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🎨 Misc. Spindle/Laser (etc.) cleanup
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@ -52,9 +52,9 @@ cutter_power_t SpindleLaser::menuPower, // Power s
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#endif
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#define SPINDLE_LASER_PWM_OFF TERN(SPINDLE_LASER_PWM_INVERT, 255, 0)
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//
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// Init the cutter to a safe OFF state
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//
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/**
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* Init the cutter to a safe OFF state
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*/
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void SpindleLaser::init() {
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#if ENABLED(SPINDLE_SERVO)
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MOVE_SERVO(SPINDLE_SERVO_NR, SPINDLE_SERVO_MIN);
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@ -86,6 +86,8 @@ void SpindleLaser::init() {
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#if ENABLED(SPINDLE_LASER_PWM)
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/**
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* Set the cutter PWM directly to the given ocr value
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*
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* @param ocr Power value
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*/
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void SpindleLaser::_set_ocr(const uint8_t ocr) {
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#if NEEDS_HARDWARE_PWM && SPINDLE_LASER_FREQUENCY
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@ -105,11 +107,15 @@ void SpindleLaser::init() {
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WRITE(SPINDLE_LASER_ENA_PIN, !SPINDLE_LASER_ACTIVE_STATE); // Cutter OFF
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_set_ocr(0);
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}
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#endif
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#endif // SPINDLE_LASER_PWM
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//
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// Set cutter ON/OFF state (and PWM) to the given cutter power value
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//
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/**
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* Apply power for laser/spindle
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*
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* Apply cutter power value for PWM, Servo, and on/off pin.
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*
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* @param opwr Power value. Range 0 to MAX. When 0 disable spindle/laser.
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*/
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void SpindleLaser::apply_power(const uint8_t opwr) {
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static uint8_t last_power_applied = 0;
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if (opwr == last_power_applied) return;
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@ -137,10 +143,10 @@ void SpindleLaser::apply_power(const uint8_t opwr) {
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}
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#if ENABLED(SPINDLE_CHANGE_DIR)
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//
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// Set the spindle direction and apply immediately
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// Stop on direction change if SPINDLE_STOP_ON_DIR_CHANGE is enabled
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//
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/**
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* Set the spindle direction and apply immediately
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* Stop on direction change if SPINDLE_STOP_ON_DIR_CHANGE is enabled
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*/
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void SpindleLaser::set_reverse(const bool reverse) {
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const bool dir_state = (reverse == SPINDLE_INVERT_DIR); // Forward (M3) HIGH when not inverted
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if (TERN0(SPINDLE_STOP_ON_DIR_CHANGE, enabled()) && READ(SPINDLE_DIR_PIN) != dir_state) disable();
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@ -149,25 +155,17 @@ void SpindleLaser::apply_power(const uint8_t opwr) {
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#endif
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#if ENABLED(AIR_EVACUATION)
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// Enable / disable Cutter Vacuum or Laser Blower motor
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void SpindleLaser::air_evac_enable() { WRITE(AIR_EVACUATION_PIN, AIR_EVACUATION_ACTIVE); } // Turn ON
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void SpindleLaser::air_evac_disable() { WRITE(AIR_EVACUATION_PIN, !AIR_EVACUATION_ACTIVE); } // Turn OFF
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void SpindleLaser::air_evac_toggle() { TOGGLE(AIR_EVACUATION_PIN); } // Toggle state
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#endif // AIR_EVACUATION
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#endif
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#if ENABLED(AIR_ASSIST)
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// Enable / disable air assist
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void SpindleLaser::air_assist_enable() { WRITE(AIR_ASSIST_PIN, AIR_ASSIST_PIN); } // Turn ON
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void SpindleLaser::air_assist_disable() { WRITE(AIR_ASSIST_PIN, !AIR_ASSIST_PIN); } // Turn OFF
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void SpindleLaser::air_assist_toggle() { TOGGLE(AIR_ASSIST_PIN); } // Toggle state
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#endif // AIR_ASSIST
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#endif
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#endif // HAS_CUTTER
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@ -132,54 +132,50 @@ public:
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public:
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static void set_ocr(const uint8_t ocr);
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static inline void set_ocr_power(const uint8_t ocr) { power = ocr; set_ocr(ocr); }
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static inline void ocr_set_power(const uint8_t ocr) { power = ocr; set_ocr(ocr); }
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static void ocr_off();
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// Used to update output for power->OCR translation
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/**
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* Update output for power->OCR translation
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*/
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static inline uint8_t upower_to_ocr(const cutter_power_t upwr) {
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return (
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return uint8_t(
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#if CUTTER_UNIT_IS(PWM255)
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uint8_t(upwr)
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upwr
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#elif CUTTER_UNIT_IS(PERCENT)
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pct_to_ocr(upwr)
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#else
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uint8_t(pct_to_ocr(cpwr_to_pct(upwr)))
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pct_to_ocr(cpwr_to_pct(upwr))
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#endif
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);
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}
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// Correct power to configured range
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/**
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* Correct power to configured range
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*/
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static inline cutter_power_t power_to_range(const cutter_power_t pwr) {
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return power_to_range(pwr, (
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#if CUTTER_UNIT_IS(PWM255)
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0
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#elif CUTTER_UNIT_IS(PERCENT)
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1
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#elif CUTTER_UNIT_IS(RPM)
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2
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#else
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#error "CUTTER_UNIT_IS(unknown)"
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#endif
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));
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return power_to_range(pwr, _CUTTER_POWER(CUTTER_POWER_UNIT));
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}
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static inline cutter_power_t power_to_range(const cutter_power_t pwr, const uint8_t pwrUnit) {
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if (pwr <= 0) return 0;
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cutter_power_t upwr;
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switch (pwrUnit) {
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case 0: // PWM
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case _CUTTER_POWER_PWM255:
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upwr = cutter_power_t(
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(pwr < pct_to_ocr(min_pct)) ? pct_to_ocr(min_pct) // Use minimum if set below
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: (pwr > pct_to_ocr(max_pct)) ? pct_to_ocr(max_pct) // Use maximum if set above
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: pwr
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);
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break;
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case 1: // PERCENT
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case _CUTTER_POWER_PERCENT:
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upwr = cutter_power_t(
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(pwr < min_pct) ? min_pct // Use minimum if set below
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: (pwr > max_pct) ? max_pct // Use maximum if set above
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: pwr // PCT
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);
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break;
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case 2: // RPM
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case _CUTTER_POWER_RPM:
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upwr = cutter_power_t(
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(pwr < SPEED_POWER_MIN) ? SPEED_POWER_MIN // Use minimum if set below
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: (pwr > SPEED_POWER_MAX) ? SPEED_POWER_MAX // Use maximum if set above
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@ -190,14 +186,34 @@ public:
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}
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return upwr;
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}
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#endif // SPINDLE_LASER_PWM
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/**
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* Enable/Disable spindle/laser
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* @param enable true = enable; false = disable
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*/
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static inline void set_enabled(const bool enable) {
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set_power(enable ? TERN(SPINDLE_LASER_PWM, (power ?: (unitPower ? upower_to_ocr(cpwr_to_upwr(SPEED_POWER_STARTUP)) : 0)), 255) : 0);
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uint8_t value = 0;
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if (enable) {
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#if ENABLED(SPINDLE_LASER_PWM)
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if (power)
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value = power;
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else if (unitPower)
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value = upower_to_ocr(cpwr_to_upwr(SPEED_POWER_STARTUP));
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#else
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value = 255;
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#endif
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}
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set_power(value);
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}
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// Wait for spindle to spin up or spin down
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static inline void disable() { isReady = false; set_enabled(false); }
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/**
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* Wait for spindle to spin up or spin down
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*
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* @param on true = state to on; false = state to off.
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*/
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static inline void power_delay(const bool on) {
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#if DISABLED(LASER_POWER_INLINE)
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safe_delay(on ? SPINDLE_LASER_POWERUP_DELAY : SPINDLE_LASER_POWERDOWN_DELAY);
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@ -230,8 +246,6 @@ public:
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}
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#endif
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static inline void disable() { isReady = false; set_enabled(false); }
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#if HAS_LCD_MENU
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static inline void enable_with_dir(const bool reverse) {
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isReady = true;
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@ -325,7 +339,7 @@ public:
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planner.laser_inline.power = ocrpwr;
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}
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#endif
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#endif // LASER_POWER_INLINE
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#endif // LASER_POWER_INLINE
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static inline void kill() {
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TERN_(LASER_POWER_INLINE, inline_disable());
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@ -108,7 +108,7 @@ void GcodeSuite::M3_M4(const bool is_M4) {
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#if ENABLED(SPINDLE_LASER_PWM)
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if (parser.seenval('O')) {
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cutter.unitPower = cutter.power_to_range(parser.value_byte(), 0);
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cutter.set_ocr_power(cutter.unitPower); // The OCR is a value from 0 to 255 (uint8_t)
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cutter.ocr_set_power(cutter.unitPower); // The OCR is a value from 0 to 255 (uint8_t)
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}
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else
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cutter.set_power(cutter.upower_to_ocr(get_s_power()));
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@ -1914,7 +1914,7 @@ uint32_t Stepper::block_phase_isr() {
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laser_trap.acc_step_count += current_block->laser.entry_per;
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if (laser_trap.cur_power < current_block->laser.power) laser_trap.cur_power++;
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}
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cutter.set_ocr_power(laser_trap.cur_power);
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cutter.ocr_set_power(laser_trap.cur_power);
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}
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}
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#else
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@ -1923,7 +1923,7 @@ uint32_t Stepper::block_phase_isr() {
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else {
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laser_trap.till_update = LASER_POWER_INLINE_TRAPEZOID_CONT_PER;
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laser_trap.cur_power = (current_block->laser.power * acc_step_rate) / current_block->nominal_rate;
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cutter.set_ocr_power(laser_trap.cur_power); // Cycle efficiency is irrelevant it the last line was many cycles
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cutter.ocr_set_power(laser_trap.cur_power); // Cycle efficiency is irrelevant it the last line was many cycles
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}
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#endif
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}
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@ -1991,7 +1991,7 @@ uint32_t Stepper::block_phase_isr() {
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laser_trap.acc_step_count += current_block->laser.exit_per;
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if (laser_trap.cur_power > current_block->laser.power_exit) laser_trap.cur_power--;
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}
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cutter.set_ocr_power(laser_trap.cur_power);
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cutter.ocr_set_power(laser_trap.cur_power);
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}
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}
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#else
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@ -2000,7 +2000,7 @@ uint32_t Stepper::block_phase_isr() {
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else {
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laser_trap.till_update = LASER_POWER_INLINE_TRAPEZOID_CONT_PER;
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laser_trap.cur_power = (current_block->laser.power * step_rate) / current_block->nominal_rate;
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cutter.set_ocr_power(laser_trap.cur_power); // Cycle efficiency isn't relevant when the last line was many cycles
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cutter.ocr_set_power(laser_trap.cur_power); // Cycle efficiency isn't relevant when the last line was many cycles
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}
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#endif
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}
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@ -2028,7 +2028,7 @@ uint32_t Stepper::block_phase_isr() {
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if (laser_trap.enabled) {
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if (!laser_trap.cruise_set) {
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laser_trap.cur_power = current_block->laser.power;
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cutter.set_ocr_power(laser_trap.cur_power);
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cutter.ocr_set_power(laser_trap.cur_power);
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laser_trap.cruise_set = true;
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}
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#if ENABLED(LASER_POWER_INLINE_TRAPEZOID_CONT)
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@ -2249,14 +2249,14 @@ uint32_t Stepper::block_phase_isr() {
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#endif
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// Always have PWM in this case
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if (stat.isPlanned) { // Planner controls the laser
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cutter.set_ocr_power(
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cutter.ocr_set_power(
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stat.isEnabled ? laser_trap.cur_power : 0 // ON with power or OFF
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);
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}
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#else
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if (stat.isPlanned) { // Planner controls the laser
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#if ENABLED(SPINDLE_LASER_PWM)
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cutter.set_ocr_power(
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cutter.ocr_set_power(
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stat.isEnabled ? current_block->laser.power : 0 // ON with power or OFF
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);
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#else
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@ -2304,7 +2304,7 @@ uint32_t Stepper::block_phase_isr() {
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const power_status_t stat = planner.laser_inline.status;
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if (stat.isPlanned) { // Planner controls the laser
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#if ENABLED(SPINDLE_LASER_PWM)
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cutter.set_ocr_power(
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cutter.ocr_set_power(
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stat.isEnabled ? planner.laser_inline.power : 0 // ON with power or OFF
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);
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#else
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@ -23,9 +23,9 @@
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/**
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* Protoneer v3.00 pin assignments
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*
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*
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* This CNC shield has an UNO pinout and fits all Arduino-compatibles.
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*
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*
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* Referenced docs:
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* - https://blog.protoneer.co.nz/arduino-cnc-shield-v3-00-assembly-guide/
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* - https://blog.protoneer.co.nz/arduino-cnc-shield/
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