332 lines
12 KiB
C++
332 lines
12 KiB
C++
#ifdef BOARD_NODEMCU32S_OBP60
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#include "Pagedata.h"
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#include "OBP60Extensions.h"
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#include "movingAvg.h" // Lib for moving average building
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class PageBattery2 : public Page
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{
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bool init = false; // Marker for init done
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bool keylock = false; // Keylock
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int average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
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bool trend = true; // Trend indicator [0|1], 0=off, 1=on
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double raw = 0;
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public:
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PageBattery2(CommonData &common){
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common.logger->logDebug(GwLog::LOG,"Show PageBattery2");
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}
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virtual int handleKey(int key){
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// Change average
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if(key == 1){
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average ++;
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average = average % 4; // Modulo 4
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return 0; // Commit the key
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}
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// Trend indicator
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if(key == 5){
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trend = !trend;
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return 0; // Commit the key
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}
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// Code for keylock
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if(key == 11){
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keylock = !keylock; // Toggle keylock
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return 0; // Commit the key
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}
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return key;
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}
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virtual void displayPage(CommonData &commonData, PageData &pageData)
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{
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GwConfigHandler *config = commonData.config;
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GwLog *logger=commonData.logger;
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// Get config data
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bool simulation = config->getBool(config->useSimuData);
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String displaycolor = config->getString(config->displaycolor);
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bool holdvalues = config->getBool(config->holdvalues);
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String flashLED = config->getString(config->flashLED);
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String batVoltage = config->getString(config->batteryVoltage);
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int batCapacity = config->getInt(config->batteryCapacity);
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String batType = config->getString(config->batteryType);
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String backlightMode = config->getString(config->backlight);
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double value1 = 0; // Battery voltage
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double value2 = 0; // Battery current
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double value3 = 0; // Battery power consumption
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double valueTrend = 0; // Average over 10 values
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// Get voltage value
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String name1 = "VBat";
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// Create trend value
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if(init == false){ // Load start values for first page run
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valueTrend = commonData.data.batteryVoltage10;
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init = true;
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}
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else{ // Reading trend value
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valueTrend = commonData.data.batteryVoltage10;
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}
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// Get raw value for trend indicator
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raw = commonData.data.batteryVoltage; // Live data
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// Switch average values
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switch (average) {
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case 0:
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value1 = commonData.data.batteryVoltage; // Live data
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value2 = commonData.data.batteryCurrent;
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value3 = commonData.data.batteryPower;
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break;
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case 1:
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value1 = commonData.data.batteryVoltage10; // Average 10s
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value2 = commonData.data.batteryCurrent10;
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value3 = commonData.data.batteryPower10;
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break;
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case 2:
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value1 = commonData.data.batteryVoltage60; // Average 60s
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value2 = commonData.data.batteryCurrent60;
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value3 = commonData.data.batteryPower60;
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break;
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case 3:
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value1 = commonData.data.batteryVoltage300; // Average 300s
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value2 = commonData.data.batteryCurrent300;
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value3 = commonData.data.batteryPower300;
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break;
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default:
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value1 = commonData.data.batteryVoltage; // Default
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value2 = commonData.data.batteryCurrent;
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value3 = commonData.data.batteryPower;
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break;
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}
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bool valid1 = true;
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// Optical warning by limit violation
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if(String(flashLED) == "Limit Violation"){
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// Limits for Pb battery
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if(String(batType) == "Pb" && (raw < 11.8 || raw > 14.8)){
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setBlinkingLED(true);
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}
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if(String(batType) == "Pb" && (raw >= 11.8 && raw <= 14.8)){
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setBlinkingLED(false);
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setPortPin(OBP_FLASH_LED, false);
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}
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// Limits for Gel battery
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if(String(batType) == "Gel" && (raw < 11.8 || raw > 14.4)){
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setBlinkingLED(true);
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}
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if(String(batType) == "Gel" && (raw >= 11.8 && raw <= 14.4)){
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setBlinkingLED(false);
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setPortPin(OBP_FLASH_LED, false);
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}
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// Limits for AGM battery
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if(String(batType) == "AGM" && (raw < 11.8 || raw > 14.7)){
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setBlinkingLED(true);
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}
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if(String(batType) == "AGM" && (raw >= 11.8 && raw <= 14.7)){
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setBlinkingLED(false);
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setPortPin(OBP_FLASH_LED, false);
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}
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// Limits for LiFePo4 battery
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if(String(batType) == "LiFePo4" && (raw < 12.0 || raw > 14.6)){
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setBlinkingLED(true);
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}
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if(String(batType) == "LiFePo4" && (raw >= 12.0 && raw <= 14.6)){
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setBlinkingLED(false);
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setPortPin(OBP_FLASH_LED, false);
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}
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}
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// Logging voltage value
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if (raw == NULL) return;
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LOG_DEBUG(GwLog::LOG,"Drawing at PageBattery2, Type:%s %s:=%f", batType, name1, raw);
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// Draw page
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//***********************************************************
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// Clear display, set background color and text color
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int textcolor = GxEPD_BLACK;
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int pixelcolor = GxEPD_BLACK;
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int bgcolor = GxEPD_WHITE;
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if(displaycolor == "Normal"){
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textcolor = GxEPD_BLACK;
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pixelcolor = GxEPD_BLACK;
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bgcolor = GxEPD_WHITE;
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}
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else{
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textcolor = GxEPD_WHITE;
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pixelcolor = GxEPD_WHITE;
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bgcolor = GxEPD_BLACK;
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}
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// Clear display in obp60task.cpp in main loop
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// Show name
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display.setTextColor(textcolor);
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display.setFont(&Ubuntu_Bold20pt7b);
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display.setCursor(10, 65);
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display.print("Bat.");
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// Show batery type
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display.setTextColor(textcolor);
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display.setFont(&Ubuntu_Bold8pt7b);
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display.setCursor(90, 65);
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display.print(batType);
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// Show voltage type
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(10, 140);
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int bvoltage = 0;
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if(String(batVoltage) == "12V") bvoltage = 12;
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else bvoltage = 24;
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display.print(bvoltage);
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("V");
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// Show batery capacity
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(10, 200);
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display.print(batCapacity);
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("Ah");
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// Show battery with fill level
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static int level = 0;
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batteryGraphic(150, 45, level, pixelcolor, bgcolor);
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// Show average settings
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display.setTextColor(textcolor);
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display.setFont(&Ubuntu_Bold8pt7b);
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display.setCursor(150, 145);
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switch (average) {
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case 0:
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display.print("Avg: 1s");
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break;
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case 1:
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display.print("Avg: 10s");
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break;
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case 2:
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display.print("Avg: 60s");
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break;
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case 3:
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display.print("Avg: 300s");
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break;
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default:
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display.print("Avg: 1s");
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break;
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}
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// Show fill level in percent
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(150, 200);
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display.print(level);
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("%");
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level += 1;
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level = level % 100;
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// Show time to full discharge
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(150, 260);
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display.print(8.3, 1);
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("h");
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// Reading bus data or using simulation data
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(260, 140);
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if(simulation == true){
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if(batVoltage == "12V"){
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value1 = 12.0;
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}
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if(batVoltage == "24V"){
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value1 = 24.0;
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}
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value1 += float(random(0, 5)) / 10; // Simulation data
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display.print(value1,1);
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}
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else{
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// Check for valid real data, display also if hold values activated
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if(valid1 == true || holdvalues == true){
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// Resolution switching
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if(value1 < 10){
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display.print(value1,2);
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}
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if(value1 >= 10 && value1 < 100){
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display.print(value1,1);
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}
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if(value1 >= 100){
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display.print(value1,0);
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}
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}
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else{
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display.print("---"); // Missing bus data
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}
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}
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("V");
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// Show actual current in A
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(260, 200);
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display.print(value2, 1);
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("A");
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// Show actual consumption in W
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display.setTextColor(textcolor);
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display.setFont(&DSEG7Classic_BoldItalic20pt7b);
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display.setCursor(260, 260);
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display.print(value3, 1);
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display.setFont(&Ubuntu_Bold16pt7b);
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display.print("W");
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// Key Layout
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display.setTextColor(textcolor);
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display.setFont(&Ubuntu_Bold8pt7b);
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if(keylock == false){
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display.setCursor(10, 290);
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display.print("[AVG]");
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display.setCursor(130, 290);
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display.print("[ <<<< " + String(commonData.data.actpage) + "/" + String(commonData.data.maxpage) + " >>>> ]");
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if(String(backlightMode) == "Control by Key"){ // Key for illumination
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display.setCursor(343, 290);
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display.print("[ILUM]");
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}
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}
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else{
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display.setCursor(130, 290);
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display.print(" [ Keylock active ]");
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}
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// Update display
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display.updateWindow(0, 0, GxEPD_WIDTH, GxEPD_HEIGHT, true); // Partial update (fast)
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};
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};
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static Page *createPage(CommonData &common){
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return new PageBattery2(common);
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}
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/**
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* with the code below we make this page known to the PageTask
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* we give it a type (name) that can be selected in the config
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* we define which function is to be called
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* and we provide the number of user parameters we expect (0 here)
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* and will will provide the names of the fixed values we need
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*/
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PageDescription registerPageBattery2(
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"Battery2", // Name of page
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createPage, // Action
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0, // Number of bus values depends on selection in Web configuration
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{}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
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true // Show display header on/off
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);
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#endif |