const uart_conf_t uart_config[] = { { /* Virtual COM Port */ .dev = &SERCOM3->USART, .rx_pin = GPIO_PIN(PA,23), .tx_pin = GPIO_PIN(PA,22), .mux = GPIO_MUX_C, .rx_pad = UART_PAD_RX_1, .tx_pad = UART_PAD_TX_0, .flags = UART_FLAG_NONE, .gclk_src = GCLK_CLKCTRL_GEN_GCLK0 }, { /* EXT1 */ .dev = &SERCOM4->USART, .rx_pin = GPIO_PIN(PB,9), .tx_pin = GPIO_PIN(PB,8), .mux = GPIO_MUX_D, .rx_pad = UART_PAD_RX_1, .tx_pad = UART_PAD_TX_0, .flags = UART_FLAG_NONE, .gclk_src = GCLK_CLKCTRL_GEN_GCLK0 }, { /* EXT2/3 */ .dev = &SERCOM4->USART, .rx_pin = GPIO_PIN(PB,11), .tx_pin = GPIO_PIN(PB,10), .mux = GPIO_MUX_D, .rx_pad = UART_PAD_RX_3, .tx_pad = UART_PAD_TX_2, .flags = UART_FLAG_NONE, .gclk_src = GCLK_CLKCTRL_GEN_GCLK0 } }; /* interrupt function name mapping */ #define UART_0_ISR isr_sercom3 #define UART_1_ISR isr_sercom4 #define UART_2_ISR isr_sercom5 #define UART_NUMOF (sizeof(uart_config) / sizeof(uart_config[0])) /** @} */ /** * @name PWM configuration * @{ */ #define PWM_0_EN 1 #define PWM_1_EN 0 #define PWM_2_EN 0 #define PWM_MAX_CHANNELS 2 /* for compatibility with test application */ #define PWM_0_CHANNELS PWM_MAX_CHANNELS #define PWM_1_CHANNELS PWM_MAX_CHANNELS #define PWM_2_CHANNELS PWM_MAX_CHANNELS /* PWM device configuration */ static const pwm_conf_t pwm_config[] = { #if PWM_0_EN {TCC2, { /* GPIO pin, MUX value, TCC channel */ { GPIO_PIN(PA, 12), GPIO_MUX_E, 0 }, { GPIO_PIN(PA, 13), GPIO_MUX_E, 1 }, }}, #endif #if PWM_1_EN {TC4, { /* GPIO pin, MUX value, TCC channel */ { GPIO_PIN(PB, 12), GPIO_MUX_E, 0 }, { GPIO_PIN(PB, 13), GPIO_MUX_E, 1 }, }} #endif #if PWM_2_EN {TC6, { /* GPIO pin, MUX value, TCC channel */ { GPIO_PIN(PB, 02), GPIO_MUX_E, 0 }, { GPIO_PIN(PB, 03), GPIO_MUX_E, 1 }, }} #endif }; /* number of devices that are actually defined */ #define PWM_NUMOF (3U) /** @} */ /** * @name SPI configuration * @{ */ static const spi_conf_t spi_config[] = { { /* EXT1 */ .dev = &SERCOM0->SPI, .miso_pin = GPIO_PIN(PA, 4), .mosi_pin = GPIO_PIN(PA, 6), .clk_pin = GPIO_PIN(PA, 7), .miso_mux = GPIO_MUX_D, .mosi_mux = GPIO_MUX_D, .clk_mux = GPIO_MUX_D, .miso_pad = SPI_PAD_MISO_0, .mosi_pad = SPI_PAD_MOSI_2_SCK_3 }, { /* EXT2 */ .dev = &SERCOM1->SPI, .miso_pin = GPIO_PIN(PA, 16), .mosi_pin = GPIO_PIN(PA, 18), .clk_pin = GPIO_PIN(PA, 19), .miso_mux = GPIO_MUX_C, .mosi_mux = GPIO_MUX_C, .clk_mux = GPIO_MUX_C, .miso_pad = SPI_PAD_MISO_0, .mosi_pad = SPI_PAD_MOSI_2_SCK_3 }, { /* EXT3 */ .dev = &SERCOM5->SPI, .miso_pin = GPIO_PIN(PB, 16), .mosi_pin = GPIO_PIN(PB, 22), .clk_pin = GPIO_PIN(PB, 23), .miso_mux = GPIO_MUX_C, .mosi_mux = GPIO_MUX_D, .clk_mux = GPIO_MUX_D, .miso_pad = SPI_PAD_MISO_0, .mosi_pad = SPI_PAD_MOSI_2_SCK_3 } }; #define SPI_NUMOF (sizeof(spi_config) / sizeof(spi_config[0])) /** @} */ /** * @name I2C configuration * @{ */ #define I2C_NUMOF (1U) #define I2C_0_EN 1 #define I2C_1_EN 0 #define I2C_2_EN 0 #define I2C_3_EN 0 #define I2C_IRQ_PRIO 1 #define I2C_0_DEV SERCOM2->I2CM #define I2C_0_IRQ SERCOM2_IRQn #define I2C_0_ISR isr_sercom2 /* I2C 0 GCLK */ #define I2C_0_GCLK_ID SERCOM2_GCLK_ID_CORE #define I2C_0_GCLK_ID_SLOW SERCOM2_GCLK_ID_SLOW /* I2C 0 pin configuration */ #define I2C_0_SDA GPIO_PIN(PA, 8) #define I2C_0_SCL GPIO_PIN(PA, 9) #define I2C_0_MUX GPIO_MUX_D /** * @name RTC configuration * @{ */ #define RTC_NUMOF (1U) #define RTC_DEV RTC->MODE2 /** @} */ /** * @name RTT configuration * @{ */ #define RTT_NUMOF (1U) #define RTT_DEV RTC->MODE0 #define RTT_IRQ RTC_IRQn #define RTT_IRQ_PRIO 10 #define RTT_ISR isr_rtc #define RTT_MAX_VALUE (0xffffffff) #define RTT_FREQUENCY (32768U) /* in Hz. For changes see `rtt.c` */ #define RTT_RUNSTDBY (1) /* Keep RTT running in sleep states */ /** @} */ /** * @name ADC Configuration * @{ */ #define ADC_0_EN 1 #define ADC_MAX_CHANNELS 14 /* ADC 0 device configuration */ #define ADC_0_DEV ADC #define ADC_0_IRQ ADC_IRQn /* ADC 0 Default values */ #define ADC_0_CLK_SOURCE 0 /* GCLK_GENERATOR_0 */ #define ADC_0_PRESCALER ADC_CTRLB_PRESCALER_DIV512 #define ADC_0_NEG_INPUT ADC_INPUTCTRL_MUXNEG_GND #define ADC_0_GAIN_FACTOR_DEFAULT ADC_INPUTCTRL_GAIN_1X #define ADC_0_REF_DEFAULT ADC_REFCTRL_REFSEL_INT1V static const adc_conf_chan_t adc_channels[] = { /* port, pin, muxpos */ {GPIO_PIN(PB, 0), ADC_INPUTCTRL_MUXPOS_PIN8}, /* EXT1, pin 3 */ {GPIO_PIN(PB, 1), ADC_INPUTCTRL_MUXPOS_PIN9}, /* EXT1, pin 4 */ {GPIO_PIN(PA, 10), ADC_INPUTCTRL_MUXPOS_PIN18}, /* EXT2, pin 3 */ {GPIO_PIN(PA, 11), ADC_INPUTCTRL_MUXPOS_PIN19}, /* EXT2, pin 4 */ {GPIO_PIN(PA, 2), ADC_INPUTCTRL_MUXPOS_PIN0}, /* EXT3, pin 3 */ {GPIO_PIN(PA, 3), ADC_INPUTCTRL_MUXPOS_PIN1} /* EXT3, pin 4. This is disconnected by default. PA3 is connected to USB_ID. Move PA03 SELECT jumper to EXT3 to connect. */ }; #define ADC_0_CHANNELS (6U) #define ADC_NUMOF ADC_0_CHANNELS /** @} */ #ifdef __cplusplus } #endif #endif /* PERIPH_CONF_H */ /** @} */