Marlin_Firmware/Marlin/src/pins/pins_BIQU_SKR_V1.1.h

/**
 * Marlin 3D Printer Firmware
 * Copyright (C) 2019 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/>.
 *
 */

#ifndef TARGET_LPC1768
  #error "Oops!  Make sure you have the LPC1768 environment selected in your IDE."
#endif

#ifndef BOARD_NAME
  #define BOARD_NAME "BIQU SKR V1.1"
#endif

//
// Limit Switches
//
#define X_MIN_PIN          P1_29
#define X_MAX_PIN          P1_28
#define Y_MIN_PIN          P1_27
#define Y_MAX_PIN          P1_26
#define Z_MIN_PIN          P1_25
#define Z_MAX_PIN          P1_24

//
// Steppers
//
#define X_STEP_PIN         P0_04
#define X_DIR_PIN          P0_05
#define X_ENABLE_PIN       P4_28

#define Y_STEP_PIN         P2_01
#define Y_DIR_PIN          P2_02
#define Y_ENABLE_PIN       P2_00

#define Z_STEP_PIN         P0_20
#define Z_DIR_PIN          P0_21
#define Z_ENABLE_PIN       P0_19

#define E0_STEP_PIN        P0_11
#define E0_DIR_PIN         P2_13
#define E0_ENABLE_PIN      P2_12

#define E1_STEP_PIN        P0_01
#define E1_DIR_PIN         P0_00
#define E1_ENABLE_PIN      P0_10

//
// Temperature Sensors
//  3.3V max when defined as an analog input
//
#define TEMP_BED_PIN       0   // Analog Input
#define TEMP_0_PIN         1   // Analog Input
#define TEMP_1_PIN         2   // Analog Input

//
// Heaters / Fans
//
#define HEATER_0_PIN       P2_07
#if HOTENDS == 1
  #define FAN1_PIN         P2_04
#else
  #define HEATER_1_PIN     P2_04
#endif
#define FAN_PIN            P2_03
#define HEATER_BED_PIN     P2_05

/**
 * LCD / Controller
 *
 * As of 20 JAN 2019 only the REPRAP_DISCOUNT_FULL_GRAPHIC_SMART_CONTROLLER display has
 * been tested with these settings. It can be connected to the SKR using standard cables
 * via the EXP1 and EXP2 ports. Other displays may need a custom cable and/or changes to
 * the pins defined below.
 *
 * The SD card on the LCD controller uses the same SPI signals as the LCD, resulting in
 * garbage/lines on the LCD display during SD card access. The LCD code mitigates this
 * by redrawing the screen after SD card accesses.
 */

#if ENABLED(ULTRA_LCD)
  #define BEEPER_PIN       P1_30
  #define BTN_EN1          P3_26
  #define BTN_EN2          P3_25
  #define BTN_ENC          P2_11

  #define SD_DETECT_PIN    P1_31
  #define LCD_SDSS         P1_23
  #define LCD_PINS_RS      P0_16
  #define LCD_PINS_ENABLE  P0_18
  #define LCD_PINS_D4      P0_15
#endif

//
// SD Support
//
//#define USB_SD_DISABLED     // Disable host access to SD card as mass storage device through USB
#define USB_SD_ONBOARD        // Enable host access to SD card as mass storage device through USB

//#define LPC_SD_LCD          // Marlin uses the SD drive attached to the LCD
#define LPC_SD_ONBOARD        // Marlin uses the SD drive on the control board.  There is no SD detect pin
                              // for the onboard card.  Init card from LCD menu or send M21 whenever printer
                              // is powered on to enable SD access.

#if ENABLED(LPC_SD_LCD)

  #define SCK_PIN          P0_15
  #define MISO_PIN         P0_17
  #define MOSI_PIN         P0_18
  #define SS_PIN           P1_23   // Chip select for SD card used by Marlin
  #define ONBOARD_SD_CS    P0_06   // Chip select for "System" SD card

#elif ENABLED(LPC_SD_ONBOARD)

  #if ENABLED(USB_SD_ONBOARD)
    // When sharing the SD card with a PC we want the menu options to
    // mount/unmount the card and refresh it. So we disable card detect.
    #define SHARED_SD_CARD
    #undef SD_DETECT_PIN // there is also no detect pin for the onboard card
  #endif
  #define SCK_PIN          P0_07
  #define MISO_PIN         P0_08
  #define MOSI_PIN         P0_09
  #define SS_PIN           P1_23   // Chip select for SD card used by Marlin
  #define ONBOARD_SD_CS    P0_06   // Chip select for "System" SD card

#endif

// Trinamic driver support

#if HAS_TRINAMIC
  // Using TMC devices in intelligent mode requires extra connections to each device. Unfortunately
  // the SKR does not have many free pins (especially if a display is in use). The SPI-based devices
  // will require 3 connections (clock, mosi, miso), plus a chip select line (CS) for each driver.
  // The UART-based devices require 2 pis per deriver (one of which must be interrupt capable).
  // The same SPI pins can be shared with the display/SD card reader, meaning SPI-based devices are
  // probably a good choice for this board.
  //
  // SOFTWARE_DRIVER_ENABLE is a good option. It uses SPI to control the driver enable and allows the
  // hardware ENABLE pins for each driver to be repurposed as SPI chip select. To use this mode the
  // driver modules will probably need to be modified, removing the pin used for the enable line from
  // the module and wiring this connection directly to GND (as is the case for TMC2130).
  // Using this option and sharing all of the SPI pins allows 5 TMC2130 drivers to be used along with
  // a REPRAP_DISCOUNT_FULL_GRAPHIC_SMART_CONTROLLER without requiring the use of any extra pins.
  //
  // Other options will probably require the use of any free pins and the TFT serial port or a
  // different type of display (like the TFT), using the pins normally used for the display and encoder.
  // Unfortunately, tests show it's not possible to use endstop and thermistor pins for chip-select.
  // Sample settings are provided below, but only some have been tested.
  //
  // Another option is to share the enable and chip-select pins when using SPI. Several users have
  // reported that this works. However, it's unlikely that this configuration will allow SPI communi-
  // cation with the device when the drivers are active, meaning that some of the more advanced TMC
  // options may not be available.

  // When using any TMC SPI-based drivers, software SPI is used
  // because pins may be shared with the display or SD card.
  #define TMC_USE_SW_SPI
  #define TMC_SW_MOSI       P0_18
  #define TMC_SW_MISO       P0_17
  // To minimize pin usage use the same clock pin as the display/SD card reader. (May generate LCD noise.)
  #define TMC_SW_SCK        P0_15
  // If pin 2_06 is unused, it can be used for the clock to avoid the LCD noise.
  //#define TMC_SW_SCK        P2_06

  #if ENABLED(SOFTWARE_DRIVER_ENABLE)

    // Software enable allows the enable pins to be repurposed as chip-select pins.
    // Note: Requires the driver modules to be modified to always be enabled with the enable pin removed.
    #if AXIS_DRIVER_TYPE_X(TMC2130)
      #define X_CS_PIN         P4_28
      #undef  X_ENABLE_PIN
      #define X_ENABLE_PIN     -1
    #endif

    #if AXIS_DRIVER_TYPE_Y(TMC2130)
      #define Y_CS_PIN         P2_00
      #undef  Y_ENABLE_PIN
      #define Y_ENABLE_PIN     -1
    #endif

    #if AXIS_DRIVER_TYPE_Z(TMC2130)
      #define Z_CS_PIN         P0_19
      #undef  Z_ENABLE_PIN
      #define Z_ENABLE_PIN     -1
    #endif

    #if AXIS_DRIVER_TYPE_E0(TMC2130)
      #define E0_CS_PIN        P2_12
      #undef  E0_ENABLE_PIN
      #define E0_ENABLE_PIN    -1
    #endif


    #if AXIS_DRIVER_TYPE_E1(TMC2130)
      #define E1_CS_PIN        P0_10
      #undef  E1_ENABLE_PIN
      #define E1_ENABLE_PIN    -1
    #endif

  #else // !SOFTWARE_DRIVER_ENABLE

    // A chip-select pin is needed for each driver.

    // EXAMPLES

    // Example 1: No LCD attached or a TFT style display using the AUX header RX/TX pins.
    //            LPC_SD_LCD must not be enabled. Nothing should be connected to EXP1/EXP2.
    //#define SKR_USE_LCD_PINS_FOR_CS
    #if ENABLED(SKR_USE_LCD_PINS_FOR_CS)
      #if ENABLED(LPC_SD_LCD)
        #error "LPC_SD_LCD must not be enabled with SKR_USE_LCD_PINS_FOR_CS."
      #endif
      #define X_CS_PIN      P1_23
      #define Y_CS_PIN      P3_26
      #define Z_CS_PIN      P2_11
      #define E0_CS_PIN     P3_25
      #define E1_CS_PIN     P1_31
    #endif

    // Example 2: A REPRAP_DISCOUNT_FULL_GRAPHIC_SMART_CONTROLLER
    //            The SD card reader attached to the LCD (if present) can't be used because
    //            the pins will be in use. So LPC_SD_LCD must not be defined.
    //#define SKR_USE_LCD_SD_CARD_PINS_FOR_CS
    #if ENABLED(SKR_USE_LCD_SD_CARD_PINS_FOR_CS)
      #if ENABLED(LPC_SD_LCD)
        #error "LPC_SD_LCD must not be enabled with SKR_USE_LCD_SD_CARD_PINS_FOR_CS."
      #endif
      #define X_CS_PIN      P0_02
      #define Y_CS_PIN      P0_03
      #define Z_CS_PIN      P2_06
      // We use SD_DETECT_PIN for E0
      #undef SD_DETECT_PIN
      #define E0_CS_PIN     P1_31
      // We use LCD_SDSS pin for E1
      #undef  LCD_SDSS
      #define LCD_SDSS      -1
      #define E1_CS_PIN     P1_23
    #endif

    // Example 3: Use the driver enable pins for chip-select.
    //            Commands must not be sent to the drivers when enabled. So certain
    //            advanced features (like driver monitoring) will not be available.
    //#define SKR_USE_ENABLE_CS
    #if ENABLED(SKR_USE_ENABLE_FOR_CS)
      #define X_CS_PIN      X_ENABLE_PIN
      #define Y_CS_PIN      Y_ENABLE_PIN
      #define Z_CS_PIN      Z_ENABLE_PIN
      #define E0_CS_PIN     E0_ENABLE_PIN
      #define E1_CS_PIN     E1_ENABLE_PIN
    #endif

  #endif // SOFTWARE_DRIVER_ENABLE

#endif