ESP8266_Treppenlicht/lib/treppe/treppe.cpp

#include "treppe.h"

/*
    dimm_stufe
    - dimmt stufe (0 - 15, PCA9685 outputs) mit linearen ticks
    von idle bis active brightness
    - 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;
}

/*
    animation tick
    - 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_bright_internal;
    ziel_pwm = active_brightness;
  }
  else
  {
    start_pwm = active_brightness;
    ziel_pwm = idle_bright_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_brightness - idle_brightness) / (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_brightness);

  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);
}

// ###################################################################################################################
// GEBUFFERT => Erst im Ruhezustand übernehmen !!!!
void Treppe::set_idle_pwm(uint16_t _idle_brightness)
{
  idle_brightness = _idle_brightness;
  berechne_dimmer();
  Serial.printf("Treppe: idle_brightness=%d\n", idle_brightness);
}

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_bright_internal = idle_brightness * active;
      // Dimming Function for all LEDS ?
      pwmController.setAllChannelsPWM(idle_bright_internal);
      former_active = active;
    }
  }
}
void Treppe::set_active_pwm(uint16_t _active_brightness)
{
  active_brightness = _active_brightness;
  berechne_dimmer();
  Serial.printf("Treppe: active_brightness=%d\n", active_brightness);
}
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);
}
working, but need to write test 2021-06-25 18:35:16 +02:00			`#include "treppe.h"`
object oriented stairlight control 2021-06-23 21:23:31 +02:00
FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00			`/*`
			`dimm_stufe`
			`- dimmt stufe (0 - 15, PCA9685 outputs) mit linearen ticks`
			`von idle bis active brightness`
			`- return false solange gedimmt wird`
			`- return true bei nächster stufe`
			`*/`
			`bool Treppe::dimm_stufe(uint8_t stufe)`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`if (fsm_outputs.dimmrichtung == DR_AUFDIMMEN)`
			`current_pwm += differenz_pwm_pro_tick;`
			`else`
			`current_pwm -= differenz_pwm_pro_tick;`
updates format style 2021-07-05 16:15:47 +02:00			`Serial.printf("dimm_stufe %d %f\n", stufe, current_pwm);`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`pwmController.setChannelPWM(stufe, static_cast<uint16_t>(current_pwm));`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`current_tick++;`
			`if (current_tick >= ticks_pro_stufe)`
			`return false;`
			`return true;`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`

FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00			`/*`
			`animation tick`
			`- nach dem dimmen einer stufe wird die stufe weitergezählt`
			`- abbruch am ende => anim_beendet = true;`
			`*/`
			`void Treppe::anim_tick()`
test 2021-06-25 04:53:06 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`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`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`if (stufe <= 0)`
			`{`
			`anim_beendet = true;`
			`return;`
			`}`
			`stufe--;`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`}`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`current_tick = 0;`
			`current_pwm = start_pwm;`
			`}`
test 2021-06-25 04:53:06 +02:00			`}`

FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00			`// startbedingunen für animation`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`void Treppe::start_animation()`
			`{`
			`anim_beendet = false;`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`if (fsm_outputs.laufrichtung == LR_HOCH)`
			`stufe = 0;`
			`else`
			`stufe = stufen - 1;`
updates to state machine with print function 2021-07-03 12:48:17 +02:00
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`if (fsm_outputs.dimmrichtung == DR_AUFDIMMEN)`
			`{`
activate / inactivate idle brightess w LDR 2021-07-05 15:54:35 +02:00			`start_pwm = idle_bright_internal;`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`ziel_pwm = active_brightness;`
			`}`
			`else`
			`{`
			`start_pwm = active_brightness;`
activate / inactivate idle brightess w LDR 2021-07-05 15:54:35 +02:00			`ziel_pwm = idle_bright_internal;`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`}`

			`current_tick = 0;`
			`current_pwm = start_pwm;`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`
working, but need to write test 2021-06-25 18:35:16 +02:00
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`void Treppe::print_state_on_change()`
			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`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)`
			`{`

			`/*`
format 2021-07-05 15:16:43 +02:00			`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`
			`*/`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`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);`
			`}`

bugfixes 2021-07-05 11:48:31 +02:00			`float Treppe::read_ldr()`
			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`/*`
			`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()`
			`{`
bugfixes 2021-07-05 11:48:31 +02:00			`static uint8_t active = 0;`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00
bugfixes 2021-07-05 11:48:31 +02:00			`#ifdef LDRDEBUG`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`Serial.printf("R(LDR) = %f kOhm %f lux\n", ldr_value, lux);`
			`return true;`
bugfixes 2021-07-05 11:48:31 +02:00			`#endif`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00
			`// follow up: averaging over many samples?`
bugfixes 2021-07-05 11:48:31 +02:00			`float ldr = read_ldr();`
			`if (ldr < ldr_schwelle)`
			`active = 1;`
			`if (ldr > ldr_schwelle + LDR_HYS)`
			`active = 0;`
activate / inactivate idle brightess w LDR 2021-07-05 15:54:35 +02:00			`activate_idle_pwm(active);`
bugfixes 2021-07-05 11:48:31 +02:00			`return active;`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`

forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`void Treppe::task()`
			`{`
bugfixes 2021-07-05 11:48:31 +02:00			`fsm_inputs.ldr_schwelle = check_ldr();`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00
			`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();`
somehow working, starting to refactor 2021-07-03 18:10:30 +02:00			`}`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`if (!anim_beendet)`
			`anim_tick();`
			`}`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`}`

added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`void Treppe::berechne_dimmer()`
			`{`
			`ticks_pro_stufe = time_per_stair / INT_TIME; // [ms]`
			`differenz_pwm_pro_tick = (float)(active_brightness - idle_brightness) / (float)ticks_pro_stufe;`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`
FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00
			`void Treppe::setup()`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`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);`
improved activate_idle 2021-07-05 16:57:09 +02:00			`//pwmController.setAllChannelsPWM(idle_brightness);`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00
			`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);`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`
FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00
			`// ###################################################################################################################`
			`// GEBUFFERT => Erst im Ruhezustand übernehmen !!!!`
			`void Treppe::set_idle_pwm(uint16_t _idle_brightness)`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`idle_brightness = _idle_brightness;`
			`berechne_dimmer();`
			`Serial.printf("Treppe: idle_brightness=%d\n", idle_brightness);`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`
activate / inactivate idle brightess w LDR 2021-07-05 15:54:35 +02:00
improved activate_idle 2021-07-05 16:57:09 +02:00			`void Treppe::activate_idle_pwm(bool active)`
			`{`
activate / inactivate idle brightess w LDR 2021-07-05 15:54:35 +02:00			`static uint8_t former_active = 0;`

improved activate_idle 2021-07-05 16:57:09 +02:00			`if (fsm_outputs.status == ST_RUHEZUSTAND \|\| fsm_outputs.status == ST_INAKTIV_LDR)`
			`{`
			`if (active != former_active)`
			`{`
			`idle_bright_internal = idle_brightness * active;`
			`// Dimming Function for all LEDS ?`
			`pwmController.setAllChannelsPWM(idle_bright_internal);`
			`former_active = active;`
			`}`
			`}`
activate / inactivate idle brightess w LDR 2021-07-05 15:54:35 +02:00			`}`
FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00			`void Treppe::set_active_pwm(uint16_t _active_brightness)`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`active_brightness = _active_brightness;`
			`berechne_dimmer();`
			`Serial.printf("Treppe: active_brightness=%d\n", active_brightness);`
object oriented stairlight control 2021-06-23 21:23:31 +02:00			`}`
FSM mostly working, need to implement bufferd param changes 2021-07-03 21:04:24 +02:00			`void Treppe::set_time_per_stair(uint16_t _time_per_stair)`
forgot smtn in print, spaces to 4 2021-07-03 17:51:14 +02:00			`{`
added LDR evaluation + sensor edge detection 2021-07-05 11:40:45 +02:00			`time_per_stair = _time_per_stair;`
			`berechne_dimmer();`
			`Serial.printf("Treppe: time_per_stair=%d\n", time_per_stair);`
moved to treppe.h instead of pwm.h :) 2021-06-25 19:23:02 +02:00			`}`