Added $33 for PWM frequency and defaults for K40

2017-05-10 18:01:55 +02:00 · 2017-05-10 18:01:55 +02:00 · 0471485259
commit 0471485259
parent 063b1f6748
7 changed files with 83 additions and 15 deletions
--- a/README.md
+++ b/README.md
@ -10,20 +10,22 @@ Usage notes:
  If it doesn't, try installing VCOM_lib/usbser.inf.
 * This doesn't pass the sdcard to the host. Once installed you need to use a micro sdcard adaptor to replace or change it.
 * Only tested with lasers with PWM. Non-PWM spindle control not ported.
-* These are fixed PWM config values. To change these you'll have to change ```SPINDLE_PWM_*``` in config.h and rebuild.
+* This special version supports setting PWM frequency by $33. Default is 5000 Hz. Pin can only be changes in config.h.
-  * Pin 2.4
+  * Pin 2.5
-  * 40 kHz
+  * 5 kHz
  * PWM off value: 0%
  * Mimimum PWM value: 0%
  * Maximum PWM value: 100%
 * These are defaults for easy-to-change config values.
-  * Laser mode: ON ($32)
+  * Maximum S value: 1000.0 ($30)
  * Minimum S value: 0.0 ($31)
-  * Maximum S value: 1.0 ($30)
+  * Laser mode: 1 ($32)
  * Laser PWM frequency: 5000 ($33)
 * Hard limits not yet ported
 * Control inputs not yet ported (e.g. Cycle Start and Safety Door switches)
 New configuration settings
 * $33 is PWM frequency in Hz
 * $140, $141, $142 are X, Y, Z current (amps)
 * Default to 0.0 A to avoid burning out your motors
 * Your motors will likely stall if you don't set these!
--- a/grbl/config.h
+++ b/grbl/config.h
@ -36,6 +36,7 @@
 // one configuration file by placing their specific defaults and pin map at the bottom of this file.
 // If doing so, simply comment out these two defines and see instructions below.
 // #define DEFAULTS_GENERIC
 #define DEFAULTS_K40
 // #define CPU_MAP_ATMEGA328P // Arduino Uno CPU
 // Serial baud rate
@ -756,9 +757,9 @@
 #define DEFAULT_Y_MAX_TRAVEL 200.0 // mm
 #define DEFAULT_Z_MAX_TRAVEL 50.0 // mm
 #define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz
-#define DEFAULT_SPINDLE_RPM_MAX 1.0 // rpm
+#define DEFAULT_SPINDLE_RPM_MAX 1000.0 // rpm
 #define DEFAULT_SPINDLE_RPM_MIN 0.0 // rpm
-#define DEFAULT_STEP_PULSE_MICROSECONDS 1
+#define DEFAULT_STEP_PULSE_MICROSECONDS 10
 #define DEFAULT_STEPPING_INVERT_MASK 0
 #define DEFAULT_DIRECTION_INVERT_MASK 0
 #define DEFAULT_STEPPER_IDLE_LOCK_TIME 25 // msec (0-254, 255 keeps steppers enabled)
--- a/grbl/defaults.h
+++ b/grbl/defaults.h
@ -41,6 +41,7 @@
  #define DEFAULT_X_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
  #define DEFAULT_Y_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
  #define DEFAULT_Z_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
  #define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz
  #define DEFAULT_SPINDLE_RPM_MAX 1000.0 // rpm
  #define DEFAULT_SPINDLE_RPM_MIN 0.0 // rpm
  #define DEFAULT_STEP_PULSE_MICROSECONDS 10
@ -65,6 +66,49 @@
  #define DEFAULT_HOMING_PULLOFF 1.0 // mm
 #endif
 #ifdef DEFAULTS_K40
  // Description: K40 Lasercutter (typical chinese 40W CO2 laser cutter/engraver)
  #define DEFAULT_X_STEPS_PER_MM 160.0
  #define DEFAULT_Y_STEPS_PER_MM 160.0
  #define DEFAULT_Z_STEPS_PER_MM 160.0
  #define DEFAULT_X_MAX_RATE 24000.0 // mm/min
  #define DEFAULT_Y_MAX_RATE 24000.0 // mm/min
  #define DEFAULT_Z_MAX_RATE 24000.0 // mm/min
  #define DEFAULT_X_ACCELERATION (2500.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
  #define DEFAULT_Y_ACCELERATION (2500.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
  #define DEFAULT_Z_ACCELERATION (2500.0*60*60) // 10*60*60 mm/min^2 = 10 mm/sec^2
  #define DEFAULT_X_CURRENT 0.0 // amps
  #define DEFAULT_Y_CURRENT 0.0 // amps
  #define DEFAULT_Z_CURRENT 0.0 // amps
  #define DEFAULT_A_CURRENT 0.0  // amps
  #define DEFAULT_X_MAX_TRAVEL 300.0 // mm NOTE: Must be a positive value.
  #define DEFAULT_Y_MAX_TRAVEL 200.0 // mm NOTE: Must be a positive value.
  #define DEFAULT_Z_MAX_TRAVEL 50.0 // mm NOTE: Must be a positive value.
  #define DEFAULT_SPINDLE_PWM_FREQ 5000 // Hz
  #define DEFAULT_SPINDLE_RPM_MAX 1000.0 // rpm
  #define DEFAULT_SPINDLE_RPM_MIN 0.0 // rpm
  #define DEFAULT_STEP_PULSE_MICROSECONDS 10
  #define DEFAULT_STEPPING_INVERT_MASK 0
  #define DEFAULT_DIRECTION_INVERT_MASK 0
  #define DEFAULT_STEPPER_IDLE_LOCK_TIME 25 // msec (0-254, 255 keeps steppers enabled)
  #define DEFAULT_STATUS_REPORT_MASK 0 // WPos enabled
  #define DEFAULT_JUNCTION_DEVIATION 0.01 // mm
  #define DEFAULT_ARC_TOLERANCE 0.002 // mm
  #define DEFAULT_REPORT_INCHES 0 // false
  #define DEFAULT_INVERT_ST_ENABLE 0 // false
  #define DEFAULT_INVERT_LIMIT_PINS 1 // false
  #define DEFAULT_SOFT_LIMIT_ENABLE 0 // false
  #define DEFAULT_HARD_LIMIT_ENABLE 0  // false
  #define DEFAULT_INVERT_PROBE_PIN 0 // false
  #define DEFAULT_LASER_MODE 1 // false
  #define DEFAULT_HOMING_ENABLE 0  // false
  #define DEFAULT_HOMING_DIR_MASK 0 // move positive dir
  #define DEFAULT_HOMING_FEED_RATE 50.0 // mm/min
  #define DEFAULT_HOMING_SEEK_RATE 6000.0 // mm/min
  #define DEFAULT_HOMING_DEBOUNCE_DELAY 250 // msec (0-65k)
  #define DEFAULT_HOMING_PULLOFF 1.0 // mm
 #endif
 #ifdef DEFAULTS_SHERLINE_5400
  // Description: Sherline 5400 mill with three NEMA 23 Keling  KL23H256-21-8B 185 oz-in stepper motors,
  // driven by three Pololu A4988 stepper drivers with a 30V, 6A power supply at 1.5A per winding.
--- a/grbl/report.c
+++ b/grbl/report.c
@ -71,6 +71,7 @@ static void report_util_setting_string(uint8_t n) {
    case 30: printPgmString(PSTR("rpm max")); break;
    case 31: printPgmString(PSTR("rpm min")); break;
    case 32: printPgmString(PSTR("laser")); break;
    case 33: printPgmString(PSTR("spindle_pwm_freq")); break;
    default:
      n -= AXIS_SETTINGS_START_VAL;
      uint8_t idx = 0;
@ -96,6 +97,11 @@ static void report_util_uint8_setting(uint8_t n, int val) {
  print_uint8_base10(val); 
  report_util_line_feed(); // report_util_setting_string(n); 
 }
 static void report_util_uint32_setting(uint8_t n, int val) { 
  report_util_setting_prefix(n); 
  print_uint32_base10(val); 
  report_util_line_feed(); // report_util_setting_string(n); 
 }
 static void report_util_float_setting(uint8_t n, float val, uint8_t n_decimal) { 
  report_util_setting_prefix(n); 
  printFloat(val,n_decimal);
@ -208,6 +214,7 @@ void report_grbl_settings() {
  #else
    report_util_uint8_setting(32,0);
  #endif
  report_util_uint32_setting(33,settings.spindle_pwm_freq);
  // Print axis settings
  uint8_t idx, set_idx;
  uint8_t val = AXIS_SETTINGS_START_VAL;
--- a/grbl/settings.c
+++ b/grbl/settings.c
@ -86,6 +86,7 @@ void settings_restore(uint8_t restore_flag) {
    settings.junction_deviation = DEFAULT_JUNCTION_DEVIATION;
    settings.arc_tolerance = DEFAULT_ARC_TOLERANCE;
    settings.spindle_pwm_freq = DEFAULT_SPINDLE_PWM_FREQ;
    settings.rpm_max = DEFAULT_SPINDLE_RPM_MAX;
    settings.rpm_min = DEFAULT_SPINDLE_RPM_MIN;
@ -317,6 +318,7 @@ uint8_t settings_store_global_setting(uint8_t parameter, float value) {
          return(STATUS_SETTING_DISABLED);
        #endif
        break;
      case 33: settings.spindle_pwm_freq = value; spindle_init(); break; // Re-initialize spindle pwm calibration
      default:
        return(STATUS_INVALID_STATEMENT);
    }
--- a/grbl/settings.h
+++ b/grbl/settings.h
@ -92,6 +92,7 @@ typedef struct {
  float junction_deviation;
  float arc_tolerance;
  uint16_t spindle_pwm_freq;
  float rpm_max;
  float rpm_min;
--- a/grbl/spindle_control.c
+++ b/grbl/spindle_control.c
@ -25,13 +25,23 @@
 #ifdef VARIABLE_SPINDLE
  static float pwm_gradient; // Precalulated value to speed up rpm to PWM conversions.
  static float spindle_pwm_period;
  static float spindle_pwm_off_value;
  static float spindle_pwm_min_value;
  static float spindle_pwm_max_value;
 #endif
 void spindle_init()
 {
  #ifdef VARIABLE_SPINDLE
-    pwm_init(&SPINDLE_PWM_CHANNEL, SPINDLE_PWM_USE_PRIMARY_PIN, SPINDLE_PWM_USE_SECONDARY_PIN, SPINDLE_PWM_PERIOD, 0);
+    spindle_pwm_period = (SystemCoreClock / settings.spindle_pwm_freq);
    spindle_pwm_off_value = (spindle_pwm_period * 0.0);    // SPINDLE_PWM_PERIOD * fraction
    spindle_pwm_min_value = (spindle_pwm_period * 0.0);    // SPINDLE_PWM_PERIOD * fraction
    spindle_pwm_max_value = (spindle_pwm_period * 1.0);    // SPINDLE_PWM_PERIOD * fraction
    //pwm_init(&SPINDLE_PWM_CHANNEL, SPINDLE_PWM_USE_PRIMARY_PIN, SPINDLE_PWM_USE_SECONDARY_PIN, SPINDLE_PWM_PERIOD, 0);
    pwm_init(&SPINDLE_PWM_CHANNEL, SPINDLE_PWM_USE_PRIMARY_PIN, SPINDLE_PWM_USE_SECONDARY_PIN, spindle_pwm_period, 0); //SPINDLE_PWM_PERIOD
    pwm_enable(&SPINDLE_PWM_CHANNEL);
    /* not ported
@ -44,7 +54,8 @@ void spindle_init()
    #endif
    */
-    pwm_gradient = (SPINDLE_PWM_MAX_VALUE-SPINDLE_PWM_MIN_VALUE)/(settings.rpm_max-settings.rpm_min);
+    //pwm_gradient = (SPINDLE_PWM_MAX_VALUE-SPINDLE_PWM_MIN_VALUE)/(settings.rpm_max-settings.rpm_min);
    pwm_gradient = (spindle_pwm_max_value-spindle_pwm_min_value)/(settings.rpm_max-settings.rpm_min);
  #else
    /* not ported
@ -134,21 +145,21 @@ void spindle_stop()
    rpm *= (0.010*sys.spindle_speed_ovr); // Scale by spindle speed override value.
    if (rpm <= 0) {
      sys.spindle_speed = 0;
-      pwm_value = SPINDLE_PWM_OFF_VALUE;
+      pwm_value = spindle_pwm_off_value;    //SPINDLE_PWM_OFF_VALUE
    }
    else if (rpm <= settings.rpm_min) {
      sys.spindle_speed = settings.rpm_min;
-      pwm_value = SPINDLE_PWM_MIN_VALUE;
+      pwm_value = spindle_pwm_min_value;    //SPINDLE_PWM_MIN_VALUE
    }
    else if (rpm >= settings.rpm_max) {
      sys.spindle_speed = settings.rpm_max;
-      pwm_value = SPINDLE_PWM_MAX_VALUE - 1;
+      pwm_value = spindle_pwm_max_value - 1;    //SPINDLE_PWM_MAX_VALUE
    }
    else {
      sys.spindle_speed = rpm;
-      pwm_value = floor((rpm - settings.rpm_min) * pwm_gradient) + SPINDLE_PWM_MIN_VALUE;
+      pwm_value = floor((rpm - settings.rpm_min) * pwm_gradient) + spindle_pwm_min_value;   //SPINDLE_PWM_MIN_VALUE
-      if(pwm_value >= SPINDLE_PWM_MAX_VALUE)
+      if(pwm_value >= spindle_pwm_max_value)    //SPINDLE_PWM_MAX_VALUE
-        pwm_value = SPINDLE_PWM_MAX_VALUE - 1;
+        pwm_value = spindle_pwm_max_value - 1;  //SPINDLE_PWM_MAX_VALUE
    }
    return(pwm_value);
  }