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- #include "treppe.h"
-
- /*
- - dimmt stufe (0 - 15, PCA9685 outputs) mit linearen ticks
- von idle bis active pwm
- - return false solange gedimmt wird
- - return true bei nächster stufe
- */
- bool Treppe::dimm_stufe(uint8_t stufe)
- {
- if (fsm_outputs.dimmrichtung == DR_AUFDIMMEN)
- current_pwm += differenz_pwm_pro_tick;
- else
- current_pwm -= differenz_pwm_pro_tick;
- Serial.printf("dimm_stufe %d %f\n", stufe, current_pwm);
- pwmController.setChannelPWM(stufe, static_cast<uint16_t>(current_pwm));
-
- current_tick++;
- if (current_tick >= ticks_pro_stufe)
- return false;
- return true;
- }
-
-
- /*
- - dimmt treppe (all PCA9685 outputs) mit linearen ticks
- von idle bis active brightness
- - return false solange gedimmt wird
- - return true bei ende
- */
- bool Treppe::dimm_treppe()
- {
- // needs to be in state machine
- return true;
- }
-
-
- /*
- - nach dem dimmen einer stufe wird die stufe weitergezählt
- - abbruch am ende => anim_beendet = true;
- */
- void Treppe::anim_tick()
- {
- if (!dimm_stufe(stufe))
- {
- Serial.printf("anim_tick(): stufe: %d, start: %d, ziel: %d, current %f\n",
- stufe, start_pwm, ziel_pwm, current_pwm);
-
- if (fsm_outputs.laufrichtung == LR_HOCH)
- {
- if (stufe >= stufen - 1)
- {
- anim_beendet = true;
- return;
- }
- stufe++;
- }
- else
- {
- if (stufe <= 0)
- {
- anim_beendet = true;
- return;
- }
- stufe--;
- }
- current_tick = 0;
- current_pwm = start_pwm;
- }
- }
-
- // startbedingunen für animation
- void Treppe::start_animation()
- {
- anim_beendet = false;
-
- if (fsm_outputs.laufrichtung == LR_HOCH)
- stufe = 0;
- else
- stufe = stufen - 1;
-
- if (fsm_outputs.dimmrichtung == DR_AUFDIMMEN)
- {
- start_pwm = idle_pwm_internal;
- ziel_pwm = active_pwm;
- }
- else
- {
- start_pwm = active_pwm;
- ziel_pwm = idle_pwm_internal;
- }
-
- current_tick = 0;
- current_pwm = start_pwm;
- }
-
- void Treppe::print_state_on_change()
- {
- static FSMTreppeModelClass::ExtU_FSMTreppe_T last_in;
- static FSMTreppeModelClass::ExtY_FSMTreppe_T last_out;
- if (
- fsm_inputs.anim_beendet != last_in.anim_beendet ||
- fsm_inputs.sensor_oben != last_in.sensor_oben ||
- fsm_inputs.sensor_unten != last_in.sensor_unten ||
- fsm_outputs.dimmrichtung != last_out.dimmrichtung ||
- fsm_outputs.laufrichtung != last_out.laufrichtung ||
- fsm_outputs.status != last_out.status)
- {
- last_in.anim_beendet = fsm_inputs.anim_beendet;
- last_in.sensor_oben = fsm_inputs.sensor_oben;
- last_in.sensor_unten = fsm_inputs.sensor_unten;
- last_out.dimmrichtung = fsm_outputs.dimmrichtung;
- last_out.laufrichtung = fsm_outputs.laufrichtung;
- last_out.status = fsm_outputs.status;
-
- Serial.printf("FSM IN: s_u: %d, s_o: %d, beendet: %d =>",
- fsm_inputs.sensor_oben, fsm_inputs.sensor_unten, fsm_inputs.anim_beendet);
- Serial.print(" step => ");
- Serial.printf("OUT: LR: %d DR: %d ST: %d\n",
- fsm_outputs.laufrichtung, fsm_outputs.dimmrichtung, fsm_outputs.status);
- }
- }
-
- bool Treppe::read_sensor(int sensor)
- {
-
- /*
- reads sensors with edge detection
-
- returns true if motion was detected
- returns false if no motion was detected
- returns false if motion was detected, but state did not change back to not detected
- */
- uint8_t pegel = digitalRead(sensor);
- static uint8_t pegel_alt[2] = {0, 0};
-
- uint8_t index = 0;
- if (sensor == SENSOR_OBEN)
- index = 0;
- else
- index = 1;
-
- if (pegel == 1 && pegel_alt[index] == 0)
- {
- pegel_alt[index] = pegel;
- return true;
- }
- else
- {
- pegel_alt[index] = pegel;
- return false;
- }
- //return static_cast<bool>(pegel);
- }
-
- float Treppe::read_ldr()
- {
- /*
- Reads Illuminance in Lux
-
- FUTURE USE : show current Illuminance on Webserver in order to calibrate
-
- Voltage Divider 1 (R13, R14):
- R13 = 220k, R14 = 82k
- V(ADC) = V(in1) * R14/(R13+R14)
- -> V(in1) = V(ADC) * (R13+R14)/R14
- V(ADC) = analogRead(A0)/1023.00
- -> V(in1) = analogRead(A0)/1023.00 * (R13+R14)/R14
- = analogRead(A0) * (R13+R14)/(R14*1023.00)
- = analogRead(A0) * (220k+82k)/(82k*1023.00)
- = analogRead(A0) * 0.0036
-
- Voltage Divider 2 (LDR, R1 || (R13+R14))
- R1 = 47k, R13+R14 = 302k -> R1||(R13+R14) = 40,67k
- Vcc/V(in1) = R(LDR) / (R1||(R13+R14))
- -> R(LDR) = Vcc/V(in1) * (R1||(R13+R14))
- R(LDR) = 3.3V * 40.67k / V(in1)
-
- Join formulas:
-
- R(LDR) = 3.3V * 40.67k / (0.0036 * analogRead(A0))
- = 37280.00/analogRead(A0)
- ldr_ohm = R(LDR)
-
- E(LDR) = 79.735 * R(LDR)^-0.498 (see Excel Regression)
- ldr_value = E(LDR)
- */
- float ldr_ohm = 37280.00 / analogRead(A0);
- float ldr_value = 79.735 * pow(ldr_ohm, -0.498);
- return ldr_value;
- }
-
- bool Treppe::check_ldr()
- {
- static uint8_t active = 0;
-
- #ifdef LDRDEBUG
- Serial.printf("R(LDR) = %f kOhm %f lux\n", ldr_value, lux);
- return true;
- #endif
-
- // follow up: averaging over many samples?
- float ldr = read_ldr();
- if (ldr < ldr_schwelle)
- active = 1;
- if (ldr > ldr_schwelle + LDR_HYS)
- active = 0;
- activate_idle_pwm(active);
- return active;
- }
-
- void Treppe::task()
- {
- fsm_inputs.ldr_schwelle = check_ldr();
-
- fsm_inputs.sensor_oben = read_sensor(SENSOR_OBEN);
- fsm_inputs.sensor_unten = read_sensor(SENSOR_UNTEN);
- fsm_inputs.anim_beendet = static_cast<bool>(anim_beendet);
-
- FSMTreppe_Obj.setExternalInputs(&fsm_inputs);
- FSMTreppe_Obj.step();
- fsm_outputs = FSMTreppe_Obj.getExternalOutputs();
- print_state_on_change();
-
- if (fsm_outputs.status > ST_RUHEZUSTAND)
- {
- if (anim_beendet == true &&
- (fsm_outputs.status == ST_AUFDIMMEN_HOCH ||
- fsm_outputs.status == ST_ABDIMMEN_HOCH ||
- fsm_outputs.status == ST_AUFDIMMEN_RUNTER ||
- fsm_outputs.status == ST_ABDIMMEN_RUNTER)
- )
- {
- start_animation();
- }
- if (!anim_beendet)
- anim_tick();
- }
- }
-
- void Treppe::berechne_dimmer()
- {
- ticks_pro_stufe = time_per_stair / INT_TIME; // [ms]
- differenz_pwm_pro_tick = (float)(active_pwm - idle_pwm_internal)
- / (float)ticks_pro_stufe;
-
- }
-
- void Treppe::setup()
- {
- pwmController.resetDevices();
- // Deactive PCA9685 Phase Balancer due to LED Flickering
- // https://github.com/NachtRaveVL/PCA9685-Arduino/issues/15
- // see also lib/PCA9685-Arduin/PCA9685.h:204
- pwmController.init(PCA9685_PhaseBalancer_None);
- //pwmController.init(PCA9685_PhaseBalancer_Linear);
- pwmController.setPWMFrequency(100);
- //pwmController.setAllChannelsPWM(idle_pwm);
-
- pinMode(A0, INPUT);
- pinMode(SENSOR_OBEN, INPUT);
- pinMode(SENSOR_UNTEN, INPUT);
- pinMode(OE, OUTPUT);
- digitalWrite(OE, 0);
-
- Serial.printf("differenz_pwm_pro_tick %f\n", differenz_pwm_pro_tick);
- Serial.printf("Treppe: initial parameters: stufen=%d\n", stufen);
- }
-
- void Treppe::set_idle_prozent(int prozent) {
- uint16_t new_pwm = active_pwm * prozent / 100;
- set_idle_pwm(new_pwm);
- }
-
- void Treppe::set_idle_pwm(uint16_t new_idle_pwm)
- {
- if(new_idle_pwm > active_pwm) {
- idle_pwm = active_pwm;
- } else {
- idle_pwm = new_idle_pwm;
- }
-
- Serial.printf("Treppe: idle_pwm=%d\n", idle_pwm);
- berechne_dimmer();
- activate_idle_pwm(true);
- activate_idle_pwm(false); // well :)
- }
-
- void Treppe::activate_idle_pwm(bool active)
- {
- static uint8_t former_active = 0;
-
- if (fsm_outputs.status == ST_RUHEZUSTAND || fsm_outputs.status == ST_INAKTIV_LDR)
- {
- if (active != former_active)
- {
- idle_pwm_internal = idle_pwm * active;
- // Dimming Function for all LEDS ?
- pwmController.setAllChannelsPWM(idle_pwm_internal);
- former_active = active;
- }
- }
- }
-
- void Treppe::set_active_pwm(uint16_t _active_pwm)
- {
- active_pwm = _active_pwm;
- berechne_dimmer();
- Serial.printf("Treppe: active_pwm=%d\n", active_pwm);
- }
- void Treppe::set_time_per_stair(uint16_t _time_per_stair)
- {
- time_per_stair = _time_per_stair;
- berechne_dimmer();
- Serial.printf("Treppe: time_per_stair=%d\n", time_per_stair);
- }
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