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ubitx-upr/ubitx_20/ubitx.h

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/*************************************************************************
header file for C++ by KD8CEC
-----------------------------------------------------------------------------
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
**************************************************************************/
#ifndef _UBITX_HEADER__
#define _UBITX_HEADER__
#include <Arduino.h> //for Linux, On Linux it is case sensitive.
//==============================================================================
// Compile Option
//==============================================================================
//Depending on the type of LCD mounted on the uBITX, uncomment one of the options below.
//You must select only one.
//#define UBITX_DISPLAY_LCD1602P //LCD mounted on unmodified uBITX (Parallel)
//#define UBITX_DISPLAY_LCD1602I //I2C type 16 x 02 LCD
//#define UBITX_DISPLAY_LCD1602I_DUAL //I2C type 16 x02 LCD Dual
//#define UBITX_DISPLAY_LCD2004P //24 x 04 LCD (Parallel)
//#define UBITX_DISPLAY_LCD2004I //I2C type 24 x 04 LCD
#define UBITX_DISPLAY_NEXTION //NEXTION LCD
//#define UBITX_CONTROL_MCU //CONTROL MCU
//#define UBITX_DISPLAY_NEXTION_SAFE //Only EEProm Write 770~775
#define I2C_LCD_MASTER_ADDRESS_DEFAULT 0x27 //0x27 //DEFAULT, if Set I2C Address by uBITX Manager, read from EEProm
#define I2C_LCD_SECOND_ADDRESS_DEFAULT 0x3F //0x27 //only using Dual LCD Mode
#define EXTEND_KEY_GROUP1 //MODE, BAND(-), BAND(+), STEP
//#define EXTEND_KEY_GROUP2 //Numeric (0~9), Point(.), Enter //Not supported in Version 1.0x
//#define ENABLE_FACTORYALIGN
#define FACTORY_RECOVERY_BOOTUP //Whether to enter Factory Recovery mode by pressing FKey and turning on power
#define ENABLE_ADCMONITOR //Starting with Version 1.07, you can read ADC values directly from uBITX Manager. So this function is not necessary.
extern byte I2C_LCD_MASTER_ADDRESS; //0x27 //if Set I2C Address by uBITX Manager, read from EEProm
extern byte I2C_LCD_SECOND_ADDRESS; //only using Dual LCD Mode
#define SMeterLatency 3 //1 is 0.25 sec
#ifdef UBITX_DISPLAY_LCD1602I
#define USE_I2C_LCD
#elif defined(UBITX_DISPLAY_LCD1602I_DUAL)
#define USE_I2C_LCD
#elif defined(UBITX_DISPLAY_LCD2004I)
#define USE_I2C_LCD
#endif
#ifdef UBITX_DISPLAY_NEXTION
#define USE_SW_SERIAL
#undef ENABLE_ADCMONITOR
#undef FACTORY_RECOVERY_BOOTUP
#elif defined(UBITX_CONTROL_MCU)
#define USE_SW_SERIAL
#undef ENABLE_ADCMONITOR
#undef FACTORY_RECOVERY_BOOTUP
#endif
//==============================================================================
// Hardware, Define PIN Usage
//==============================================================================
/**
* We need to carefully pick assignment of pin for various purposes.
* There are two sets of completely programmable pins on the Raduino.
* First, on the top of the board, in line with the LCD connector is an 8-pin connector
* that is largely meant for analog inputs and front-panel control. It has a regulated 5v output,
* ground and six pins. Each of these six pins can be individually programmed
* either as an analog input, a digital input or a digital output.
* The pins are assigned as follows (left to right, display facing you):
* Pin 1 (Violet), A7, SPARE
* Pin 2 (Blue), A6, KEYER (DATA)
* Pin 3 (Green), +5v
* Pin 4 (Yellow), Gnd
* Pin 5 (Orange), A3, PTT
* Pin 6 (Red), A2, F BUTTON
* Pin 7 (Brown), A1, ENC B
* Pin 8 (Black), A0, ENC A
*Note: A5, A4 are wired to the Si5351 as I2C interface
* *
* Though, this can be assigned anyway, for this application of the Arduino, we will make the following
* assignment
* A2 will connect to the PTT line, which is the usually a part of the mic connector
* A3 is connected to a push button that can momentarily ground this line. This will be used for RIT/Bandswitching, etc.
* A6 is to implement a keyer, it is reserved and not yet implemented
* A7 is connected to a center pin of good quality 100K or 10K linear potentiometer with the two other ends connected to
* ground and +5v lines available on the connector. This implments the tuning mechanism
*/
#define ENC_A (A0)
#define ENC_B (A1)
#define FBUTTON (A2)
#define PTT (A3)
#define ANALOG_KEYER (A6)
#define ANALOG_SPARE (A7)
#define ANALOG_SMETER (A7) //by KD8CEC
/**
* 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.
* This assignment is as follows :
* Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* GND +5V CLK0 GND GND CLK1 GND GND CLK2 GND D2 D3 D4 D5 D6 D7
* These too are flexible with what you may do with them, for the Raduino, we use them to :
* - TX_RX line : Switches between Transmit and Receive after sensing the PTT or the morse keyer
* - CW_KEY line : turns on the carrier for CW
*/
#define TX_RX (7) //Relay
#define CW_TONE (6)
#define TX_LPF_A (5) //Relay
#define TX_LPF_B (4) //Relay
#define TX_LPF_C (3) //Relay
#define CW_KEY (2)
//==============================================================================
// for public, Variable, functions
//==============================================================================
#define WSPR_BAND_COUNT 3
#define TX_SSB 0
#define TX_CW 1
#define printLineF1(x) (printLineF(1, x))
#define printLineF2(x) (printLineF(0, x))
//0x00 : None, 0x01 : MODE, 0x02:BAND+, 0x03:BAND-, 0x04:TUNE_STEP, 0x05:VFO Toggle, 0x06:SplitOn/Off, 0x07:TX/ON-OFF, 0x08:SDR Mode On / Off, 0x09:Rit Toggle
#define FUNCTION_KEY_ADC 80 //MODE, BAND(-), BAND(+), STEP
#define FKEY_PRESS 0x78
#define FKEY_MODE 0x01
#define FKEY_BANDUP 0x02
#define FKEY_BANDDOWN 0x03
#define FKEY_STEP 0x04
#define FKEY_VFOCHANGE 0x05
#define FKEY_SPLIT 0x06
#define FKEY_TXOFF 0x07
#define FKEY_SDRMODE 0x08
#define FKEY_RIT 0x09
#define FKEY_ENTER 0x0A
#define FKEY_POINT 0x0B
#define FKEY_DELETE 0x0C
#define FKEY_CANCEL 0x0D
#define FKEY_NUM0 0x10
#define FKEY_NUM1 0x11
#define FKEY_NUM2 0x12
#define FKEY_NUM3 0x13
#define FKEY_NUM4 0x14
#define FKEY_NUM5 0x15
#define FKEY_NUM6 0x16
#define FKEY_NUM7 0x17
#define FKEY_NUM8 0x18
#define FKEY_NUM9 0x19
#define FKEY_TYPE_MAX 0x1F
extern unsigned long frequency;
extern byte WsprMSGCount;
extern byte sMeterLevels[9];
extern int currentSMeter; //ADC Value for S.Meter
extern byte scaledSMeter; //Calculated S.Meter Level
extern byte KeyValues[16][3]; //Set : Start Value, End Value, Key Type, 16 Set (3 * 16 = 48)
extern byte TriggerBySW; //Action Start from Nextion LCD, Other MCU
extern void printLine1(const char *c);
extern void printLine2(const char *c);
extern void printLineF(char linenmbr, const __FlashStringHelper *c);
extern void printLineFromEEPRom(char linenmbr, char lcdColumn, byte eepromStartIndex, byte eepromEndIndex, char offsetType);
extern byte delay_background(unsigned delayTime, byte fromType);
extern int btnDown(void);
extern char c[30];
extern char b[30];
extern int enc_read(void);
extern void si5351bx_init(void);
extern void si5351bx_setfreq(uint8_t clknum, uint32_t fout);
extern void si5351_set_calibration(int32_t cal);
extern void initOscillators(void);
extern void Set_WSPR_Param(void);
extern void TXSubFreq(unsigned long P2);
extern void startTx(byte txMode, byte isDisplayUpdate);
extern void stopTx(void);
extern void setTXFilters(unsigned long freq);
extern void SendWSPRManage(void);
extern char byteToChar(byte srcByte);
extern void DisplayCallsign(byte callSignLength);
extern void DisplayVersionInfo(const char* fwVersionInfo);
#endif //end of if header define
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