accelStepper instead of stepper library, temperature every 1min
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@ -36,27 +36,27 @@ MyMessage dimmerMsg(ROTATION_CHILD_ID, V_DIMMER);
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MyMessage lightMsg(ROTATION_CHILD_ID, V_LIGHT); // we need init light message to make the dimmer appear in HA
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MyMessage msgTemp(CHILD_ID_TEMP, V_TEMP);
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/*
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control a 28BYJ-48 stepper motor with ULN2003 driver board
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https://www.makerguides.com/28byj-48-stepper-motor-arduino-tutorial/
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*/
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#include "Stepper.h"
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// Define number of steps per rotation:
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const int stepsPerRevolution = 2048; // can be 4096
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// https://lastminuteengineers.com/28byj48-stepper-motor-arduino-tutorial/
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#include "AccelStepper.h"
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// ULN2003 Wiring:
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// Pin 3 to IN1
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// Pin 4 to IN2
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// Pin 5 to IN3
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// Pin 6 to IN4
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const int In1 = 3;
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const int In2 = 4;
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const int In3 = 5;
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const int In4 = 6;
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// Create stepper object called 'myStepper', note the pin order:
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Stepper myStepper = Stepper(stepsPerRevolution, 3, 5, 4, 6);
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AccelStepper myStepper(4, In1, In3, In2, In4);
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int prevDimValue=0;
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int newDimValue=0;
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char convBuffer[10];
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int pos=0;
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unsigned long previousMillis = 0;
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const long tempInterval = 60000;
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float DTemp;
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float old_DTemp;
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@ -67,7 +67,7 @@ void presentation()
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Serial.println("- - - - - presentation - - - - -");
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#endif
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sendSketchInfo("Registre Air Chaud", "0.2");
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sendSketchInfo("Registre Air Chaud", "0.3");
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present(ROTATION_CHILD_ID, S_DIMMER, "rotation");
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present(CHILD_ID_TEMP, S_TEMP, "Temperature");
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@ -78,10 +78,13 @@ void setup() {
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Serial.println("- - - - - setup - - - - -");
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#endif
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myStepper.setSpeed(5); // Set the speed to 5 rpm:
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myStepper.setMaxSpeed(1000.0);
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myStepper.setAcceleration(50.0);
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myStepper.setSpeed(200);
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// myStepper.moveTo(2038);
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// todo make a homing of stepper motor OR find a way to sensorize where it is
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myStepper.setCurrentPosition(0);
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send(dimmerMsg.set(prevDimValue));
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send(lightMsg.set(1));
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@ -93,16 +96,37 @@ void loop() {
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// Serial.println("- - - - - loop - - - - -");
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#endif
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sensors.requestTemperatures();
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old_DTemp = DTemp;
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DTemp = sensors.getTempCByIndex(0);
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if (DTemp != old_DTemp && DTemp != -127)
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unsigned long currentMillis = millis();
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// do measurement every one minute
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if (currentMillis - previousMillis >= tempInterval)
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{
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send(msgTemp.set(DTemp, 1));
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previousMillis = currentMillis;
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sensors.requestTemperatures();
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old_DTemp = DTemp;
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DTemp = sensors.getTempCByIndex(0);
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if (DTemp != old_DTemp && DTemp != -127)
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{
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send(msgTemp.set(DTemp, 1));
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old_DTemp = DTemp;
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}
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}
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delay(5000);
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// myStepper.moveTo(myStepper.currentPosition() + 2048);
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// delay(5000);
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// Change direction once the motor reaches target position
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// if (myStepper.distanceToGo() == 0)
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// myStepper.moveTo(-myStepper.currentPosition());
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// Move the motor one step
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if(!myStepper.run()){
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// release the stepper motor to free power consumption
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digitalWrite(In1, 0);
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digitalWrite(In2, 0);
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digitalWrite(In3, 0);
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digitalWrite(In4, 0);
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}
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}
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// Handle incoming messages
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@ -134,21 +158,8 @@ void receive(const MyMessage &message) {
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Serial.println(newDimValue);
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#endif
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int quart = stepsPerRevolution / 4; // how many rotation do we want max (here 45° so from 0 to 512 steps)
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int diff = prevDimValue - newDimValue; // get the difference between the previous and the new dimm value
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prevDimValue = newDimValue; // record new dimm as previous dimm
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int steps = (quart / 100) * diff; // convert diff on percent to steps
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#ifdef MY_DEBUG
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Serial.print("quart: ");
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Serial.println(quart);
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Serial.print("diff: ");
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Serial.println(diff);
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Serial.print("steps: ");
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Serial.println(steps);
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#endif
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myStepper.step(steps); // move the stepper
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// todo release the stepper motor to free power consumption
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// todo instead of 1 revolution (2038) define how much revolution we want to do for full opening (100% of the dimmer in HA)
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pos = (2038 / 100) * newDimValue;
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myStepper.moveTo(pos); // move the stepper
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}
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}
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