[f4aii]

I misspoke, I did not remove the line of code but simply set to 0 the sensor.

with the RX version v6_b011, I still have the problem of the screen saver that displays a clock when I do not want it. I want to have the weather data permanently displayed.

The code:

Code:

// --------------------------------------------------------------------------------------
//  WeatherDuino Pro2 PLUS Receiver - Version: P2AT2560_RX_v6.0_b010
//                 Start of user configurable options
// --------------------------------------------------------------------------------------
// If you need help about any of the user configurable settings, please first do a search
// at the WeatherDuino Pro2 support forum. If you don't find any relevant info, then post
// a new thread.
//
// --------------------------------------------------------------------------------------
//   Define Name and ID's for this weather station
// --------------------------------------------------------------------------------------
const char* WeatherStation_Name = "Susville"; // Put here your Weather Station name - Don't leave this empty

const byte Station_ID = 0xA1;    // Station_ID, use the same value in all TX units
const byte Relay_ID   = 0xA3;    // Relay_ID,   use the same value in all WD units


// --------------------------------------------------------------------------------------
//   Define your Weather Station location. Use decimal format for Latitude and Longitude
// --------------------------------------------------------------------------------------
#define LATITUDE      44.925    // Put here your Station latitude in degrees North (always use 3 decimal places)
#define LONGITUDE     5.777    // Put here your Station longitude in degrees - minus for West (always use 3 decimal places)
#define ELEVATION     900       // Put here your Station height above sea level in Meters (no decimal places)


// --------------------------------------------------------------------------------------
//   Define rules for Auto Summer Time Display, and clock adjustment
// --------------------------------------------------------------------------------------
#include <Timezone.h>
// Example for Australia Eastern Time Zone (Sydney, Melbourne)
// TimeChangeRule aEDT = {"AEDT", First, Sun, Oct, 2, 660};    //UTC + 11 hours
// TimeChangeRule aEST = {"AEST", First, Sun, Apr, 3, 600};    //UTC + 10 hours
// Timezone myTZ(aEDT, aEST);

TimeChangeRule PST = {"PST", Last, Sun, Mar, 1, 120};   //Portuguese Summer Time -  "UTC + 1" or GMT + 1
TimeChangeRule GMT = {"GMT", Last, Sun, Oct, 2, 60};    //Portuguese Winter Time -  "UTC + 0" or GMT
Timezone myTZ(PST, GMT);


// --------------------------------------------------------------------------------------
//   Define Interface Language
// --------------------------------------------------------------------------------------
     
#include "_lang/fr_FR.h"      // Change the language code according to your preference. Keep "_lang/" and the ".h" at the end
                             // Currently available languages: en_GB, fr_FR, de_DE, pt_PT, es_ES, cs_CZ, nl_NL, it_IT

// --------------------------------------------------------------------------------------
//   Define Roll Over Hour for Meteorological Day
// --------------------------------------------------------------------------------------
const byte MeteoDay_HStart = 0;    // Use values from 0 to 23


// --------------------------------------------------------------------------------------
//   Define Display Backlight TimeOut
// --------------------------------------------------------------------------------------
#define BACKLIGHT_TIMEOUT     0    // Timeout for display backlight in minutes (1 to 255). 0 = Always ON
#define USE_BIGCLOCK          0    // Instead of turn off TFT backlight, show a big clock screen. 0= No, 1= Yes


// --------------------------------------------------------------------------------------
//   Define data display units
// --------------------------------------------------------------------------------------
#define DATE_TIME_FORMAT  0    // 0 for dd-mm-yyyy, 1 for yyyy/mm/dd
#define TEMP_DISPLAY_UNIT 0    // 0 for ºC, 1 for ºF
#define ATM_DISPLAY_UNIT  0    // 0 for mBar, 1 for inHg
#define RAIN_DISPLAY_UNIT 0    // 0 for mm, 1 for inches
#define WIND_DISPLAY_UNIT 0    // 0 for Km/h, 1 for mph, 2 for m/s, 3 for Knots


// --------------------------------------------------------------------------------------
//   Define the type of your Barometric Pressure Sensor
// --------------------------------------------------------------------------------------
#define BAROMETRIC_SENSOR  1   // 0= BME280, 1= BMP280 2= BMP085 / BMP180


// --------------------------------------------------------------------------------------
//   Define the type of your inside Temperature / Humidity Sensor
// --------------------------------------------------------------------------------------
#define INSIDE_TH_SENSOR   3   // 0= BME280, 1= HTU21D, 2= SHT21, 3= SHT31


// --------------------------------------------------------------------------------------
//   Fine adjusts for Inside Temperature and Barometer
// --------------------------------------------------------------------------------------
const int   TemperaturaInt_offset =   -22;   // Inside Temperature Fine Adjust in Tenths of Degree (-4 = -0,4ºC)
const float pressure_offset       =   0;   // Pressure Fine Adjust in mB


// --------------------------------------------------------------------------------------
//   Define Wind Speed and Wind Gust resolution - Read carefully
// --------------------------------------------------------------------------------------
// This setting only have effect when the software is used in Davis VP emulation mode
#define VP2_WIND_RESOLUTION     2    // If set to 2, set Cumulus Wind Speed and Wind Gust multipliers to 0.448. Wind Resolution 0.72 Km/h
                                    // If set to 1, set Cumulus Wind Speed and Wind Gust multipliers to 0.224. Wind Resolution 0.36 Km/h
                                    // WARNING !!! Setting this variable to 1 allows a better wind speed and gust resolution,
                                    // but also limits both of them, to a maximum reading of just 91.8 Km/h
                                    // If set to 0, system uses Standard Davis wind resolution (1 mph or 0.1mph with LOOP2).
                                    // Weather Display users should set this option to 0 - Standard Davis wind resolution  

// --------------------------------------------------------------------------------------
//   Define use of Wind Gust Spike prevention routines (mostly for FO anemometers)
// --------------------------------------------------------------------------------------
#define WIND_SPIKECONTROL 1   // 0= Disable, 1= Enable


// --------------------------------------------------------------------------------------
//   Define the source of your main outside sensors
// --------------------------------------------------------------------------------------
// ---- If you are using just one TX board, the source for all items should be equal to your single TX Unit ID (most likely zero).
// ---- Define the source of your main Temperature / Humidity sensor
#define TH_SOURCE       0   // 0= Temp/Hum sensor connected to TX_Unit 0, 1= for TX_Unit 1, ..., 3 for Auriol RF Temp / Hum
// ---- Define the source of your Main Wind sensor
#define WIND_SOURCE     0   // 0= Wind instruments connected to TX_Unit 0, 1= for TX_Unit 1, ..., 3 for Auriol RF Wind Speed & Dir
// ---- Define the source of your main Rain Gauge
#define RAIN_SOURCE     0   // 0= Rain Gauge connected to TX_Unit 0, 1= for TX_Unit 1, ..., 3 for Auriol RF Rain Gauge
// ---- Define the source of your main Solar Radiation sensor
#define SOLAR_SOURCE    0   // 0= Solar Radiation sensor connected to TX_Unit 0, 1= for TX_Unit1, ..., 9 for not used
// ---- Define the source of your main UV sensor
#define UV_SOURCE       0  // 0= UV sensor connected to TX_Unit 0, 1= for TX_Unit1, ..., 9 for not used


// --------------------------------------------------------------------------------------
//   Each TX unit can send data from two Temp / Hum sensors.
//   Here you must define which one will be used as your main outside Temperature / Humidity Sensor
//   SENSOR_0 can be any of the supported I2C T/H sensors (SHT31, SHT21 or HTU21D), SENSOR_1 can be an SHT1x or DHT22
// --------------------------------------------------------------------------------------
#define MAINOUT_TH_SENSOR 0   // 0 for SENSOR_0, 1 for SENSOR_1



// --------------------------------------------------------------------------------------
//   Define the type of your Solar Radiation device
// --------------------------------------------------------------------------------------
#define SOLAR_SENSOR     1   // 1= Solar Cell "Pyranometer", 2= Apogee SP-110 Pyranometer, 3= Reserved, 4= Apogee SQ-110: Photosynthetically Active Radiation Sensor
                            // ---- Support for sensor type 4 is experimental (type 4 is a PAR sensor)

// --------------------------------------------------------------------------------------
//   Define the type of your UV device
// --------------------------------------------------------------------------------------
#define UV_SENSOR        1          // 1= UVM-30A, 2= VEML6075, 3= Reserved
const byte UV_Transmission = 100;    // UV Transmission percentage of UV sensor cover material.


// --------------------------------------------------------------------------------------
//   Extra Sensors Settings and Mapping
// --------------------------------------------------------------------------------------
// ---- Define the source and sensor type (number) for each of the seven extra sensors, insert 9 if not used.
//      Sensors SHT31, SHT21 or HTU21D are type 0, sensors SHT1x or DHT22 are type 1
//
// ---- Source 0 means TX unit0, 1 means TX unit1...
// ---- Source 6 (Reserved)
// ---- Source 7 is for BIOS Sensor (Only Temperature is shown)
// ---- Source 8 is for Temperature/Humidity from the Air Quality Monitor
//
// ---- First field = Sensor source, Second field = Sensor type (0 or 1 for TX units)
// ---- Example:
// ----                          ES0   ES1   ES2   ES3   ES4   ES5   ES6    
//#define EXTRASENSORS_SOURCE { {0,1},{1,1},{9,9},{6,3},{9,9},{8,0},{9,9} }
//               {0,0} - First extra sensor (ES0), will be sensor 0 from TX unit0
//               {0,1} - Second extra sensor (ES1), will be sensor 1 from TX unit0
//               {1,0} - Third extra sensor (ES2), will be sensor 0 from TX unit1
//               {9,9} - Fourth extra sensor (ES3), not used - not mapped
//               {9,9} - Fifth extra sensor (ES4), not use - not mapped
//               {8,0} - Sixth extra sensor (ES5), will be Temperature / Humidity from the Air Quality Monitor
//               {9,9} - Seventh extra sensor (ES6), not use - not mapped
//
//-----                        ES0   ES1   ES2   ES3   ES4   ES5   ES6    
#define EXTRASENSORS_SOURCE { {0,0},{0,1},{9,9},{9,9},{9,9},{8,0},{8,1} }


// ---- Define personalized names for each Extra sensor. Attention, 8 chars maximum
// ---- There is no need to define a name for the Extra Sensor mapped to the Dust Density / AQI index data
//                   Max. Size  [--------]
const char ESname_1[] PROGMEM = "boitier";            // 8 chars max
const char ESname_2[] PROGMEM = "Temp ext";            // 8 chars max
const char ESname_3[] PROGMEM = "";            // 8 chars max
const char ESname_4[] PROGMEM = "";            // 8 chars max
const char ESname_5[] PROGMEM = "AQM";            // 8 chars max
const char ESname_6[] PROGMEM = "AQM";            // 8 chars max
const char ESname_7[] PROGMEM = "";     // 8 chars max


// --------------------------------------------------------------------------------------
//   BIOS soil moisture sensor settings
// --------------------------------------------------------------------------------------
// ---- Please use the included BIOS_ID_Scanner sketch to find you BIOS Device ID
#define BIOS_SENSOR_ID   0       // Device ID in HEX format, or 0 not used

// --------------------------------------------------------------------------------------
//   Soil / Leaf Interface Settings and Sensors Mapping
//   (The mapping logic is the same than used with the Extra Sensors)
// --------------------------------------------------------------------------------------
// 0 = Soil Leaf Interface not used
// 1 = Soil Leaf Interface connected to a TX unit
#define SOIL_LEAF_INTERFACE  0   // 0, 1,

// ---- For Soil & Leaf data from SoilLeaf_Interface wired to a TX unit, use TX Unit number as source
// ---- For BIOS Soil Temp / Moisture use 7 as source
// ---- To disable use 9 in both fields
//                                 S1    S2    S3    S4
#define SOILTEMPSENSORS_SOURCE  { {9,9},{9,9},{9,9},{9,9} }
#define LEAFTEMPSENSORS_SOURCE  { {9,9},{9,9},{9,9},{9,9} }
#define SOILMOISTSENSORS_SOURCE { {9,9},{9,9},{9,9},{9,9} }
#define LEAFWETSENSORS_SOURCE   { {9,9},{9,9},{9,9},{9,9} }

// ---- Define personalized names for each Soil and Leaf sensor. Attention, 8 chars maximum
//              Soil Max. Size  [--------]
const char SSname_1[] PROGMEM = "1";        // 8 chars max
const char SSname_2[] PROGMEM = "2";        // 8 chars max
const char SSname_3[] PROGMEM = "3";        // 8 chars max
const char SSname_4[] PROGMEM = "4";        // 8 chars max

//              Leaf Max. Size  [--------]
const char LSname_1[] PROGMEM = "1";        // 8 chars max
const char LSname_2[] PROGMEM = "2";        // 8 chars max
const char LSname_3[] PROGMEM = "3";        // 8 chars max
const char LSname_4[] PROGMEM = "4";        // 8 chars max


// Define VWC calculation method
// Method 1 applies only for VH400 soil moisture sensor
//
// METHOD 1 - Conversion from voltage to VWC (volumetric water content) is done using the piecewise regressions provided by the manufacturer
// at http://www.vegetronix.com/Products/VH400/VH400-Piecewise-Curve.phtml
//
// METHOD 2 - Used for any sensor which have a linear output between voltage and VWC (0V=0VWC, maxV=100VWC) .

#define VWC_CALCMETHOD   1  // 1 or 2

// Max and Min output voltage of the analog sensors connected to Soil / Leaf Interface
// Default value for Decagon Devices LWS Leaf Wetness Sensor (3.3V power): Max. Output Voltage - 1395mV (max wetness), Min Output Voltage - 530mV (dry)

//                                                  ADC1  ADC2  ADC3  ADC4  
const uint16_t AnalogSensor_MaxVoltOut[4]   = { 3000, 1395, 5000, 5000 };    // Values in miliVolts
const uint16_t AnalogSensor_MinVoltOut[4]   = {    0,  530,    0,    0 };


// --------------------------------------------------------------------------------------
//   Broadacasting settings for Wireless Display Units
// --------------------------------------------------------------------------------------
#define RELAY_DATA       1   // 0= Disables Data Relay, 1= Enables Data Relay


// --------------------------------------------------------------------------------------
//   Davis compatible Data Logger Settings
// --------------------------------------------------------------------------------------
#define LOGGER_ENABLE    1   // 0= Disable 1= Enable
byte ARCHIVE_PERIOD  =   5;  // Default Archive Period in Minutes (Usable values: 1, 5, 10, 15, 30)


// --------------------------------------------------------------------------------------
//   Define type of your Weather Software
// --------------------------------------------------------------------------------------
#define WEATHERSOFT      1   // 0= CumulusMX, 1= Any other (Cumulus 1, WeewX, Weather Display, etc.)


// --------------------------------------------------------------------------------------
//   Easyweather Mode output
// --------------------------------------------------------------------------------------
#define EASYWEATHER_OUT  0   // 0= Disable (defaut) 1= Enable


// --------------------------------------------------------------------------------------
//   Internet Settings
// --------------------------------------------------------------------------------------
#define ENABLE_INTERNET     1                        // 1= Enable Internet connection, 0= Disable

// ---- NTP Settings ----
#define ENABLE_NTP          1                        // 1= Enable Sync time with NTP servers, 0= Disable
// NTP Servers:
#define TIMESERVER "pool.ntp.org"
//#define TIMESERVER "time.nist.gov"                 // ntp1.nl.net NTP server
//#define TIMESERVER "80.96.196.58"                  // timp.mcsi.ro
//#define TIMESERVER "193.79.237.14"                 // ntp1.nl.net NTP server

// ---- Weather Wunderground Settings ----
#define ENABLE_WU_UPLOAD   1                         // 1= Enable upload to Wunderground, 0= Disable
#define WU_UPLOAD_INTEMP   1                         // 1= Enable upload of Inside Temperature / Humidity, 0= Disable
byte    WU_upload_period = 3;                        // Period in minutes between uploads to WU (Should be >= 3 minutes, if less defaults to 4 minutes)



// ---- Air Quality Monitor - Upload to ThingSpeak Settings ----
#define ENABLE_TS_UPLOAD         1                   // 1= Enable, 0= Disable


// ---- Air Quality Monitor - Upload and insert data in a SQL table at your own server ----
// ---- Database and table must be created first. See AirQuality_LogToSQL.php script for info
#define ENABLE_AQM_TO_MYSERVER    0                  // 1= Enable, 0= Disable


// ---- Web Server Settings ----
#define ENABLE_WEBSERVER          1                  // 1= Enable 0= Disable
#define WEBSERVER_PORT           80                  // WebServer port (default 80)


// --------------------------------------------------------------------------------------
//   Enable / Disable GPIO routines - General Purpose Input / Output ports
// --------------------------------------------------------------------------------------
#define USE_GPIO  0   // 0=Disable, 1= Enable


// --------------------------------------------------------------------------------------
//   Define display order of data screens on the TFT
//   Use sequentially numbers from 1 to 4.
// --------------------------------------------------------------------------------------
#define AirQuality_Data    1
#define TXinfo_Data        2
#define ExtraSensors_Data  3
#define SoilLeaf_Data      4


// --------------------------------------------------------------------------------------
//   Test Mode : Never run a live system in test mode
// --------------------------------------------------------------------------------------
bool Test_Mode = false;    // false= Normal working mode, true= Test mode only (no logger, no usb connection)


// *************************************************************************************
//     Hardware Settings
// *************************************************************************************

// --------------------------------------------------------------------------------------
//   Define PCB Version Number
// --------------------------------------------------------------------------------------
//                              Take particular attention to this setting.
//                              Your system may not work properly if you define a wrong pcb version number.
//                              In case of doubt check what is printed in your pcb.
#define PCB_VERSION   20   // PCB version number, without the decimal point Ex: 1.3 = 13 (integer number)


// --------------------------------------------------------------------------------------
//   Define your Display type
// --------------------------------------------------------------------------------------
#define DISPLAY_TYPE     3    // 1= LCD 20x4, 3= TFT 320x240 ILI9341


// --------------------------------------------------------------------------------------
//   Define LCD I2C address
// --------------------------------------------------------------------------------------
// Only change this if your LCD don't display any data. I2C_Scanner utility may help you to find the address of your LCD display
// Default address will work most of the times!
#define LCD_ADDRESS      0x27  


// --------------------------------------------------------------------------------------
//   SHT31 I2C Address - Default address will work most of the times!
// --------------------------------------------------------------------------------------
#define SHT31_ADDRESS       0x44       // Default value is 0x44, but it can be changed to 0x45


// --------------------------------------------------------------------------------------
//   Presure Sensor Address (no need to change)
// --------------------------------------------------------------------------------------
//#define BMP085_ADDRESS    0x77       // I2C address of BMP085 or BMP180


// --------------------------------------------------------------------------------------
//   Debug helper
// --------------------------------------------------------------------------------------
//#define PRINT_DEBUG_WIFI
//#define PRINT_DEBUG_NTP_UPDATE      // Prints to serial monitor messages related to sync time with NTP server
//#define PRINT_DEBUG_WU_UPLOAD       // Prints to serial monitor messages related to Weather Underground upload.
//#define PRINT_DEBUG_TS_UPLOAD
//#define PRINT_DEBUG_MYSERVER_UPLOAD
//#define PRINT_DEBUG_VCHECK
//#define PRINT_DEBUG_TCP_SERVER
//#define PRINT_DEBUG_AURIOL
//#define PRINT_DEBUG_BIOS
//#define PRINT_DEBUG_RF_MESSAGES


// ---------------------------------------------------------------------------------------------------
//     End of user configurable options
// ---------------------------------------------------------------------------------------------------

With the TX version v6_b007, the tx transmits the data again with the DHT22.

thanks.