132 lines
6.5 KiB
C
132 lines
6.5 KiB
C
#pragma once
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#include "settings.h"
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/* The ubitx is powered by an arduino nano. The pin assignment is as folows
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*
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*/
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#define ENC_A (A0) // Tuning encoder interface
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#define ENC_B (A1) // Tuning encoder interface
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#define FBUTTON (A2) // Tuning encoder interface
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#define PTT (A3) // Sense it for ssb and as a straight key for cw operation
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#define ANALOG_KEYER (A6) // This is used as keyer. The analog port has 4.7K pull up resistor. Details are in the circuit description on www.hfsignals.com
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#define ANALOG_SPARE (A7) // Not used yet
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#define TX_RX (7) // Pin from the Nano to the radio to switch to TX (HIGH) and RX(LOW)
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#define CW_TONE (6) // Generates a square wave sidetone while sending the CW.
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#define TX_LPF_A (5) // The 30 MHz LPF is permanently connected in the output of the PA...
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#define TX_LPF_B (4) // ...Alternatively, either 3.5 MHz, 7 MHz or 14 Mhz LPFs are...
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#define TX_LPF_C (3) // ...switched inline depending upon the TX frequency
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#define CW_KEY (2) // Pin goes high during CW keydown to transmit the carrier.
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// ... The CW_KEY is needed in addition to the TX/RX key as the...
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// ...key can be up within a tx period
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/** pin assignments
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14 T_IRQ 2 std changed
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13 T_DOUT (parallel to SOD/MOSI, pin 9 of display)
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12 T_DIN (parallel to SDI/MISO, pin 6 of display)
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11 T_CS 9 (we need to specify this)
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10 T_CLK (parallel to SCK, pin 7 of display)
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9 SDO(MSIO) 12 12 (spi)
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8 LED A0 8 (not needed, permanently on +3.3v) (resistor from 5v,
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7 SCK 13 13 (spi)
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6 SDI 11 11 (spi)
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5 D/C A3 7 (changable)
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4 RESET A4 9 (not needed, permanently +5v)
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3 CS A5 10 (changable)
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2 GND GND
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1 VCC VCC
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The model is called tjctm24028-spi
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it uses an ILI9341 display controller and an XPT2046 touch controller.
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*/
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#define TFT_DC 9
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#define TFT_CS 10
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#define CS_PIN 8 //this is the pin to select the touch controller on spi interface
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/**
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* The Arduino, unlike C/C++ on a regular computer with gigabytes of RAM, has very little memory.
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* We have to be very careful with variables that are declared inside the functions as they are
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* created in a memory region called the stack. The stack has just a few bytes of space on the Arduino
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* if you declare large strings inside functions, they can easily exceed the capacity of the stack
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* and mess up your programs.
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* We circumvent this by declaring a few global buffers as kitchen counters where we can
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* slice and dice our strings. These strings are mostly used to control the display or handle
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* the input and output from the USB port. We must keep a count of the bytes used while reading
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* the serial port as we can easily run out of buffer space. This is done in the serial_in_count variable.
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*/
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extern char c[30], b[128];
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/**
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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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* 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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* 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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* - CW_KEY line : turns on the carrier for CW
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*/
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/**
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* The uBITX is an upconnversion transceiver. The first IF is at 45 MHz.
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* The first IF frequency is not exactly at 45 Mhz but about 5 khz lower,
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* this shift is due to the loading on the 45 Mhz crystal filter by the matching
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* L-network used on it's either sides.
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* The first oscillator works between 48 Mhz and 75 MHz. The signal is subtracted
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* from the first oscillator to arriive at 45 Mhz IF. Thus, it is inverted : LSB becomes USB
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* and USB becomes LSB.
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* The second IF of 11.059 Mhz has a ladder crystal filter. If a second oscillator is used at
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* 56 Mhz (appox), the signal is subtracted FROM the oscillator, inverting a second time, and arrives
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* at the 11.059 Mhz ladder filter thus doouble inversion, keeps the sidebands as they originally were.
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* If the second oscillator is at 33 Mhz, the oscilaltor is subtracated from the signal,
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* thus keeping the signal's sidebands inverted. The USB will become LSB.
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* We use this technique to switch sidebands. This is to avoid placing the lsbCarrier close to
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* 11 MHz where its fifth harmonic beats with the arduino's 16 Mhz oscillator's fourth harmonic
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*/
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#define INIT_USB_FREQ (11059200l)
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// limits the tuning and working range of the ubitx between 3 MHz and 30 MHz
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#define LOWEST_FREQ (100000l)
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#define HIGHEST_FREQ (30000000l)
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static const uint32_t THRESHOLD_USB_LSB = 10000000L;
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/* these are functions implemented in the main file named as ubitx_xxx.ino */
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void active_delay(int delay_by);
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void saveVFOs();
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void setFrequency(const unsigned long freq, const bool transmit = false);
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void startTx(TuningMode_e tx_mode);
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void stopTx();
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void ritEnable(unsigned long f);
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void ritDisable();
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void checkCAT();
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void cwKeyer(void);
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void switchVFO(Vfo_e vfoSelect);
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int enc_read(void); // returns the number of ticks in a short interval, +ve in clockwise, -ve in anti-clockwise
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void enc_setup(void); // Setups up initial values and interrupts.
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int btnDown(); //returns true if the encoder button is pressed
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/* these functions are called universally to update the display */
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void updateDisplay(); //updates just the VFO frequency to show what is in 'frequency' variable
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void redrawVFOs(); //redraws only the changed digits of the vfo
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void guiUpdate(); //repaints the entire screen. Slow!!
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void drawCommandbar(char *text);
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void drawTx();
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//getValueByKnob() provides a reusable dialog box to get a value from the encoder, the prefix and postfix
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//are useful to concatanate the values with text like "Set Freq to " x " KHz"
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int getValueByKnob(int minimum, int maximum, int step_size, int initial, char* prefix, char *postfix);
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//main functions to check if any button is pressed and other user interface events
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void doCommands(); //does the commands with encoder to jump from button to button
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/* these are functiosn implemented in ubitx_si5351.cpp */
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void si5351bx_setfreq(uint8_t clknum, uint32_t fout);
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void initOscillators();
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void si5351_set_calibration(int32_t cal); //calibration is a small value that is nudged to make up for the inaccuracies of the reference 25 MHz crystal frequency
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