boards_2stm32l496g-disco_2include_2periph__conf_8h_source.html

/*

 * Copyright (C) 2018 Inria

 *               2023 Gunar Schorcht

 *

 * 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.

 */


#ifndef PERIPH_CONF_H

#define PERIPH_CONF_H


/* Add specific clock configuration (HSE, LSE) for this board here */

#ifndef CONFIG_BOARD_HAS_LSE

#define CONFIG_BOARD_HAS_LSE            1

#endif


#include "periph_cpu.h"

#include "clk_conf.h"

#include "cfg_rtt_default.h"

#include "cfg_usb_otg_fs.h"

#include "lcd_fmc.h"


#ifdef __cplusplus

extern "C" {

#endif


static const dma_conf_t dma_config[] = {

    { .stream = 1 },    /* DMA1 Channel 2 - SPI1_RX */

    { .stream = 2 },    /* DMA1 Channel 3 - SPI1_TX */

    { .stream = 3 },    /* DMA1 Channel 4 - SPI2_RX / USART1_TX */

    { .stream = 4 },    /* DMA1 Channel 5 - SPI2_TX */

    { .stream = 6 },    /* DMA1 Channel 7 - USART2_TX */

    { .stream = 13 },   /* DMA2 Channel 6 - LPUART1_TX */

    { .stream = 11 },   /* DMA2 Channel 4 - SDMMC1 */

};


#define DMA_0_ISR   isr_dma1_channel2

#define DMA_1_ISR   isr_dma1_channel3

#define DMA_2_ISR   isr_dma1_channel4

#define DMA_3_ISR   isr_dma1_channel5

#define DMA_4_ISR   isr_dma1_channel7

#define DMA_5_ISR   isr_dma2_channel6

#define DMA_6_ISR   isr_dma2_channel4


#define DMA_NUMOF   ARRAY_SIZE(dma_config)

static const adc_conf_t adc_config[] = {

    { .pin = GPIO_PIN(PORT_C, 4),  .dev = 0, .chan = 13 }, /* A0, ADC12_IN13 */

    { .pin = GPIO_PIN(PORT_C, 1),  .dev = 0, .chan =  2 }, /* A1, ADC123_IN2  */

    { .pin = GPIO_PIN(PORT_C, 3),  .dev = 0, .chan =  4 }, /* A2, ADC123_IN4 */

    { .pin = GPIO_PIN(PORT_F, 10), .dev = 2, .chan = 13 }, /* A3, ADC3_IN13  */

    { .pin = GPIO_PIN(PORT_A, 1),  .dev = 0, .chan =  6 }, /* A4, ADC12_IN6, SB26 closed */

    { .pin = GPIO_PIN(PORT_C, 0),  .dev = 1, .chan = 13 }, /* A5, ADC12_IN13, SB28 closed */

    { .pin = GPIO_UNDEF, .dev = 0, .chan = 0 },            /* V_REFINT, ADC1_IN0  */

    { .pin = GPIO_UNDEF, .dev = 0, .chan = 18 },           /* V_BAT, ADC1_IN18  */

#if !MODULE_PERIPH_DAC

    { .pin = GPIO_PIN(PORT_A, 4),  .dev = 0, .chan =  9 }, /* STMOD+_ADC, ADC12_IN9 */

#else

    { .pin = GPIO_UNDEF,  .dev = 1, .chan = 17 },          /* DAC1, ADC2_IN17 */

#endif

};


#define ADC_NUMOF           ARRAY_SIZE(adc_config)


#define VBAT_ADC            ADC_LINE(7)


#define VREFINT_ADC         ADC_LINE(6)


#ifndef VREFBUF_ENABLE

#define VREFBUF_ENABLE      (1)

#endif


static const dac_conf_t dac_config[] = {

    { GPIO_PIN(PORT_A, 4), .chan = 0 },     /* STMod+_ADC pin */

#if !MODULE_PERIPH_SPI

    { GPIO_PIN(PORT_A, 5), .chan = 1 },     /* Arduino D13, conflicts with SPI_DEV(0) */

#endif

};


#define DAC_NUMOF   ARRAY_SIZE(dac_config)


static const fmc_conf_t fmc_config = {

    .bus = AHB3,

    .rcc_mask = RCC_AHB3ENR_FMCEN,

#if MODULE_PERIPH_FMC_NOR_SRAM

    .ne1_pin = { .pin = GPIO_PIN(PORT_D, 7), .af = GPIO_AF12, }, /* LCD_NE signal, subbank 1 */

    .ne2_pin = { .pin = GPIO_PIN(PORT_G, 9), .af = GPIO_AF12, }, /* PSRAM_NE signal, subbank 2 */

    .noe_pin = { .pin = GPIO_PIN(PORT_D, 4), .af = GPIO_AF12, }, /* PSRAM/LCD_OE signal (OE) */

    .nwe_pin = { .pin = GPIO_PIN(PORT_D, 5), .af = GPIO_AF12, }, /* PSRAM/LCD_WE signal (WE) */

    .addr = {

        { .pin = GPIO_PIN(PORT_F, 0), .af = GPIO_AF12, },  /* PSRAM_A0 signal */

        { .pin = GPIO_PIN(PORT_F, 1), .af = GPIO_AF12, },  /* PSRAM_A1 signal */

        { .pin = GPIO_PIN(PORT_F, 2), .af = GPIO_AF12, },  /* PSRAM_A2 signal */

        { .pin = GPIO_PIN(PORT_F, 3), .af = GPIO_AF12, },  /* PSRAM_A3 signal */

        { .pin = GPIO_PIN(PORT_F, 4), .af = GPIO_AF12, },  /* PSRAM_A4 signal */

        { .pin = GPIO_PIN(PORT_F, 5), .af = GPIO_AF12, },  /* PSRAM_A5 signal */

        { .pin = GPIO_PIN(PORT_F, 12), .af = GPIO_AF12, }, /* PSRAM_A6 signal */

        { .pin = GPIO_PIN(PORT_F, 13), .af = GPIO_AF12, }, /* PSRAM_A7 signal */

        { .pin = GPIO_PIN(PORT_F, 14), .af = GPIO_AF12, }, /* PSRAM_A8 signal */

        { .pin = GPIO_PIN(PORT_F, 15), .af = GPIO_AF12, }, /* PSRAM_A9 signal */

        { .pin = GPIO_PIN(PORT_G, 0), .af = GPIO_AF12, },  /* PSRAM_A10 signal */

        { .pin = GPIO_PIN(PORT_G, 1), .af = GPIO_AF12, },  /* PSRAM_A11 signal */

        { .pin = GPIO_PIN(PORT_G, 2), .af = GPIO_AF12, },  /* PSRAM_A12 signal */

        { .pin = GPIO_PIN(PORT_G, 3), .af = GPIO_AF12, },  /* PSRAM_A13 signal */

        { .pin = GPIO_PIN(PORT_G, 4), .af = GPIO_AF12, },  /* PSRAM_A14 signal */

        { .pin = GPIO_PIN(PORT_G, 5), .af = GPIO_AF12, },  /* PSRAM_A15 signal */

        { .pin = GPIO_PIN(PORT_D, 11), .af = GPIO_AF12, }, /* PSRAM_A16 signal */

        { .pin = GPIO_PIN(PORT_D, 12), .af = GPIO_AF12, }, /* PSRAM_A17 signal */

        { .pin = GPIO_PIN(PORT_D, 13), .af = GPIO_AF12, }, /* PSRAM_A18 / LCD_RS signal */

    },

#endif

    .data = {

        { .pin = GPIO_PIN(PORT_D, 14), .af = GPIO_AF12, }, /* PSRAM_D0 / LCD_D0 signal */

        { .pin = GPIO_PIN(PORT_D, 15), .af = GPIO_AF12, }, /* PSRAM_D1 / LCD_D1 signal */

        { .pin = GPIO_PIN(PORT_D, 0), .af = GPIO_AF12, },  /* PSRAM_D2 / LCD_D2 signal */

        { .pin = GPIO_PIN(PORT_D, 1), .af = GPIO_AF12, },  /* PSRAM_D3 / LCD_D3 signal */

        { .pin = GPIO_PIN(PORT_E, 7), .af = GPIO_AF12, },  /* PSRAM_D4 / LCD_D4 signal */

        { .pin = GPIO_PIN(PORT_E, 8), .af = GPIO_AF12, },  /* PSRAM_D5 / LCD_D5 signal */

        { .pin = GPIO_PIN(PORT_E, 9), .af = GPIO_AF12, },  /* PSRAM_D6 / LCD_D6 signal */

        { .pin = GPIO_PIN(PORT_E, 10), .af = GPIO_AF12, }, /* PSRAM_D7 / LCD_D7 signal */

#if MODULE_PERIPH_FMC_16BIT

        { .pin = GPIO_PIN(PORT_E, 11), .af = GPIO_AF12, }, /* PSRAM_D8 / LCD_D8 signal */

        { .pin = GPIO_PIN(PORT_E, 12), .af = GPIO_AF12, }, /* PSRAM_D9 / LCD_D9 signal */

        { .pin = GPIO_PIN(PORT_E, 13), .af = GPIO_AF12, }, /* PSRAM_D10 / LCD_D10 signal */

        { .pin = GPIO_PIN(PORT_E, 14), .af = GPIO_AF12, }, /* PSRAM_D11 / LCD_D11 signal */

        { .pin = GPIO_PIN(PORT_E, 15), .af = GPIO_AF12, }, /* PSRAM_D12 / LCD_D12 signal */

        { .pin = GPIO_PIN(PORT_D, 8), .af = GPIO_AF12, },  /* PSRAM_D13 / LCD_D13 signal */

        { .pin = GPIO_PIN(PORT_D, 9), .af = GPIO_AF12, },  /* PSRAM_D14 / LCD_D14 signal */

        { .pin = GPIO_PIN(PORT_D, 10), .af = GPIO_AF12, }, /* PSRAM_D15 / LCD_D15 signal */

#endif

    },

    .nbl0_pin = { .pin = GPIO_PIN(PORT_E, 0), .af = GPIO_AF12, }, /* PSRAM_NBL0 signal (LB) */

    .nbl1_pin = { .pin = GPIO_PIN(PORT_E, 1), .af = GPIO_AF12, }, /* PSRAM_NBL1 signal (UB) */

};


static const fmc_bank_conf_t fmc_bank_config[] = {

    /* bank 1, subbank 2 is used for PSRAM with asynchronuous

     * access in Mode 1, i.e. write timings are not used */

    {

        .bank = FMC_BANK_1,

        .mem_type = FMC_SRAM,

        .data_width = FMC_BUS_WIDTH_16BIT,

        .address = 0x64000000,  /* Bank 1, subbank 2 is mapped to 0x64000000 */

        .size = MiB(1),         /* Size in Mbyte, 512K x 16 bit */

        .nor_sram = {

            .sub_bank = 2,

            .ext_mode = false,                      /* Mode 1 used, no separate w_timing */

                                                    /* timings for IS66WV51216EBLL-70BLI */

            .r_timing = {  .addr_setup = 6,         /* t_AA = 70 ns (6 HCLKs a 12.5 ns) */

                           .data_setup = 2,         /* t_SD = 30 ns (3 HCLKs a 12.5 ns) */

                           .bus_turnaround = 1, },  /* 1 HCLK a 12.5 ns */

        },

    },

    /* bank 1, subbank 1 is used for LCD with asynchronuous

     * access in Mode 1, i.e. write timings are not used */

    {

        .bank = FMC_BANK_1,

        .mem_type = FMC_SRAM,

        .data_width = FMC_BUS_WIDTH_16BIT,

        .address = 0x60000000,  /* Bank 1, subbank 1 is mapped to 0x60000000 */

        .size = 2,              /* 1 word for command @ 0x60000000 and

                                   1 word for data @ 0x60080000 */

        .nor_sram = {

            .sub_bank = 1,

            .ext_mode = false,                      /* Mode 1 used, no separate w_timing */

                                                    /* timing requirements for ST7789H2:

                                                       - t_AST min 0 ns (Address setup time)

                                                       - t_DST min 10 ns (Data setup time)

                                                       - t_WRL min 15 ns (WE LOW time)

                                                       - t_WRH min 15 ns (WE HIGH time)

                                                       - t_WRC min 66 ns (WE cycle time) */

            .r_timing = {  .addr_setup = 1,         /* t_AST = 12 ns (1 HCLKs a 12.5 ns) */

                           .data_setup = 3,         /* t_DST = 37 ns (3 HCLKs a 12.5 ns) */

                           .bus_turnaround = 2, },  /* t_WRH = 25 ns (2 HCLKs a 12.5 ns) */

        },

    },

};


#define FMC_BANK_NUMOF  ARRAY_SIZE(fmc_bank_config)


static const lcd_fmc_desc_t lcd_fmc_desc[] = {

    {

        .bank = FMC_BANK_CONFIG(1), /* second bank (fmc_bank_config[1]) is used */

        .cmd_offset = 0x0,          /* address 0x60000000 (offset 0x00000) used for commands */

        .data_offset = 0x80000,     /* address 0x60080000 (offset 0x80000) used for data */

    }

};


#define LCD_FMC_NUMOF  1


static const i2c_conf_t i2c_config[] = {

    {   /* Shared between Arduino D14/D15 and STMod+ connector */

        .dev            = I2C1,

        .speed          = I2C_SPEED_NORMAL,

        .scl_pin        = GPIO_PIN(PORT_B, 8),

        .sda_pin        = GPIO_PIN(PORT_B, 7),

        .scl_af         = GPIO_AF4,

        .sda_af         = GPIO_AF4,

        .bus            = APB1,

        .rcc_mask       = RCC_APB1ENR1_I2C1EN,

        .rcc_sw_mask    = RCC_CCIPR_I2C1SEL_1,          /* HSI (16 MHz) */

        .irqn           = I2C1_ER_IRQn,

    },

    {   /* Multi Function eXpander (MFX_x) I2C Address 0x42,

         * Stereo Codec Cirrus Logic CS42L51-CNZ (CODEC_x), I2C Address 0x4a (AD0 = 0)

         * Capacitive Touch Panel (CTP_x) FT6206, I2C Address 0x38

         * Digital Camera Module (DCMI_x),

         */

        .dev            = I2C2,

        .speed          = I2C_SPEED_NORMAL,

        .scl_pin        = GPIO_PIN(PORT_H, 4),

        .sda_pin        = GPIO_PIN(PORT_B, 14),

        .scl_af         = GPIO_AF4,

        .sda_af         = GPIO_AF4,

        .bus            = APB1,

        .rcc_mask       = RCC_APB1ENR1_I2C2EN,

        .rcc_sw_mask    = RCC_CCIPR_I2C2SEL_1,          /* HSI (16 MHz) */

        .irqn           = I2C2_ER_IRQn,

    },

};


#define I2C_0_ISR           isr_i2c1_er

#define I2C_1_ISR           isr_i2c2_er


#define I2C_NUMOF           ARRAY_SIZE(i2c_config)

static const pwm_conf_t pwm_config[] = {

    {

        .dev      = TIM8,

        .rcc_mask = RCC_APB2ENR_TIM8EN,

        .chan     = { { .pin = GPIO_PIN(PORT_H, 15), .cc_chan = 6}, /* D3, TIM8_CH3N  */

                      { .pin = GPIO_PIN(PORT_I,  6), .cc_chan = 1}, /* D6, TIM8_CH2  */

                      { .pin = GPIO_PIN(PORT_H, 13), .cc_chan = 4}, /* D9, TIM8_CH1N */

                      { .pin = GPIO_UNDEF,           .cc_chan = 0} },

        .af       = GPIO_AF3,

        .bus      = APB2

    },

    {

        .dev      = TIM4,

        .rcc_mask = RCC_APB1ENR1_TIM4EN,

        .chan     = { { .pin = GPIO_PIN(PORT_B,  9), .cc_chan = 3}, /* D5, TIM4_CH4 */

                      { .pin = GPIO_UNDEF,           .cc_chan = 0},

                      { .pin = GPIO_UNDEF,           .cc_chan = 0},

                      { .pin = GPIO_UNDEF,           .cc_chan = 0} },

        .af       = GPIO_AF2,

        .bus      = APB1

    },

    {

        .dev      = TIM5,

        .rcc_mask = RCC_APB1ENR1_TIM5EN,

        .chan     = { { .pin = GPIO_PIN(PORT_A,  0), .cc_chan = 0}, /* STMOD+_PWM, TIM5_CH1 */

                      { .pin = GPIO_UNDEF,           .cc_chan = 0},

                      { .pin = GPIO_UNDEF,           .cc_chan = 0},

                      { .pin = GPIO_UNDEF,           .cc_chan = 0} },

        .af       = GPIO_AF2,

        .bus      = APB1

    },

};


#define PWM_NUMOF           ARRAY_SIZE(pwm_config)


static const sdmmc_conf_t sdmmc_config[] = {

    {

        .dev = SDMMC1,

        .bus = APB2,

        .rcc_mask = RCC_APB2ENR_SDMMC1EN,

        .cd = GPIO_UNDEF,           /* CD is connected to MFX GPIO8 */

        .clk = { GPIO_PIN(PORT_C, 12), GPIO_AF12 },

        .cmd = { GPIO_PIN(PORT_D,  2), GPIO_AF12 },

        .dat0 = { GPIO_PIN(PORT_C,  8), GPIO_AF12 },

        .dat1 = { GPIO_PIN(PORT_C,  9), GPIO_AF12 },

        .dat2 = { GPIO_PIN(PORT_C, 10), GPIO_AF12 },

        .dat3 = { GPIO_PIN(PORT_C, 11), GPIO_AF12 },

#if MODULE_PERIPH_DMA

        .dma = 6,

        .dma_chan = 7,

#endif

        .irqn = SDMMC1_IRQn

    },

};


#define SDMMC_CONFIG_NUMOF  1


static const spi_conf_t spi_config[] = {

    { /* Arduino connector */

        .dev      = SPI1,

        .mosi_pin = GPIO_PIN(PORT_B, 5),

        .miso_pin = GPIO_PIN(PORT_B, 4),

        .sclk_pin = GPIO_PIN(PORT_A, 5),

        .cs_pin   = GPIO_PIN(PORT_A, 15),

        .mosi_af  = GPIO_AF5,

        .miso_af  = GPIO_AF5,

        .sclk_af  = GPIO_AF5,

        .cs_af    = GPIO_AF5,

        .rccmask  = RCC_APB2ENR_SPI1EN,

        .apbbus   = APB2,

#if MODULE_PERIPH_DMA

        .rx_dma   = 0,                        /* DMA1 Channel 2 */

        .rx_dma_chan = 1,                     /* CxS = 1 */

        .tx_dma   = 1,                        /* DMA1 Channel 3 */

        .tx_dma_chan = 1,                     /* CxS = 1 */

#endif

    },

#if MODULE_PERIPH_SPI_STMOD

    {   /* Pmod/STMod+ connector if solder bridges SB4, SB5, SB9 are closed */

        .dev      = SPI2,

        .mosi_pin = GPIO_PIN(PORT_B, 15),

        .miso_pin = GPIO_PIN(PORT_I, 2),

        .sclk_pin = GPIO_PIN(PORT_I, 1),

        .cs_pin   = GPIO_PIN(PORT_G, 1),

        .mosi_af  = GPIO_AF5,

        .miso_af  = GPIO_AF5,

        .sclk_af  = GPIO_AF5,

        .cs_af    = GPIO_AF5,

        .rccmask  = RCC_APB1ENR1_SPI2EN,

        .apbbus   = APB1,

#if MODULE_PERIPH_DMA

        .rx_dma   = 2,                        /* DMA1 Channel 4 */

        .rx_dma_chan = 1,                     /* CxS = 1 */

        .tx_dma   = 3,                        /* DMA1 Channel 5 */

        .tx_dma_chan = 1,                     /* CxS = 1 */

#endif

    },

#endif

};


#define SPI_NUMOF           ARRAY_SIZE(spi_config)

static const timer_conf_t timer_config[] = {

    {

        .dev      = TIM2,

        .max      = 0xffffffff,

        .rcc_mask = RCC_APB1ENR1_TIM2EN,

        .bus      = APB1,

        .irqn     = TIM2_IRQn

    },

    {

        .dev      = TIM3,

        .max      = 0xffffffff,

        .rcc_mask = RCC_APB1ENR1_TIM3EN,

        .bus      = APB1,

        .irqn     = TIM3_IRQn

    },

};


#define TIMER_0_ISR         isr_tim2

#define TIMER_1_ISR         isr_tim3


#define TIMER_NUMOF         ARRAY_SIZE(timer_config)

static const uart_conf_t uart_config[] = {

    {   /* Virtual COM Port / ST-Link */

        .dev        = USART2,

        .rcc_mask   = RCC_APB1ENR1_USART2EN,

        .rx_pin     = GPIO_PIN(PORT_D, 6),

        .tx_pin     = GPIO_PIN(PORT_A, 2),

        .rx_af      = GPIO_AF7,

        .tx_af      = GPIO_AF7,

        .bus        = APB1,

        .irqn       = USART2_IRQn,

#if MODULE_PERIPH_UART_HW_FC

        .cts_pin    = GPIO_UNDEF,               /* CTS is not connected */

        .rts_pin    = GPIO_UNDEF,               /* RTS is not connected */

#endif

        .type       = STM32_USART,

        .clk_src    = 0,                        /* Use APB clock */

#if MODULE_PERIPH_DMA

        .dma        = 4,                        /* DMA1 Channel 7 */

        .dma_chan   = 2,                        /* CxS = 2 */

#endif

    },

    {   /* Arduino connector RX/TX (D0/D1) */

        .dev        = LPUART1,

        .rcc_mask   = RCC_APB1ENR2_LPUART1EN,

        .rx_pin     = GPIO_PIN(PORT_G, 8),

        .tx_pin     = GPIO_PIN(PORT_G, 7),

        .rx_af      = GPIO_AF8,

        .tx_af      = GPIO_AF8,

        .bus        = APB12,

        .irqn       = LPUART1_IRQn,

#if MODULE_PERIPH_UART_HW_FC

        .cts_pin    = GPIO_UNDEF,               /* CTS is not connected */

        .rts_pin    = GPIO_UNDEF,               /* RTS is not connected */

#endif

        .type       = STM32_LPUART,

        .clk_src    = 0,                        /* Use APB clock */

#if MODULE_PERIPH_DMA

        .dma        = 5,                        /* DMA2 Channel 6 */

        .dma_chan   = 4,                        /* CxS = 4 */

#endif

    },


#if !MODULE_PERIPH_SPI_STMOD

    {   /* Pmod/STMod+ connector if solder bridges SB6, SB7, SB8 are closed (default) */

        .dev        = USART1,

        .rcc_mask   = RCC_APB2ENR_USART1EN,

        .rx_pin     = GPIO_PIN(PORT_G, 10),

        .tx_pin     = GPIO_PIN(PORT_B, 6),

        .rx_af      = GPIO_AF7,

        .tx_af      = GPIO_AF7,

        .bus        = APB2,

        .irqn       = USART1_IRQn,

#if MODULE_PERIPH_UART_HW_FC

        .cts_pin    = GPIO_PIN(PORT_G, 11),

        .rts_pin    = GPIO_PIN(PORT_G, 12),

        .cts_af     = GPIO_AF7,

        .rts_af     = GPIO_AF7,

#endif

        .type       = STM32_USART,

        .clk_src    = 0,                        /* Use APB clock */

#if MODULE_PERIPH_DMA

        .dma        = 2,                        /* DMA1 Channel 4 */

        .dma_chan   = 2,                        /* CxS = 2 */

#endif

    },

#endif /* !MODULE_PERIPH_SPI_STMOD */

};


#define UART_0_ISR          (isr_usart2)

#define UART_1_ISR          (isr_lpuart1)

#define UART_2_ISR          (isr_usart1)


#define UART_NUMOF          ARRAY_SIZE(uart_config)

#ifdef __cplusplus

}

#endif


#endif /* PERIPH_CONF_H */

PORT_B
@ PORT_B
port B
Definition periph_cpu.h:48

PORT_G
@ PORT_G
port G
Definition periph_cpu.h:53

PORT_C
@ PORT_C
port C
Definition periph_cpu.h:49

PORT_F
@ PORT_F
port F
Definition periph_cpu.h:52

PORT_E
@ PORT_E
port E
Definition periph_cpu.h:51

PORT_A
@ PORT_A
port A
Definition periph_cpu.h:47

PORT_D
@ PORT_D
port D
Definition periph_cpu.h:50

GPIO_PIN
#define GPIO_PIN(x, y)
Define a CPU specific GPIO pin generator macro.
Definition periph_cpu.h:46

PORT_H
@ PORT_H
port H
Definition periph_cpu.h:52

GPIO_UNDEF
#define GPIO_UNDEF
Definition of a fitting UNDEF value.
Definition periph_cpu_common.h:54

I2C_SPEED_NORMAL
@ I2C_SPEED_NORMAL
normal mode: ~100 kbit/s
Definition periph_cpu.h:278

sdmmc_config
static const sdmmc_conf_t sdmmc_config[]
SDMMC devices.
Definition periph_conf.h:150

fmc_bank_config
static const fmc_bank_conf_t fmc_bank_config[]
FMC Bank configuration.
Definition periph_conf.h:200

fmc_config
static const fmc_conf_t fmc_config
FMC controller configuration.
Definition periph_conf.h:142

lcd_fmc_desc
static const lcd_fmc_desc_t lcd_fmc_desc[]
Descriptors of FMC banks used for LCDs.
Definition periph_conf.h:363

cfg_usb_otg_fs.h
Common configuration for STM32 OTG FS peripheral.

GPIO_AF2
@ GPIO_AF2
use alternate function 2
Definition cpu_gpio.h:104

GPIO_AF5
@ GPIO_AF5
use alternate function 5
Definition cpu_gpio.h:107

GPIO_AF4
@ GPIO_AF4
use alternate function 4
Definition cpu_gpio.h:106

GPIO_AF8
@ GPIO_AF8
use alternate function 8
Definition cpu_gpio.h:111

GPIO_AF3
@ GPIO_AF3
use alternate function 3
Definition cpu_gpio.h:105

GPIO_AF12
@ GPIO_AF12
use alternate function 12
Definition cpu_gpio.h:115

GPIO_AF7
@ GPIO_AF7
use alternate function 7
Definition cpu_gpio.h:109

STM32_LPUART
@ STM32_LPUART
STM32 Low-power UART (LPUART) module type.
Definition cpu_uart.h:39

STM32_USART
@ STM32_USART
STM32 USART module type.
Definition cpu_uart.h:38

APB1
@ APB1
Advanced Peripheral Bus 1
Definition periph_cpu.h:79

APB2
@ APB2
Advanced Peripheral Bus 2
Definition periph_cpu.h:80

FMC_BANK_CONFIG
#define FMC_BANK_CONFIG(n)
Gives the configuration of n-th bank.
Definition cpu_fmc.h:75

FMC_SRAM
@ FMC_SRAM
SRAM.
Definition cpu_fmc.h:341

FMC_BUS_WIDTH_16BIT
@ FMC_BUS_WIDTH_16BIT
16 bit data bus width
Definition cpu_fmc.h:353

FMC_BANK_1
@ FMC_BANK_1
Bank 1 is always available and used for NOR, PSRAM, SRAM.
Definition cpu_fmc.h:321

adc_conf_t
ADC device configuration.
Definition periph_cpu.h:379

adc_conf_t::pin
gpio_t pin
pin connected to the channel
Definition periph_cpu.h:288

dac_conf_t
DAC line configuration data.
Definition periph_cpu.h:301

dac_conf_t::chan
uint8_t chan
DAC device used for this line.
Definition periph_cpu.h:303

dma_conf_t
DMA configuration.
Definition cpu_dma.h:32

dma_conf_t::stream
int stream
DMA stream on stm32f2/4/7, channel on others STM32F2/4/7:
Definition cpu_dma.h:55

fmc_bank_conf_t
Bank configuration structure.
Definition cpu_fmc.h:360

fmc_bank_conf_t::bank
fmc_bank_t bank
Bank1 .
Definition cpu_fmc.h:361

fmc_conf_t
FMC peripheral configuration.
Definition cpu_fmc.h:278

fmc_conf_t::bus
uint8_t bus
AHB/APB bus.
Definition cpu_fmc.h:279

i2c_conf_t
I2C configuration structure.
Definition periph_cpu.h:299

i2c_conf_t::dev
TWI_t * dev
Pointer to hardware module registers.
Definition periph_cpu.h:300

lcd_fmc_desc_t
Descriptor of the FMC bank used for a LCD.
Definition lcd_fmc.h:49

lcd_fmc_desc_t::bank
const fmc_bank_conf_t * bank
FMC bank config used for the LCD.
Definition lcd_fmc.h:50

pwm_conf_t
PWM device configuration.
Definition periph_cpu_common.h:323

pwm_conf_t::dev
mini_timer_t * dev
Timer used.
Definition periph_cpu_common.h:324

sdmmc_conf_t
SDMMC slot configuration.
Definition periph_cpu.h:704

sdmmc_conf_t::cd
gpio_t cd
Card Detect pin (must be GPIO_UNDEF if not connected)
Definition periph_cpu.h:706

spi_conf_t
SPI device configuration.
Definition periph_cpu.h:337

spi_conf_t::dev
SPI_t * dev
pointer to the used SPI device
Definition periph_cpu.h:338

timer_conf_t
Timer device configuration.
Definition periph_cpu.h:264

timer_conf_t::dev
TC0_t * dev
Pointer to the used as Timer device.
Definition periph_cpu.h:265

uart_conf_t
UART device configuration.
Definition periph_cpu.h:218

uart_conf_t::dev
USART_t * dev
pointer to the used UART device
Definition periph_cpu.h:219

MiB
#define MiB(x)
A macro to return the bytes in x MiB.
Definition units.h:34