meshtastic-firmware/variants/rak4631_epaper_onrxtx/variant.h

211 wiersze
5.6 KiB
C

#ifndef _VARIANT_RAK4630_
#define _VARIANT_RAK4630_
#define RAK4630
/** Master clock frequency */
#define VARIANT_MCK (64000000ul)
#define USE_LFXO // Board uses 32khz crystal for LF
// define USE_LFRC // Board uses RC for LF
/*----------------------------------------------------------------------------
* Headers
*----------------------------------------------------------------------------*/
#include "WVariant.h"
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
// Number of pins defined in PinDescription array
#define PINS_COUNT (48)
#define NUM_DIGITAL_PINS (48)
#define NUM_ANALOG_INPUTS (6)
#define NUM_ANALOG_OUTPUTS (0)
// LEDs
#define PIN_LED1 (35)
#define PIN_LED2 (36)
#define LED_BUILTIN PIN_LED1
#define LED_CONN PIN_LED2
#define LED_GREEN PIN_LED1
#define LED_BLUE PIN_LED2
#define LED_STATE_ON 1 // State when LED is litted
/*
* Buttons
*/
#define PIN_BUTTON1 9 // Pin for button on E-ink button module or IO expansion
#define BUTTON_NEED_PULLUP
//#define PIN_BUTTON2 12
/*
* Analog pins
*/
#define PIN_A0 (-1) //(5)
#define PIN_A1 (31)
#define PIN_A2 (28)
#define PIN_A3 (29)
#define PIN_A4 (30)
#define PIN_A5 (31)
#define PIN_A6 (0xff)
#define PIN_A7 (0xff)
static const uint8_t A0 = PIN_A0;
static const uint8_t A1 = PIN_A1;
static const uint8_t A2 = PIN_A2;
static const uint8_t A3 = PIN_A3;
static const uint8_t A4 = PIN_A4;
static const uint8_t A5 = PIN_A5;
static const uint8_t A6 = PIN_A6;
static const uint8_t A7 = PIN_A7;
#define ADC_RESOLUTION 14
// Other pins
#define PIN_AREF (2)
//#define PIN_NFC1 (9)
//#define PIN_NFC2 (10)
static const uint8_t AREF = PIN_AREF;
/*
* Serial interfaces
*/
#define PIN_SERIAL1_RX (-1)
#define PIN_SERIAL1_TX (-1)
// Connected to Jlink CDC
#define PIN_SERIAL2_RX (-1)
#define PIN_SERIAL2_TX (-1)
/*
* SPI Interfaces
*/
#define SPI_INTERFACES_COUNT 2
#define PIN_SPI_MISO (45)
#define PIN_SPI_MOSI (44)
#define PIN_SPI_SCK (43)
#define PIN_SPI1_MISO (-1)
#define PIN_SPI1_MOSI (0 + 13)
#define PIN_SPI1_SCK (0 + 14)
static const uint8_t SS = 42;
static const uint8_t MOSI = PIN_SPI_MOSI;
static const uint8_t MISO = PIN_SPI_MISO;
static const uint8_t SCK = PIN_SPI_SCK;
/*
* eink display pins
*/
#define USE_EINK
#define PIN_EINK_CS (0 + 16) // TX1
#define PIN_EINK_BUSY (0 + 15) // RX1
#define PIN_EINK_DC (0 + 17) // IO1
//#define PIN_EINK_RES (-1) //first try without RESET then connect it to AIN (AIN0 5 )
#define PIN_EINK_RES (0 + 5) // 2.13 BN Display needs RESET
#define PIN_EINK_SCLK (0 + 14) // SCL
#define PIN_EINK_MOSI (0 + 13) // SDA
// Controls power for the eink display - Board power is enabled either by VBUS from USB or the CPU asserting PWR_ON
// FIXME - I think this is actually just the board power enable - it enables power to the CPU also
// #define PIN_EINK_PWR_ON (-1)
/*
* Wire Interfaces
*/
#define WIRE_INTERFACES_COUNT 1
#define PIN_WIRE_SDA (13)
#define PIN_WIRE_SCL (14)
/* @note RAK5005-O GPIO mapping to RAK4631 GPIO ports
RAK5005-O <-> nRF52840
IO1 <-> P0.17 (Arduino GPIO number 17)
IO2 <-> P1.02 (Arduino GPIO number 34)
IO3 <-> P0.21 (Arduino GPIO number 21)
IO4 <-> P0.04 (Arduino GPIO number 4)
IO5 <-> P0.09 (Arduino GPIO number 9)
IO6 <-> P0.10 (Arduino GPIO number 10)
IO7 <-> P0.28 (Arduino GPIO number 28)
SW1 <-> P0.01 (Arduino GPIO number 1)
A0 <-> P0.04/AIN2 (Arduino Analog A2
A1 <-> P0.31/AIN7 (Arduino Analog A7
SPI_CS <-> P0.26 (Arduino GPIO number 26)
*/
// RAK4630 LoRa module
#define USE_SX1262
#define SX126X_CS (42)
#define SX126X_DIO1 (47)
#define SX126X_BUSY (46)
#define SX126X_RESET (38)
// #define SX126X_TXEN (39)
// #define SX126X_RXEN (37)
#define SX126X_POWER_EN (37)
#define SX126X_E22 // DIO2 controlls an antenna switch and the TCXO voltage is controlled by DIO3
// enables 3.3V periphery like GPS or IO Module
#define PIN_3V3_EN (34)
// NO GPS
#undef GPS_RX_PIN
#undef GPS_TX_PIN
// RAK1910 GPS module
// If using the wisblock GPS module and pluged into Port A on WisBlock base
// IO1 is hooked to PPS (pin 12 on header) = gpio 17
// IO2 is hooked to GPS RESET = gpio 34, but it can not be used to this because IO2 is ALSO used to control 3V3_S power (1 is on).
// Therefore must be 1 to keep peripherals powered
// Power is on the controllable 3V3_S rail
// #define PIN_GPS_RESET (34)
//#define PIN_GPS_EN PIN_3V3_EN
//#define PIN_GPS_PPS (17) // Pulse per second input from the GPS
//#define GPS_RX_PIN PIN_SERIAL1_RX
//#define GPS_TX_PIN PIN_SERIAL1_TX
// RAK12002 RTC Module
#define RV3028_RTC (uint8_t)0b1010010
// Battery
// The battery sense is hooked to pin A0 (5)
//#define BATTERY_PIN PIN_A0
// and has 12 bit resolution
//#define BATTERY_SENSE_RESOLUTION_BITS 12
//#define BATTERY_SENSE_RESOLUTION 4096.0
// Definition of milliVolt per LSB => 3.0V ADC range and 12-bit ADC resolution = 3000mV/4096
//#define VBAT_MV_PER_LSB (0.73242188F)
// Voltage divider value => 1.5M + 1M voltage divider on VBAT = (1.5M / (1M + 1.5M))
//#define VBAT_DIVIDER (0.4F)
// Compensation factor for the VBAT divider
//#define VBAT_DIVIDER_COMP (1.73)
// Fixed calculation of milliVolt from compensation value
//#define REAL_VBAT_MV_PER_LSB (VBAT_DIVIDER_COMP * VBAT_MV_PER_LSB)
//#undef AREF_VOLTAGE
//#define AREF_VOLTAGE 3.0
//#define VBAT_AR_INTERNAL AR_INTERNAL_3_0
//#define ADC_MULTIPLIER VBAT_DIVIDER_COMP // REAL_VBAT_MV_PER_LSB
//#define VBAT_RAW_TO_SCALED(x) (REAL_VBAT_MV_PER_LSB * x)
//#define HAS_RTC 1
#ifdef __cplusplus
}
#endif
/*----------------------------------------------------------------------------
* Arduino objects - C++ only
*----------------------------------------------------------------------------*/
#endif