bed pid
Conflicts: Marlin/Configuration.h
This commit is contained in:
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@ -95,10 +95,11 @@
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// PID settings:
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// PID settings:
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// Comment the following line to disable PID and enable bang-bang.
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// Comment the following line to disable PID and enable bang-bang.
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#define PIDTEMP
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#define PIDTEMP
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#define PIDTEMPBED
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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/M140 sets the output power from 0 to PID_MAX
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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 ((16.0 * 8.0)/(F_CPU / 64.0 / 256.0)) //sampling period of the
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#define PID_dT ((16.0 * 8.0)/(F_CPU / 64.0 / 256.0)) //sampling period of the
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@ -114,6 +115,16 @@
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// #define DEFAULT_Ki 0.1
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// #define DEFAULT_Ki 0.1
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// #define DEFAULT_Kd 12
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// #define DEFAULT_Kd 12
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//from FOPDT model - kp=.39 Tp=405 Tdead=66, Tc set to 79.2, argressive factor of .15 (vs .1, 1, 10)
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#define DEFAULT_bedKp 10.00
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#define DEFAULT_bedKi .023
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#define DEFAULT_bedKd 305.4
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//mark from pidautotune
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// #define DEFAULT_bedKp 97.1
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// #define DEFAULT_bedKi 1.41
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// #define DEFAULT_bedKd 1675.16
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// Mendel Parts V9 on 12V
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// Mendel Parts V9 on 12V
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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
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// #define DEFAULT_Ki 2.25
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@ -113,6 +113,7 @@
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// M221 S<factor in percent>- set extrude factor override percentage
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// M221 S<factor in percent>- set extrude factor override percentage
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// M240 - Trigger a camera to take a photograph
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// M240 - Trigger a camera to take a photograph
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// M301 - Set PID parameters P I and D
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// M301 - Set PID parameters P I and D
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// M304 - Set bed PID parameters P I and D
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// M302 - Allow cold extrudes
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// M302 - Allow cold extrudes
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// M303 - PID relay autotune S<temperature> sets the target temperature. (default target temperature = 150C)
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// M303 - PID relay autotune S<temperature> sets the target temperature. (default target temperature = 150C)
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// M400 - Finish all moves
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// M400 - Finish all moves
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@ -1002,6 +1003,10 @@ void process_commands()
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#ifdef PIDTEMP
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#ifdef PIDTEMP
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SERIAL_PROTOCOLPGM(" @:");
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SERIAL_PROTOCOLPGM(" @:");
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SERIAL_PROTOCOL(getHeaterPower(tmp_extruder));
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SERIAL_PROTOCOL(getHeaterPower(tmp_extruder));
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#endif
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#ifdef PIDTEMPBED
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SERIAL_PROTOCOLPGM(" B@:");
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SERIAL_PROTOCOL(getHeaterPower(-1));
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#endif
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#endif
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SERIAL_PROTOCOLLN("");
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SERIAL_PROTOCOLLN("");
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return;
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return;
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@ -1405,6 +1410,24 @@ void process_commands()
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}
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}
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break;
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break;
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#endif //PIDTEMP
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#endif //PIDTEMP
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#ifdef PIDTEMPBED
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case 304: // M304
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{
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if(code_seen('P')) bedKp = code_value();
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if(code_seen('I')) bedKi = code_value()*PID_dT;
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if(code_seen('D')) bedKd = code_value()/PID_dT;
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updatePID();
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SERIAL_PROTOCOL(MSG_OK);
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SERIAL_PROTOCOL(" p:");
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SERIAL_PROTOCOL(Kp);
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SERIAL_PROTOCOL(" i:");
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SERIAL_PROTOCOL(Ki/PID_dT);
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SERIAL_PROTOCOL(" d:");
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SERIAL_PROTOCOL(Kd*PID_dT);
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SERIAL_PROTOCOLLN("");
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}
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break;
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#endif //PIDTEMP
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case 240: // M240 Triggers a camera by emulating a Canon RC-1 : http://www.doc-diy.net/photo/rc-1_hacked/
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case 240: // M240 Triggers a camera by emulating a Canon RC-1 : http://www.doc-diy.net/photo/rc-1_hacked/
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{
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{
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#ifdef PHOTOGRAPH_PIN
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#ifdef PHOTOGRAPH_PIN
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@ -1437,8 +1460,14 @@ void process_commands()
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case 303: // M303 PID autotune
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case 303: // M303 PID autotune
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{
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{
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float temp = 150.0;
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float temp = 150.0;
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int e=0;
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int c=5;
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if (code_seen('E')) e=code_value();
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if (e<0)
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temp=70;
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if (code_seen('S')) temp=code_value();
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if (code_seen('S')) temp=code_value();
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PID_autotune(temp);
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if (code_seen('C')) c=code_value();
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PID_autotune(temp, e, c);
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}
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}
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break;
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break;
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case 400: // M400 finish all moves
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case 400: // M400 finish all moves
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@ -58,15 +58,21 @@ int current_raw_bed = 0;
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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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#ifdef PIDTEMPBED
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// used external
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float pid_setpoint_bed = { 0.0 };
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float bedKp=DEFAULT_bedKp;
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float bedKi=(DEFAULT_bedKi*PID_dT);
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float bedKd=(DEFAULT_bedKd/PID_dT);
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#endif //PIDTEMPBED
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//===========================================================================
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//===========================================================================
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//=============================private variables============================
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//=============================private variables============================
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//===========================================================================
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//===========================================================================
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static volatile bool temp_meas_ready = false;
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static volatile bool temp_meas_ready = false;
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static unsigned long previous_millis_bed_heater;
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//static unsigned long previous_millis_heater;
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#ifdef PIDTEMP
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#ifdef PIDTEMP
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//static cannot be external:
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//static cannot be external:
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static float temp_iState[EXTRUDERS] = { 0 };
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static float temp_iState[EXTRUDERS] = { 0 };
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@ -82,7 +88,20 @@ static unsigned long previous_millis_bed_heater;
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// static float pid_output[EXTRUDERS];
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// static float pid_output[EXTRUDERS];
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static bool pid_reset[EXTRUDERS];
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static bool pid_reset[EXTRUDERS];
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#endif //PIDTEMP
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#endif //PIDTEMP
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#ifdef PIDTEMPBED
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//static cannot be external:
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static float temp_iState_bed = { 0 };
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static float temp_dState_bed = { 0 };
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static float pTerm_bed;
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static float iTerm_bed;
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static float dTerm_bed;
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//int output;
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static float pid_error_bed;
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static float temp_iState_min_bed;
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static float temp_iState_max_bed;
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#endif //PIDTEMPBED
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static unsigned char soft_pwm[EXTRUDERS];
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static unsigned char soft_pwm[EXTRUDERS];
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static unsigned char soft_pwm_bed;
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#ifdef WATCHPERIOD
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#ifdef WATCHPERIOD
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int watch_raw[EXTRUDERS] = { -1000 }; // the first value used for all
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int watch_raw[EXTRUDERS] = { -1000 }; // the first value used for all
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@ -122,7 +141,7 @@ static unsigned long previous_millis_bed_heater;
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//============================= functions ============================
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//============================= functions ============================
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//===========================================================================
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//===========================================================================
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void PID_autotune(float temp)
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void PID_autotune(float temp, int extruder, int ncycles)
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{
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{
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float input;
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float input;
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int cycles=0;
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int cycles=0;
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@ -140,26 +159,44 @@ void PID_autotune(float temp)
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float Kp, Ki, Kd;
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float Kp, Ki, Kd;
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float max, min;
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float max, min;
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if ((extruder > EXTRUDERS)
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#if (TEMP_BED_PIN <= -1)
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||(extruder < 0)
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#endif
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){
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SERIAL_ECHOLN("PID Autotune failed. Bad extruder number.");
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return;
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}
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SERIAL_ECHOLN("PID Autotune start");
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SERIAL_ECHOLN("PID Autotune start");
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disable_heater(); // switch off all heaters.
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disable_heater(); // switch off all heaters.
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soft_pwm[0] = PID_MAX/2;
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if (extruder<0)
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soft_pwm_bed = PID_MAX/2;
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else
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soft_pwm[extruder] = PID_MAX/2;
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for(;;) {
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for(;;) {
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if(temp_meas_ready == true) { // temp sample ready
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if(temp_meas_ready == true) { // temp sample ready
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CRITICAL_SECTION_START;
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CRITICAL_SECTION_START;
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temp_meas_ready = false;
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temp_meas_ready = false;
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CRITICAL_SECTION_END;
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CRITICAL_SECTION_END;
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input = analog2temp(current_raw[0], 0);
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input = (extruder<0)?analog2tempBed(current_raw_bed):analog2temp(current_raw[extruder], extruder);
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max=max(max,input);
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max=max(max,input);
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min=min(min,input);
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min=min(min,input);
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if(heating == true && input > temp) {
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if(heating == true && input > temp) {
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if(millis() - t2 > 5000) {
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if(millis() - t2 > 5000) {
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heating=false;
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heating=false;
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soft_pwm[0] = (bias - d) >> 1;
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if (extruder<0)
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soft_pwm_bed = (bias - d) >> 1;
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else
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soft_pwm[extruder] = (bias - d) >> 1;
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t1=millis();
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t1=millis();
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t_high=t1 - t2;
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t_high=t1 - t2;
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max=temp;
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max=temp;
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*/
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*/
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}
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}
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}
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}
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soft_pwm[0] = (bias + d) >> 1;
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if (extruder<0)
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soft_pwm_bed = (bias + d) >> 1;
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else
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soft_pwm[extruder] = (bias + d) >> 1;
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cycles++;
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cycles++;
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min=temp;
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min=temp;
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}
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}
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return;
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return;
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}
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}
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if(millis() - temp_millis > 2000) {
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if(millis() - temp_millis > 2000) {
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temp_millis = millis();
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int p;
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SERIAL_PROTOCOLPGM("ok T:");
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if (extruder<0){
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SERIAL_PROTOCOL(degHotend(0));
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p=soft_pwm_bed;
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SERIAL_PROTOCOLPGM("ok B:");
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}else{
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p=soft_pwm[extruder];
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SERIAL_PROTOCOLPGM("ok T:");
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}
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SERIAL_PROTOCOL(input);
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SERIAL_PROTOCOLPGM(" @:");
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SERIAL_PROTOCOLPGM(" @:");
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SERIAL_PROTOCOLLN(getHeaterPower(0));
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SERIAL_PROTOCOLLN(p);
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temp_millis = millis();
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}
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}
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if(((millis() - t1) + (millis() - t2)) > (10L*60L*1000L*2L)) {
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if(((millis() - t1) + (millis() - t2)) > (10L*60L*1000L*2L)) {
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SERIAL_PROTOCOLLNPGM("PID Autotune failed! timeout");
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SERIAL_PROTOCOLLNPGM("PID Autotune failed! timeout");
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return;
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return;
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}
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}
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if(cycles > 5) {
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if(cycles > ncycles) {
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SERIAL_PROTOCOLLNPGM("PID Autotune finished ! Place the Kp, Ki and Kd constants in the configuration.h");
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SERIAL_PROTOCOLLNPGM("PID Autotune finished ! Place the Kp, Ki and Kd constants in the configuration.h");
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return;
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return;
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}
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}
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@ -245,19 +294,18 @@ void updatePID()
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for(int e = 0; e < EXTRUDERS; e++) {
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for(int e = 0; e < EXTRUDERS; e++) {
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temp_iState_max[e] = PID_INTEGRAL_DRIVE_MAX / Ki;
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temp_iState_max[e] = PID_INTEGRAL_DRIVE_MAX / Ki;
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}
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}
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temp_iState_max_bed = PID_INTEGRAL_DRIVE_MAX / bedKi;
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#endif
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#endif
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}
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}
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int getHeaterPower(int heater) {
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int getHeaterPower(int heater) {
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if (heater<0)
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return soft_pwm_bed;
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return soft_pwm[heater];
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return soft_pwm[heater];
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}
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}
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void manage_heater()
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void manage_heater()
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{
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{
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#ifdef HEATER_BED_DUTY_CYCLE_DIVIDER
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static int bed_needs_heating=0;
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static int bed_is_on=0;
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#endif
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#ifdef USE_WATCHDOG
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#ifdef USE_WATCHDOG
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wd_reset();
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wd_reset();
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temp_iState[e] += pid_error[e];
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temp_iState[e] += pid_error[e];
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temp_iState[e] = constrain(temp_iState[e], temp_iState_min[e], temp_iState_max[e]);
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temp_iState[e] = constrain(temp_iState[e], temp_iState_min[e], temp_iState_max[e]);
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iTerm[e] = Ki * temp_iState[e];
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iTerm[e] = Ki * temp_iState[e];
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//K1 defined in Configuration.h in the PID settings
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//K1 defined in Configuration.h in the PID settings
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#define K2 (1.0-K1)
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#define K2 (1.0-K1)
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dTerm[e] = (Kd * (pid_input - temp_dState[e]))*K2 + (K1 * dTerm[e]);
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dTerm[e] = (Kd * (pid_input - temp_dState[e]))*K2 + (K1 * dTerm[e]);
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temp_dState[e] = pid_input;
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temp_dState[e] = pid_input;
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pid_output = constrain(pTerm[e] + iTerm[e] - dTerm[e], 0, PID_MAX);
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pid_output = constrain(pTerm[e] + iTerm[e] - dTerm[e], 0, PID_MAX);
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}
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}
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#else
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pid_output = constrain(pid_setpoint[e], 0, PID_MAX);
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#endif //PID_OPENLOOP
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#endif //PID_OPENLOOP
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#ifdef PID_DEBUG
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#ifdef PID_DEBUG
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SERIAL_ECHOLN(" PIDDEBUG "<<e<<": Input "<<pid_input<<" Output "<<pid_output" pTerm "<<pTerm[e]<<" iTerm "<<iTerm[e]<<" dTerm "<<dTerm[e]);
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SERIAL_ECHOLN(" PIDDEBUG "<<e<<": Input "<<pid_input<<" Output "<<pid_output" pTerm "<<pTerm[e]<<" iTerm "<<iTerm[e]<<" dTerm "<<dTerm[e]);
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}
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}
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#endif
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#endif
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#ifdef HEATER_BED_DUTY_CYCLE_DIVIDER
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if (bed_needs_heating){
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if (bed_is_on==0)
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WRITE(HEATER_BED_PIN,HIGH);
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if (bed_is_on==1)
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WRITE(HEATER_BED_PIN,LOW);
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bed_is_on=(bed_is_on+1) % HEATER_BED_DUTY_CYCLE_DIVIDER;
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}
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#endif
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#ifndef PIDTEMPBED
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if(millis() - previous_millis_bed_heater < BED_CHECK_INTERVAL)
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if(millis() - previous_millis_bed_heater < BED_CHECK_INTERVAL)
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return;
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return;
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previous_millis_bed_heater = millis();
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previous_millis_bed_heater = millis();
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#endif
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#if TEMP_BED_PIN > -1
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#if TEMP_BED_PIN > -1
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#ifdef HEATER_BED_DUTY_CYCLE_DIVIDER
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#ifdef PIDTEMPBED
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bed_needs_heating=0;
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pid_input = analog2tempBed(current_raw_bed);
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#endif
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#ifndef BED_LIMIT_SWITCHING
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#ifndef PID_OPENLOOP
|
||||||
|
pid_error_bed = pid_setpoint_bed - pid_input;
|
||||||
|
pTerm_bed = bedKp * pid_error_bed;
|
||||||
|
temp_iState_bed += pid_error_bed;
|
||||||
|
temp_iState_bed = constrain(temp_iState_bed, temp_iState_min_bed, temp_iState_max_bed);
|
||||||
|
iTerm_bed = bedKi * temp_iState_bed;
|
||||||
|
|
||||||
|
//K1 defined in Configuration.h in the PID settings
|
||||||
|
#define K2 (1.0-K1)
|
||||||
|
dTerm_bed= (bedKd * (pid_input - temp_dState_bed))*K2 + (K1 * dTerm_bed);
|
||||||
|
temp_dState_bed = pid_input;
|
||||||
|
|
||||||
|
pid_output = constrain(pTerm_bed + iTerm_bed - dTerm_bed, 0, PID_MAX);
|
||||||
|
|
||||||
|
#else
|
||||||
|
pid_output = constrain(pid_setpoint_bed, 0, PID_MAX);
|
||||||
|
#endif //PID_OPENLOOP
|
||||||
|
|
||||||
|
if((current_raw_bed > bed_minttemp) && (current_raw_bed < bed_maxttemp))
|
||||||
|
{
|
||||||
|
soft_pwm_bed = (int)pid_output >> 1;
|
||||||
|
}
|
||||||
|
else {
|
||||||
|
soft_pwm_bed = 0;
|
||||||
|
}
|
||||||
|
|
||||||
|
#elif not defined BED_LIMIT_SWITCHING
|
||||||
// Check if temperature is within the correct range
|
// Check if temperature is within the correct range
|
||||||
if((current_raw_bed > bed_minttemp) && (current_raw_bed < bed_maxttemp)) {
|
if((current_raw_bed > bed_minttemp) && (current_raw_bed < bed_maxttemp)) {
|
||||||
if(current_raw_bed >= target_raw_bed)
|
if(current_raw_bed >= target_raw_bed)
|
||||||
{
|
{
|
||||||
WRITE(HEATER_BED_PIN,LOW);
|
soft_pwm_bed = 0;
|
||||||
}
|
}
|
||||||
else
|
else
|
||||||
{
|
{
|
||||||
#ifdef HEATER_BED_DUTY_CYCLE_DIVIDER
|
soft_pwm_bed = 100;
|
||||||
bed_needs_heating=1;
|
|
||||||
#endif
|
|
||||||
WRITE(HEATER_BED_PIN,HIGH);
|
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
else {
|
else {
|
||||||
|
soft_pwm_bed = 0;
|
||||||
WRITE(HEATER_BED_PIN,LOW);
|
WRITE(HEATER_BED_PIN,LOW);
|
||||||
}
|
}
|
||||||
#else //#ifdef BED_LIMIT_SWITCHING
|
#else //#ifdef BED_LIMIT_SWITCHING
|
||||||
|
@ -381,18 +449,16 @@ void manage_heater()
|
||||||
if((current_raw_bed > bed_minttemp) && (current_raw_bed < bed_maxttemp)) {
|
if((current_raw_bed > bed_minttemp) && (current_raw_bed < bed_maxttemp)) {
|
||||||
if(current_raw_bed > target_bed_high_temp)
|
if(current_raw_bed > target_bed_high_temp)
|
||||||
{
|
{
|
||||||
WRITE(HEATER_BED_PIN,LOW);
|
soft_pwm_bed = 0;
|
||||||
}
|
}
|
||||||
else
|
else
|
||||||
if(current_raw_bed <= target_bed_low_temp)
|
if(current_raw_bed <= target_bed_low_temp)
|
||||||
{
|
{
|
||||||
#ifdef HEATER_BED_DUTY_CYCLE_DIVIDER
|
soft_pwm_bed = 100;
|
||||||
bed_needs_heating=1;
|
|
||||||
#endif
|
|
||||||
WRITE(HEATER_BED_PIN,HIGH);
|
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
else {
|
else {
|
||||||
|
soft_pwm_bed = 0;
|
||||||
WRITE(HEATER_BED_PIN,LOW);
|
WRITE(HEATER_BED_PIN,LOW);
|
||||||
}
|
}
|
||||||
#endif
|
#endif
|
||||||
|
@ -567,6 +633,8 @@ void tp_init()
|
||||||
#ifdef PIDTEMP
|
#ifdef PIDTEMP
|
||||||
temp_iState_min[e] = 0.0;
|
temp_iState_min[e] = 0.0;
|
||||||
temp_iState_max[e] = PID_INTEGRAL_DRIVE_MAX / Ki;
|
temp_iState_max[e] = PID_INTEGRAL_DRIVE_MAX / Ki;
|
||||||
|
temp_iState_min_bed = 0.0;
|
||||||
|
temp_iState_max_bed = PID_INTEGRAL_DRIVE_MAX / bedKi;
|
||||||
#endif //PIDTEMP
|
#endif //PIDTEMP
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -728,6 +796,7 @@ void disable_heater()
|
||||||
|
|
||||||
#if TEMP_BED_PIN > -1
|
#if TEMP_BED_PIN > -1
|
||||||
target_raw_bed=0;
|
target_raw_bed=0;
|
||||||
|
soft_pwm_bed=0;
|
||||||
#if HEATER_BED_PIN > -1
|
#if HEATER_BED_PIN > -1
|
||||||
WRITE(HEATER_BED_PIN,LOW);
|
WRITE(HEATER_BED_PIN,LOW);
|
||||||
#endif
|
#endif
|
||||||
|
@ -832,6 +901,7 @@ ISR(TIMER0_COMPB_vect)
|
||||||
static unsigned char soft_pwm_0;
|
static unsigned char soft_pwm_0;
|
||||||
static unsigned char soft_pwm_1;
|
static unsigned char soft_pwm_1;
|
||||||
static unsigned char soft_pwm_2;
|
static unsigned char soft_pwm_2;
|
||||||
|
static unsigned char soft_pwm_b;
|
||||||
|
|
||||||
if(pwm_count == 0){
|
if(pwm_count == 0){
|
||||||
soft_pwm_0 = soft_pwm[0];
|
soft_pwm_0 = soft_pwm[0];
|
||||||
|
@ -844,6 +914,10 @@ ISR(TIMER0_COMPB_vect)
|
||||||
soft_pwm_2 = soft_pwm[2];
|
soft_pwm_2 = soft_pwm[2];
|
||||||
if(soft_pwm_2 > 0) WRITE(HEATER_2_PIN,1);
|
if(soft_pwm_2 > 0) WRITE(HEATER_2_PIN,1);
|
||||||
#endif
|
#endif
|
||||||
|
#if HEATER_BED_PIN > -1
|
||||||
|
soft_pwm_b = soft_pwm_bed;
|
||||||
|
if(soft_pwm_b > 0) WRITE(HEATER_BED_PIN,1);
|
||||||
|
#endif
|
||||||
}
|
}
|
||||||
if(soft_pwm_0 <= pwm_count) WRITE(HEATER_0_PIN,0);
|
if(soft_pwm_0 <= pwm_count) WRITE(HEATER_0_PIN,0);
|
||||||
#if EXTRUDERS > 1
|
#if EXTRUDERS > 1
|
||||||
|
@ -852,6 +926,9 @@ ISR(TIMER0_COMPB_vect)
|
||||||
#if EXTRUDERS > 2
|
#if EXTRUDERS > 2
|
||||||
if(soft_pwm_2 <= pwm_count) WRITE(HEATER_2_PIN,0);
|
if(soft_pwm_2 <= pwm_count) WRITE(HEATER_2_PIN,0);
|
||||||
#endif
|
#endif
|
||||||
|
#if HEATER_BED_PIN > -1
|
||||||
|
if(soft_pwm_b <= pwm_count) WRITE(HEATER_BED_PIN,0);
|
||||||
|
#endif
|
||||||
|
|
||||||
pwm_count++;
|
pwm_count++;
|
||||||
pwm_count &= 0x7f;
|
pwm_count &= 0x7f;
|
||||||
|
|
|
@ -46,11 +46,15 @@ extern int current_raw_bed;
|
||||||
extern int target_bed_low_temp ;
|
extern int target_bed_low_temp ;
|
||||||
extern int target_bed_high_temp ;
|
extern int target_bed_high_temp ;
|
||||||
#endif
|
#endif
|
||||||
extern float Kp,Ki,Kd,Kc;
|
|
||||||
|
|
||||||
#ifdef PIDTEMP
|
#ifdef PIDTEMP
|
||||||
|
extern float Kp,Ki,Kd,Kc;
|
||||||
extern float pid_setpoint[EXTRUDERS];
|
extern float pid_setpoint[EXTRUDERS];
|
||||||
#endif
|
#endif
|
||||||
|
#ifdef PIDTEMPBED
|
||||||
|
extern float bedKp,bedKi,bedKd;
|
||||||
|
extern float pid_setpoint_bed;
|
||||||
|
#endif
|
||||||
|
|
||||||
// #ifdef WATCHPERIOD
|
// #ifdef WATCHPERIOD
|
||||||
extern int watch_raw[EXTRUDERS] ;
|
extern int watch_raw[EXTRUDERS] ;
|
||||||
|
@ -88,7 +92,9 @@ FORCE_INLINE void setTargetHotend(const float &celsius, uint8_t extruder) {
|
||||||
FORCE_INLINE void setTargetBed(const float &celsius) {
|
FORCE_INLINE void setTargetBed(const float &celsius) {
|
||||||
|
|
||||||
target_raw_bed = temp2analogBed(celsius);
|
target_raw_bed = temp2analogBed(celsius);
|
||||||
#ifdef BED_LIMIT_SWITCHING
|
#ifdef PIDTEMPBED
|
||||||
|
pid_setpoint_bed = celsius;
|
||||||
|
#elif defined BED_LIMIT_SWITCHING
|
||||||
if(celsius>BED_HYSTERESIS)
|
if(celsius>BED_HYSTERESIS)
|
||||||
{
|
{
|
||||||
target_bed_low_temp= temp2analogBed(celsius-BED_HYSTERESIS);
|
target_bed_low_temp= temp2analogBed(celsius-BED_HYSTERESIS);
|
||||||
|
@ -163,7 +169,7 @@ FORCE_INLINE void autotempShutdown(){
|
||||||
#endif
|
#endif
|
||||||
}
|
}
|
||||||
|
|
||||||
void PID_autotune(float temp);
|
void PID_autotune(float temp, int extruder, int ncycles);
|
||||||
|
|
||||||
#endif
|
#endif
|
||||||
|
|
||||||
|
|
Loading…
Reference in a new issue