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@ -469,12 +469,23 @@ temp_range_t Temperature::temp_range[HOTENDS] = ARRAY_BY_HOTENDS(sensor_heater_0 |
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Tu = float(t_low + t_high) * 0.001f, |
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pf = isbed ? 0.2f : 0.6f, |
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df = isbed ? 1.0f / 3.0f : 1.0f / 8.0f; |
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SERIAL_ECHOPAIR(MSG_KU, Ku, MSG_TU, Tu); |
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if (isbed) { // Do not remove this otherwise PID autotune won't work right for the bed!
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tune_pid.Kp = Ku * 0.2f; |
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tune_pid.Ki = 2 * tune_pid.Kp / Tu; |
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tune_pid.Kd = tune_pid.Kp * Tu / 3; |
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SERIAL_ECHOLNPGM("\n" " No overshoot"); // Works far better for the bed. Classic and some have bad ringing.
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SERIAL_ECHOLNPAIR(MSG_KP, tune_pid.Kp, MSG_KI, tune_pid.Ki, MSG_KD, tune_pid.Kd); |
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} |
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else { |
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tune_pid.Kp = Ku * pf; |
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tune_pid.Kd = tune_pid.Kp * Tu * df; |
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tune_pid.Ki = 2 * tune_pid.Kp / Tu; |
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SERIAL_ECHOPAIR(MSG_KU, Ku, MSG_TU, Tu); |
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SERIAL_ECHOLNPGM("\n" MSG_CLASSIC_PID); |
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SERIAL_ECHOLNPAIR(MSG_KP, tune_pid.Kp, MSG_KI, tune_pid.Ki, MSG_KD, tune_pid.Kd); |
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} |
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/**
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tune_pid.Kp = 0.33 * Ku; |
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tune_pid.Ki = tune_pid.Kp / Tu; |
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@ -850,12 +861,12 @@ float Temperature::get_pid_output_hotend(const uint8_t e) { |
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} |
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work_pid[ee].Kd = work_pid[ee].Kd + PID_K2 * (PID_PARAM(Kd, ee) * (temp_dState[ee] - temp_hotend[ee].current) - work_pid[ee].Kd); |
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const float max_power_over_i_gain = (float)PID_MAX / PID_PARAM(Ki, ee); |
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const float max_power_over_i_gain = float(PID_MAX) / PID_PARAM(Ki, ee) - float(MIN_POWER); |
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temp_iState[ee] = constrain(temp_iState[ee] + pid_error, 0, max_power_over_i_gain); |
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work_pid[ee].Kp = PID_PARAM(Kp, ee) * pid_error; |
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work_pid[ee].Ki = PID_PARAM(Ki, ee) * temp_iState[ee]; |
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pid_output = work_pid[ee].Kp + work_pid[ee].Ki + work_pid[ee].Kd; |
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pid_output = work_pid[ee].Kp + work_pid[ee].Ki + work_pid[ee].Kd + float(MIN_POWER); |
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#if ENABLED(PID_EXTRUSION_SCALING) |
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work_pid[ee].Kc = 0; |
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@ -885,6 +896,7 @@ float Temperature::get_pid_output_hotend(const uint8_t e) { |
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#endif // PID_OPENLOOP
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#if ENABLED(PID_DEBUG) |
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if (e == active_extruder) { |
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SERIAL_ECHO_START(); |
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SERIAL_ECHOPAIR( |
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MSG_PID_DEBUG, ee, |
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@ -902,6 +914,7 @@ float Temperature::get_pid_output_hotend(const uint8_t e) { |
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); |
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#endif |
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SERIAL_EOL(); |
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} |
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#endif // PID_DEBUG
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#else // No PID enabled
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@ -927,10 +940,26 @@ float Temperature::get_pid_output_hotend(const uint8_t e) { |
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static PID_t work_pid = { 0 }; |
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static float temp_iState = 0, temp_dState = 0; |
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const float max_power_over_i_gain = (float)MAX_BED_POWER / temp_bed.pid.Ki, |
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static bool pid_reset = true; |
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float pid_output = 0; |
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const float max_power_over_i_gain = float(MAX_BED_POWER) / temp_bed.pid.Ki - float(MIN_BED_POWER), |
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pid_error = temp_bed.target - temp_bed.current; |
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if (!temp_bed.target || pid_error < -(PID_FUNCTIONAL_RANGE)) { |
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pid_output = 0; |
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pid_reset = true; |
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} |
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else if (pid_error > PID_FUNCTIONAL_RANGE) { |
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pid_output = BANG_MAX; |
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pid_reset = true; |
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} |
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else { |
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if (pid_reset) { |
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temp_iState = 0.0; |
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work_pid.Kd = 0.0; |
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pid_reset = false; |
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} |
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temp_iState = constrain(temp_iState + pid_error, 0, max_power_over_i_gain); |
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work_pid.Kp = temp_bed.pid.Kp * pid_error; |
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@ -939,7 +968,8 @@ float Temperature::get_pid_output_hotend(const uint8_t e) { |
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temp_dState = temp_bed.current; |
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const float pid_output = constrain(work_pid.Kp + work_pid.Ki + work_pid.Kd, 0, MAX_BED_POWER); |
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pid_output = constrain(work_pid.Kp + work_pid.Ki + work_pid.Kd + float(MIN_BED_POWER), 0, MAX_BED_POWER); |
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} |
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#else // PID_OPENLOOP
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