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Take the most of your hardware
#1
Four months since the last one, we are proud to announce the immediate availability of a new software package for the WeatherDuino Pro2 PLUS weather stations.
You won't wanna loose this one! Take the most of your existing hardware, and upgrade all the software right now.


WeatherDuino Pro2 PLUS AT2560 RX v6.0 b009

- Added a Menu to allow a direct jump to any of the particular data screen. A touch in the top right of the screen will show the menu.
- The visual indicators of the state of NTP sync, WU uploads and last software available were moved to a more convenient place on the screen. They are now smaller and placed in a vertical column.
1st dot - State of NTP sync.
2nd dot - State of uploads to Wunderground.
3rd dot - State of installed software compared to latest available.
- There is now a new indicator in the “System Info” data screen. A dynamic green dot will blink every time a data packet is received, showing exactly from which TX unit the data packet was sent.
- The RF Efficiency is now calculated in a more realistic way. Instead of a calculation based on the packets sent on a 24 hours period, calculation is now done based on an hourly rolling average of the last 3 hours. In result, currently the RF Efficiency value only is significant, after receiving data for at least one hour.
- The reduced size (less 63%) of the new RF messages format, take less time to transmit, decode and process, bringing a significant improvement in overall performance.
- For those which have a server and want to store Air Quality Data on a SQL database, WeatherDuino can now upload these data to your server. It can be used together with the upload to ThingSpeak, or separately. Upload period is each ten minutes.
This feature intended for power users, besides storing AQM data in a SQL database, also allows an easy way to integrate data from the WeatherDuino Air Quality Monitor to your webpages. Included in the utilities folder of the software package there is a small PHP script, which should be installed in your server. The purpose of the script is parse and store the data, sent by the WeatherDuino through a GET command, in an SQL database. Additionally, the script creates a text file, with a single line, which always contains latest AQM data.
- There are lots of improvements on the code which will be tedious to enumerate.
- All know and reported bugs have been fixed.
- Added Italian language (thanks to kraken 1881 by the translation).


Help us to continue improving the software of your weather station.
Keep your system up to date by always running the latest software. Share with us your opinions and experiences. We are always needing your support.
MeteoCercal - Air Quality Data
Click here to watch at my ThingSpeak channel



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#2
Very nice. It's still 19°F here and supposed to snow in a few days, but I look forward to updating all my devices with the new software soon.
Reply
#3
(20-03-2018, 14:12)danner Wrote: Very nice. It's still 19°F here and supposed to snow in a few days, but I look forward to updating all my devices with the new software soon.

Uff, that's a little cold to climb on the roof, better stay inside near the fireplace. Smile
MeteoCercal - Air Quality Data
Click here to watch at my ThingSpeak channel



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#4
Werk,
As I understood your message it indicated that  touch to the top r/h corner of the display would bring up a menu, allowing selection of any data screen, but in my system it blanks the screen and brings up the large clock and date (ie. the screen saver)
Is that correct or am I missing something
Jim
Reply
#5
Hi Jim,

When at the main screen, a touch in the top right of the screen will show a big clock (like a screensaver), and a touch on the top left will show a menu.
MeteoCercal - Air Quality Data
Click here to watch at my ThingSpeak channel



Reply
#6
Werk,
I have uploaded the new software successfully and have a couple of questions;
The first image shows the result of pressing the left hand top of the screen and the second image is the result of pressing the right hand side.
They both seem to have extra data displayed (The menu screen has a temp and Rh displayed in the bottom right  and the other has an extra date and time)
I also cannot get the WD's to update the AQM info but the other data is updating okay.
I have checked everything multiple times with different computers with no result. The meteo day, which is set at 9am changed during the night (i assume at midnight) as the rain info from yesterday was reset to zero at 5 am this morning.
Thanks
Jim


Attached File(s) Image(s)
       
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#7
Hi Jim,
Looks good.
Just commenting till Werk's up..
Did you also update the AQM software too?
Cheers UB
Reply
#8
(22-03-2018, 03:08)Barrow4491 Wrote: Werk,
I have uploaded the new software successfully and have a couple of questions;
The first image shows the result of pressing the left hand top of the screen and the second image is the result of pressing the right hand side.
They both seem to have extra data displayed (The menu screen has a temp and Rh displayed in the bottom right  and the other has an extra date and time)
...

Hi Jim,

I was unable to reproduce those errors on the screens, also have never saw them before. Can you please post your Config_Options.h file along with info about version of your RX PCB.
MeteoCercal - Air Quality Data
Click here to watch at my ThingSpeak channel



Reply
#9
(22-03-2018, 03:14)uncle_bob Wrote: Hi Jim,
Looks good.
Just commenting till Werk's up..
Did you also update the AQM software too?
Cheers UB

UB,
Yes I did;really wierd the AQM reports well to the Rx but appears not to get sent to the WD’s
Jim
Reply
#10
(22-03-2018, 05:33)Werk_AG Wrote:
(22-03-2018, 03:08)Barrow4491 Wrote: Werk,
I have uploaded the new software successfully and have a couple of questions;
The first image shows the result of pressing the left hand top of the screen and the second image is the result of pressing the right hand side.
They both seem to have extra data displayed (The menu screen has a temp and Rh displayed in the bottom right  and the other has an extra date and time)
...

Hi Jim,

I was unable to reproduce those errors on the screens, also have never saw them before. Can you please post your Config_Options.h file along with info about version of your RX PCB.

Code:
// --------------------------------------------------------------------------------------
//  WeatherDuino Pro2 PLUS Receiver - Version: P2AT2560_RX_v6.0_b009
//                 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 = "NORTH WARD TOWNSVILLE AUSTRALIA"; // 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      -19.255    // Put here your Station latitude in degrees North (always use 3 decimal places)
#define LONGITUDE     146.819    // Put here your Station longitude in degrees - minus for West (always use 3 decimal places)
#define ELEVATION     55       // 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 aEDT = {"AEST", First, Sun, Oct, 2, 600};   //Queensland Summer Time -  "UTC + 10" or GMT + 10

Timezone myTZ(aEDT, aEDT);


// --------------------------------------------------------------------------------------
//   Define Interface Language
// --------------------------------------------------------------------------------------
     
#include "_lang/en_GB.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 = 9;    // Use values from 0 to 23


// --------------------------------------------------------------------------------------
//   Define Display Backlight TimeOut
// --------------------------------------------------------------------------------------
#define BACKLIGHT_TIMEOUT    100    // Timeout for display backlight in minutes (1 to 255). 0 = Always ON
#define USE_BIGCLOCK          1    // 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 3    // 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  0   // 0= BME280, 1= BMP280 2= BMP085 / BMP180


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


// --------------------------------------------------------------------------------------
//   Fine adjusts for Inside Temperature and Barometer
// --------------------------------------------------------------------------------------
const int   TemperaturaInt_offset =   0;   // 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     2   // 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 = 10;    // 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 { {9,9},{9,9},{9,9},{9,9},{9,9},{9,9},{8,0} }


// ---- 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 = "";            // 8 chars max
const char ESname_2[] PROGMEM = "";            // 8 chars max
const char ESname_3[] PROGMEM = "";            // 8 chars max
const char ESname_4[] PROGMEM = "";            // 8 chars max
const char ESname_5[] PROGMEM = "";            // 8 chars max
const char ESname_6[] PROGMEM = "";            // 8 chars max
const char ESname_7[] PROGMEM = "Dust TH";     // 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      0   // 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   0                         // 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. (Use 9 to prevent a particular data screen to be shown)
// --------------------------------------------------------------------------------------
#define AirQuality_Data    1
#define TXinfo_Data        2
#define ExtraSensors_Data  9
#define SoilLeaf_Data      9


// --------------------------------------------------------------------------------------
//   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   13   // 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
// ---------------------------------------------------------------------------------------------------
Werk
My board is Version 1.3 Revision C
The extra date only occurs in the screen blanker (r/h touch) when I touch the screen again to un-blank it
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