smaller changes
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@ -4,8 +4,8 @@
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// This determines the communication speed of the printer
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// This determines the communication speed of the printer
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#define BAUDRATE 250000
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//#define BAUDRATE 250000
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//#define BAUDRATE 115200
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#define BAUDRATE 115200
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//#define BAUDRATE 230400
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//#define BAUDRATE 230400
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#define EXTRUDERS 1
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#define EXTRUDERS 1
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@ -26,11 +26,11 @@
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// MEGA/RAMPS up to 1.2 = 3,
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// MEGA/RAMPS up to 1.2 = 3,
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// RAMPS 1.3 = 33
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// RAMPS 1.3 = 33
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// Gen6 = 5,
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// Gen6 = 5,
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// Sanguinololu 1.2 and above = 62,
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// Sanguinololu 1.2 and above = 62
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// Ultimaker = 7,
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// Gen7 = 77,
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// Gen7 = 77,
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// Ultimaker = 7,
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// Teensylu = 8
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// Teensylu = 8
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#define MOTHERBOARD 7
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#define MOTHERBOARD 77
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//===========================================================================
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//===========================================================================
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//=============================Thermal Settings ============================
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//=============================Thermal Settings ============================
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@ -45,23 +45,23 @@
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// 6 is EPCOS 100k
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// 6 is EPCOS 100k
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// 7 is 100k Honeywell thermistor 135-104LAG-J01
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// 7 is 100k Honeywell thermistor 135-104LAG-J01
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//#define THERMISTORHEATER_0 3
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#define THERMISTORHEATER_0 1
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//#define THERMISTORHEATER_1 1
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//#define THERMISTORHEATER_1 1
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//#define THERMISTORHEATER_2 1
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//#define THERMISTORHEATER_2 1
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//#define HEATER_0_USES_THERMISTOR
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#define HEATER_0_USES_THERMISTOR
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//#define HEATER_1_USES_THERMISTOR
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//#define HEATER_1_USES_THERMISTOR
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//#define HEATER_2_USES_THERMISTOR
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//#define HEATER_2_USES_THERMISTOR
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#define HEATER_0_USES_AD595
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//#define HEATER_0_USES_AD595
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//#define HEATER_1_USES_AD595
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//#define HEATER_1_USES_AD595
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//#define HEATER_2_USES_AD595
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//#define HEATER_2_USES_AD595
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// Select one of these only to define how the bed temp is read.
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// Select one of these only to define how the bed temp is read.
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//#define THERMISTORBED 1
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#define THERMISTORBED 1
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//#define BED_USES_THERMISTOR
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#define BED_USES_THERMISTOR
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//#define BED_LIMIT_SWITCHING
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//#define BED_LIMIT_SWITCHING
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#ifdef BED_LIMIT_SWITCHING
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#ifdef BED_LIMIT_SWITCHING
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#define BED_HYSTERESIS 2 //only disable heating if T>target+BED_HYSTERESIS and enable heating if T>target-BED_HYSTERESIS
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#define BED_HYSTERESIS 2 //only disable heating if T>target+BED_HYSTERESIS and enable heating if T>target-BED_HYSTERESIS
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#endif
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#endif
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//#define BED_USES_AD595
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//#define BED_USES_AD595
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@ -75,10 +75,10 @@
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// Actual temperature must be close to target for this long before M109 returns success
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// Actual temperature must be close to target for this long before M109 returns success
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#define TEMP_RESIDENCY_TIME 30 // (seconds)
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#define TEMP_RESIDENCY_TIME 30 // (seconds)
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#define TEMP_HYSTERESIS 3 // (C°) range of +/- temperatures considered "close" to the target one
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#define TEMP_HYSTERESIS 3 // (C°) range of +/- temperatures considered "close" to the target one
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//// The minimal temperature defines the temperature below which the heater will not be enabled
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//// The minimal temperature defines the temperature below which the heater will not be enabled
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#define HEATER_0_MINTEMP 5
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//#define HEATER_0_MINTEMP 5
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//#define HEATER_1_MINTEMP 5
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//#define HEATER_1_MINTEMP 5
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//#define HEATER_2_MINTEMP 5
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//#define HEATER_2_MINTEMP 5
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//#define BED_MINTEMP 5
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//#define BED_MINTEMP 5
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@ -107,37 +107,37 @@
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#define PIDTEMP
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#define PIDTEMP
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#define PID_MAX 255 // limits current to nozzle; 255=full current
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#define PID_MAX 255 // limits current to nozzle; 255=full current
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#ifdef PIDTEMP
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#ifdef PIDTEMP
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//#define PID_DEBUG // Sends debug data to the serial port.
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//#define PID_DEBUG // Sends debug data to the serial port.
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//#define PID_OPENLOOP 1 // Puts PID in open loop. M104 sets the output power in %
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//#define PID_OPENLOOP 1 // Puts PID in open loop. M104 sets the output power in %
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#define PID_INTEGRAL_DRIVE_MAX 255 //limit for the integral term
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#define PID_INTEGRAL_DRIVE_MAX 255 //limit for the integral term
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#define K1 0.95 //smoothing factor withing the PID
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#define K1 0.95 //smoothing factor withing the PID
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#define PID_dT 0.128 //sampling period of the PID
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#define PID_dT 0.128 //sampling period of the PID
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//To develop some PID settings for your machine, you can initiall follow
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//To develop some PID settings for your machine, you can initiall follow
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// the Ziegler-Nichols method.
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// the Ziegler-Nichols method.
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// set Ki and Kd to zero.
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// set Ki and Kd to zero.
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// heat with a defined Kp and see if the temperature stabilizes
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// heat with a defined Kp and see if the temperature stabilizes
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// ideally you do this graphically with repg.
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// ideally you do this graphically with repg.
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// the PID_CRITIAL_GAIN should be the Kp at which temperature oscillatins are not dampned out/decreas in amplitutde
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// the PID_CRITIAL_GAIN should be the Kp at which temperature oscillatins are not dampned out/decreas in amplitutde
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// PID_SWING_AT_CRITIAL is the time for a full period of the oscillations at the critical Gain
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// PID_SWING_AT_CRITIAL is the time for a full period of the oscillations at the critical Gain
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// usually further manual tunine is necessary.
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// usually further manual tunine is necessary.
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#define PID_CRITIAL_GAIN 50
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#define PID_CRITIAL_GAIN 50
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#define PID_SWING_AT_CRITIAL 47 //seconds
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#define PID_SWING_AT_CRITIAL 47 //seconds
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//#define PID_PI //no differentail term
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#define PID_PID //normal PID
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#ifdef PID_PID
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//#define PID_PI //no differentail term
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//PID according to Ziegler-Nichols method
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#define PID_PID //normal PID
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#ifdef PID_PID
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//PID according to Ziegler-Nichols method
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// #define DEFAULT_Kp (0.6*PID_CRITIAL_GAIN)
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// #define DEFAULT_Kp (0.6*PID_CRITIAL_GAIN)
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// #define DEFAULT_Ki (2*Kp/PID_SWING_AT_CRITIAL*PID_dT)
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// #define DEFAULT_Ki (2*Kp/PID_SWING_AT_CRITIAL*PID_dT)
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// #define DEFAULT_Kd (PID_SWING_AT_CRITIAL/8./PID_dT)
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// #define DEFAULT_Kd (PID_SWING_AT_CRITIAL/8./PID_dT)
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// Ultitmaker
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// Ultitmaker
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#define DEFAULT_Kp 22.2
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#define DEFAULT_Kp 22.2
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#define DEFAULT_Ki (1.25*PID_dT)
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#define DEFAULT_Ki (1.25*PID_dT)
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#define DEFAULT_Kd (99/PID_dT)
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#define DEFAULT_Kd (99/PID_dT)
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// Makergear
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// Makergear
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// #define DEFAULT_Kp 7.0
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// #define DEFAULT_Kp 7.0
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@ -148,21 +148,21 @@
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// #define DEFAULT_Kp 63.0
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// #define DEFAULT_Kp 63.0
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// #define DEFAULT_Ki (2.25*PID_dT)
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// #define DEFAULT_Ki (2.25*PID_dT)
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// #define DEFAULT_Kd (440/PID_dT)
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// #define DEFAULT_Kd (440/PID_dT)
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#endif
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#endif
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#ifdef PID_PI
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#ifdef PID_PI
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//PI according to Ziegler-Nichols method
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//PI according to Ziegler-Nichols method
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#define DEFAULT_Kp (PID_CRITIAL_GAIN/2.2)
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#define DEFAULT_Kp (PID_CRITIAL_GAIN/2.2)
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#define DEFAULT_Ki (1.2*Kp/PID_SWING_AT_CRITIAL*PID_dT)
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#define DEFAULT_Ki (1.2*Kp/PID_SWING_AT_CRITIAL*PID_dT)
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#define DEFAULT_Kd (0)
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#define DEFAULT_Kd (0)
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#endif
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#endif
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// this adds an experimental additional term to the heatingpower, proportional to the extrusion speed.
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// this adds an experimental additional term to the heatingpower, proportional to the extrusion speed.
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// if Kc is choosen well, the additional required power due to increased melting should be compensated.
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// if Kc is choosen well, the additional required power due to increased melting should be compensated.
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#define PID_ADD_EXTRUSION_RATE
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#define PID_ADD_EXTRUSION_RATE
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#ifdef PID_ADD_EXTRUSION_RATE
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#ifdef PID_ADD_EXTRUSION_RATE
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#define DEFAULT_Kc (1) //heatingpower=Kc*(e_speed)
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#define DEFAULT_Kc (1) //heatingpower=Kc*(e_speed)
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#endif
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#endif
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#endif // PIDTEMP
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#endif // PIDTEMP
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// extruder run-out prevention.
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// extruder run-out prevention.
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@ -184,9 +184,9 @@
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#define ENDSTOPPULLUPS // Comment this out (using // at the start of the line) to disable the endstop pullup resistors
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#define ENDSTOPPULLUPS // Comment this out (using // at the start of the line) to disable the endstop pullup resistors
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// The pullups are needed if you directly connect a mechanical endswitch between the signal and ground pins.
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// The pullups are needed if you directly connect a mechanical endswitch between the signal and ground pins.
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const bool X_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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const bool X_ENDSTOPS_INVERTING = false; // set to true to invert the logic of the endstops.
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const bool Y_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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const bool Y_ENDSTOPS_INVERTING = false; // set to true to invert the logic of the endstops.
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const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of the endstops.
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const bool Z_ENDSTOPS_INVERTING = false; // set to true to invert the logic of the endstops.
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// For optos H21LOB set to true, for Mendel-Parts newer optos TCST2103 set to false
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// For optos H21LOB set to true, for Mendel-Parts newer optos TCST2103 set to false
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#define ENDSTOPS_ONLY_FOR_HOMING // If defined the endstops will only be used for homing
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#define ENDSTOPS_ONLY_FOR_HOMING // If defined the endstops will only be used for homing
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@ -209,9 +209,9 @@ const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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//#define INVERT_Z_DIR false // for Mendel set to false, for Orca set to true
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//#define INVERT_Z_DIR false // for Mendel set to false, for Orca set to true
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//#define INVERT_E*_DIR true // for direct drive extruder v9 set to true, for geared extruder set to false, used for all extruders
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//#define INVERT_E*_DIR true // for direct drive extruder v9 set to true, for geared extruder set to false, used for all extruders
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#define INVERT_X_DIR true // for Mendel set to false, for Orca set to true
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#define INVERT_X_DIR false // for Mendel set to false, for Orca set to true
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#define INVERT_Y_DIR false // for Mendel set to true, for Orca set to false
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#define INVERT_Y_DIR false // for Mendel set to true, for Orca set to false
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#define INVERT_Z_DIR true // for Mendel set to false, for Orca set to true
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#define INVERT_Z_DIR false // for Mendel set to false, for Orca set to true
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#define INVERT_E0_DIR false // for direct drive extruder v9 set to true, for geared extruder set to false
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#define INVERT_E0_DIR false // for direct drive extruder v9 set to true, for geared extruder set to false
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#define INVERT_E1_DIR false // for direct drive extruder v9 set to true, for geared extruder set to false
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#define INVERT_E1_DIR false // for direct drive extruder v9 set to true, for geared extruder set to false
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#define INVERT_E2_DIR false // for direct drive extruder v9 set to true, for geared extruder set to false
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#define INVERT_E2_DIR false // for direct drive extruder v9 set to true, for geared extruder set to false
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@ -256,7 +256,8 @@ const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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#define DEFAULT_MINIMUMFEEDRATE 0.0 // minimum feedrate
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#define DEFAULT_MINIMUMFEEDRATE 0.0 // minimum feedrate
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#define DEFAULT_MINTRAVELFEEDRATE 0.0
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#define DEFAULT_MINTRAVELFEEDRATE 0.0
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// minimum time in microseconds that a movement needs to take if the buffer is emptied. Increase this number if you see blobs while printing high speed & high detail. It will slowdown on the detailed stuff.
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// minimum time in microseconds that a movement needs to take if the buffer is emptied. Increase this number if you see blobs while
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//printing high speed & high detail. It will slowdown on the detailed stuff.
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#define DEFAULT_MINSEGMENTTIME 20000 // Obsolete delete this
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#define DEFAULT_MINSEGMENTTIME 20000 // Obsolete delete this
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#define DEFAULT_XYJERK 20.0 // (mm/sec)
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#define DEFAULT_XYJERK 20.0 // (mm/sec)
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#define DEFAULT_ZJERK 0.4 // (mm/sec)
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#define DEFAULT_ZJERK 0.4 // (mm/sec)
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@ -290,7 +291,7 @@ const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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// this enables the watchdog interrupt.
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// this enables the watchdog interrupt.
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//#define USE_WATCHDOG
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//#define USE_WATCHDOG
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//#ifdef USE_WATCHDOG
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//#ifdef USE_WATCHDOG
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// you cannot reboot on a mega2560 due to a bug in he bootloader. Hence, you have to reset manually, and this is done hereby:
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// you cannot reboot on a mega2560 due to a bug in he bootloader. Hence, you have to reset manually, and this is done hereby:
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//#define RESET_MANUAL
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//#define RESET_MANUAL
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//#define WATCHDOG_TIMEOUT 4 //seconds
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//#define WATCHDOG_TIMEOUT 4 //seconds
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//#endif
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//#endif
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@ -305,12 +306,12 @@ const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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//#define ADVANCE
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//#define ADVANCE
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#ifdef ADVANCE
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#ifdef ADVANCE
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#define EXTRUDER_ADVANCE_K .0
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#define EXTRUDER_ADVANCE_K .0
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#define D_FILAMENT 2.85
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#define D_FILAMENT 2.85
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#define STEPS_MM_E 836
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#define STEPS_MM_E 836
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#define EXTRUTION_AREA (0.25 * D_FILAMENT * D_FILAMENT * 3.14159)
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#define EXTRUTION_AREA (0.25 * D_FILAMENT * D_FILAMENT * 3.14159)
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#define STEPS_PER_CUBIC_MM_E (axis_steps_per_unit[E_AXIS]/ EXTRUTION_AREA)
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#define STEPS_PER_CUBIC_MM_E (axis_steps_per_unit[E_AXIS]/ EXTRUTION_AREA)
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#endif // ADVANCE
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#endif // ADVANCE
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#define SD_FINISHED_STEPPERRELEASE true //if sd support and the file is finished: disable steppers?
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#define SD_FINISHED_STEPPERRELEASE true //if sd support and the file is finished: disable steppers?
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#define SD_FINISHED_RELEASECOMMAND "M84 X Y E" // no z because of layer shift.
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#define SD_FINISHED_RELEASECOMMAND "M84 X Y E" // no z because of layer shift.
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//#define ULTIPANEL
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#define ULTIPANEL
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#ifdef ULTIPANEL
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#ifdef ULTIPANEL
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//#define NEWPANEL //enable this if you have a click-encoder panel
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#define NEWPANEL //enable this if you have a click-encoder panel
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#define SDSUPPORT
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#define SDSUPPORT
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#define ULTRA_LCD
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#define ULTRA_LCD
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#define LCD_WIDTH 20
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#define LCD_WIDTH 20
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#define LCD_HEIGHT 4
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#define LCD_HEIGHT 4
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#else //no panel but just lcd
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#else //no panel but just lcd
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#ifdef ULTRA_LCD
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#ifdef ULTRA_LCD
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#define LCD_WIDTH 16
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#define LCD_WIDTH 16
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#define LCD_HEIGHT 2
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#define LCD_HEIGHT 2
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#endif
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#endif
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#endif
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#endif
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// A debugging feature to compare calculated vs performed steps, to see if steps are lost by the software.
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// A debugging feature to compare calculated vs performed steps, to see if steps are lost by the software.
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@ -353,13 +354,13 @@ const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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// on an ultimaker, some initial testing worked with M109 S215 T260 F0.1 in the start.gcode
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// on an ultimaker, some initial testing worked with M109 S215 T260 F0.1 in the start.gcode
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//#define AUTOTEMP
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//#define AUTOTEMP
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#ifdef AUTOTEMP
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#ifdef AUTOTEMP
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#define AUTOTEMP_OLDWEIGHT 0.98
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#define AUTOTEMP_OLDWEIGHT 0.98
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#endif
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#endif
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//this prevents dangerous Extruder moves, i.e. if the temperature is under the limit
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//this prevents dangerous Extruder moves, i.e. if the temperature is under the limit
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//can be software-disabled for whatever purposes by
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//can be software-disabled for whatever purposes by
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#define PREVENT_DANGEROUS_EXTRUDE
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#define PREVENT_DANGEROUS_EXTRUDE
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#define EXTRUDE_MINTEMP 190
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#define EXTRUDE_MINTEMP 0
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#define EXTRUDE_MAXLENGTH (X_MAX_LENGTH+Y_MAX_LENGTH) //prevent extrusion of very large distances.
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#define EXTRUDE_MAXLENGTH (X_MAX_LENGTH+Y_MAX_LENGTH) //prevent extrusion of very large distances.
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const int dropsegments=5; //everything with less than this number of steps will be ignored as move and joined with the next movement
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const int dropsegments=5; //everything with less than this number of steps will be ignored as move and joined with the next movement
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@ -378,9 +379,9 @@ const int dropsegments=5; //everything with less than this number of steps will
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// The number of linear motions that can be in the plan at any give time.
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// The number of linear motions that can be in the plan at any give time.
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// THE BLOCK_BUFFER_SIZE NEEDS TO BE A POWER OF 2, i.g. 8,16,32 because shifts and ors are used to do the ringbuffering.
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// THE BLOCK_BUFFER_SIZE NEEDS TO BE A POWER OF 2, i.g. 8,16,32 because shifts and ors are used to do the ringbuffering.
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#if defined SDSUPPORT
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#if defined SDSUPPORT
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#define BLOCK_BUFFER_SIZE 16 // SD,LCD,Buttons take more memory, block buffer needs to be smaller
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#define BLOCK_BUFFER_SIZE 16 // SD,LCD,Buttons take more memory, block buffer needs to be smaller
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#else
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#else
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#define BLOCK_BUFFER_SIZE 16 // maximize block buffer
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#define BLOCK_BUFFER_SIZE 16 // maximize block buffer
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#endif
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#endif
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@ -392,3 +393,5 @@ const int dropsegments=5; //everything with less than this number of steps will
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#include "thermistortables.h"
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#include "thermistortables.h"
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#endif //__CONFIGURATION_H
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#endif //__CONFIGURATION_H
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||||||
|
@ -237,9 +237,11 @@ void setup_photpin()
|
|||||||
void setup_powerhold()
|
void setup_powerhold()
|
||||||
{
|
{
|
||||||
#ifdef SUICIDE_PIN
|
#ifdef SUICIDE_PIN
|
||||||
|
#if (SUICIDE_PIN> -1)
|
||||||
SET_OUTPUT(SUICIDE_PIN);
|
SET_OUTPUT(SUICIDE_PIN);
|
||||||
WRITE(SUICIDE_PIN, HIGH);
|
WRITE(SUICIDE_PIN, HIGH);
|
||||||
#endif
|
#endif
|
||||||
|
#endif
|
||||||
}
|
}
|
||||||
|
|
||||||
void suicide()
|
void suicide()
|
||||||
|
@ -527,23 +527,119 @@ void MainMenu::showAxisMove()
|
|||||||
MENUITEM( lcdprintPGM(" Main \003") , BLOCK;status=Main_Menu;beepshort(); ) ;
|
MENUITEM( lcdprintPGM(" Main \003") , BLOCK;status=Main_Menu;beepshort(); ) ;
|
||||||
break;
|
break;
|
||||||
case ItemAM_X:
|
case ItemAM_X:
|
||||||
MENUITEM( lcdprintPGM(" X+") , BLOCK;enquecommand("G92 X0");enquecommand("G1 F700 X10");beepshort(); ) ;
|
// MENUITEM( lcdprintPGM(" X+") , BLOCK;enquecommand("G92 X0");enquecommand("G1 F700 X10");beepshort(); ) ;
|
||||||
|
{
|
||||||
|
if(force_lcd_update)
|
||||||
|
{
|
||||||
|
lcd.setCursor(0,line);lcdprintPGM(" X:");
|
||||||
|
lcd.setCursor(13,line);lcd.print(ftostr3(current_position[X_AXIS]));
|
||||||
|
}
|
||||||
|
|
||||||
|
if((activeline!=line) )
|
||||||
|
break;
|
||||||
|
|
||||||
|
if(CLICKED)
|
||||||
|
{
|
||||||
|
linechanging=!linechanging;
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
encoderpos=current_position[X_AXIS];
|
||||||
|
}
|
||||||
|
else
|
||||||
|
{
|
||||||
|
enquecommand("G1 F700 X"+encoderpos);
|
||||||
|
encoderpos=activeline*lcdslow;
|
||||||
|
beepshort();
|
||||||
|
}
|
||||||
|
BLOCK;
|
||||||
|
}
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
if(encoderpos<1) encoderpos=1;
|
||||||
|
if(encoderpos>200) encoderpos=200;
|
||||||
|
lcd.setCursor(13,line);lcd.print(current_position[X_AXIS]);
|
||||||
|
}
|
||||||
|
}
|
||||||
break;
|
break;
|
||||||
case ItemAM_Y:
|
case ItemAM_Y:
|
||||||
MENUITEM( lcdprintPGM(" Y+") , BLOCK;enquecommand("G92 Y0");enquecommand("G1 F700 Y10");beepshort(); ) ;
|
//MENUITEM( lcdprintPGM(" Y+") , BLOCK;enquecommand("G92 Y0");enquecommand("G1 F700 Y10");beepshort(); ) ;
|
||||||
|
{
|
||||||
|
if(force_lcd_update)
|
||||||
|
{
|
||||||
|
lcd.setCursor(0,line);lcdprintPGM(" Y:");
|
||||||
|
lcd.setCursor(13,line);lcd.print(ftostr3(current_position[Y_AXIS]));
|
||||||
|
}
|
||||||
|
|
||||||
|
if((activeline!=line) )
|
||||||
|
break;
|
||||||
|
|
||||||
|
if(CLICKED)
|
||||||
|
{
|
||||||
|
linechanging=!linechanging;
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
encoderpos=current_position[Y_AXIS];
|
||||||
|
}
|
||||||
|
else
|
||||||
|
{
|
||||||
|
enquecommand("G1 F700 Y"+encoderpos);
|
||||||
|
encoderpos=activeline*lcdslow;
|
||||||
|
beepshort();
|
||||||
|
}
|
||||||
|
BLOCK;
|
||||||
|
}
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
if(encoderpos<1) encoderpos=1;
|
||||||
|
if(encoderpos>200) encoderpos=200;
|
||||||
|
lcd.setCursor(13,line);lcd.print(current_position[Y_AXIS]);
|
||||||
|
}
|
||||||
|
}
|
||||||
break;
|
break;
|
||||||
case ItemAM_Z:
|
case ItemAM_Z:
|
||||||
MENUITEM( lcdprintPGM(" Z+") , BLOCK;enquecommand("G92 Z0");enquecommand("G1 F700 Z10");beepshort(); ) ;
|
//MENUITEM( lcdprintPGM(" Z+") , BLOCK;enquecommand("G92 Z0");enquecommand("G1 F700 Z10");beepshort(); ) ;
|
||||||
|
{
|
||||||
|
if(force_lcd_update)
|
||||||
|
{
|
||||||
|
lcd.setCursor(0,line);lcdprintPGM(" Z:");
|
||||||
|
lcd.setCursor(13,line);lcd.print(ftostr3(current_position[Z_AXIS]));
|
||||||
|
}
|
||||||
|
|
||||||
|
if((activeline!=line) )
|
||||||
|
break;
|
||||||
|
|
||||||
|
if(CLICKED)
|
||||||
|
{
|
||||||
|
linechanging=!linechanging;
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
encoderpos=current_position[Z_AXIS];
|
||||||
|
}
|
||||||
|
else
|
||||||
|
{
|
||||||
|
enquecommand("G1 F700 Z"+encoderpos);
|
||||||
|
encoderpos=activeline*lcdslow;
|
||||||
|
beepshort();
|
||||||
|
}
|
||||||
|
BLOCK;
|
||||||
|
}
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
if(encoderpos<1) encoderpos=1;
|
||||||
|
if(encoderpos>170) encoderpos=170;
|
||||||
|
lcd.setCursor(13,line);lcd.print(current_position[Z_AXIS]);
|
||||||
|
}
|
||||||
|
}
|
||||||
break;
|
break;
|
||||||
case ItemAM_E:
|
case ItemAM_E:
|
||||||
MENUITEM( lcdprintPGM(" Extrude") , BLOCK;enquecommand("G92 E0");enquecommand("G1 F700 E50");beepshort(); ) ;
|
MENUITEM( lcdprintPGM(" Extrude") , BLOCK;enquecommand("G92 E0");enquecommand("G1 F700 E10");beepshort(); ) ;
|
||||||
break;
|
break;
|
||||||
default:
|
default:
|
||||||
break;
|
break;
|
||||||
}
|
}
|
||||||
line++;
|
line++;
|
||||||
}
|
}
|
||||||
updateActiveLines(ItemAM_Z,encoderpos);
|
updateActiveLines(ItemAM_E,encoderpos);
|
||||||
}
|
}
|
||||||
|
|
||||||
enum {ItemT_exit,ItemT_speed,ItemT_flow,ItemT_nozzle,
|
enum {ItemT_exit,ItemT_speed,ItemT_flow,ItemT_nozzle,
|
||||||
@ -1189,7 +1285,7 @@ enum {
|
|||||||
ItemCM_vmaxx, ItemCM_vmaxy, ItemCM_vmaxz, ItemCM_vmaxe,
|
ItemCM_vmaxx, ItemCM_vmaxy, ItemCM_vmaxz, ItemCM_vmaxe,
|
||||||
ItemCM_vtravmin,ItemCM_vmin,
|
ItemCM_vtravmin,ItemCM_vmin,
|
||||||
ItemCM_amaxx, ItemCM_amaxy, ItemCM_amaxz, ItemCM_amaxe,
|
ItemCM_amaxx, ItemCM_amaxy, ItemCM_amaxz, ItemCM_amaxe,
|
||||||
ItemCM_aret,ItemCM_esteps
|
ItemCM_aret, ItemCM_xsteps,ItemCM_ysteps, ItemCM_zsteps, ItemCM_esteps
|
||||||
};
|
};
|
||||||
|
|
||||||
|
|
||||||
@ -1465,11 +1561,126 @@ void MainMenu::showControlMotion()
|
|||||||
}
|
}
|
||||||
|
|
||||||
}break;
|
}break;
|
||||||
|
case ItemCM_xsteps://axis_steps_per_unit[i] = code_value();
|
||||||
|
{
|
||||||
|
if(force_lcd_update)
|
||||||
|
{
|
||||||
|
lcd.setCursor(0,line);lcdprintPGM(" X steps/mm:");
|
||||||
|
lcd.setCursor(13,line);lcd.print(itostr4(axis_steps_per_unit[0]));
|
||||||
|
}
|
||||||
|
|
||||||
|
if((activeline!=line) )
|
||||||
|
break;
|
||||||
|
|
||||||
|
if(CLICKED)
|
||||||
|
{
|
||||||
|
linechanging=!linechanging;
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
encoderpos=(int)axis_steps_per_unit[0];
|
||||||
|
}
|
||||||
|
else
|
||||||
|
{
|
||||||
|
float factor=float(encoderpos)/float(axis_steps_per_unit[0]);
|
||||||
|
position[X_AXIS]=lround(position[X_AXIS]*factor);
|
||||||
|
//current_position[3]*=factor;
|
||||||
|
axis_steps_per_unit[X_AXIS]= encoderpos;
|
||||||
|
encoderpos=activeline*lcdslow;
|
||||||
|
|
||||||
|
}
|
||||||
|
BLOCK;
|
||||||
|
beepshort();
|
||||||
|
}
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
if(encoderpos<5) encoderpos=5;
|
||||||
|
if(encoderpos>9999) encoderpos=9999;
|
||||||
|
lcd.setCursor(13,line);lcd.print(itostr4(encoderpos));
|
||||||
|
}
|
||||||
|
|
||||||
|
}break;
|
||||||
|
case ItemCM_ysteps://axis_steps_per_unit[i] = code_value();
|
||||||
|
{
|
||||||
|
if(force_lcd_update)
|
||||||
|
{
|
||||||
|
lcd.setCursor(0,line);lcdprintPGM(" Y steps/mm:");
|
||||||
|
lcd.setCursor(13,line);lcd.print(itostr4(axis_steps_per_unit[1]));
|
||||||
|
}
|
||||||
|
|
||||||
|
if((activeline!=line) )
|
||||||
|
break;
|
||||||
|
|
||||||
|
if(CLICKED)
|
||||||
|
{
|
||||||
|
linechanging=!linechanging;
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
encoderpos=(int)axis_steps_per_unit[1];
|
||||||
|
}
|
||||||
|
else
|
||||||
|
{
|
||||||
|
float factor=float(encoderpos)/float(axis_steps_per_unit[1]);
|
||||||
|
position[Y_AXIS]=lround(position[Y_AXIS]*factor);
|
||||||
|
//current_position[3]*=factor;
|
||||||
|
axis_steps_per_unit[Y_AXIS]= encoderpos;
|
||||||
|
encoderpos=activeline*lcdslow;
|
||||||
|
|
||||||
|
}
|
||||||
|
BLOCK;
|
||||||
|
beepshort();
|
||||||
|
}
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
if(encoderpos<5) encoderpos=5;
|
||||||
|
if(encoderpos>9999) encoderpos=9999;
|
||||||
|
lcd.setCursor(13,line);lcd.print(itostr4(encoderpos));
|
||||||
|
}
|
||||||
|
|
||||||
|
}break;
|
||||||
|
case ItemCM_zsteps://axis_steps_per_unit[i] = code_value();
|
||||||
|
{
|
||||||
|
if(force_lcd_update)
|
||||||
|
{
|
||||||
|
lcd.setCursor(0,line);lcdprintPGM(" Z steps/mm:");
|
||||||
|
lcd.setCursor(13,line);lcd.print(itostr4(axis_steps_per_unit[2]));
|
||||||
|
}
|
||||||
|
|
||||||
|
if((activeline!=line) )
|
||||||
|
break;
|
||||||
|
|
||||||
|
if(CLICKED)
|
||||||
|
{
|
||||||
|
linechanging=!linechanging;
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
encoderpos=(int)axis_steps_per_unit[2];
|
||||||
|
}
|
||||||
|
else
|
||||||
|
{
|
||||||
|
float factor=float(encoderpos)/float(axis_steps_per_unit[2]);
|
||||||
|
position[Z_AXIS]=lround(position[Z_AXIS]*factor);
|
||||||
|
//current_position[3]*=factor;
|
||||||
|
axis_steps_per_unit[Z_AXIS]= encoderpos;
|
||||||
|
encoderpos=activeline*lcdslow;
|
||||||
|
|
||||||
|
}
|
||||||
|
BLOCK;
|
||||||
|
beepshort();
|
||||||
|
}
|
||||||
|
if(linechanging)
|
||||||
|
{
|
||||||
|
if(encoderpos<5) encoderpos=5;
|
||||||
|
if(encoderpos>9999) encoderpos=9999;
|
||||||
|
lcd.setCursor(13,line);lcd.print(itostr4(encoderpos));
|
||||||
|
}
|
||||||
|
|
||||||
|
}break;
|
||||||
|
|
||||||
case ItemCM_esteps://axis_steps_per_unit[i] = code_value();
|
case ItemCM_esteps://axis_steps_per_unit[i] = code_value();
|
||||||
{
|
{
|
||||||
if(force_lcd_update)
|
if(force_lcd_update)
|
||||||
{
|
{
|
||||||
lcd.setCursor(0,line);lcdprintPGM(" Esteps/mm:");
|
lcd.setCursor(0,line);lcdprintPGM(" E steps/mm:");
|
||||||
lcd.setCursor(13,line);lcd.print(itostr4(axis_steps_per_unit[3]));
|
lcd.setCursor(13,line);lcd.print(itostr4(axis_steps_per_unit[3]));
|
||||||
}
|
}
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user