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SPI TFT for STM32F4 boards (#20384)

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* fix pinsDebug for F1 boards

* add MKS Robin PRO V2 board - development board

* tft spi working with F4 boards

* pins formating

* sanity check for TFT on supported cores in STM32

* Fix tabs/spaces in pins file

Co-authored-by: Jason Smith <jason.inet@gmail.com>
2.0.x
Victor Oliveira 4 years ago committed by GitHub
parent af20db4512
commit 9ead6a30f2
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
7 changed files with 540 additions and 119 deletions
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4
Marlin/src/HAL/STM32/inc/SanityCheck.h
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@ -51,3 +51,7 @@
#elif ENABLED(SERIAL_STATS_DROPPED_RX)
#error "SERIAL_STATS_DROPPED_RX is not supported on this platform."
#endif
#if ANY(TFT_COLOR_UI, TFT_LVGL_UI, TFT_CLASSIC_UI) && NOT_TARGET(STM32F4xx, STM32F1xx)
#error "TFT_COLOR_UI, TFT_LVGL_UI and TFT_CLASSIC_U are currently only supported on STM32F4 and STM32F1 hardware."
#endif

143
Marlin/src/HAL/STM32/pinsDebug.h
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@ -137,32 +137,19 @@ const XrefInfo pin_xref[] PROGMEM = {
#endif
uint8_t get_pin_mode(const pin_t Ard_num) {
uint32_t mode_all = 0;
const PinName dp = digitalPinToPinName(Ard_num);
switch (PORT_ALPHA(dp)) {
case 'A' : mode_all = GPIOA->MODER; break;
case 'B' : mode_all = GPIOB->MODER; break;
case 'C' : mode_all = GPIOC->MODER; break;
case 'D' : mode_all = GPIOD->MODER; break;
#ifdef PE_0
case 'E' : mode_all = GPIOE->MODER; break;
#elif defined(PF_0)
case 'F' : mode_all = GPIOF->MODER; break;
#elif defined(PG_0)
case 'G' : mode_all = GPIOG->MODER; break;
#elif defined(PH_0)
case 'H' : mode_all = GPIOH->MODER; break;
#elif defined(PI_0)
case 'I' : mode_all = GPIOI->MODER; break;
#elif defined(PJ_0)
case 'J' : mode_all = GPIOJ->MODER; break;
#elif defined(PK_0)
case 'K' : mode_all = GPIOK->MODER; break;
#elif defined(PL_0)
case 'L' : mode_all = GPIOL->MODER; break;
#endif
uint32_t ll_pin = STM_LL_GPIO_PIN(dp);
GPIO_TypeDef *port = get_GPIO_Port(STM_PORT(dp));
uint32_t mode = LL_GPIO_GetPinMode(port, ll_pin);
switch (mode)
{
case LL_GPIO_MODE_ANALOG: return MODE_PIN_ANALOG;
case LL_GPIO_MODE_INPUT: return MODE_PIN_INPUT;
case LL_GPIO_MODE_OUTPUT: return MODE_PIN_OUTPUT;
case LL_GPIO_MODE_ALTERNATE: return MODE_PIN_ALT;
TERN_(STM32F1xx, case LL_GPIO_MODE_FLOATING:)
default: return 0;
}
return (mode_all >> (2 * uint8_t(PIN_NUM(dp)))) & 0x03;
}
bool GET_PINMODE(const pin_t Ard_num) {
@ -217,58 +204,62 @@ bool pwm_status(const pin_t Ard_num) {
}
void pwm_details(const pin_t Ard_num) {
if (pwm_status(Ard_num)) {
uint32_t alt_all = 0;
const PinName dp = digitalPinToPinName(Ard_num);
pin_t pin_number = uint8_t(PIN_NUM(dp));
const bool over_7 = pin_number >= 8;
const uint8_t ind = over_7 ? 1 : 0;
switch (PORT_ALPHA(dp)) { // get alt function
case 'A' : alt_all = GPIOA->AFR[ind]; break;
case 'B' : alt_all = GPIOB->AFR[ind]; break;
case 'C' : alt_all = GPIOC->AFR[ind]; break;
case 'D' : alt_all = GPIOD->AFR[ind]; break;
#ifdef PE_0
case 'E' : alt_all = GPIOE->AFR[ind]; break;
#elif defined (PF_0)
case 'F' : alt_all = GPIOF->AFR[ind]; break;
#elif defined (PG_0)
case 'G' : alt_all = GPIOG->AFR[ind]; break;
#elif defined (PH_0)
case 'H' : alt_all = GPIOH->AFR[ind]; break;
#elif defined (PI_0)
case 'I' : alt_all = GPIOI->AFR[ind]; break;
#elif defined (PJ_0)
case 'J' : alt_all = GPIOJ->AFR[ind]; break;
#elif defined (PK_0)
case 'K' : alt_all = GPIOK->AFR[ind]; break;
#elif defined (PL_0)
case 'L' : alt_all = GPIOL->AFR[ind]; break;
#endif
}
if (over_7) pin_number -= 8;
#ifndef STM32F1xx
if (pwm_status(Ard_num)) {
uint32_t alt_all = 0;
const PinName dp = digitalPinToPinName(Ard_num);
pin_t pin_number = uint8_t(PIN_NUM(dp));
const bool over_7 = pin_number >= 8;
const uint8_t ind = over_7 ? 1 : 0;
switch (PORT_ALPHA(dp)) { // get alt function
case 'A' : alt_all = GPIOA->AFR[ind]; break;
case 'B' : alt_all = GPIOB->AFR[ind]; break;
case 'C' : alt_all = GPIOC->AFR[ind]; break;
case 'D' : alt_all = GPIOD->AFR[ind]; break;
#ifdef PE_0
case 'E' : alt_all = GPIOE->AFR[ind]; break;
#elif defined (PF_0)
case 'F' : alt_all = GPIOF->AFR[ind]; break;
#elif defined (PG_0)
case 'G' : alt_all = GPIOG->AFR[ind]; break;
#elif defined (PH_0)
case 'H' : alt_all = GPIOH->AFR[ind]; break;
#elif defined (PI_0)
case 'I' : alt_all = GPIOI->AFR[ind]; break;
#elif defined (PJ_0)
case 'J' : alt_all = GPIOJ->AFR[ind]; break;
#elif defined (PK_0)
case 'K' : alt_all = GPIOK->AFR[ind]; break;
#elif defined (PL_0)
case 'L' : alt_all = GPIOL->AFR[ind]; break;
#endif
}
if (over_7) pin_number -= 8;
uint8_t alt_func = (alt_all >> (4 * pin_number)) & 0x0F;
SERIAL_ECHOPAIR("Alt Function: ", alt_func);
if (alt_func < 10) SERIAL_CHAR(' ');
SERIAL_ECHOPGM(" - ");
switch (alt_func) {
case 0 : SERIAL_ECHOPGM("system (misc. I/O)"); break;
case 1 : SERIAL_ECHOPGM("TIM1/TIM2 (probably PWM)"); break;
case 2 : SERIAL_ECHOPGM("TIM3..5 (probably PWM)"); break;
case 3 : SERIAL_ECHOPGM("TIM8..11 (probably PWM)"); break;
case 4 : SERIAL_ECHOPGM("I2C1..3"); break;
case 5 : SERIAL_ECHOPGM("SPI1/SPI2"); break;
case 6 : SERIAL_ECHOPGM("SPI3"); break;
case 7 : SERIAL_ECHOPGM("USART1..3"); break;
case 8 : SERIAL_ECHOPGM("USART4..6"); break;
case 9 : SERIAL_ECHOPGM("CAN1/CAN2, TIM12..14 (probably PWM)"); break;
case 10 : SERIAL_ECHOPGM("OTG"); break;
case 11 : SERIAL_ECHOPGM("ETH"); break;
case 12 : SERIAL_ECHOPGM("FSMC, SDIO, OTG"); break;
case 13 : SERIAL_ECHOPGM("DCMI"); break;
case 14 : SERIAL_ECHOPGM("unused (shouldn't see this)"); break;
case 15 : SERIAL_ECHOPGM("EVENTOUT"); break;
uint8_t alt_func = (alt_all >> (4 * pin_number)) & 0x0F;
SERIAL_ECHOPAIR("Alt Function: ", alt_func);
if (alt_func < 10) SERIAL_CHAR(' ');
SERIAL_ECHOPGM(" - ");
switch (alt_func) {
case 0 : SERIAL_ECHOPGM("system (misc. I/O)"); break;
case 1 : SERIAL_ECHOPGM("TIM1/TIM2 (probably PWM)"); break;
case 2 : SERIAL_ECHOPGM("TIM3..5 (probably PWM)"); break;
case 3 : SERIAL_ECHOPGM("TIM8..11 (probably PWM)"); break;
case 4 : SERIAL_ECHOPGM("I2C1..3"); break;
case 5 : SERIAL_ECHOPGM("SPI1/SPI2"); break;
case 6 : SERIAL_ECHOPGM("SPI3"); break;
case 7 : SERIAL_ECHOPGM("USART1..3"); break;
case 8 : SERIAL_ECHOPGM("USART4..6"); break;
case 9 : SERIAL_ECHOPGM("CAN1/CAN2, TIM12..14 (probably PWM)"); break;
case 10 : SERIAL_ECHOPGM("OTG"); break;
case 11 : SERIAL_ECHOPGM("ETH"); break;
case 12 : SERIAL_ECHOPGM("FSMC, SDIO, OTG"); break;
case 13 : SERIAL_ECHOPGM("DCMI"); break;
case 14 : SERIAL_ECHOPGM("unused (shouldn't see this)"); break;
case 15 : SERIAL_ECHOPGM("EVENTOUT"); break;
}
}
}
#else
// TODO: F1 doesn't support changing pins function, so we need to check the function of the PIN and if it's enabled
#endif
} // pwm_details

108
Marlin/src/HAL/STM32/tft/tft_spi.cpp
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@ -34,35 +34,25 @@ DMA_HandleTypeDef TFT_SPI::DMAtx;
void TFT_SPI::Init() {
SPI_TypeDef *spiInstance;
#if PIN_EXISTS(TFT_RESET)
OUT_WRITE(TFT_RESET_PIN, HIGH);
HAL_Delay(100);
#endif
#if PIN_EXISTS(TFT_BACKLIGHT)
OUT_WRITE(TFT_BACKLIGHT_PIN, HIGH);
#endif
OUT_WRITE(TFT_A0_PIN, HIGH);
OUT_WRITE(TFT_CS_PIN, HIGH);
if ((spiInstance = (SPI_TypeDef *)pinmap_peripheral(digitalPinToPinName(TFT_SCK_PIN), PinMap_SPI_SCLK)) == NP) return;
if (spiInstance != (SPI_TypeDef *)pinmap_peripheral(digitalPinToPinName(TFT_MOSI_PIN), PinMap_SPI_MOSI)) return;
#if PIN_EXISTS(TFT_MISO) && (TFT_MISO_PIN != TFT_MOSI_PIN)
if (spiInstance != (SPI_TypeDef *)pinmap_peripheral(digitalPinToPinName(TFT_MISO_PIN), PinMap_SPI_MISO)) return;
#if PIN_EXISTS(TFT_MISO)
if (TFT_MISO_PIN != TFT_MOSI_PIN)
if (spiInstance != (SPI_TypeDef *)pinmap_peripheral(digitalPinToPinName(TFT_MISO_PIN), PinMap_SPI_MISO)) return;
#endif
SPIx.Instance = spiInstance;
SPIx.State = HAL_SPI_STATE_RESET;
SPIx.Init.NSS = SPI_NSS_SOFT;
SPIx.Init.Mode = SPI_MODE_MASTER;
SPIx.Init.Direction =
#if TFT_MISO_PIN == TFT_MOSI_PIN
SPI_DIRECTION_1LINE;
#else
SPI_DIRECTION_2LINES;
#endif
if (TFT_MISO_PIN == TFT_MOSI_PIN)
SPIx.Init.Direction = SPI_DIRECTION_1LINE;
else
SPIx.Init.Direction = SPI_DIRECTION_2LINES;
SPIx.Init.BaudRatePrescaler = SPI_BAUDRATEPRESCALER_2;
SPIx.Init.CLKPhase = SPI_PHASE_1EDGE;
SPIx.Init.CLKPolarity = SPI_POLARITY_LOW;
@ -74,31 +64,50 @@ void TFT_SPI::Init() {
pinmap_pinout(digitalPinToPinName(TFT_SCK_PIN), PinMap_SPI_SCLK);
pinmap_pinout(digitalPinToPinName(TFT_MOSI_PIN), PinMap_SPI_MOSI);
#if PIN_EXISTS(TFT_MISO) && (TFT_MISO_PIN != TFT_MOSI_PIN)
pinmap_pinout(digitalPinToPinName(TFT_MISO_PIN), PinMap_SPI_MISO);
#if PIN_EXISTS(TFT_MISO)
if (TFT_MISO_PIN != TFT_MOSI_PIN)
pinmap_pinout(digitalPinToPinName(TFT_MISO_PIN), PinMap_SPI_MISO);
#endif
pin_PullConfig(get_GPIO_Port(STM_PORT(digitalPinToPinName(TFT_SCK_PIN))), STM_LL_GPIO_PIN(digitalPinToPinName(TFT_SCK_PIN)), GPIO_PULLDOWN);
#ifdef SPI1_BASE
if (SPIx.Instance == SPI1) {
__HAL_RCC_SPI1_CLK_ENABLE();
__HAL_RCC_DMA1_CLK_ENABLE();
#ifdef STM32F1xx
__HAL_RCC_DMA1_CLK_ENABLE();
DMAtx.Instance = DMA1_Channel3;
#elif defined(STM32F4xx)
__HAL_RCC_DMA2_CLK_ENABLE();
DMAtx.Instance = DMA2_Stream3;
DMAtx.Init.Channel = DMA_CHANNEL_3;
#endif
SPIx.Init.BaudRatePrescaler = SPI_BAUDRATEPRESCALER_4;
DMAtx.Instance = DMA1_Channel3;
}
#endif
#ifdef SPI2_BASE
if (SPIx.Instance == SPI2) {
__HAL_RCC_SPI2_CLK_ENABLE();
__HAL_RCC_DMA1_CLK_ENABLE();
DMAtx.Instance = DMA1_Channel5;
#ifdef STM32F1xx
__HAL_RCC_DMA1_CLK_ENABLE();
DMAtx.Instance = DMA1_Channel5;
#elif defined(STM32F4xx)
__HAL_RCC_DMA1_CLK_ENABLE();
DMAtx.Instance = DMA1_Stream4;
DMAtx.Init.Channel = DMA_CHANNEL_4;
#endif
}
#endif
#ifdef SPI3_BASE
if (SPIx.Instance == SPI3) {
__HAL_RCC_SPI3_CLK_ENABLE();
__HAL_RCC_DMA2_CLK_ENABLE();
DMAtx.Instance = DMA2_Channel2;
#ifdef STM32F1xx
__HAL_RCC_DMA2_CLK_ENABLE();
DMAtx.Instance = DMA2_Channel2;
#elif defined(STM32F4xx)
__HAL_RCC_DMA1_CLK_ENABLE();
DMAtx.Instance = DMA1_Stream5;
DMAtx.Init.Channel = DMA_CHANNEL_5;
#endif
}
#endif
@ -110,6 +119,9 @@ void TFT_SPI::Init() {
DMAtx.Init.MemDataAlignment = DMA_MDATAALIGN_HALFWORD;
DMAtx.Init.Mode = DMA_NORMAL;
DMAtx.Init.Priority = DMA_PRIORITY_LOW;
#if defined(STM32F4xx)
DMAtx.Init.FIFOMode = DMA_FIFOMODE_DISABLE;
#endif
}
void TFT_SPI::DataTransferBegin(uint16_t DataSize) {
@ -142,12 +154,12 @@ uint32_t TFT_SPI::ReadID(uint16_t Reg) {
__HAL_SPI_ENABLE(&SPIx);
for (i = 0; i < 4; i++) {
#if TFT_MISO_PIN != TFT_MOSI_PIN
if (TFT_MISO_PIN != TFT_MOSI_PIN) {
//if (hspi->Init.Direction == SPI_DIRECTION_2LINES) {
while ((SPIx.Instance->SR & SPI_FLAG_TXE) != SPI_FLAG_TXE) {}
SPIx.Instance->DR = 0;
//}
#endif
}
while ((SPIx.Instance->SR & SPI_FLAG_RXNE) != SPI_FLAG_RXNE) {}
Data = (Data << 8) | SPIx.Instance->DR;
}
@ -162,21 +174,34 @@ uint32_t TFT_SPI::ReadID(uint16_t Reg) {
}
bool TFT_SPI::isBusy() {
if (DMAtx.Instance->CCR & DMA_CCR_EN)
#if defined(STM32F1xx)
volatile bool dmaEnabled = (DMAtx.Instance->CCR & DMA_CCR_EN) != RESET;
#elif defined(STM32F4xx)
volatile bool dmaEnabled = DMAtx.Instance->CR & DMA_SxCR_EN;
#endif
if (dmaEnabled) {
if (__HAL_DMA_GET_FLAG(&DMAtx, __HAL_DMA_GET_TC_FLAG_INDEX(&DMAtx)) != 0 || __HAL_DMA_GET_FLAG(&DMAtx, __HAL_DMA_GET_TE_FLAG_INDEX(&DMAtx)) != 0)
Abort();
return DMAtx.Instance->CCR & DMA_CCR_EN;
}
else {
Abort();
}
return dmaEnabled;
}
void TFT_SPI::Abort() {
__HAL_DMA_DISABLE(&DMAtx);
// First, abort any running dma
HAL_DMA_Abort(&DMAtx);
// DeInit objects
HAL_DMA_DeInit(&DMAtx);
HAL_SPI_DeInit(&SPIx);
// Deselect CS
DataTransferEnd();
}
void TFT_SPI::Transmit(uint16_t Data) {
#if TFT_MISO_PIN == TFT_MOSI_PIN
if (TFT_MISO_PIN == TFT_MOSI_PIN)
SPI_1LINE_TX(&SPIx);
#endif
__HAL_SPI_ENABLE(&SPIx);
@ -185,26 +210,23 @@ void TFT_SPI::Transmit(uint16_t Data) {
while ((SPIx.Instance->SR & SPI_FLAG_TXE) != SPI_FLAG_TXE) {}
while ((SPIx.Instance->SR & SPI_FLAG_BSY) == SPI_FLAG_BSY) {}
#if TFT_MISO_PIN != TFT_MOSI_PIN
if (TFT_MISO_PIN != TFT_MOSI_PIN)
__HAL_SPI_CLEAR_OVRFLAG(&SPIx); /* Clear overrun flag in 2 Lines communication mode because received is not read */
#endif
}
void TFT_SPI::TransmitDMA(uint32_t MemoryIncrease, uint16_t *Data, uint16_t Count) {
// Wait last dma finish, to start another
while(isBusy()) { }
DMAtx.Init.MemInc = MemoryIncrease;
HAL_DMA_Init(&DMAtx);
if (TFT_MISO_PIN == TFT_MOSI_PIN)
SPI_1LINE_TX(&SPIx);
DataTransferBegin();
#if TFT_MISO_PIN == TFT_MOSI_PIN
SPI_1LINE_TX(&SPIx);
#endif
DMAtx.DmaBaseAddress->IFCR = (DMA_ISR_GIF1 << DMAtx.ChannelIndex);
DMAtx.Instance->CNDTR = Count;
DMAtx.Instance->CPAR = (uint32_t)&(SPIx.Instance->DR);
DMAtx.Instance->CMAR = (uint32_t)Data;
__HAL_DMA_ENABLE(&DMAtx);
HAL_DMA_Start(&DMAtx, (uint32_t)Data, (uint32_t)&(SPIx.Instance->DR), Count);
__HAL_SPI_ENABLE(&SPIx);
SET_BIT(SPIx.Instance->CR2, SPI_CR2_TXDMAEN); /* Enable Tx DMA Request */

1
Marlin/src/core/boards.h
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@ -365,6 +365,7 @@
#define BOARD_FYSETC_S6_V2_0 4216 // FYSETC S6 v2.0 board
#define BOARD_FLYF407ZG 4217 // FLYF407ZG board (STM32F407ZG)
#define BOARD_MKS_ROBIN2 4218 // MKS_ROBIN2 (STM32F407ZE)
#define BOARD_MKS_ROBIN_PRO_V2 4219 // MKS Robin Pro V2 (STM32F407VE)
//
// ARM Cortex M7

2
Marlin/src/pins/pins.h
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@ -588,6 +588,8 @@
#include "stm32f4/pins_FLYF407ZG.h" // STM32F4 env:FLYF407ZG
#elif MB(MKS_ROBIN2)
#include "stm32f4/pins_MKS_ROBIN2.h" // STM32F4 env:MKS_ROBIN2
#elif MB(MKS_ROBIN_PRO_V2)
#include "stm32f4/pins_MKS_ROBIN_PRO_V2.h" // STM32F4 env:mks_robin_pro2
//
// ARM Cortex M7

381
Marlin/src/pins/stm32f4/pins_MKS_ROBIN_PRO_V2.h
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@ -0,0 +1,381 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#pragma once
#if NOT_TARGET(STM32F4, STM32F4xx)
#error "Oops! Select an STM32F4 board in 'Tools > Board.'"
#elif HOTENDS > 2 || E_STEPPERS > 2
#error "MKS Robin Nano V3 supports up to 1 hotends / E-steppers."
#endif
#define BOARD_INFO_NAME "MKS Robin PRO V2"
// Use one of these or SDCard-based Emulation will be used
//#define SRAM_EEPROM_EMULATION // Use BackSRAM-based EEPROM emulation
//#define FLASH_EEPROM_EMULATION // Use Flash-based EEPROM emulation
#define I2C_EEPROM
//
// Release PB4 (Y_ENABLE_PIN) from JTAG NRST role
//
//
// Note: MKS Robin board is using SPI2 interface.
//
//#define SPI_MODULE 2
//
// Limit Switches
//
#define X_DIAG_PIN PA15
#define Y_DIAG_PIN PA12
#define Z_DIAG_PIN PA11
#define E0_DIAG_PIN PC4
#define E1_DIAG_PIN PE7
//
#define X_STOP_PIN PA15
#define Y_STOP_PIN PA12
#define Z_MIN_PIN PA11
#define Z_MAX_PIN PC4
#ifndef FIL_RUNOUT_PIN
#define FIL_RUNOUT_PIN PA4 // MT_DET
#endif
//
// Steppers
//
#define X_ENABLE_PIN PE4
#define X_STEP_PIN PE3
#define X_DIR_PIN PE2
#ifndef X_CS_PIN
#define X_CS_PIN PD5
#endif
#define Y_ENABLE_PIN PE1
#define Y_STEP_PIN PE0
#define Y_DIR_PIN PB9
#ifndef Y_CS_PIN
#define Y_CS_PIN PD7
#endif
#define Z_ENABLE_PIN PB8
#define Z_STEP_PIN PB5
#define Z_DIR_PIN PB4
#ifndef Z_CS_PIN
#define Z_CS_PIN PD4
#endif
#define E0_ENABLE_PIN PB3
#define E0_STEP_PIN PD6
#define E0_DIR_PIN PD3
#ifndef E0_CS_PIN
#define E0_CS_PIN PD9
#endif
#define E1_ENABLE_PIN PA3
#define E1_STEP_PIN PD15
#define E1_DIR_PIN PA1
#ifndef E1_CS_PIN
#define E1_CS_PIN PD8
#endif
//
// Software SPI pins for TMC2130 stepper drivers
//
#if ENABLED(TMC_USE_SW_SPI)
#ifndef TMC_SW_MOSI
#define TMC_SW_MOSI PD14
#endif
#ifndef TMC_SW_MISO
#define TMC_SW_MISO PD1
#endif
#ifndef TMC_SW_SCK
#define TMC_SW_SCK PD0
#endif
#endif
#if HAS_TMC_UART
/**
* TMC2208/TMC2209 stepper drivers
*
* Hardware serial communication ports.
* If undefined software serial is used according to the pins below
*/
//#define X_HARDWARE_SERIAL Serial1
//#define X2_HARDWARE_SERIAL Serial1
//#define Y_HARDWARE_SERIAL Serial1
//#define Y2_HARDWARE_SERIAL Serial1
//#define Z_HARDWARE_SERIAL Serial1
//#define Z2_HARDWARE_SERIAL Serial1
//#define E0_HARDWARE_SERIAL Serial1
//#define E1_HARDWARE_SERIAL Serial1
//#define E2_HARDWARE_SERIAL Serial1
//#define E3_HARDWARE_SERIAL Serial1
//#define E4_HARDWARE_SERIAL Serial1
//
// Software serial
//
#define X_SERIAL_TX_PIN PD5
#define X_SERIAL_RX_PIN PD5
#define Y_SERIAL_TX_PIN PD7
#define Y_SERIAL_RX_PIN PD7
#define Z_SERIAL_TX_PIN PD4
#define Z_SERIAL_RX_PIN PD4
#define E0_SERIAL_TX_PIN PD9
#define E0_SERIAL_RX_PIN PD9
#define E1_SERIAL_TX_PIN PD8
#define E1_SERIAL_RX_PIN PD8
// Reduce baud rate to improve software serial reliability
#define TMC_BAUD_RATE 19200
#endif // TMC2208 || TMC2209
//
// Temperature Sensors
//
#define TEMP_0_PIN PC1 // TH1
#define TEMP_1_PIN PC2 // TH2
#define TEMP_BED_PIN PC0 // TB1
//
// Heaters / Fans
//
#define HEATER_0_PIN PC3 // HEATER1
#define HEATER_1_PIN PB0 // HEATER2
#define HEATER_BED_PIN PA0 // HOT BED
#define FAN_PIN PB1 // FAN
//
// Thermocouples
//
//#define MAX6675_SS_PIN PE5 // TC1 - CS1
//#define MAX6675_SS_PIN PE6 // TC2 - CS2
//
// Misc. Functions
//
// #define POWER_LOSS_PIN PA2 // PW_DET
// #define PS_ON_PIN PA3 // PW_OFF
// #define SUICIDE_PIN PB2 // Enable MKSPWC support
// #define KILL_PIN PA2 // Enable MKSPWC support
// #define KILL_PIN_INVERTING true // Enable MKSPWC support
#define SERVO0_PIN PA8 // Enable BLTOUCH support
//#define LED_PIN PB2
#ifndef SDCARD_CONNECTION
#define SDCARD_CONNECTION ONBOARD
#endif
// #define USE_NEW_SPI_API 1
//
// Onboard SD card
// NOT compatible with LCD
//
// detect pin dont work when ONBOARD and NO_SD_HOST_DRIVE disabled
#if !defined(SDCARD_CONNECTION) || SDCARD_CONNECTION == ONBOARD
#define CUSTOM_SPI_PINS
#if ENABLED(CUSTOM_SPI_PINS)
#if USE_NEW_SPI_API
#define SD_SPI MARLIN_SPI(HardwareSPI3, PC9)
#else
#define ENABLE_SPI3
#define SS_PIN -1
#define SDSS PC9
#define SCK_PIN PC10
#define MISO_PIN PC11
#define MOSI_PIN PC12
#endif
#define SD_DETECT_PIN PD12
#endif
#endif
/*
//
// LCD SD
//
#if SDCARD_CONNECTION == LCD
#define CUSTOM_SPI_PINS
#if ENABLED(CUSTOM_SPI_PINS)
#define ENABLE_SPI1
#define SDSS PE10
#define SCK_PIN PA5
#define MISO_PIN PA6
#define MOSI_PIN PA7
#define SD_DETECT_PIN PE12
#endif
#endif
*/
//
// LCD / Controller
#define SPI_FLASH
// #define HAS_SPI_FLASH 1
#define SPI_DEVICE 2
#define SPI_FLASH_SIZE 0x1000000
#if ENABLED(SPI_FLASH)
#define W25QXX_CS_PIN PB12
#define W25QXX_MOSI_PIN PB15
#define W25QXX_MISO_PIN PB14
#define W25QXX_SCK_PIN PB13
#endif
/**
* _____ _____
* (BEEPER)PC5 | · · | PE13(BTN_ENC) (SPI1 MISO) PA6 | · · | PA5 (SPI1 SCK)
* (LCD_EN)PD13 | · · | PC6(LCD_RS) (BTN_EN1) PE8 | · · | PE10 (SPI1 CS)
* (LCD_D4)PE14 | · · | PE15(LCD_D5) (BTN_EN2) PE11 | · · | PA7 (SPI1 MOSI)
* (LCD_D6)PD11 | · · | PD10(LCD_D7) (SPI DET) PE12 | · · | RESET
* GND | · · | 5V GND | · · | 3.3V
*
* EXP1 EXP2
*/
#if EITHER(TFT_480x320_SPI, TFT_LVGL_UI_SPI)
#ifndef TOUCH_CALIBRATION_X
#define TOUCH_CALIBRATION_X -17253
#endif
#ifndef TOUCH_CALIBRATION_Y
#define TOUCH_CALIBRATION_Y 11579
#endif
#ifndef TOUCH_OFFSET_X
#define TOUCH_OFFSET_X 514
#endif
#ifndef TOUCH_OFFSET_Y
#define TOUCH_OFFSET_Y -24
#endif
#ifndef TOUCH_ORIENTATION
#define TOUCH_ORIENTATION TOUCH_LANDSCAPE
#endif
#define TFT_CS_PIN PD11
#define TFT_SCK_PIN PA5
#define TFT_MISO_PIN PA6
#define TFT_MOSI_PIN PA7
#define TFT_DC_PIN PD10
#define TFT_RST_PIN PC6
#define TFT_A0_PIN TFT_DC_PIN
#define TFT_RESET_PIN PC6
#define TFT_BACKLIGHT_PIN PD13
#define TOUCH_BUTTONS_HW_SPI
#define TOUCH_BUTTONS_HW_SPI_DEVICE 1
#define LCD_BACKLIGHT_PIN PD13
#ifndef TFT_WIDTH
#define TFT_WIDTH 480
#endif
#ifndef TFT_HEIGHT
#define TFT_HEIGHT 320
#endif
#define TOUCH_CS_PIN PE14 // SPI1_NSS
#define TOUCH_SCK_PIN PA5 // SPI1_SCK
#define TOUCH_MISO_PIN PA6 // SPI1_MISO
#define TOUCH_MOSI_PIN PA7 // SPI1_MOSI
#define BTN_EN1 PE8
#define BTN_EN2 PE11
#define BEEPER_PIN PC5
#define BTN_ENC PE13
#define LCD_READ_ID 0xD3
#define LCD_USE_DMA_SPI
// #define TFT_DRIVER ST7796
#define TFT_BUFFER_SIZE 14400
#elif HAS_SPI_LCD
#define BEEPER_PIN PC5
#define BTN_ENC PE13
#define LCD_PINS_ENABLE PD13
#define LCD_PINS_RS PC6
#define BTN_EN1 PE8
#define BTN_EN2 PE11
#define LCD_BACKLIGHT_PIN -1
// MKS MINI12864 and MKS LCD12864B; If using MKS LCD12864A (Need to remove RPK2 resistor)
#if ENABLED(MKS_MINI_12864)
//#define LCD_BACKLIGHT_PIN -1
//#define LCD_RESET_PIN -1
#define DOGLCD_A0 PD11
#define DOGLCD_CS PE15
//#define DOGLCD_SCK PA5
//#define DOGLCD_MOSI PA7
// Required for MKS_MINI_12864 with this board
//#define MKS_LCD12864B
//#undef SHOW_BOOTSCREEN
#else // !MKS_MINI_12864
#define LCD_PINS_D4 PE14
#if ENABLED(ULTIPANEL)
#define LCD_PINS_D5 PE15
#define LCD_PINS_D6 PD11
#define LCD_PINS_D7 PD10
#endif
#ifndef ST7920_DELAY_1
#define ST7920_DELAY_1 DELAY_NS(96)
#endif
#ifndef ST7920_DELAY_2
#define ST7920_DELAY_2 DELAY_NS(48)
#endif
#ifndef ST7920_DELAY_3
#define ST7920_DELAY_3 DELAY_NS(600)
#endif
#endif // !MKS_MINI_12864
#elif ENABLED(SPI_GRAPHICAL_TFT)
#define SPI_TFT_CS_PIN PD11
#define SPI_TFT_SCK_PIN PA5
#define SPI_TFT_MISO_PIN PA6
#define SPI_TFT_MOSI_PIN PA7
#define SPI_TFT_DC_PIN PD10
#define SPI_TFT_RST_PIN PC6
#define LCD_BACKLIGHT_PIN PD13
#define TOUCH_CS_PIN PE14 // SPI1_NSS
#define TOUCH_SCK_PIN PA5 // SPI1_SCK
#define TOUCH_MISO_PIN PA6 // SPI1_MISO
#define TOUCH_MOSI_PIN PA7 // SPI1_MOSI
#define BTN_EN1 PE8
#define BTN_EN2 PE11
#define BEEPER_PIN PC5
#define BTN_ENC PE13
#endif // HAS_SPI_LCD

20
platformio.ini
Unescape Escape View File

@ -1351,6 +1351,26 @@ extra_scripts = ${common.extra_scripts}
buildroot/share/PlatformIO/scripts/stm32_bootloader.py
buildroot/share/PlatformIO/scripts/mks_encrypt.py
#
# MKS Robin Pro V2
#
[env:mks_robin_pro2]
platform = ${common_stm32.platform}
extends = common_stm32
build_flags = ${common_stm32.build_flags} -DHAL_HCD_MODULE_ENABLED -DUSBHOST -DARDUINO_BLACK_F407VE
board = genericSTM32F407VET6
board_build.core = stm32
board_build.variant = MARLIN_F407VE
board_build.ldscript = ldscript.ld
board_build.firmware = Robin_nano35.bin
build_unflags = ${common_stm32.build_unflags} -DUSBCON -DUSBD_USE_CDC
debug_tool = jlink
upload_protocol = jlink
extra_scripts = ${common.extra_scripts}
pre:buildroot/share/PlatformIO/scripts/generic_create_variant.py
buildroot/share/PlatformIO/scripts/stm32_bootloader.py
buildroot/share/PlatformIO/scripts/mks_encrypt.py
#################################
# #
# Other Architectures #

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