for Release Version 1.097
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@ -28,8 +28,8 @@
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//#define UBITX_DISPLAY_LCD1602I //I2C type 16 x 02 LCD
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//#define UBITX_DISPLAY_LCD1602I //I2C type 16 x 02 LCD
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//#define UBITX_DISPLAY_LCD1602I_DUAL //I2C type 16 x02 LCD Dual
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//#define UBITX_DISPLAY_LCD1602I_DUAL //I2C type 16 x02 LCD Dual
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//#define UBITX_DISPLAY_LCD2004P //24 x 04 LCD (Parallel)
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//#define UBITX_DISPLAY_LCD2004P //24 x 04 LCD (Parallel)
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//#define UBITX_DISPLAY_LCD2004I //I2C type 24 x 04 LCD
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#define UBITX_DISPLAY_LCD2004I //I2C type 24 x 04 LCD
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#define UBITX_DISPLAY_NEXTION //NEXTION LCD
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//#define UBITX_DISPLAY_NEXTION //NEXTION LCD
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//#define UBITX_DISPLAY_NEXTION_SAFE //Only EEProm Write 770~775
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//#define UBITX_DISPLAY_NEXTION_SAFE //Only EEProm Write 770~775
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#define I2C_LCD_MASTER_ADDRESS_DEFAULT 0x27 //0x27 //DEFAULT, if Set I2C Address by uBITX Manager, read from EEProm
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#define I2C_LCD_MASTER_ADDRESS_DEFAULT 0x27 //0x27 //DEFAULT, if Set I2C Address by uBITX Manager, read from EEProm
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@ -187,7 +187,7 @@ extern byte I2C_LCD_SECOND_ADDRESS; //only using Dual LCD Mode
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* ground and six pins. Each of these six pins can be individually programmed
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* ground and six pins. Each of these six pins can be individually programmed
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* either as an analog input, a digital input or a digital output.
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* either as an analog input, a digital input or a digital output.
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* The pins are assigned as follows (left to right, display facing you):
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* The pins are assigned as follows (left to right, display facing you):
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* Pin 1 (Violet), A7, SPARE
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* Pin 1 (Violet), A7, SPARE => Analog S-Meter
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* Pin 2 (Blue), A6, KEYER (DATA)
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* Pin 2 (Blue), A6, KEYER (DATA)
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* Pin 3 (Green), +5v
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* Pin 3 (Green), +5v
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* Pin 4 (Yellow), Gnd
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* Pin 4 (Yellow), Gnd
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@ -217,7 +217,7 @@ extern byte I2C_LCD_SECOND_ADDRESS; //only using Dual LCD Mode
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* The second set of 16 pins on the Raduino's bottom connector are have the three clock outputs and the digital lines to control the rig.
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* The second set of 16 pins on the Raduino's bottom connector are have the three clock outputs and the digital lines to control the rig.
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* This assignment is as follows :
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* This assignment is as follows :
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* Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
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* Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
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* GND +5V CLK0 GND GND CLK1 GND GND CLK2 GND D2 D3 D4 D5 D6 D7
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* GND +5V CLK2 GND GND CLK1 GND GND CLK0 GND D2 D3 D4 D5 D6 D7
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* These too are flexible with what you may do with them, for the Raduino, we use them to :
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* These too are flexible with what you may do with them, for the Raduino, we use them to :
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* - TX_RX line : Switches between Transmit and Receive after sensing the PTT or the morse keyer
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* - TX_RX line : Switches between Transmit and Receive after sensing the PTT or the morse keyer
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* - CW_KEY line : turns on the carrier for CW
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* - CW_KEY line : turns on the carrier for CW
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@ -1255,9 +1255,15 @@ void setup()
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initSettings();
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initSettings();
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initPorts();
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initPorts();
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#ifndef USE_SW_SERIAL
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#ifdef USE_SW_SERIAL
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// if (userCallsignLength > 0 && ((userCallsignLength & 0x80) == 0x80))
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// {
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userCallsignLength = userCallsignLength & 0x7F;
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// }
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#else
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//for Chracter LCD
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//for Chracter LCD
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if (userCallsignLength > 0 && ((userCallsignLength & 0x80) == 0x80)) {
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if (userCallsignLength > 0 && ((userCallsignLength & 0x80) == 0x80))
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{
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userCallsignLength = userCallsignLength & 0x7F;
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userCallsignLength = userCallsignLength & 0x7F;
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DisplayCallsign(userCallsignLength);
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DisplayCallsign(userCallsignLength);
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}
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}
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@ -230,16 +230,37 @@ void SendHeader(char varType, char varIndex)
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}
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}
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}
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}
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#define INT_ETX 0
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#define STR_ETX 1
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#define TMP_ETX 2
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//Send 0xFF, 0xFF, 0xFF
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//etxType : INT_ETX = 0xFF, 0xFF, 0xFF
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// STR_ETX = ", 0xFF, 0xFF, 0xFF
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// TEMP_ETX = softTemp, 0xFF, 0xFF, 0xff
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void SendCommandETX(char etxType)
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{
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if (etxType == 2)
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{
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SWSerial_Print(softTemp);
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}
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else if (etxType == 1)
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{
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SWSerial_Print("\"");
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}
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SWSerial_Write(0xff);
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SWSerial_Write(0xff);
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SWSerial_Write(0xff);
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}
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void SendCommandUL(char varIndex, unsigned long sendValue)
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void SendCommandUL(char varIndex, unsigned long sendValue)
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{
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{
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SendHeader(SWS_HEADER_INT_TYPE, varIndex);
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SendHeader(SWS_HEADER_INT_TYPE, varIndex);
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memset(softTemp, 0, 20);
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memset(softTemp, 0, 20);
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ultoa(sendValue, softTemp, DEC);
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ultoa(sendValue, softTemp, DEC);
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SWSerial_Print(softTemp);
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SendCommandETX(TMP_ETX);
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SWSerial_Write(0xff);
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SWSerial_Write(0xff);
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SWSerial_Write(0xff);
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}
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}
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void SendCommandL(char varIndex, long sendValue)
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void SendCommandL(char varIndex, long sendValue)
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@ -248,10 +269,7 @@ void SendCommandL(char varIndex, long sendValue)
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memset(softTemp, 0, 20);
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memset(softTemp, 0, 20);
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ltoa(sendValue, softTemp, DEC);
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ltoa(sendValue, softTemp, DEC);
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SWSerial_Print(softTemp);
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SendCommandETX(TMP_ETX);
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SWSerial_Write(0xff);
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SWSerial_Write(0xff);
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SWSerial_Write(0xff);
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}
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}
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void SendCommandStr(char varIndex, char* sendValue)
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void SendCommandStr(char varIndex, char* sendValue)
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@ -259,10 +277,7 @@ void SendCommandStr(char varIndex, char* sendValue)
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SendHeader(SWS_HEADER_STR_TYPE, varIndex);
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SendHeader(SWS_HEADER_STR_TYPE, varIndex);
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SWSerial_Print(sendValue);
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SWSerial_Print(sendValue);
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SWSerial_Write('\"');
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SendCommandETX(STR_ETX);
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SWSerial_Write(0xFF);
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SWSerial_Write(0xFF);
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SWSerial_Write(0xFF);
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}
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}
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//Send String data with duplicate check
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//Send String data with duplicate check
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@ -274,10 +289,7 @@ void SendTextLineBuff(char lineNumber)
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SendHeader(SWS_HEADER_STR_TYPE, lineNumber + 0x30); //s0.txt, s1.txt
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SendHeader(SWS_HEADER_STR_TYPE, lineNumber + 0x30); //s0.txt, s1.txt
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SWSerial_Print(softBuffLines[lineNumber]);
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SWSerial_Print(softBuffLines[lineNumber]);
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SWSerial_Write('\"');
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SendCommandETX(STR_ETX);
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SWSerial_Write(0xFF);
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SWSerial_Write(0xFF);
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SWSerial_Write(0xFF);
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strcpy(softBuffSended[lineNumber], softBuffLines[lineNumber]);
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strcpy(softBuffSended[lineNumber], softBuffLines[lineNumber]);
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}
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}
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@ -312,10 +324,7 @@ void SendEEPromData(char varIndex, int eepromStartIndex, int eepromEndIndex, cha
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SWSerial_Write(EEPROM.read((offsetTtype == 0 ? USER_CALLSIGN_DAT : WSPR_MESSAGE1) + i));
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SWSerial_Write(EEPROM.read((offsetTtype == 0 ? USER_CALLSIGN_DAT : WSPR_MESSAGE1) + i));
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}
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}
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SWSerial_Write('\"');
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SendCommandETX(STR_ETX);
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SWSerial_Write(0xFF);
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SWSerial_Write(0xFF);
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SWSerial_Write(0xFF);
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}
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}
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uint8_t softBuff1Num[14] = {'p', 'm', '.', 'c', '0', '.', 'v', 'a', 'l', '=', 0, 0xFF, 0xFF, 0xFF};
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uint8_t softBuff1Num[14] = {'p', 'm', '.', 'c', '0', '.', 'v', 'a', 'l', '=', 0, 0xFF, 0xFF, 0xFF};
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@ -646,7 +655,6 @@ void updateDisplay() {
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#define RESPONSE_EEPROM_STR 87 //String
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#define RESPONSE_EEPROM_STR 87 //String
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const uint8_t ResponseHeader[11]={'p', 'm', '.', 's', 'h', '.', 't', 'x', 't', '=', '"'};
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const uint8_t ResponseHeader[11]={'p', 'm', '.', 's', 'h', '.', 't', 'x', 't', '=', '"'};
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const uint8_t ResponseFooter[4]={'"', 0xFF, 0xFF, 0xFF};
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const char HexCodes[16] = {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f', };
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const char HexCodes[16] = {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f', };
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//void sendSpectrumData(unsigned long startFreq, unsigned long incStep, int scanCount, int delayTime, int sendCount)
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//void sendSpectrumData(unsigned long startFreq, unsigned long incStep, int scanCount, int delayTime, int sendCount)
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@ -718,10 +726,8 @@ void sendResponseData(int protocolType, unsigned long startFreq, unsigned int se
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SWSerial_Write(HexCodes[readedValue & 0xf]);
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SWSerial_Write(HexCodes[readedValue & 0xf]);
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}
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}
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}
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}
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for (int i = 0; i < 4; i++)
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SendCommandETX(STR_ETX);
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SWSerial_Write(ResponseFooter[i]);
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} //end of for
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} //end of for
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}
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}
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@ -995,12 +1001,7 @@ void idle_process()
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#else
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#else
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int newSMeter;
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int newSMeter;
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//VK2ETA S-Meter from MAX9814 TC pin
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newSMeter = analogRead(ANALOG_SMETER) / 4;
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newSMeter = analogRead(ANALOG_SMETER) / 4;
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//Faster attack, Slower release
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//currentSMeter = (newSMeter > currentSMeter ? ((currentSMeter * 3 + newSMeter * 7) + 5) / 10 : ((currentSMeter * 7 + newSMeter * 3) + 5) / 10);
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//currentSMeter = ((currentSMeter * 7 + newSMeter * 3) + 5) / 10;
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currentSMeter = newSMeter;
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currentSMeter = newSMeter;
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scaledSMeter = 0;
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scaledSMeter = 0;
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@ -290,11 +290,10 @@ int GetI2CSmeterValue(int valueType)
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{
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{
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return Wire.read();
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return Wire.read();
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}
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}
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//else
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else
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//{
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{
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// delay(10);
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return 0;
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// return Wire.read();
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}
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//}
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}
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}
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