d545f746bc
* Add EDA Education Board Configuration - Add eda-tv-pro Board Configuration - Add eda-robot-pro Board Configuration - Add eda-super-bear Board Configuration * docs(oscillator): Add file headers with copyright and license information - Add comprehensive file headers to oscillator.cc and oscillator.h in eda-robot-pro board - Add comprehensive file headers to oscillator.cc and oscillator.h in eda-super-bear board - Include original author attribution (Juan Gonzalez-Gomez/Obijuan) and ESP32 port credit (txp666) - Include GPL license notice and file descriptions for clarity and compliance * fix: Move the eda* boards to the lceda-course-examples folder. - Move eda-robot-pro, eda-super-bear, and eda-tv-pro boards to lceda-course-examples subdirectory - Update CMakeLists.txt to set MANUFACTURER variable for each board configuration
91 lines
2.8 KiB
C++
91 lines
2.8 KiB
C++
//--------------------------------------------------------------
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//-- Oscillator.pde
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//-- Generate sinusoidal oscillations in the servos
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//--------------------------------------------------------------
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//-- (c) Juan Gonzalez-Gomez (Obijuan), Dec 2011
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//-- (c) txp666 for esp32, 202503
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//-- GPL license
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//--------------------------------------------------------------
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#ifndef __OSCILLATOR_H__
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#define __OSCILLATOR_H__
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#include <driver/ledc.h>
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#include <esp_log.h>
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#include <freertos/FreeRTOS.h>
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#include <freertos/task.h>
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#define M_PI 3.14159265358979323846
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#ifndef DEG2RAD
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#define DEG2RAD(g) ((g) * M_PI) / 180
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#endif
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#define SERVO_MIN_PULSEWIDTH_US 500 // 最小脉宽(微秒)
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#define SERVO_MAX_PULSEWIDTH_US 2500 // 最大脉宽(微秒)
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#define SERVO_MIN_DEGREE -90 // 最小角度
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#define SERVO_MAX_DEGREE 90 // 最大角度
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#define SERVO_TIMEBASE_RESOLUTION_HZ 1000000 // 1MHz, 1us per tick
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#define SERVO_TIMEBASE_PERIOD 20000 // 20000 ticks, 20ms
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class Oscillator {
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public:
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Oscillator(int trim = 0);
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~Oscillator();
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void Attach(int pin, bool rev = false);
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void Detach();
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void SetA(unsigned int amplitude) { amplitude_ = amplitude; };
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void SetO(int offset) { offset_ = offset; };
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void SetPh(double Ph) { phase0_ = Ph; };
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void SetT(unsigned int period);
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void SetTrim(int trim) { trim_ = trim; };
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void SetLimiter(int diff_limit) { diff_limit_ = diff_limit; };
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void DisableLimiter() { diff_limit_ = 0; };
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int GetTrim() { return trim_; };
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void SetPosition(int position);
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void Stop() { stop_ = true; };
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void Play() { stop_ = false; };
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void Reset() { phase_ = 0; };
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void Refresh();
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int GetPosition() { return pos_; }
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private:
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bool NextSample();
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void Write(int position);
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uint32_t AngleToCompare(int angle);
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private:
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bool is_attached_;
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//-- Oscillators parameters
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unsigned int amplitude_; //-- Amplitude (degrees)
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int offset_; //-- Offset (degrees)
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unsigned int period_; //-- Period (miliseconds)
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double phase0_; //-- Phase (radians)
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//-- Internal variables
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int pos_; //-- Current servo pos
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int pin_; //-- Pin where the servo is connected
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int trim_; //-- Calibration offset
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double phase_; //-- Current phase
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double inc_; //-- Increment of phase
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double number_samples_; //-- Number of samples
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unsigned int sampling_period_; //-- sampling period (ms)
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long previous_millis_;
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long current_millis_;
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//-- Oscillation mode. If true, the servo is stopped
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bool stop_;
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//-- Reverse mode
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bool rev_;
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int diff_limit_;
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long previous_servo_command_millis_;
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ledc_channel_t ledc_channel_;
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ledc_mode_t ledc_speed_mode_;
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};
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#endif // __OSCILLATOR_H__
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