periph_conf.h
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/*
* Copyright (C) 2016 Kees Bakker, SODAQ
*
* 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_sodaq-autonomo
* @{
*
* @file
* @brief Configuration of CPU peripherals for the SODAQ Autonomo board
*
* @author Kees Bakker <kees@sodaq.com>
*/
#ifndef PERIPH_CONF_H
#define PERIPH_CONF_H
#include <stdint.h>
#include "cpu.h"
#include "periph_cpu.h"
#ifdef __cplusplus
extern "C" {
#endif
/**
* @name External oscillator and clock configuration
*
* For selection of the used CORECLOCK, we have implemented two choices:
*
* - 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 we use this option as 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)
#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
* @{
* See Table 6.1 of the SAM D21 Datasheet
*/
static const uart_conf_t uart_config[] = {
{
.dev = &SERCOM0->USART,
.rx_pin = GPIO_PIN(PA,9),
.tx_pin = GPIO_PIN(PA,10),
.mux = GPIO_MUX_C,
.rx_pad = UART_PAD_RX_1,
.tx_pad = UART_PAD_TX_2,
.flags = UART_FLAG_NONE,
.gclk_src = GCLK_CLKCTRL_GEN_GCLK0
},
{
.dev = &SERCOM5->USART,
.rx_pin = GPIO_PIN(PB,31),
.tx_pin = GPIO_PIN(PB,30),
.mux = GPIO_MUX_D,
.rx_pad = UART_PAD_RX_1,
.tx_pad = UART_PAD_TX_0_RTS_2_CTS_3,
.flags = UART_FLAG_NONE,
.gclk_src = GCLK_CLKCTRL_GEN_GCLK0
},
{
.dev = &SERCOM4->USART,
.rx_pin = GPIO_PIN(PB,13),
.tx_pin = GPIO_PIN(PB,14),
.mux = GPIO_MUX_C,
.rx_pad = UART_PAD_RX_1,
.tx_pad = UART_PAD_TX_2,
.flags = UART_FLAG_NONE,
.gclk_src = GCLK_CLKCTRL_GEN_GCLK0
},
{
.dev = &SERCOM1->USART,
.rx_pin = GPIO_PIN(PA,17),
.tx_pin = GPIO_PIN(PA,18),
.mux = GPIO_MUX_C,
.rx_pad = UART_PAD_RX_1,
.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_sercom0
#define UART_1_ISR isr_sercom5
#define UART_2_ISR isr_sercom4
#define UART_3_ISR isr_sercom1
#define UART_NUMOF (sizeof(uart_config) / sizeof(uart_config[0]))
/** @} */
/**
* @name PWM configuration
* @{
*/
#define PWM_0_EN 1
#define PWM_1_EN 1
#define PWM_MAX_CHANNELS 3
/* for compatibility with test application */
#define PWM_0_CHANNELS PWM_MAX_CHANNELS
#define PWM_1_CHANNELS PWM_MAX_CHANNELS
/* PWM device configuration */
static const pwm_conf_t pwm_config[] = {
#if PWM_0_EN
{TCC1, {
/* GPIO pin, MUX value, TCC channel */
{ GPIO_PIN(PA, 6), GPIO_MUX_E, 0 },
{ GPIO_PIN(PA, 7), GPIO_MUX_E, 1 },
{ GPIO_UNDEF, (gpio_mux_t)0, 2 }
}},
#endif
#if PWM_1_EN
{TCC0, {
/* GPIO pin, MUX value, TCC channel */
{ GPIO_PIN(PA, 16), GPIO_MUX_F, 0 },
{ GPIO_PIN(PA, 18), GPIO_MUX_F, 2 },
{ GPIO_PIN(PA, 19), GPIO_MUX_F, 3 }
}}
#endif
};
/* number of devices that are actually defined */
#define PWM_NUMOF (2U)
/** @} */
/**
* @name SPI configuration
* @{
*/
static const spi_conf_t spi_config[] = {
{
.dev = &SERCOM3->SPI,
.miso_pin = GPIO_PIN(PA, 22),
.mosi_pin = GPIO_PIN(PA, 20),
.clk_pin = GPIO_PIN(PA, 21),
.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, 12)
#define I2C_0_SCL GPIO_PIN(PA, 13)
#define I2C_0_MUX GPIO_MUX_C
/**
* @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 */
/** @} */
#ifdef __cplusplus
}
#endif
#endif /* PERIPH_CONF_H */
/** @} */