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https://github.com/k3ng/k3ng_rotator_controller.git
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2021.10.12.01
FEATURE_STEPPER_MOTOR: Added several options to change maximum frequency supported. (Not tested on hardware yet.) OPTION_STEPPER_MOTOR_MAX_2_KHZ (enabled by default) OPTION_STEPPER_MOTOR_MAX_5_KHZ OPTION_STEPPER_MOTOR_MAX_10_KHZ OPTION_STEPPER_MOTOR_MAX_20_KHZ
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@ -1009,6 +1009,13 @@
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DEVELOPMENT_TIMELIB - Have TimeLib integrated with all time-related functionality, including FEATURE_CLOCK, FEATURE_GPS, FEATURE_MOON_TRACKING, FEATURE_SUN_TRACKING, FEATURE_RTC_DS1307, FEATURE_RTC_PCF8583
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Place a define for DEVELOPMENT_TIMELIB in your rotator_features file to test
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2021.10.12.01
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FEATURE_STEPPER_MOTOR: Added several options to change maximum frequency supported. (Not tested on hardware yet.)
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OPTION_STEPPER_MOTOR_MAX_2_KHZ (enabled by default)
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OPTION_STEPPER_MOTOR_MAX_5_KHZ
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OPTION_STEPPER_MOTOR_MAX_10_KHZ
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OPTION_STEPPER_MOTOR_MAX_20_KHZ
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All library files should be placed in directories likes \sketchbook\libraries\library1\ , \sketchbook\libraries\library2\ , etc.
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Anything rotator_*.* should be in the ino directory!
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@ -1022,7 +1029,7 @@
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*/
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#define CODE_VERSION "2021.10.08.01"
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#define CODE_VERSION "2021.10.12.01"
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#include <avr/pgmspace.h>
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@ -1499,6 +1506,25 @@ struct config_t {
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volatile unsigned int el_stepper_freq_count = 0;
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#endif //FEATURE_ELEVATION_CONTROL
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volatile unsigned long service_stepper_motor_pulse_pins_count = 0;
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#if defined(OPTION_STEPPER_MOTOR_MAX_20_KHZ)
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#define STEPPER_MOTOR_INTERRUPT_US 25 // 25 us = 40 khz
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#define STEPPER_MOTOR_MAX_FREQ 20000
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#else
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#if defined(OPTION_STEPPER_MOTOR_MAX_10_KHZ)
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#define STEPPER_MOTOR_INTERRUPT_US 50 // 50 us = 20 khz
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#define STEPPER_MOTOR_MAX_FREQ 10000
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#else
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#if defined(OPTION_STEPPER_MOTOR_MAX_5_KHZ)
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#define STEPPER_MOTOR_INTERRUPT_US 100 // 100 us = 10 khz
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#define STEPPER_MOTOR_MAX_FREQ 5000
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#else // OPTION_STEPPER_MOTOR_MAX_2_KHZ
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#define STEPPER_MOTOR_INTERRUPT_US 250 // 250 us = 4 khz
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#define STEPPER_MOTOR_MAX_FREQ 2000
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#endif
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#endif
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#endif
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#endif //FEATURE_STEPPER_MOTOR
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#ifdef FEATURE_AZIMUTH_CORRECTION
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@ -4608,7 +4634,7 @@ void request_transient_message(char* message,byte vSS_number,unsigned int messag
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#if defined(FEATURE_SUN_TRACKING)
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temp = temp | NEXTION_API_SYSTEM_CAPABILITIES_SUN; //256
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#endif
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#if defined(FEATURE_RTC_DS1307) || defined(FEATURE_RTC_PCF8583)
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#if defined(FEATURE_RTC_DS1307) || defined(FEATURE_RTC_PCF8583) || defined(FEATURE_RTC_TEENSY)
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temp = temp | NEXTION_API_SYSTEM_CAPABILITIES_RTC; //512
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#endif
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#if defined(FEATURE_SATELLITE_TRACKING)
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@ -10338,10 +10364,10 @@ void initialize_interrupts(){
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#ifdef FEATURE_STEPPER_MOTOR
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#ifdef OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE
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Timer1.initialize(250); // 250 us = 4 khz rate
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Timer1.initialize(STEPPER_MOTOR_INTERRUPT_US);
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Timer1.attachInterrupt(service_stepper_motor_pulse_pins);
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#else
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Timer5.initialize(250); // 250 us = 4 khz rate
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Timer5.initialize(STEPPER_MOTOR_INTERRUPT_US);
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Timer5.attachInterrupt(service_stepper_motor_pulse_pins);
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#endif
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#endif //FEATURE_STEPPER_MOTOR
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@ -14482,7 +14508,7 @@ void service_gps(){
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if ((millis() - last_rtc_gps_sync_time) >= ((unsigned long)SYNC_RTC_TO_GPS_SECONDS * 1000)) {
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rtc.adjust(DateTime(gps_year, gps_month, gps_day, gps_hours, gps_minutes, gps_seconds));
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#ifdef DEBUG_RTC
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debug.println(F("service_gps: synced RTC"));
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debug.println(F("service_gps: synced DS1307 RTC"));
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#endif // DEBUG_RTC
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last_rtc_gps_sync_time = millis();
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}
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@ -14499,13 +14525,31 @@ void service_gps(){
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rtc.second = gps_seconds;
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rtc.set_time();
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#ifdef DEBUG_RTC
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debug.println("service_gps: synced RTC");
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debug.println("service_gps: synced PCF8583 RTC");
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#endif // DEBUG_RTC
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last_rtc_gps_sync_time = millis();
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}
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#endif // defined(OPTION_SYNC_RTC_TO_GPS) && defined(FEATURE_RTC_PCF8583)
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#if defined(OPTION_SYNC_RTC_TO_GPS) && defined(FEATURE_RTC_TEENSY)
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static unsigned long last_rtc_gps_sync_time;
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tmElements_t temp_tm;
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if ((millis() - last_rtc_gps_sync_time) >= ((unsigned long)SYNC_RTC_TO_GPS_SECONDS * 1000)) {
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temp_tm.Year = gps_year;
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temp_tm.Month = gps_month;
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temp_tm.Day = gps_day;
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temp_tm.Hour = gps_hours;
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temp_tm.Minute = gps_minutes;
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temp_tm.Second = gps_seconds;
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Teensy3Clock.set(makeTime(temp_tm));
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#ifdef DEBUG_RTC
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debug.println("service_gps: synced Teensy RTC");
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#endif // DEBUG_RTC
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last_rtc_gps_sync_time = millis();
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}
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#endif // defined(OPTION_SYNC_RTC_TO_GPS) && defined(FEATURE_RTC_TEENSY)
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//#if defined(FEATURE_MOON_TRACKING) || defined(FEATURE_SUN_TRACKING) || defined(FEATURE_REMOTE_UNIT_SLAVE)
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if (SYNC_COORDINATES_WITH_GPS) {
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latitude = float(gps_lat) / 1000000.0;
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@ -14622,6 +14666,10 @@ char * clock_status_string(){
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#ifdef FEATURE_RTC
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void service_rtc(){
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// this service synchronizes the Arduino clock to the RTC periodically, unless GPS is available and has a fix
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// if GPS is available and has a fix, the RTC is refreshed with the GPS time periodically by service_gps() if OPTION_SYNC_RTC_TO_GPS is enabled
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#ifdef DEBUG_LOOP
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control_port->println(F("service_rtc()"));
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control_port->flush();
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@ -15026,7 +15074,7 @@ byte process_backslash_command(byte input_buffer[], int input_buffer_index, byte
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} else {
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temp_second = 0;
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}
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if ( (temp_year > 2019) && (temp_year < 2070) &&
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if ( (temp_year > 2020) && (temp_year < 2070) &&
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(temp_month > 0) && (temp_month < 13) &&
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(temp_day > 0) && (temp_day < 32) &&
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(temp_hour >= 0) && (temp_hour < 24) &&
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@ -15049,20 +15097,50 @@ byte process_backslash_command(byte input_buffer[], int input_buffer_index, byte
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satellite_array_data_ready = 0;
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#endif
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// Update the Realtime Clock if we have one
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#if defined(FEATURE_RTC_DS1307)
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rtc.adjust(DateTime(temp_year, temp_month, temp_day, temp_hour, temp_minute, temp_second));
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#if defined(DEBUG_RTC)
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debug.println("process_backslash_command: setting DS1307 RTC time");
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#endif
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rtc.adjust(DateTime(temp_year, temp_month, temp_day, temp_hour, temp_minute, temp_second));
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#if defined(DEBUG_RTC)
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debug.println("process_backslash_command: set DS1307 RTC time");
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#endif
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#endif // defined(FEATURE_RTC_DS1307)
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#if defined(FEATURE_RTC_PCF8583)
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rtc.year = temp_year;
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rtc.month = temp_month;
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rtc.day = temp_day;
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rtc.hour = temp_hour;
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rtc.minute = temp_minute;
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rtc.second = temp_second;
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rtc.set_time();
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#if defined(DEBUG_RTC)
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debug.println("process_backslash_command: setting PCF8583 RTC time");
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#endif
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rtc.year = temp_year;
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rtc.month = temp_month;
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rtc.day = temp_day;
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rtc.hour = temp_hour;
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rtc.minute = temp_minute;
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rtc.second = temp_second;
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rtc.set_time();
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#if defined(DEBUG_RTC)
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debug.println("process_backslash_command: set PCF8583 RTC time");
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#endif
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#endif // defined(FEATURE_RTC_PCF8583)
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#if defined(FEATURE_RTC_TEENSY)
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#if defined(DEBUG_RTC)
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debug.println("process_backslash_command: setting Teensy RTC time");
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#endif
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tmElements_t temp_t;
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temp_t.Year = temp_year - 1970;
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temp_t.Month = temp_month;
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temp_t.Day = temp_day;
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temp_t.Hour = temp_hour;
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temp_t.Minute = temp_minute;
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temp_t.Second = temp_second;
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Teensy3Clock.set(makeTime(temp_t));
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#if defined(DEBUG_RTC)
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debug.println("process_backslash_command: set Teensy RTC time");
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#endif
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#endif //FEATURE_RTC_TEENSY
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#if (!defined(FEATURE_RTC_DS1307) && !defined(FEATURE_RTC_PCF8583))
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#if (!defined(FEATURE_RTC_DS1307) && !defined(FEATURE_RTC_PCF8583) && !defined(FEATURE_RTC_TEENSY))
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strcpy(return_string, "Clock set to ");
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#if !defined(DEVELOPMENT_TIMELIB)
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update_time();
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@ -19250,10 +19328,10 @@ void service_stepper_motor_pulse_pins(){
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#ifdef FEATURE_STEPPER_MOTOR
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void set_az_stepper_freq(unsigned int frequency){
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if (frequency > 2000) {frequency = 2000;}
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if (frequency > STEPPER_MOTOR_MAX_FREQ) {frequency = STEPPER_MOTOR_MAX_FREQ;}
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if (frequency > 0) {
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az_stepper_freq_count = 2000 / frequency;
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az_stepper_freq_count = STEPPER_MOTOR_MAX_FREQ / frequency;
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} else {
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az_stepper_freq_count = 0;
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}
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@ -19273,10 +19351,10 @@ void set_az_stepper_freq(unsigned int frequency){
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#if defined(FEATURE_ELEVATION_CONTROL) && defined(FEATURE_STEPPER_MOTOR)
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void set_el_stepper_freq(unsigned int frequency){
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if (frequency > 2000) {frequency = 20000;}
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if (frequency > STEPPER_MOTOR_MAX_FREQ) {frequency = STEPPER_MOTOR_MAX_FREQ;}
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if (frequency > 0) {
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el_stepper_freq_count = 2000 / frequency;
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el_stepper_freq_count = STEPPER_MOTOR_MAX_FREQ / frequency;
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} else {
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el_stepper_freq_count = 0;
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}
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// #define OPTION_MORE_SERIAL_CHECKS
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// #define OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE
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// #define OPTION_ALLOW_ROTATIONAL_AND_CONFIGURATION_CMDS_AT_BOOT_UP // if disabled, rotational and configuration commands will be ignored on the serial port for the first 10 second after boot up
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#define OPTION_STEPPER_MOTOR_MAX_2_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_5_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_10_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_20_KHZ
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//#define OPTION_MORE_SERIAL_CHECKS
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//#define OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE
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//#define OPTION_ALLOW_ROTATIONAL_AND_CONFIGURATION_CMDS_AT_BOOT_UP // if disabled, rotational and configuration commands will be ignored on the serial port for the first 10 second after boot up
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#define OPTION_STEPPER_MOTOR_MAX_2_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_5_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_10_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_20_KHZ
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*/
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// #define DEVELOPMENT_TIMELIB
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#define DEVELOPMENT_TIMELIB
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#define FEATURE_ELEVATION_CONTROL // uncomment this for AZ/EL rotators
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#define FEATURE_YAESU_EMULATION // uncomment this for Yaesu GS-232 emulation on control port
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@ -25,8 +25,9 @@
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#define FEATURE_GPS
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#define FEATURE_RTC_DS1307
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// #define FEATURE_RTC_PCF8583
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// #define FEATURE_RTC_TEENSY // Requires DEVELOPMENT_TIMELIB at the moment
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// #define FEATURE_ETHERNET
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// #define FEATURE_STEPPER_MOTOR // Requires TimerFive library to be copied to the Arduino libraries directory (If using OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE below, copy the TimeOne library)
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#define FEATURE_STEPPER_MOTOR // Requires TimerFive library to be copied to the Arduino libraries directory (If using OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE below, copy the TimeOne library)
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// #define FEATURE_AUTOCORRECT
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// #define FEATURE_TEST_DISPLAY_AT_STARTUP
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@ -190,6 +191,12 @@
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#define OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE
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// #define OPTION_ALLOW_ROTATIONAL_AND_CONFIGURATION_CMDS_AT_BOOT_UP // if disabled, rotational and configuration commands will be ignored on the serial port for the first 10 second after boot up
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#define OPTION_STEPPER_MOTOR_MAX_2_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_5_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_10_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_20_KHZ
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#define OPTION_CLI_VT100
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// ######## ######## ###### ########
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//#define OPTION_GPS_EXCLUDE_MISSING_LF_CR_HANDLING
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//#define OPTION_MORE_SERIAL_CHECKS
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//#define OPTION_STEPPER_MOTOR_USE_TIMER_ONE_INSTEAD_OF_FIVE
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// #define OPTION_ALLOW_ROTATIONAL_AND_CONFIGURATION_CMDS_AT_BOOT_UP // if disabled, rotational and configuration commands will be ignored on the serial port for the first 10 second after boot up
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#define OPTION_ALLOW_ROTATIONAL_AND_CONFIGURATION_CMDS_AT_BOOT_UP // if disabled, rotational and configuration commands will be ignored on the serial port for the first 10 second after boot up
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#define OPTION_STEPPER_MOTOR_MAX_2_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_5_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_10_KHZ
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// #define OPTION_STEPPER_MOTOR_MAX_20_KHZ
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@ -80,9 +80,9 @@ You can tweak these, but read the online documentation!
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// Variable frequency output settings and FEATURE_STEPPER_MOTOR settings
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#define AZ_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_cw_freq, rotate_ccw_freq minimum value: 31 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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#define EL_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_up_freq, rotate_down_freq minimum value: 31 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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// Settings for OPTION_AZ_MANUAL_ROTATE_LIMITS
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#define AZ_MANUAL_ROTATE_CCW_LIMIT 0 // if using a rotator that starts at 180 degrees, set this to something like 185
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@ -80,9 +80,10 @@ You can tweak these, but read the online documentation!
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// Variable frequency output settings and FEATURE_STEPPER_MOTOR settings
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#define AZ_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_cw_freq, rotate_ccw_freq minimum value: 31 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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#define EL_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_up_freq, rotate_down_freq minimum value: 31 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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// Settings for OPTION_AZ_MANUAL_ROTATE_LIMITS
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#define AZ_MANUAL_ROTATE_CCW_LIMIT 0 // if using a rotator that starts at 180 degrees, set this to something like 185
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@ -90,9 +90,9 @@ You can tweak these, but read the online documentation!
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// Variable frequency output settings and FEATURE_STEPPER_MOTOR settings
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#define AZ_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_cw_freq, rotate_ccw_freq minimum value: 31 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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#define EL_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_up_freq, rotate_down_freq minimum value: 31 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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// Settings for OPTION_AZ_MANUAL_ROTATE_LIMITS
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#define AZ_MANUAL_ROTATE_CCW_LIMIT 0 // if using a rotator that starts at 180 degrees, set this to something like 185
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@ -79,9 +79,9 @@ You can tweak these, but read the online documentation!
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// Variable frequency output settings and FEATURE_STEPPER_MOTOR settings
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#define AZ_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_cw_freq, rotate_ccw_freq minimum value: 31 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define AZ_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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#define EL_VARIABLE_FREQ_OUTPUT_LOW 31 // Frequency in hertz of minimum speed (rotate_up_freq, rotate_down_freq minimum value: 31 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 !)
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#define EL_VARIABLE_FREQ_OUTPUT_HIGH 1000 // Frequency in hertz of maximum speed (FEATURE_STEPPER_MOTOR maximum value: 2000 unless you change OPTION_STEPPER_MOTOR_MAX_X_KHZ in features file)
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// Settings for OPTION_AZ_MANUAL_ROTATE_LIMITS
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#define AZ_MANUAL_ROTATE_CCW_LIMIT 179 // if using a rotator that starts at 180 degrees, set this to something like 185
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Loading…
Reference in New Issue
Block a user