RFM69 new driver delay
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@mickecarlsson I done next test.
Updated my Gateway on RPI3 to 2.3.0
Then also update my nodes to 2.3.0
One node which i use is to control Switch Relay. It works ok also with Repeater function and also without Repeater function.
Second node is to control cover by relay. It no working correct also with Reapeater and also without Repeater function. Status is not update in the same time. Sometimes no respod reaction on click button.Below i see SWITCH releay SKETCH and also to Cover.
Please help me.
Also i need help to convert this sketch for Switch 1xRelay to Switch 2x Releay. ANybody can help me. ?/* Relay with button sketch modified to work with no uplink to gateway and try to maintain sync to controller */ // Enable debug prints to serial monitor #define MY_DEBUG // Enable debug prints to serial monitor // Enable and select radio type attached #define MY_RADIO_RFM69 #define MY_IS_RFM69HW #define RFM69_868MH #define MY_RFM69_NEW_DRIVER // uncomment if we want to manually assign an ID #define MY_NODE_ID 2 // Node id defaults to AUTO (tries to fetch id from controller) #define MY_TRANSPORT_WAIT_READY_MS 5000 //set how long to wait for transport ready in milliseconds #define MY_REPEATER_FEATURE // Enabled repeater feature for this node #include <MySensors.h> #include <Bounce2.h> #define RELAY_PIN 5 // Arduino Digital I/O pin number for relay #define BUTTON_PIN 3 // Arduino Digital I/O pin number for button #define CHILD_ID 1 // Id of the sensor child #define RELAY_ON 0 #define RELAY_OFF 1 Bounce debouncer = Bounce(); int oldValue = 0; bool uplinkAvailable = true; bool state = false; bool requestState; bool firstStart = true; unsigned long uplinkCheckTime ; // holder for uplink checks unsigned long uplinkCheckPeriod = 30*1000; // time between checks for uplink in milliseconds unsigned long returnWait = 1000; // how long to wait for return from controller in milliseconds.. adjust as needed unsigned long oldTime = 0; unsigned long newTime = 0; MyMessage msg(CHILD_ID, V_STATUS); void setup(){ pinMode(BUTTON_PIN, INPUT_PULLUP); // Setup the button pin, Activate internal pull-up debouncer.attach(BUTTON_PIN); // After setting up the button, setup debouncer debouncer.interval(5); pinMode(RELAY_PIN, OUTPUT); // set relay pin in output mode digitalWrite(RELAY_PIN, RELAY_OFF); // Make sure relay is off when starting up send(msg.set(RELAY_OFF), false); // notify controller to show off state } void presentation() { // Send the sketch version information to the gateway and Controller sendSketchInfo("1xRelay & Button-Sypialnia", "2.2.0"); // Register all sensors to gw (they will be created as child devices) present(CHILD_ID, S_BINARY); } void loop(){ if (firstStart) { // this code is only run once at startup Serial.println("First run started"); requestTime(); // get time from controller wait (returnWait); // delay to allow time to return if (oldTime == 0){ // check to see if there was a return from the time request Serial.println("uplink not available"); uplinkAvailable = false; // no uplink established uplinkCheckTime = millis(); } else{ Serial.println("uplink available"); request( CHILD_ID, V_STATUS); // get status of switch on controller wait (returnWait); //wait needed to allow request to return from controller Serial.print("controller state --- "); Serial.println(requestState); if (requestState != state) { // check that controller is corectly showing the current relay state send(msg.set(state), false); // notify controller of current state } } firstStart = false; // set firstStart flag false to prevent code from running again } debouncer.update(); int value = debouncer.read(); // Get the update value if (value != oldValue && value == 0) { // check for new button push state = !state; // Toggle the state digitalWrite(RELAY_PIN, state ? RELAY_ON : RELAY_OFF); // switch the relay to the new state requestTime(); wait (returnWait); // delay to allow time to return if (oldTime != newTime){ // if times are different then uplink is available send(msg.set(state), false); oldTime = newTime; } else{ // if times are the same no uplink is available Serial.println("uplink not available"); uplinkAvailable = false; // no uplink available, set flag false uplinkCheckTime = millis(); // start the timer from now } } oldValue = value; if (!uplinkAvailable && (millis() - uplinkCheckTime > uplinkCheckPeriod) ) { // test to see if function should be called uplinkCheck(); // call uplink checking function } } /*-------------------start of functions--------------------------*/ void receive(const MyMessage &message) { if (message.type == V_STATUS) { // check to see if incoming message is for a switch switch (message.getCommand()) { // message.getCommand will give us the command type of the incomming message case C_SET: //message is a set command from controller to update relay state state = message.getBool(); // get the new state digitalWrite(RELAY_PIN, state ? RELAY_ON : RELAY_OFF); // switch relay to new state send(msg.set(state)); uplinkAvailable = true; // uplink established /*---- Write some debug info----*/ Serial.print("Incoming change for sensor:"); Serial.print(message.sensor); Serial.print(", New status: "); Serial.println(message.getBool()); break; case C_REQ: // message is a returning request from controller requestState = message.getBool(); // update requestState with returning state break; } } } void uplinkCheck() { requestTime(); wait (returnWait); // wait for time return.. this may need to be varied for your system if (oldTime != newTime){ Serial.println("uplink re-established"); request( CHILD_ID, V_STATUS); wait (returnWait); //wait needed to allow request to return from controller if (requestState != state) { // check that controller is corectly showing the current relay state send(msg.set(state), false); // notify controller of current state no ack uplinkAvailable = true; // uplink established oldTime = newTime; } } uplinkCheckTime = millis(); // reset the checktime Serial.println("uplinkchecktime reset"); } void receiveTime(unsigned long time) { if (firstStart){ oldTime = time; newTime = time; } else{ newTime = time; } Serial.print("time received---- " ); Serial.println(time); }```// Enable debug prints to serial monitor #define MY_DEBUG // Enable and select radio type attached #define MY_RADIO_RFM69 #define MY_IS_RFM69HW //#define MY_RFM69_FREQUENCY RFM69_868MHZ #define RFM69_868MH #define MY_RFM69_NEW_DRIVER // #define MY_REPEATER_FEATURE //#define MY_RFM69_CSMA_LIMIT_DBM (-85) // uncomment if we want to manually assign an ID #define MY_NODE_ID 1 #include <Bounce2.h> #include <MySensors.h> #include <SPI.h> #define BUTTON_UP_PIN 3 // Arduino Digital I/O pin number for up button #define BUTTON_DOWN_PIN 4 // Arduino Digital I/O pin number for down button //#define BUTTON_STOP_PIN 5 // Arduino Digital I/O pin number for stop button //#define RELAY_DIR_PIN 6 // Arduino Digital I/O pin number for direction relay //#define RELAY_POWER_PIN 7 // Arduino Digital I/O pin number for power relay #define RELAY_UP_PIN 5 #define RELAY_DOWN_PIN 6 #define RELAY_ON 0 #define RELAY_OFF 1 //#define RELAY_DOWN 1 //#define RELAY_UP 0 #define DIRECTION_DOWN 0 #define DIRECTION_UP 1 #define SKETCH_NAME "Roleta w sypialni" #define SKETCH_VER "2.3" #define CHILD_ID_COVER 0 // sensor Id of the sensor child #define STATE_UP 100 // 100 is open - up #define STATE_DOWN 0 // 0 is closed - down //#define CHILD_ID_CALIBRATE 1 // sensor Id of the sensor child to calibrate #define CHILD_ID_SET 1 // sensor Id of the sensor child to init the roll time #define PRESENT_MESSAGE "Rolety dla Home Assistant" const int LEVELS = 100; //the number of levels float rollTime = 20.0; //the overall rolling time of the shutter const bool IS_ACK = false; //is to acknowlage static bool initial_state_sent = false;//for hass we need at list one state send at begining // debouncing parameters int value = 0; int oldValueUp = 0; int oldValueDown = 0; int oldValueStop = 0; //static unsigned long last_interrupt_time_up = 0; //static unsigned long last_interrupt_time_down = 0; //static unsigned long debounce_time = 200; Bounce debouncerUp = Bounce(); Bounce debouncerDown = Bounce(); Bounce debouncerStop = Bounce(); // shutter position parameters float timeOneLevel = rollTime / LEVELS; int requestedShutterLevel = 0; int currentShutterLevel = 0; unsigned long lastLevelTime = 0; bool isMoving = false; int directionUpDown; bool calibrateDown; bool calibrateUp; unsigned long calibrationStartTime; float calibrationTime = 5.0; bool calibratedDown; bool calibratedUp; enum CoverState { STOP, UP, // Window covering. Up. DOWN, // Window covering. Down. }; static int coverState = STOP; MyMessage msgUp(CHILD_ID_COVER, V_UP); MyMessage msgDown(CHILD_ID_COVER, V_DOWN); MyMessage msgStop(CHILD_ID_COVER, V_STOP); MyMessage msgPercentage(CHILD_ID_COVER, V_PERCENTAGE); //MyMessage msgCode(CHILD_ID_SET, V_IR_SEND); void sendState() { // Send current state and status to gateway. // send(msgUp.set(coverState == UP)); // send(msgDown.set(coverState == DOWN)); // send(msgStop.set(coverState == STOP)); send(msgPercentage.set(currentShutterLevel)); } void shuttersUp(void) { #ifdef MY_DEBUG Serial.println("Shutters going up"); #endif if (digitalRead(RELAY_DOWN_PIN) == RELAY_ON) { digitalWrite(RELAY_DOWN_PIN, RELAY_OFF); wait(50); } digitalWrite(RELAY_UP_PIN, RELAY_ON); directionUpDown = DIRECTION_UP; isMoving = true; coverState = UP; sendState(); } void shuttersDown(void) { #ifdef MY_DEBUG Serial.println("Shutters going down"); #endif if (digitalRead(RELAY_UP_PIN) == RELAY_ON) { digitalWrite(RELAY_UP_PIN, RELAY_OFF); wait(50); } digitalWrite(RELAY_DOWN_PIN, RELAY_ON); directionUpDown = DIRECTION_DOWN; isMoving = true; coverState = DOWN; sendState(); } void shuttersHalt(void) { #ifdef MY_DEBUG Serial.println("Shutters halted"); #endif digitalWrite(RELAY_UP_PIN, RELAY_OFF); digitalWrite(RELAY_DOWN_PIN, RELAY_OFF); isMoving = false; requestedShutterLevel = currentShutterLevel; #ifdef MY_DEBUG Serial.println("saving state to: "); Serial.println(String(currentShutterLevel)); #endif saveState(CHILD_ID_COVER, currentShutterLevel); coverState = STOP; sendState(); } void changeShuttersLevel(int level) { int dir = (level > currentShutterLevel) ? DIRECTION_UP : DIRECTION_DOWN; if (isMoving && dir != directionUpDown) { shuttersHalt(); } requestedShutterLevel = level; } void initShutters() { #ifdef MY_DEBUG Serial.println("Init Cover"); #endif shuttersUp(); wait((rollTime + timeOneLevel * LEVELS) * 1000); currentShutterLevel = STATE_UP; requestedShutterLevel = currentShutterLevel; } void receive(const MyMessage &message) { #ifdef MY_DEBUG Serial.println("recieved incomming message"); Serial.println("Recieved message for sensor: "); Serial.println(String(message.sensor)); Serial.println("Recieved message with type: "); Serial.println(String(message.type)); #endif if (message.sensor == CHILD_ID_COVER) { switch (message.type) { case V_UP: //Serial.println(", New status: V_UP"); changeShuttersLevel(STATE_UP); //state = UP; //sendState(); break; case V_DOWN: //Serial.println(", New status: V_DOWN"); changeShuttersLevel(STATE_DOWN); //state = DOWN; //sendState(); break; case V_STOP: //Serial.println(", New status: V_STOP"); shuttersHalt(); //state = IDLE; //sendState(); break; case V_PERCENTAGE: //Serial.println(", New status: V_PERCENTAGE"); // if (!initial_state_sent) { // #ifdef MY_DEBUG // Serial.println("Receiving initial value from controller"); // #endif // initial_state_sent = true; // } int per = message.getInt(); if (per > STATE_UP) { per = STATE_UP; } changeShuttersLevel(per); //InitShutters(message.getInt());//send value < 0 or > 100 to calibrate //sendState(); break; } } else if (message.sensor == CHILD_ID_SET) { if (message.type == V_VAR1) { #ifdef MY_DEBUG Serial.println(", New status: V_VAR1, with payload: "); #endif String strRollTime = message.getString(); rollTime = strRollTime.toFloat(); #ifdef MY_DEBUG Serial.println("rolltime value: "); Serial.println(String(rollTime)); #endif saveState(CHILD_ID_SET, rollTime); } } #ifdef MY_DEBUG Serial.println("exiting incoming message"); #endif return; } void before() { // Setup the button pinMode(BUTTON_UP_PIN, INPUT_PULLUP); // Activate internal pull-up // digitalWrite(BUTTON_UP_PIN, HIGH); // attachInterrupt(digitalPinToInterrupt(BUTTON_UP_PIN), upButtonPress, FALLING); pinMode(BUTTON_DOWN_PIN, INPUT_PULLUP); // Activate internal pull-up // digitalWrite(BUTTON_DOWN_PIN, HIGH); // attachInterrupt(digitalPinToInterrupt(BUTTON_DOWN_PIN), downButtonPress, FALLING); // pinMode(BUTTON_STOP_PIN, INPUT_PULLUP); // Activate internal pull-up // digitalWrite(BUTTON_STOP_PIN, HIGH); // After setting up the button, setup debouncer debouncerUp.attach(BUTTON_UP_PIN); debouncerUp.interval(5); // After setting up the button, setup debouncer debouncerDown.attach(BUTTON_DOWN_PIN); debouncerDown.interval(5); // After setting up the button, setup debouncer // debouncerStop.attach(BUTTON_STOP_PIN); // debouncerStop.interval(5); // Make sure relays are off when starting up digitalWrite(RELAY_UP_PIN, RELAY_OFF); // Then set relay pins in output mode pinMode(RELAY_UP_PIN, OUTPUT); // Make sure relays are off when starting up digitalWrite(RELAY_DOWN_PIN, RELAY_OFF); // Then set relay pins in output mode pinMode(RELAY_DOWN_PIN, OUTPUT); } void presentation() { // Send the sketch version information to the gateway and Controller sendSketchInfo(SKETCH_NAME, SKETCH_VER); // Register all sensors to gw (they will be created as child devices) present(CHILD_ID_COVER, S_COVER, PRESENT_MESSAGE, IS_ACK); // present(CHILD_ID_SET, S_CUSTOM); } void setup(void) { //set up roll time if the saved value is not 255 #ifdef MY_DEBUG Serial.println("getting rolltime from eeprom: "); #endif float tmpRollTime = loadState(CHILD_ID_SET); if (tmpRollTime != 0xff) { rollTime = tmpRollTime; } #ifdef MY_DEBUG Serial.println(String(rollTime)); #endif int state = loadState(CHILD_ID_COVER); #ifdef MY_DEBUG Serial.println("getting state from eeprom: "); Serial.println(String(state)); #endif // if (state == 0xff) { // initShutters(); // } else { currentShutterLevel = state; requestedShutterLevel = state; // } } void loop(void) { if (!initial_state_sent) { #ifdef MY_DEBUG Serial.println("Sending initial value"); #endif sendState(); // send(msgCode.set('20.0')); // #ifdef MY_DEBUG // Serial.println("Requesting initial value from controller"); // #endif // request(CHILD_ID_COVER, V_PERCENTAGE); // wait(2000, C_SET, V_PERCENTAGE); initial_state_sent = true; } debouncerUp.update(); value = debouncerUp.read(); if (value == 0 && value != oldValueUp) { if(isMoving){ shuttersHalt(); } else{ calibrateUp = false; calibratedUp = false; changeShuttersLevel(STATE_UP); } //state = UP; //sendState(); } oldValueUp = value; debouncerDown.update(); value = debouncerDown.read(); if (value == 0 && value != oldValueDown) { if(isMoving){ shuttersHalt(); } else{ calibrateDown = false; calibratedDown = false; changeShuttersLevel(STATE_DOWN); } //state = DOWN; //sendState(); } oldValueDown = value; /* debouncerStop.update(); value = debouncerStop.read(); if (value == 0 && value != oldValueStop) { shuttersHalt(); //state = IDLE; //sendState(); } oldValueStop = value; */ if(currentShutterLevel != 100) { calibrateUp = false; calibratedUp = false; } if(currentShutterLevel != 0) { calibrateDown = false; calibratedDown = false; } if (isMoving) { unsigned long _now = millis(); if (_now - lastLevelTime >= timeOneLevel * 1000) { if (directionUpDown == DIRECTION_UP) { currentShutterLevel += 1; } else { currentShutterLevel -= 1; } currentShutterLevel = constrain(currentShutterLevel, 0, 100); #ifdef MY_DEBUG Serial.println(String(requestedShutterLevel)); Serial.println(String(currentShutterLevel)); #endif lastLevelTime = millis(); send(msgPercentage.set(currentShutterLevel)); } if (currentShutterLevel == requestedShutterLevel) { if(currentShutterLevel == 0 && !calibratedDown) { if(calibrateDown == false) { calibrateDown = true; calibratedDown = false; calibrationStartTime = _now; } else { if(calibratedDown == false) { if (_now - calibrationStartTime >= calibrationTime * 1000) { calibratedDown = true; } } } } else if (currentShutterLevel == 100 && !calibratedUp) { if(calibrateUp == false) { calibrateUp = true; calibratedUp = false; calibrationStartTime = _now; } else { if(calibratedUp == false) { if (_now - calibrationStartTime >= calibrationTime * 1000) { calibratedUp = true; } } } } else { shuttersHalt(); } } } else { if (requestedShutterLevel != currentShutterLevel) { if (requestedShutterLevel > currentShutterLevel) { shuttersUp(); } else { shuttersDown(); } lastLevelTime = millis(); } } } -
// Enable debug prints to serial monitor #define MY_DEBUG // Enable and select radio type attached #define MY_RADIO_RFM69 #define MY_IS_RFM69HW //#define MY_RFM69_FREQUENCY RFM69_868MHZ #define RFM69_868MH #define MY_RFM69_NEW_DRIVER // #define MY_REPEATER_FEATURE //#define MY_RFM69_CSMA_LIMIT_DBM (-85) // uncomment if we want to manually assign an ID #define MY_NODE_ID 1 #include <Bounce2.h> #include <MySensors.h> #include <SPI.h> #define BUTTON_UP_PIN 3 // Arduino Digital I/O pin number for up button #define BUTTON_DOWN_PIN 4 // Arduino Digital I/O pin number for down button //#define BUTTON_STOP_PIN 5 // Arduino Digital I/O pin number for stop button //#define RELAY_DIR_PIN 6 // Arduino Digital I/O pin number for direction relay //#define RELAY_POWER_PIN 7 // Arduino Digital I/O pin number for power relay #define RELAY_UP_PIN 5 #define RELAY_DOWN_PIN 6 #define RELAY_ON 0 #define RELAY_OFF 1 //#define RELAY_DOWN 1 //#define RELAY_UP 0 #define DIRECTION_DOWN 0 #define DIRECTION_UP 1 #define SKETCH_NAME "Roleta w sypialni" #define SKETCH_VER "2.3" #define CHILD_ID_COVER 0 // sensor Id of the sensor child #define STATE_UP 100 // 100 is open - up #define STATE_DOWN 0 // 0 is closed - down //#define CHILD_ID_CALIBRATE 1 // sensor Id of the sensor child to calibrate #define CHILD_ID_SET 1 // sensor Id of the sensor child to init the roll time #define PRESENT_MESSAGE "Rolety dla Home Assistant" const int LEVELS = 100; //the number of levels float rollTime = 20.0; //the overall rolling time of the shutter const bool IS_ACK = false; //is to acknowlage static bool initial_state_sent = false;//for hass we need at list one state send at begining // debouncing parameters int value = 0; int oldValueUp = 0; int oldValueDown = 0; int oldValueStop = 0; //static unsigned long last_interrupt_time_up = 0; //static unsigned long last_interrupt_time_down = 0; //static unsigned long debounce_time = 200; Bounce debouncerUp = Bounce(); Bounce debouncerDown = Bounce(); Bounce debouncerStop = Bounce(); // shutter position parameters float timeOneLevel = rollTime / LEVELS; int requestedShutterLevel = 0; int currentShutterLevel = 0; unsigned long lastLevelTime = 0; bool isMoving = false; int directionUpDown; bool calibrateDown; bool calibrateUp; unsigned long calibrationStartTime; float calibrationTime = 5.0; bool calibratedDown; bool calibratedUp; enum CoverState { STOP, UP, // Window covering. Up. DOWN, // Window covering. Down. }; static int coverState = STOP; MyMessage msgUp(CHILD_ID_COVER, V_UP); MyMessage msgDown(CHILD_ID_COVER, V_DOWN); MyMessage msgStop(CHILD_ID_COVER, V_STOP); MyMessage msgPercentage(CHILD_ID_COVER, V_PERCENTAGE); //MyMessage msgCode(CHILD_ID_SET, V_IR_SEND); void sendState() { // Send current state and status to gateway. // send(msgUp.set(coverState == UP)); // send(msgDown.set(coverState == DOWN)); // send(msgStop.set(coverState == STOP)); send(msgPercentage.set(currentShutterLevel)); } void shuttersUp(void) { #ifdef MY_DEBUG Serial.println("Shutters going up"); #endif if (digitalRead(RELAY_DOWN_PIN) == RELAY_ON) { digitalWrite(RELAY_DOWN_PIN, RELAY_OFF); wait(50); } digitalWrite(RELAY_UP_PIN, RELAY_ON); directionUpDown = DIRECTION_UP; isMoving = true; coverState = UP; sendState(); } void shuttersDown(void) { #ifdef MY_DEBUG Serial.println("Shutters going down"); #endif if (digitalRead(RELAY_UP_PIN) == RELAY_ON) { digitalWrite(RELAY_UP_PIN, RELAY_OFF); wait(50); } digitalWrite(RELAY_DOWN_PIN, RELAY_ON); directionUpDown = DIRECTION_DOWN; isMoving = true; coverState = DOWN; sendState(); } void shuttersHalt(void) { #ifdef MY_DEBUG Serial.println("Shutters halted"); #endif digitalWrite(RELAY_UP_PIN, RELAY_OFF); digitalWrite(RELAY_DOWN_PIN, RELAY_OFF); isMoving = false; requestedShutterLevel = currentShutterLevel; #ifdef MY_DEBUG Serial.println("saving state to: "); Serial.println(String(currentShutterLevel)); #endif saveState(CHILD_ID_COVER, currentShutterLevel); coverState = STOP; sendState(); } void changeShuttersLevel(int level) { int dir = (level > currentShutterLevel) ? DIRECTION_UP : DIRECTION_DOWN; if (isMoving && dir != directionUpDown) { shuttersHalt(); } requestedShutterLevel = level; } void initShutters() { #ifdef MY_DEBUG Serial.println("Init Cover"); #endif shuttersUp(); wait((rollTime + timeOneLevel * LEVELS) * 1000); currentShutterLevel = STATE_UP; requestedShutterLevel = currentShutterLevel; } void receive(const MyMessage &message) { #ifdef MY_DEBUG Serial.println("recieved incomming message"); Serial.println("Recieved message for sensor: "); Serial.println(String(message.sensor)); Serial.println("Recieved message with type: "); Serial.println(String(message.type)); #endif if (message.sensor == CHILD_ID_COVER) { switch (message.type) { case V_UP: //Serial.println(", New status: V_UP"); changeShuttersLevel(STATE_UP); //state = UP; //sendState(); break; case V_DOWN: //Serial.println(", New status: V_DOWN"); changeShuttersLevel(STATE_DOWN); //state = DOWN; //sendState(); break; case V_STOP: //Serial.println(", New status: V_STOP"); shuttersHalt(); //state = IDLE; //sendState(); break; case V_PERCENTAGE: //Serial.println(", New status: V_PERCENTAGE"); // if (!initial_state_sent) { // #ifdef MY_DEBUG // Serial.println("Receiving initial value from controller"); // #endif // initial_state_sent = true; // } int per = message.getInt(); if (per > STATE_UP) { per = STATE_UP; } changeShuttersLevel(per); //InitShutters(message.getInt());//send value < 0 or > 100 to calibrate //sendState(); break; } } else if (message.sensor == CHILD_ID_SET) { if (message.type == V_VAR1) { #ifdef MY_DEBUG Serial.println(", New status: V_VAR1, with payload: "); #endif String strRollTime = message.getString(); rollTime = strRollTime.toFloat(); #ifdef MY_DEBUG Serial.println("rolltime value: "); Serial.println(String(rollTime)); #endif saveState(CHILD_ID_SET, rollTime); } } #ifdef MY_DEBUG Serial.println("exiting incoming message"); #endif return; } void before() { // Setup the button pinMode(BUTTON_UP_PIN, INPUT_PULLUP); // Activate internal pull-up // digitalWrite(BUTTON_UP_PIN, HIGH); // attachInterrupt(digitalPinToInterrupt(BUTTON_UP_PIN), upButtonPress, FALLING); pinMode(BUTTON_DOWN_PIN, INPUT_PULLUP); // Activate internal pull-up // digitalWrite(BUTTON_DOWN_PIN, HIGH); // attachInterrupt(digitalPinToInterrupt(BUTTON_DOWN_PIN), downButtonPress, FALLING); // pinMode(BUTTON_STOP_PIN, INPUT_PULLUP); // Activate internal pull-up // digitalWrite(BUTTON_STOP_PIN, HIGH); // After setting up the button, setup debouncer debouncerUp.attach(BUTTON_UP_PIN); debouncerUp.interval(5); // After setting up the button, setup debouncer debouncerDown.attach(BUTTON_DOWN_PIN); debouncerDown.interval(5); // After setting up the button, setup debouncer // debouncerStop.attach(BUTTON_STOP_PIN); // debouncerStop.interval(5); // Make sure relays are off when starting up digitalWrite(RELAY_UP_PIN, RELAY_OFF); // Then set relay pins in output mode pinMode(RELAY_UP_PIN, OUTPUT); // Make sure relays are off when starting up digitalWrite(RELAY_DOWN_PIN, RELAY_OFF); // Then set relay pins in output mode pinMode(RELAY_DOWN_PIN, OUTPUT); } void presentation() { // Send the sketch version information to the gateway and Controller sendSketchInfo(SKETCH_NAME, SKETCH_VER); // Register all sensors to gw (they will be created as child devices) present(CHILD_ID_COVER, S_COVER, PRESENT_MESSAGE, IS_ACK); // present(CHILD_ID_SET, S_CUSTOM); } void setup(void) { //set up roll time if the saved value is not 255 #ifdef MY_DEBUG Serial.println("getting rolltime from eeprom: "); #endif float tmpRollTime = loadState(CHILD_ID_SET); if (tmpRollTime != 0xff) { rollTime = tmpRollTime; } #ifdef MY_DEBUG Serial.println(String(rollTime)); #endif int state = loadState(CHILD_ID_COVER); #ifdef MY_DEBUG Serial.println("getting state from eeprom: "); Serial.println(String(state)); #endif // if (state == 0xff) { // initShutters(); // } else { currentShutterLevel = state; requestedShutterLevel = state; // } } void loop(void) { if (!initial_state_sent) { #ifdef MY_DEBUG Serial.println("Sending initial value"); #endif sendState(); // send(msgCode.set('20.0')); // #ifdef MY_DEBUG // Serial.println("Requesting initial value from controller"); // #endif // request(CHILD_ID_COVER, V_PERCENTAGE); // wait(2000, C_SET, V_PERCENTAGE); initial_state_sent = true; } debouncerUp.update(); value = debouncerUp.read(); if (value == 0 && value != oldValueUp) { if(isMoving){ shuttersHalt(); } else{ calibrateUp = false; calibratedUp = false; changeShuttersLevel(STATE_UP); } //state = UP; //sendState(); } oldValueUp = value; debouncerDown.update(); value = debouncerDown.read(); if (value == 0 && value != oldValueDown) { if(isMoving){ shuttersHalt(); } else{ calibrateDown = false; calibratedDown = false; changeShuttersLevel(STATE_DOWN); } //state = DOWN; //sendState(); } oldValueDown = value; /* debouncerStop.update(); value = debouncerStop.read(); if (value == 0 && value != oldValueStop) { shuttersHalt(); //state = IDLE; //sendState(); } oldValueStop = value; */ if(currentShutterLevel != 100) { calibrateUp = false; calibratedUp = false; } if(currentShutterLevel != 0) { calibrateDown = false; calibratedDown = false; } if (isMoving) { unsigned long _now = millis(); if (_now - lastLevelTime >= timeOneLevel * 1000) { if (directionUpDown == DIRECTION_UP) { currentShutterLevel += 1; } else { currentShutterLevel -= 1; } currentShutterLevel = constrain(currentShutterLevel, 0, 100); #ifdef MY_DEBUG Serial.println(String(requestedShutterLevel)); Serial.println(String(currentShutterLevel)); #endif lastLevelTime = millis(); send(msgPercentage.set(currentShutterLevel)); } if (currentShutterLevel == requestedShutterLevel) { if(currentShutterLevel == 0 && !calibratedDown) { if(calibrateDown == false) { calibrateDown = true; calibratedDown = false; calibrationStartTime = _now; } else { if(calibratedDown == false) { if (_now - calibrationStartTime >= calibrationTime * 1000) { calibratedDown = true; } } } } else if (currentShutterLevel == 100 && !calibratedUp) { if(calibrateUp == false) { calibrateUp = true; calibratedUp = false; calibrationStartTime = _now; } else { if(calibratedUp == false) { if (_now - calibrationStartTime >= calibrationTime * 1000) { calibratedUp = true; } } } } else { shuttersHalt(); } } } else { if (requestedShutterLevel != currentShutterLevel) { if (requestedShutterLevel > currentShutterLevel) { shuttersUp(); } else { shuttersDown(); } lastLevelTime = millis(); } } }Finally
In my opinion on MySensors 2.2.0 all my sketches (switch relay and cover ) works better. With no problem. NO PROBLEM.
Cover works perfect and switch works perfect without any timeout and delay. ANd all node works without REPEATER.
My opinion is that in version 2.3.0 something not working correct with radio RFM69HW.
Maybe for sensors which send data from time to time is ok , but for cover which transfer data when cover is roll, it is problem... and gateway can not recived all data when node send position cover. Maybe developer read this thread and can do any changes to correct it. -
You only need repeater fi you have a node far away that can’t reach the gateway, then you add repeater on a node nearer the gateway.
See here: MySensors Network
And if the node has repeater defined it must allways have power and no Sleep.
Sorry, I can’t test the sketch.ANd tell me how you connect Gateway to your Domoticz Controller ? What path to usb or serial you setup in Domoticz ?
-
Finally
In my opinion on MySensors 2.2.0 all my sketches (switch relay and cover ) works better. With no problem. NO PROBLEM.
Cover works perfect and switch works perfect without any timeout and delay. ANd all node works without REPEATER.
My opinion is that in version 2.3.0 something not working correct with radio RFM69HW.
Maybe for sensors which send data from time to time is ok , but for cover which transfer data when cover is roll, it is problem... and gateway can not recived all data when node send position cover. Maybe developer read this thread and can do any changes to correct it.@pepson said in RFM69 new driver delay:
My opinion is that in version 2.3.0 something not working correct with radio RFM69HW.
Maybe for sensors which send data from time to time is ok , but for cover which transfer data when cover is roll, it is problem... and gateway can not recived all data when node send position cover. Maybe developer read this thread and can do any changes to correct it.Like I said, we will take a look as soon as we get time. For the moment, busy (at least on my side). And we're a few, using rfm69.
So if 2.2 fixes your issue, it can be a good idea. -
@pepson said in RFM69 new driver delay:
My opinion is that in version 2.3.0 something not working correct with radio RFM69HW.
Maybe for sensors which send data from time to time is ok , but for cover which transfer data when cover is roll, it is problem... and gateway can not recived all data when node send position cover. Maybe developer read this thread and can do any changes to correct it.Like I said, we will take a look as soon as we get time. For the moment, busy (at least on my side). And we're a few, using rfm69.
So if 2.2 fixes your issue, it can be a good idea. -
Finally
In my opinion on MySensors 2.2.0 all my sketches (switch relay and cover ) works better. With no problem. NO PROBLEM.
Cover works perfect and switch works perfect without any timeout and delay. ANd all node works without REPEATER.
My opinion is that in version 2.3.0 something not working correct with radio RFM69HW.
Maybe for sensors which send data from time to time is ok , but for cover which transfer data when cover is roll, it is problem... and gateway can not recived all data when node send position cover. Maybe developer read this thread and can do any changes to correct it.@pepson said in RFM69 new driver delay:
Finally
In my opinion on MySensors 2.2.0 all my sketches (switch relay and cover ) works better. With no problem. NO PROBLEM.
Cover works perfect and switch works perfect without any timeout and delay. ANd all node works without REPEATER.
My opinion is that in version 2.3.0 something not working correct with radio RFM69HW.
Maybe for sensors which send data from time to time is ok , but for cover which transfer data when cover is roll, it is problem... and gateway can not recived all data when node send position cover. Maybe developer read this thread and can do any changes to correct it.RFM69W / HW user here. I can confirm that V 2.3.0 on both nodes and PI has some broken. My nodes, stable for 3+ months, with new version they have issues. In detail, they cannot get ACK. In my sketch, I check for ACK when transmitting, to force the watchdog or no. NO ACK received (1 every 20/30) :(
And my nodes are "perfect". LifePo4 or AA, someone feeded directly, RPI3 with 2.5a... And I repeat, no issues in 3+ months from switching from NRF to RFM.
-
This is my generic temperature/humidity/battery level sketch that I use. I have upgraded all my nodes and gateway to 2.3.0 yesterday and I don't have any issue whatsoever :-)
/** * The MySensors Arduino library handles the wireless radio link and protocol * between your home built sensors/actuators and HA controller of choice. * The sensors forms a self healing radio network with optional repeaters. Each * repeater and gateway builds a routing tables in EEPROM which keeps track of the * network topology allowing messages to be routed to nodes. * * Created by Henrik Ekblad <henrik.ekblad@mysensors.org> * Copyright (C) 2013-2015 Sensnology AB * Full contributor list: https://github.com/mysensors/Arduino/graphs/contributors * * Documentation: http://www.mysensors.org * Support Forum: http://forum.mysensors.org * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 2 as published by the Free Software Foundation. * ******************************* * * DESCRIPTION * * This is a sketch I use to measure temperature, humidity and battery level on * my Easy/Newbie PCB for MySensors (rev 9) * Hardware used: * Easy/Newbie PCB for MySensors * BME280 (I only use temperature and humidity, all code for barometic pressure removed) * */ // Enable debug prints to serial monitor //#define MY_DEBUG #define MY_SPLASH_SCREEN_DISABLED // This saves a couple of bytes // Enable and select radio type attached #define MY_RADIO_RFM69 #define MY_IS_RFM69HW #define MY_RFM69_NEW_DRIVER #define MY_RFM69_FREQUENCY RFM69_868MHZ #include <MySensors.h> #include <Wire.h> // Enables the Wire communication protocol. // Bosch BME280 Embedded Adventures MOD-1022 weather multi-sensor Arduino code, // written originally by Embedded Adventures. // https://github.com/embeddedadventures/BME280 #include <BME280_MOD-1022.h> // Internal battery measurement https://github.com/Yveaux/arduino_vcc #include <Vcc.h> // Change all text variables here, no need to hunt them down in the sketch // For sendSketchInfo() #define SKETCH_NAME "Generic Temeperature/Humidity" #define SKETCH_VERSION "1.13" // For present() #define PRESENT_TEMP_TEXT "Temperature Generic" #define PRESENT_HUM_TEXT "Humidity Generic" #define PRESENT_BAT_TEXT "Batteri Test-3" // Battery measurements const float VccMin = 1.8*1.0; // Min Vcc level, in Volts. Example for 2xAA Alkaline. const float VccMax = 2.0*1.5; // Max Vcc level, in Volts. Example for 2xAA Alkaline. const float VccCorrection = 1.0/1.0; // Measured Vcc by multimeter divided by reported Vcc Vcc vcc(VccCorrection); // VARIABLES YOU CAN CHANGE // Send temperature only if it has changed? 1 = Yes 0 = No. #define COMPARE_TEMP 0 // Set this value to the minimum change in temperature to measure. // BME280 has +-0.5 degrees precision, so it really doesn't matter that much. float tempThreshold = 0.5; // Send temperature only if changed? 1 = Yes 0 = No. #define COMPARE_HUM 0 // Set this value to the minimum change in humidity to measure. // BME280 has +-3% relative humidity precision, so it really doesn't matter that much. float humThreshold = 0.5; #define TEMP_CHILD_ID 1 #define HUM_CHILD_ID 2 #define VOLTAGE_CHILD_ID 3 float lastTemperature = -1; // Store previous measurement float lastHumidity = -1; // Stores the previous measurement bool reportRSSI = false; // true = send RSSI to controller int sendBattery = 6; // report battery level only after 6 loops = 6*4 minutes = 24 minutes // Placeholder for batteryloop, set to one above sendBattery so that we get a report on startup int batteryLoop = sendBattery + 1; // Time between send (in milliseconds), in this case, 4 minutes. unsigned long FOUR_MINUTE_SEND_FREQUENCY = 4 * 60000; // MYSENSORS COMMUNICATION VARIABLES MyMessage temperatureMsg(TEMP_CHILD_ID, V_TEMP); MyMessage humidityMsg(HUM_CHILD_ID, V_HUM); MyMessage voltageMsg(VOLTAGE_CHILD_ID, V_VOLTAGE); void setup() { #ifdef MY_DEBUG Serial.begin(115200); #endif Wire.begin(); // For the BME280 sensor #ifdef MY_DEBUG Serial.println(F("Starting ...")); #endif } void presentation() { // Send the sketch version information to the gateway and Controller sendSketchInfo(SKETCH_NAME, SKETCH_VERSION); // Present the sensors to the gateway and controller present(TEMP_CHILD_ID, S_TEMP, PRESENT_TEMP_TEXT); present(HUM_CHILD_ID, S_HUM, PRESENT_HUM_TEXT); present(VOLTAGE_CHILD_ID, S_MULTIMETER, PRESENT_BAT_TEXT); } void loop() { #ifdef MY_DEBUG Serial.println(F("Read BME280 and report it's values.")); #endif GetTemperatureHumidity(); // Get temperature and humidity if(batteryLoop > sendBattery) { // Is the batteryLoop higher than sendBattery? #ifdef MY_DEBUG Serial.println(F("Read the battery voltage and report it.")); #endif MeasureBattery(); // Measure and report battery level batteryLoop = 0; // Reset batteryLoop count } #ifdef MY_DEBUG Serial.print(F("Go to sleep for: ")); Serial.print(FOUR_MINUTE_SEND_FREQUENCY / 60000); Serial.println(F(" minutes.")); #endif batteryLoop++; // Increase batteryLoop before we sleep. sleep(FOUR_MINUTE_SEND_FREQUENCY); // Sleep for 4 minutes } /************************************************ * GetTemperatureHumidity() * Routine for measuring temperature and humidity * Generic one that fits my need ************************************************/ void GetTemperatureHumidity() { #ifdef MY_DEBUG Serial.println(""); Serial.println(F("BME280 - Requesting new data from sensor module.")); #endif BME280.readCompensationParams(); // Need to read the NVM compensation parameters. // Normal mode for regular automatic samples BME280.writeStandbyTime(tsb_0p5ms); // tsb = 0.5ms BME280.writeFilterCoefficient(fc_16); // IIR Filter coefficient 16 BME280.writeOversamplingPressure(os16x); // pressure x16 BME280.writeOversamplingTemperature(os8x); // temperature x8 BME280.writeOversamplingHumidity(os8x); // humidity x8 BME280.writeMode(smNormal); #ifdef MY_DEBUG Serial.println(F("Getting new values")); #endif while (BME280.isMeasuring()) { // Wait for BME280 to fininsh reading data #ifdef MY_DEBUG Serial.println("Measuring..."); #endif delay(50); } Serial.println("Done!"); // Read out the data - must do this before calling the getxxxxx routines BME280.readMeasurements(); float temperature = BME280.getTemperatureMostAccurate(); // Get the temperature first. float humidity = BME280.getHumidityMostAccurate(); // Get the humidity. #ifdef MY_DEBUG Serial.print(F("BME280 - Temperature = ")); Serial.print(temperature); Serial.println(" °C"); Serial.print(F("BME280 - Humidity = ")); Serial.print(humidity); Serial.println(F(" %")); #endif // Now, let's send the measurements to the gateway. // Send temperature if the temperature difference bigger than the threshold if (COMPARE_TEMP == 1 && abs(temperature - lastTemperature) < tempThreshold) { #ifdef MY_DEBUG Serial.print(temperature - lastTemperature); Serial.println(F(" Temperature difference too small, don't send it to gateway.")); #endif } else { #ifdef MY_DEBUG Serial.println(F("Sending new temperature to the gateway.")); #endif send(temperatureMsg.set(temperature, 1)); lastTemperature = temperature; // Save temperatures for compare in the next round. } // Send humidity if the humidity difference is bigger than the threshold. if (COMPARE_TEMP == 1 && abs(humidity - lastHumidity) < humThreshold) { #ifdef MY_DEBUG Serial.print(humidity - lastHumidity); Serial.println(F(" Humidity difference too small, don't send it to the gateway.")); #endif } else { #ifdef MY_DEBUG Serial.println(F("BME280 - Sending the new humidity to the gateway.")); #endif send(humidityMsg.set(humidity, 1)); lastHumidity = humidity; // Save new humidity to be able to compare in the next round. } #ifdef MY_DEBUG Serial.println(F("BME280 - Measurement complete. Putting sensor to sleep.")); #endif BME280.writeMode(smSleep); // set the BME280to sleep mode, save battery } // End of GetTemperatureHumidity /* * MeasureBattery() * Routine for measuring battery level * Generic one that fits my need * NOTE: You need to calibrate the measurement to get correct readings */ void MeasureBattery() { float Vbat = vcc.Read_Volts(); int batteryPercent = static_cast<int>(vcc.Read_Perc(VccMin, VccMax)); #ifdef MY_DEBUG Serial.print(F("Battery percent: ")); Serial.print(batteryPercent); Serial.println(" %"); Serial.print(F("Battery Voltage: ")); Serial.print(Vbat); Serial.println(F(" Volts")); #endif sendBatteryLevel(batteryPercent); send(voltageMsg.set(Vbat,2)); //send battery in Volt 2 decimal places } -
@mickecarlsson
Can you share me your all sketches ? Thanks
And tell me how you have connected Gateway to RPI3? By ethernet or by serial ? Because i see in your building Gateway that you dont use parameter ETHERNET on port 5003And anybody has any contact to developer @tekka007 ?
This is info what show in debug on version 2.3.0 gateway and also node on version 2.3.0
pi@hassbian:~/MySensors $ sudo /usr/local/bin/mysgw Jun 22 17:22:49 INFO Starting gateway... Jun 22 17:22:49 INFO Protocol version - 2.3.0 Jun 22 17:22:49 DEBUG MCO:BGN:INIT GW,CP=RPNGL---,VER=2.3.0 Jun 22 17:22:49 DEBUG TSF:LRT:OK Jun 22 17:22:49 DEBUG TSM:INIT Jun 22 17:22:49 DEBUG TSF:WUR:MS=0 Jun 22 17:22:49 DEBUG TSM:INIT:TSP OK Jun 22 17:22:49 DEBUG TSM:INIT:GW MODE Jun 22 17:22:49 DEBUG TSM:READY:ID=0,PAR=0,DIS=0 Jun 22 17:22:49 DEBUG MCO:REG:NOT NEEDED Jun 22 17:22:49 DEBUG Listening for connections on 0.0.0.0:5003 Jun 22 17:22:49 DEBUG MCO:BGN:STP Jun 22 17:22:49 DEBUG MCO:BGN:INIT OK,TSP=1 Jun 22 17:22:54 DEBUG TSF:MSG:READ,2-2-255,s=255,c=3,t=7,pt=0,l=0,sg=0: Jun 22 17:22:54 DEBUG TSF:MSG:BC Jun 22 17:22:54 DEBUG TSF:MSG:FPAR REQ,ID=2 Jun 22 17:22:54 DEBUG TSF:CKU:OK,FCTRL Jun 22 17:22:54 DEBUG TSF:MSG:GWL OK Jun 22 17:22:54 DEBUG TSF:MSG:SEND,0-0-2-2,s=255,c=3,t=8,pt=1,l=1,sg=0,ft=0,st=O K:0 Jun 22 17:22:56 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=24,pt=1,l=1,sg=0:1 Jun 22 17:22:56 DEBUG TSF:MSG:PINGED,ID=2,HP=1 Jun 22 17:22:57 DEBUG TSF:MSG:SEND,0-0-2-2,s=255,c=3,t=25,pt=1,l=1,sg=0,ft=0,st= OK:1 Jun 22 17:22:57 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=15,pt=6,l=2,sg=0:0100 Jun 22 17:22:58 DEBUG TSF:MSG:SEND,0-0-2-2,s=255,c=3,t=15,pt=6,l=2,sg=0,ft=0,st= OK:0100 Jun 22 17:22:59 DEBUG TSF:MSG:READ,2-2-0,s=255,c=0,t=17,pt=0,l=5,sg=0:2.3.0 Jun 22 17:22:59 DEBUG TSF:MSG:READ,2-2-0,s=255,c=0,t=17,pt=0,l=5,sg=0:2.3.0 Jun 22 17:23:00 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=6,pt=1,l=1,sg=0:0 Jun 22 17:23:00 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=6,pt=1,l=1,sg=0:0 Jun 22 17:23:03 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=11,pt=0,l=25,sg=0:1xRelay & Button-Sypialni Jun 22 17:23:03 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=11,pt=0,l=25,sg=0:1xRelay & Button-Sypialni Jun 22 17:23:03 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=12,pt=0,l=5,sg=0:2.2.0 Jun 22 17:23:04 DEBUG TSF:MSG:READ,2-2-0,s=1,c=0,t=3,pt=0,l=0,sg=0: Jun 22 17:23:05 DEBUG TSF:MSG:READ,2-2-0,s=1,c=0,t=3,pt=0,l=0,sg=0: Jun 22 17:23:05 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=26,pt=1,l=1,sg=0:2 Jun 22 17:23:06 DEBUG TSF:MSG:SEND,0-0-2-2,s=255,c=3,t=27,pt=1,l=1,sg=0,ft=0,st=OK:1 Jun 22 17:23:07 DEBUG TSF:MSG:READ,2-2-0,s=1,c=1,t=2,pt=2,l=2,sg=0:0 Jun 22 17:23:08 DEBUG TSF:MSG:READ,2-2-0,s=1,c=1,t=2,pt=2,l=2,sg=0:0 Jun 22 17:23:08 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=1,pt=0,l=0,sg=0: Jun 22 17:23:09 DEBUG TSF:MSG:READ,2-2-0,s=255,c=3,t=1,pt=0,l=0,sg=0:@pepson said in RFM69 new driver delay:
And tell me how you have connected Gateway to RPI3? By ethernet or by serial ? Because i see in your building Gateway that you dont use parameter ETHERNET on port 5003
I use Ethernet to connect to my Domoticz.
The reason that you don't see my configuration for ETHERNET or PORT is because they are default when you configure.
If you look at the file Makefile.inc you will see the build options. In my case the file looks like this:SOC=BCM2837 CPPFLAGS=-march=armv8-a+crc -mtune=cortex-a53 -mfpu=neon-fp-armv8 -mfloat-abi=hard -DMY_RADIO_RFM69 -DMY_RFM69_NEW_DRIVER -DMY_GATEWAY_LINUX -DMY_DEBUG -DLINUX_SPI_BCM -DLINUX_ARCH_RASPBERRYPI -DMY_RFM69_FREQUENCY=RFM69_868MHZ -DMY_IS_RFM69HW LDFLAGS=-pthread PREFIX=/usr/local CC=gcc CXX=g++ BUILDDIR=build BINDIR=bin GATEWAY_DIR=/usr/local/bin INIT_SYSTEM=systemd SPI_DRIVER=BCMSo in my case I have these defines:
MY_RADIO_RFM69
MY_RFM69_NEW_DRIVER
MY_GATEWAY_LINUX
MY_DEBUG
LINUX_SPI_BCM
LINUX_ARCH_RASPBERRYPI
MY_RFM69_FREQUENCY=RFM69_868MHZ
MY_IS_RFM69HW -
This is my generic temperature/humidity/battery level sketch that I use. I have upgraded all my nodes and gateway to 2.3.0 yesterday and I don't have any issue whatsoever :-)
/** * The MySensors Arduino library handles the wireless radio link and protocol * between your home built sensors/actuators and HA controller of choice. * The sensors forms a self healing radio network with optional repeaters. Each * repeater and gateway builds a routing tables in EEPROM which keeps track of the * network topology allowing messages to be routed to nodes. * * Created by Henrik Ekblad <henrik.ekblad@mysensors.org> * Copyright (C) 2013-2015 Sensnology AB * Full contributor list: https://github.com/mysensors/Arduino/graphs/contributors * * Documentation: http://www.mysensors.org * Support Forum: http://forum.mysensors.org * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 2 as published by the Free Software Foundation. * ******************************* * * DESCRIPTION * * This is a sketch I use to measure temperature, humidity and battery level on * my Easy/Newbie PCB for MySensors (rev 9) * Hardware used: * Easy/Newbie PCB for MySensors * BME280 (I only use temperature and humidity, all code for barometic pressure removed) * */ // Enable debug prints to serial monitor //#define MY_DEBUG #define MY_SPLASH_SCREEN_DISABLED // This saves a couple of bytes // Enable and select radio type attached #define MY_RADIO_RFM69 #define MY_IS_RFM69HW #define MY_RFM69_NEW_DRIVER #define MY_RFM69_FREQUENCY RFM69_868MHZ #include <MySensors.h> #include <Wire.h> // Enables the Wire communication protocol. // Bosch BME280 Embedded Adventures MOD-1022 weather multi-sensor Arduino code, // written originally by Embedded Adventures. // https://github.com/embeddedadventures/BME280 #include <BME280_MOD-1022.h> // Internal battery measurement https://github.com/Yveaux/arduino_vcc #include <Vcc.h> // Change all text variables here, no need to hunt them down in the sketch // For sendSketchInfo() #define SKETCH_NAME "Generic Temeperature/Humidity" #define SKETCH_VERSION "1.13" // For present() #define PRESENT_TEMP_TEXT "Temperature Generic" #define PRESENT_HUM_TEXT "Humidity Generic" #define PRESENT_BAT_TEXT "Batteri Test-3" // Battery measurements const float VccMin = 1.8*1.0; // Min Vcc level, in Volts. Example for 2xAA Alkaline. const float VccMax = 2.0*1.5; // Max Vcc level, in Volts. Example for 2xAA Alkaline. const float VccCorrection = 1.0/1.0; // Measured Vcc by multimeter divided by reported Vcc Vcc vcc(VccCorrection); // VARIABLES YOU CAN CHANGE // Send temperature only if it has changed? 1 = Yes 0 = No. #define COMPARE_TEMP 0 // Set this value to the minimum change in temperature to measure. // BME280 has +-0.5 degrees precision, so it really doesn't matter that much. float tempThreshold = 0.5; // Send temperature only if changed? 1 = Yes 0 = No. #define COMPARE_HUM 0 // Set this value to the minimum change in humidity to measure. // BME280 has +-3% relative humidity precision, so it really doesn't matter that much. float humThreshold = 0.5; #define TEMP_CHILD_ID 1 #define HUM_CHILD_ID 2 #define VOLTAGE_CHILD_ID 3 float lastTemperature = -1; // Store previous measurement float lastHumidity = -1; // Stores the previous measurement bool reportRSSI = false; // true = send RSSI to controller int sendBattery = 6; // report battery level only after 6 loops = 6*4 minutes = 24 minutes // Placeholder for batteryloop, set to one above sendBattery so that we get a report on startup int batteryLoop = sendBattery + 1; // Time between send (in milliseconds), in this case, 4 minutes. unsigned long FOUR_MINUTE_SEND_FREQUENCY = 4 * 60000; // MYSENSORS COMMUNICATION VARIABLES MyMessage temperatureMsg(TEMP_CHILD_ID, V_TEMP); MyMessage humidityMsg(HUM_CHILD_ID, V_HUM); MyMessage voltageMsg(VOLTAGE_CHILD_ID, V_VOLTAGE); void setup() { #ifdef MY_DEBUG Serial.begin(115200); #endif Wire.begin(); // For the BME280 sensor #ifdef MY_DEBUG Serial.println(F("Starting ...")); #endif } void presentation() { // Send the sketch version information to the gateway and Controller sendSketchInfo(SKETCH_NAME, SKETCH_VERSION); // Present the sensors to the gateway and controller present(TEMP_CHILD_ID, S_TEMP, PRESENT_TEMP_TEXT); present(HUM_CHILD_ID, S_HUM, PRESENT_HUM_TEXT); present(VOLTAGE_CHILD_ID, S_MULTIMETER, PRESENT_BAT_TEXT); } void loop() { #ifdef MY_DEBUG Serial.println(F("Read BME280 and report it's values.")); #endif GetTemperatureHumidity(); // Get temperature and humidity if(batteryLoop > sendBattery) { // Is the batteryLoop higher than sendBattery? #ifdef MY_DEBUG Serial.println(F("Read the battery voltage and report it.")); #endif MeasureBattery(); // Measure and report battery level batteryLoop = 0; // Reset batteryLoop count } #ifdef MY_DEBUG Serial.print(F("Go to sleep for: ")); Serial.print(FOUR_MINUTE_SEND_FREQUENCY / 60000); Serial.println(F(" minutes.")); #endif batteryLoop++; // Increase batteryLoop before we sleep. sleep(FOUR_MINUTE_SEND_FREQUENCY); // Sleep for 4 minutes } /************************************************ * GetTemperatureHumidity() * Routine for measuring temperature and humidity * Generic one that fits my need ************************************************/ void GetTemperatureHumidity() { #ifdef MY_DEBUG Serial.println(""); Serial.println(F("BME280 - Requesting new data from sensor module.")); #endif BME280.readCompensationParams(); // Need to read the NVM compensation parameters. // Normal mode for regular automatic samples BME280.writeStandbyTime(tsb_0p5ms); // tsb = 0.5ms BME280.writeFilterCoefficient(fc_16); // IIR Filter coefficient 16 BME280.writeOversamplingPressure(os16x); // pressure x16 BME280.writeOversamplingTemperature(os8x); // temperature x8 BME280.writeOversamplingHumidity(os8x); // humidity x8 BME280.writeMode(smNormal); #ifdef MY_DEBUG Serial.println(F("Getting new values")); #endif while (BME280.isMeasuring()) { // Wait for BME280 to fininsh reading data #ifdef MY_DEBUG Serial.println("Measuring..."); #endif delay(50); } Serial.println("Done!"); // Read out the data - must do this before calling the getxxxxx routines BME280.readMeasurements(); float temperature = BME280.getTemperatureMostAccurate(); // Get the temperature first. float humidity = BME280.getHumidityMostAccurate(); // Get the humidity. #ifdef MY_DEBUG Serial.print(F("BME280 - Temperature = ")); Serial.print(temperature); Serial.println(" °C"); Serial.print(F("BME280 - Humidity = ")); Serial.print(humidity); Serial.println(F(" %")); #endif // Now, let's send the measurements to the gateway. // Send temperature if the temperature difference bigger than the threshold if (COMPARE_TEMP == 1 && abs(temperature - lastTemperature) < tempThreshold) { #ifdef MY_DEBUG Serial.print(temperature - lastTemperature); Serial.println(F(" Temperature difference too small, don't send it to gateway.")); #endif } else { #ifdef MY_DEBUG Serial.println(F("Sending new temperature to the gateway.")); #endif send(temperatureMsg.set(temperature, 1)); lastTemperature = temperature; // Save temperatures for compare in the next round. } // Send humidity if the humidity difference is bigger than the threshold. if (COMPARE_TEMP == 1 && abs(humidity - lastHumidity) < humThreshold) { #ifdef MY_DEBUG Serial.print(humidity - lastHumidity); Serial.println(F(" Humidity difference too small, don't send it to the gateway.")); #endif } else { #ifdef MY_DEBUG Serial.println(F("BME280 - Sending the new humidity to the gateway.")); #endif send(humidityMsg.set(humidity, 1)); lastHumidity = humidity; // Save new humidity to be able to compare in the next round. } #ifdef MY_DEBUG Serial.println(F("BME280 - Measurement complete. Putting sensor to sleep.")); #endif BME280.writeMode(smSleep); // set the BME280to sleep mode, save battery } // End of GetTemperatureHumidity /* * MeasureBattery() * Routine for measuring battery level * Generic one that fits my need * NOTE: You need to calibrate the measurement to get correct readings */ void MeasureBattery() { float Vbat = vcc.Read_Volts(); int batteryPercent = static_cast<int>(vcc.Read_Perc(VccMin, VccMax)); #ifdef MY_DEBUG Serial.print(F("Battery percent: ")); Serial.print(batteryPercent); Serial.println(" %"); Serial.print(F("Battery Voltage: ")); Serial.print(Vbat); Serial.println(F(" Volts")); #endif sendBatteryLevel(batteryPercent); send(voltageMsg.set(Vbat,2)); //send battery in Volt 2 decimal places }@mickecarlsson
You dont have issue becuase temp/hum send data from time to time every defined time.
My sketch with relay also looks that works ok.
But problem is on sketch with relay to control covers. WHen cover roll node send still data and it is problem...
This is my opinion. -
@pepson said in RFM69 new driver delay:
And tell me how you have connected Gateway to RPI3? By ethernet or by serial ? Because i see in your building Gateway that you dont use parameter ETHERNET on port 5003
I use Ethernet to connect to my Domoticz.
The reason that you don't see my configuration for ETHERNET or PORT is because they are default when you configure.
If you look at the file Makefile.inc you will see the build options. In my case the file looks like this:SOC=BCM2837 CPPFLAGS=-march=armv8-a+crc -mtune=cortex-a53 -mfpu=neon-fp-armv8 -mfloat-abi=hard -DMY_RADIO_RFM69 -DMY_RFM69_NEW_DRIVER -DMY_GATEWAY_LINUX -DMY_DEBUG -DLINUX_SPI_BCM -DLINUX_ARCH_RASPBERRYPI -DMY_RFM69_FREQUENCY=RFM69_868MHZ -DMY_IS_RFM69HW LDFLAGS=-pthread PREFIX=/usr/local CC=gcc CXX=g++ BUILDDIR=build BINDIR=bin GATEWAY_DIR=/usr/local/bin INIT_SYSTEM=systemd SPI_DRIVER=BCMSo in my case I have these defines:
MY_RADIO_RFM69
MY_RFM69_NEW_DRIVER
MY_GATEWAY_LINUX
MY_DEBUG
LINUX_SPI_BCM
LINUX_ARCH_RASPBERRYPI
MY_RFM69_FREQUENCY=RFM69_868MHZ
MY_IS_RFM69HW@mickecarlsson said in RFM69 new driver delay:
MY_RADIO_RFM69 -DMY_RFM69_NEW_DRIVER -DMY_GATEWAY_LINUX -DMY_DEBUG -DLINUX_SPI_BCM -DLINUX_ARCH_RASPBERRYPI -DMY_RFM69_FREQUENCY=RFM69_868MHZ -DMY_IS_RFM69HW
LDFLAGS=-pthreadMy defined is the same:
SOC=BCM2837 CPPFLAGS=-march=armv8-a+crc -mtune=cortex-a53 -mfpu=neon-fp-armv8 -mfloat-abi=hard -DMY_RADIO_RFM69 -DMY_RFM69_NEW_DRIVER -DMY_GATEWAY_LINUX -DMY_DEBUG -DLINUX_SPI_BCM -DLINUX_ARCH_RASPBERRYPI -DMY_DEFAULT_TX_LED_PIN=18 -DMY_DEFAULT_RX_LED_PIN=16 -DMY_DEFAULT_ERR_LED_PIN=12 -DMY_PORT=5003 -DMY_IS_RFM69HW -DMY_RFM69_FREQUENCY=RFM69_868MHZ LDFLAGS=-pthread PREFIX=/usr/local CC=gcc CXX=g++ BUILDDIR=build BINDIR=bin GATEWAY_DIR=/usr/local/bin INIT_SYSTEM=systemd SPI_DRIVER=BCM -
@pepson
just to know, when you get this issue, do you send to one shutter only? (because i see you're sending each %, each 200ms). Well we have already did a stress test in the past, one packet each 50-70ms with a dozen of nodes and it worked but that was with a local unoffcial lib, and not with rpi as gw.
I don't remember if buffer has been implemented in regular branch, for rfm69 (but I think so). And it should work like you said it works with 2.2
We'll be able retry some stress tests, unfortunately not on rpi as gw (not using this setup), I'm not sure but maybe only marceloaqno may be using rpi with rfm69 (not sure), and we're a very few rfm69 users. Let us check if it's a general problem or rpi as gw only.
Sorry for disturbance ;) -
@pepson
just to know, when you get this issue, do you send to one shutter only? (because i see you're sending each %, each 200ms). Well we have already did a stress test in the past, one packet each 50-70ms with a dozen of nodes and it worked but that was with a local unoffcial lib, and not with rpi as gw.
I don't remember if buffer has been implemented in regular branch, for rfm69 (but I think so). And it should work like you said it works with 2.2
We'll be able retry some stress tests, unfortunately not on rpi as gw (not using this setup), I'm not sure but maybe only marceloaqno may be using rpi with rfm69 (not sure), and we're a very few rfm69 users. Let us check if it's a general problem or rpi as gw only.
Sorry for disturbance ;) -
@pepson
no idea if it will help you, but what i meant is sending less msg .
I think i recognize some parts of this sketch, not sure :)So, in your sketch, here you can see it sends at each %
if (isMoving) { unsigned long _now = millis(); if (_now - lastLevelTime >= timeOneLevel * 1000) { if (directionUpDown == DIRECTION_UP) { currentShutterLevel += 1; } else { currentShutterLevel -= 1; } currentShutterLevel = constrain(currentShutterLevel, 0, 100); #ifdef MY_DEBUG Serial.println(String(requestedShutterLevel)); Serial.println(String(currentShutterLevel)); #endif lastLevelTime = millis(); send(msgPercentage.set(currentShutterLevel));try to change this last line, by:
if (currentShutterLevel % 5 == 0) send(msgPercentage.set(currentShutterLevel)); // change 5 by 10 if you want to send each 10% for exampleno worry about shutter level update in controller, because when it will stop it will send its level (with sendstate in shutterhalt).
As your settings in top of sketch is 20sec for a complete roll, then it should send each second instead of 200ms previously (except if you did some calibration), and if i'm not wrong, I quickly read it! -
@pepson
no idea if it will help you, but what i meant is sending less msg .
I think i recognize some parts of this sketch, not sure :)So, in your sketch, here you can see it sends at each %
if (isMoving) { unsigned long _now = millis(); if (_now - lastLevelTime >= timeOneLevel * 1000) { if (directionUpDown == DIRECTION_UP) { currentShutterLevel += 1; } else { currentShutterLevel -= 1; } currentShutterLevel = constrain(currentShutterLevel, 0, 100); #ifdef MY_DEBUG Serial.println(String(requestedShutterLevel)); Serial.println(String(currentShutterLevel)); #endif lastLevelTime = millis(); send(msgPercentage.set(currentShutterLevel));try to change this last line, by:
if (currentShutterLevel % 5 == 0) send(msgPercentage.set(currentShutterLevel)); // change 5 by 10 if you want to send each 10% for exampleno worry about shutter level update in controller, because when it will stop it will send its level (with sendstate in shutterhalt).
As your settings in top of sketch is 20sec for a complete roll, then it should send each second instead of 200ms previously (except if you did some calibration), and if i'm not wrong, I quickly read it! -
Should looks like this ?
if (isMoving) { unsigned long _now = millis(); if (_now - lastLevelTime >= timeOneLevel * 1000) { if (directionUpDown == DIRECTION_UP) { currentShutterLevel += 1; } else { currentShutterLevel -= 1; } currentShutterLevel = constrain(currentShutterLevel, 0, 100); #ifdef MY_DEBUG Serial.println(String(requestedShutterLevel)); Serial.println(String(currentShutterLevel)); #endif lastLevelTime = millis(); if (currentShutterLevel % 5 == 0) send(msgPercentage.set(currentShutterLevel)); // change 5 by 10 if you want to send each 10% for example``` -
Should looks like this ?
if (isMoving) { unsigned long _now = millis(); if (_now - lastLevelTime >= timeOneLevel * 1000) { if (directionUpDown == DIRECTION_UP) { currentShutterLevel += 1; } else { currentShutterLevel -= 1; } currentShutterLevel = constrain(currentShutterLevel, 0, 100); #ifdef MY_DEBUG Serial.println(String(requestedShutterLevel)); Serial.println(String(currentShutterLevel)); #endif lastLevelTime = millis(); if (currentShutterLevel % 5 == 0) send(msgPercentage.set(currentShutterLevel)); // change 5 by 10 if you want to send each 10% for example```
