userpins.h confusing

baradov · December 2018

hello,
i am building custom 3d printer (arduino due) and since i am not using a shield for te arduino i would like to know ow to custon thhe userpin.h header file i ve tried to copy #define from motherboard 999 to a new header file userpin.h but that doesnt seem to work i get copiling error befor upload so i there a guide n how to make custom pins for a printer or any kind of help ,
NB: i have diabled EEPRom since due doesnt have one

thanks in advance
regards @Repetier

Repetier · December 2018

userpins.h should only contain what a board definition otherwise would contain, like this:

#define KNOWN_BOARD
#define CPU_ARCH ARCH_ARM
/*****************************************************************
* Arduino Due Pin Assignments
******************************************************************/
#define ORIG_X_STEP_PIN     24
#define ORIG_X_DIR_PIN      23
#define ORIG_X_MIN_PIN      28
#define ORIG_X_MAX_PIN      34
#define ORIG_X_ENABLE_PIN   26
#define ORIG_Y_STEP_PIN     17 
#define ORIG_Y_DIR_PIN      16
#define ORIG_Y_MIN_PIN      30
#define ORIG_Y_MAX_PIN      36
#define ORIG_Y_ENABLE_PIN   22
#define ORIG_Z_STEP_PIN     2
#define ORIG_Z_DIR_PIN      3
#define ORIG_Z_MIN_PIN      32
#define ORIG_Z_MAX_PIN      38
#define ORIG_Z_ENABLE_PIN   15
// Note that on the Due pin A0 on the board is channel 2 on the ARM chip
#define HEATER_0_PIN     13
// Due analog pin #54
#define TEMP_0_PIN       7 
#define HEATER_1_PIN     7 
#define TEMP_1_PIN       3 
// Due analog pin #58
#define HEATER_2_PIN     12
// Due analog pin #55
#define TEMP_2_PIN       6 
#define HEATER_3_PIN     11
// Due analog pin #56
#define TEMP_3_PIN       5 
// Due analog pin #57
#define TEMP_4_PIN       4 
// Due analog pin #59 = A5 -> AD 2
#define THERMOCOUPLE_0_PIN  2   
// There are no more analog pins freely available.
// You can use direction and enable pin from extruder 0 socket as they are also 
// analog pins. Then you need to move the stepper driver to a different socket.
// Direction pin of extruder 0
#define THERMOCOUPLE_1_PIN  1 
// Step pin of extruder 0  
#define THERMOCOUPLE_2_PIN  0   
// Enable pin of extruder 0  
#define THERMOCOUPLE_3_PIN  10   
#define ORIG_E0_STEP_PIN    61
#define ORIG_E0_DIR_PIN     60
#define ORIG_E0_ENABLE_PIN  62
#define ORIG_E1_STEP_PIN    64
#define ORIG_E1_DIR_PIN     63
#define ORIG_E1_ENABLE_PIN  65
#define ORIG_E2_STEP_PIN    51
#define ORIG_E2_DIR_PIN     53
#define ORIG_E2_ENABLE_PIN  49
// Extra driver on extension board
// Might require pin 66 high for some drivers!
#define ORIG_E3_STEP_PIN    35
#define ORIG_E3_DIR_PIN     33
#define ORIG_E3_ENABLE_PIN  37
// Extra driver on extension port
// Might require pin 25 high for some drivers!
#define ORIG_E4_STEP_PIN    29
#define ORIG_E4_DIR_PIN     27
#define ORIG_E4_ENABLE_PIN  31
#define ORIG_E5_STEP_PIN    67
#define ORIG_E5_DIR_PIN     66
#define ORIG_E5_ENABLE_PIN  68

#define EXTENSION_BOARD_MS1 67
#define EXTENSION_BOARD_MS2 68
#define EXTENSION_BOARD_MS3 69
// 66 -> not connected
// 25 -> not connected
// To set microstepping on startup set START_GCODE to e.g.
// "M42 P67 S255\nM42 P68 S255\nM42 P69 S255"
#define SDSUPPORT      1
#define SDPOWER 	   -1
// 4,10,52 if using HW SPI.
#define SDSS		    4
#define ORIG_SDCARDDETECT       14
#define SDCARDDETECTINVERTED 0
#define LED_PIN 	   -1
#define ORIG_FAN_PIN 	   9 
#define ORIG_FAN2_PIN           8 
#define ORIG_PS_ON_PIN          40
#define KILL_PIN	   -1
#define SUICIDE_PIN    -1  //PIN that has to be turned on right after start, to keep power flowing.
// 20 or 70
#define SDA_PIN 				20  	
// 21 or 71
#define SCL_PIN 				21  	
// Servo pins: 5,6 und 39
#define E0_PINS ORIG_E0_STEP_PIN,ORIG_E0_DIR_PIN,ORIG_E0_ENABLE_PIN,
#define E1_PINS ORIG_E1_STEP_PIN,ORIG_E1_DIR_PIN,ORIG_E1_ENABLE_PIN,
#define E2_PINS ORIG_E2_STEP_PIN,ORIG_E2_DIR_PIN,ORIG_E2_ENABLE_PIN,
#define E3_PINS ORIG_E3_STEP_PIN,ORIG_E3_DIR_PIN,ORIG_E3_ENABLE_PIN,
#define E4_PINS ORIG_E4_STEP_PIN,ORIG_E4_DIR_PIN,ORIG_E4_ENABLE_PIN,
#define E5_PINS ORIG_E5_STEP_PIN,ORIG_E5_DIR_PIN,ORIG_E5_ENABLE_PIN,
#define TWI_CLOCK_FREQ          400000
// see eeprom device data sheet for the following values these are for 24xx256
#define EEPROM_SERIAL_ADDR      0x50   // 7 bit i2c address (without R/W bit)
#define EEPROM_PAGE_SIZE        64     // page write buffer size
#define EEPROM_PAGE_WRITE_TIME  7      // page write time in milliseconds (docs say 5ms but that is too short)
// specify size of eeprom address register
// TWI_MMR_IADRSZ_1_BYTE for 1 byte, or TWI_MMR_IADRSZ_2_BYTE for 2 byte
#define EEPROM_ADDRSZ_BYTES     TWI_MMR_IADRSZ_2_BYTE
#define EEPROM_AVAILABLE 1

baradov · December 2018

Repetier said:

userpins.h should only contain what a board definition otherwise would contain, like this:

#define KNOWN_BOARD
#define CPU_ARCH ARCH_ARM
/*****************************************************************
* Arduino Due Pin Assignments
******************************************************************/
#define ORIG_X_STEP_PIN     24
#define ORIG_X_DIR_PIN      23
#define ORIG_X_MIN_PIN      28
#define ORIG_X_MAX_PIN      34
#define ORIG_X_ENABLE_PIN   26
#define ORIG_Y_STEP_PIN     17 
#define ORIG_Y_DIR_PIN      16
#define ORIG_Y_MIN_PIN      30
#define ORIG_Y_MAX_PIN      36
#define ORIG_Y_ENABLE_PIN   22
#define ORIG_Z_STEP_PIN     2
#define ORIG_Z_DIR_PIN      3
#define ORIG_Z_MIN_PIN      32
#define ORIG_Z_MAX_PIN      38
#define ORIG_Z_ENABLE_PIN   15
// Note that on the Due pin A0 on the board is channel 2 on the ARM chip
#define HEATER_0_PIN     13
// Due analog pin #54
#define TEMP_0_PIN       7 
#define HEATER_1_PIN     7 
#define TEMP_1_PIN       3 
// Due analog pin #58
#define HEATER_2_PIN     12
// Due analog pin #55
#define TEMP_2_PIN       6 
#define HEATER_3_PIN     11
// Due analog pin #56
#define TEMP_3_PIN       5 
// Due analog pin #57
#define TEMP_4_PIN       4 
// Due analog pin #59 = A5 -> AD 2
#define THERMOCOUPLE_0_PIN  2   
// There are no more analog pins freely available.
// You can use direction and enable pin from extruder 0 socket as they are also 
// analog pins. Then you need to move the stepper driver to a different socket.
// Direction pin of extruder 0
#define THERMOCOUPLE_1_PIN  1 
// Step pin of extruder 0  
#define THERMOCOUPLE_2_PIN  0   
// Enable pin of extruder 0  
#define THERMOCOUPLE_3_PIN  10   
#define ORIG_E0_STEP_PIN    61
#define ORIG_E0_DIR_PIN     60
#define ORIG_E0_ENABLE_PIN  62
#define ORIG_E1_STEP_PIN    64
#define ORIG_E1_DIR_PIN     63
#define ORIG_E1_ENABLE_PIN  65
#define ORIG_E2_STEP_PIN    51
#define ORIG_E2_DIR_PIN     53
#define ORIG_E2_ENABLE_PIN  49
// Extra driver on extension board
// Might require pin 66 high for some drivers!
#define ORIG_E3_STEP_PIN    35
#define ORIG_E3_DIR_PIN     33
#define ORIG_E3_ENABLE_PIN  37
// Extra driver on extension port
// Might require pin 25 high for some drivers!
#define ORIG_E4_STEP_PIN    29
#define ORIG_E4_DIR_PIN     27
#define ORIG_E4_ENABLE_PIN  31
#define ORIG_E5_STEP_PIN    67
#define ORIG_E5_DIR_PIN     66
#define ORIG_E5_ENABLE_PIN  68

#define EXTENSION_BOARD_MS1 67
#define EXTENSION_BOARD_MS2 68
#define EXTENSION_BOARD_MS3 69
// 66 -> not connected
// 25 -> not connected
// To set microstepping on startup set START_GCODE to e.g.
// "M42 P67 S255\nM42 P68 S255\nM42 P69 S255"
#define SDSUPPORT      1
#define SDPOWER 	   -1
// 4,10,52 if using HW SPI.
#define SDSS		    4
#define ORIG_SDCARDDETECT       14
#define SDCARDDETECTINVERTED 0
#define LED_PIN 	   -1
#define ORIG_FAN_PIN 	   9 
#define ORIG_FAN2_PIN           8 
#define ORIG_PS_ON_PIN          40
#define KILL_PIN	   -1
#define SUICIDE_PIN    -1  //PIN that has to be turned on right after start, to keep power flowing.
// 20 or 70
#define SDA_PIN 				20  	
// 21 or 71
#define SCL_PIN 				21  	
// Servo pins: 5,6 und 39
#define E0_PINS ORIG_E0_STEP_PIN,ORIG_E0_DIR_PIN,ORIG_E0_ENABLE_PIN,
#define E1_PINS ORIG_E1_STEP_PIN,ORIG_E1_DIR_PIN,ORIG_E1_ENABLE_PIN,
#define E2_PINS ORIG_E2_STEP_PIN,ORIG_E2_DIR_PIN,ORIG_E2_ENABLE_PIN,
#define E3_PINS ORIG_E3_STEP_PIN,ORIG_E3_DIR_PIN,ORIG_E3_ENABLE_PIN,
#define E4_PINS ORIG_E4_STEP_PIN,ORIG_E4_DIR_PIN,ORIG_E4_ENABLE_PIN,
#define E5_PINS ORIG_E5_STEP_PIN,ORIG_E5_DIR_PIN,ORIG_E5_ENABLE_PIN,
#define TWI_CLOCK_FREQ          400000
// see eeprom device data sheet for the following values these are for 24xx256
#define EEPROM_SERIAL_ADDR      0x50   // 7 bit i2c address (without R/W bit)
#define EEPROM_PAGE_SIZE        64     // page write buffer size
#define EEPROM_PAGE_WRITE_TIME  7      // page write time in milliseconds (docs say 5ms but that is too short)
// specify size of eeprom address register
// TWI_MMR_IADRSZ_1_BYTE for 1 byte, or TWI_MMR_IADRSZ_2_BYTE for 2 byte
#define EEPROM_ADDRSZ_BYTES     TWI_MMR_IADRSZ_2_BYTE
#define EEPROM_AVAILABLE 1

thank you very much but i still have something in mind about pn numbering
can i use any pin in this configuration or there is a limited pins that i can use
thaks again
regards @Repetier

Repetier · December 2018

There are not much limits. Analog inputs must be on a analog input and putting a function on special pins like SPI MOSI/MISO/CLK is a bad idea if you need it later. But any digital output can use any available pin number.

baradov · December 2018

thank you very much @Repetier

userpins.h confusing

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