first working arduino test code for one display unit
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@ -1,206 +1,136 @@
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//Pin Assignments (You should change these)
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const int CLK = 9; //Connected to TPIC pin 13: SRCLK (aka Clock)
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const int LATCH = 10; //Connected to TPIC pin 12: RCLK (aka Latch/load/CS/SS...)
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const int OE = 11; //Connected to TPIC pin 9: OE (Output Enable)
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const int DOUT = 12; //Connected to TPIC pin 3: SER (aka MOSI)
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#define CLK 2 //Connected to TPIC pin 13: SRCLK (aka Clock)
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#define LATCH 3 //Connected to TPIC pin 12: RCLK (aka Latch/load/CS/SS...)
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#define DOUT 4 //Connected to TPIC pin 3: SER (aka MOSI)
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#define SEG_0 A0
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#define SEG_1 A1
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#define SEG_2 A2
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#define SEG_3 A3
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#define SEG_4 A4
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#define SEG_5 A5
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#define SEG_6 11
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#define SEG_7 12
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//Number Patterns (0-9)
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//***Drains 0-7 must be connected to segments A-DP respectively***
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const byte numTable[] =
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{
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B11111100,
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B01100000,
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B11011010,
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B11110010,
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B01100110,
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B10110110,
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B10111110,
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B11100000,
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B11111110,
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B11110110
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};
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#define FET_COUNT 8
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#define BYTE_PER_FET 6
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//Global Variables
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int numDevices = 1; //The number of x-digit display modules you plan to use
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int maxDisplays = 3; //The maximum displays that could be accommodated (see note 1)
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int maxDigits = 3; //The maximum digits you plan on displaying per display module (each SR can handle a max of 8 digits)
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int SRData[3][3]; //The storage location for the digit information. We must specify a fixed array at compile time (see note 2)
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boolean debug = true; //Change to true to print messages
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int delayTime = 1000; //Optional (just for demonstrating multiplexing)
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volatile uint8_t data[FET_COUNT][BYTE_PER_FET];
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long dataMillis = 0;
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uint8_t dataDemoStep = 0;
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/*
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Notes
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1. It is recommended to use an external power supply to avoid oversource/sinking the microcontroller
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or if you need to power high voltage, high current displays. This code will turn on/off all segments in a digit for ***each*** display.
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So, if using 2x 3-digit displays all displaying an 8 + DP, the max consumption will be:
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20mA (desired forward current) * 8 (segments that are on) * 2 (displays showing identical info) = 320mA
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2. The first dimension should equal maxDisplays. The second dimension should equal the number of digits
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*/
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void setup() {
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Serial.begin(115200);
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void setup()
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{
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Serial.begin(9600);
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//Set pin modes
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pinMode(CLK,OUTPUT);
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pinMode(LATCH,OUTPUT);
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pinMode(DOUT, OUTPUT);
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pinMode(OE, OUTPUT);
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pinMode(SEG_0, OUTPUT);
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pinMode(SEG_1, OUTPUT);
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pinMode(SEG_2, OUTPUT);
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pinMode(SEG_3, OUTPUT);
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pinMode(SEG_4, OUTPUT);
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pinMode(SEG_5, OUTPUT);
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pinMode(SEG_6, OUTPUT);
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pinMode(SEG_7, OUTPUT);
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//7-Segment Display Init
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digitalWrite(OE,LOW); //Enables SR Operation
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initializeSRData(); //Prepares SR and clears data on serial line
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//Test
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setDigit(0,0,4,true);
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setDigit(0,1,5,true);
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setDigit(0,2,6,true);
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}
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void loop()
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{
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void loop() {
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if(millis() - dataMillis > 10) {
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static uint8_t counterFet = 0;
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static uint8_t counterDigit = 0;
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static uint8_t counterBit = 0;
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for(int fet=0; fet<FET_COUNT; fet++) {
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for(int digit=0; digit<BYTE_PER_FET; digit++) {
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if(fet == counterFet && digit == counterDigit) {
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data[fet][digit] = _BV(counterBit);
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} else {
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data[fet][digit] = 0;
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}
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}
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}
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counterBit++;
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if(counterBit > 7) {
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counterBit = 0;
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counterDigit++;
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if(counterDigit > 5) {
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counterFet++;
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counterDigit = 0;
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counterFet %= FET_COUNT;
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}
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}
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dataMillis = millis();
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}
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refreshDisplay(); //Cycles through all displays and digits
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}
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//==========BEGIN SR Functions==========
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void initializeSRData()
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{
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//Display Scanner (Iterates through each display module)
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digitalWrite(LATCH,LOW); //Tells all SRs that uController is sending data
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void initializeSRData() {
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for(int dispID = 0; dispID < maxDisplays; dispID++)
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{
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//Digit Scanner (Iterates through each SR (digit) in a display module)
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for(int digit = 0; digit < maxDigits; digit++)
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{
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//Clears any garbage on the serial line
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shiftOut(DOUT,CLK,LSBFIRST,0); //Shift out 0s to all displays
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SRData[dispID][digit] = 0; //Stores a 0 for each digit so its completely off
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}
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digitalWrite(LATCH,HIGH); //Tells all SRs that uController is sending data
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for(int digit = 0; digit < BYTE_PER_FET; digit++) {
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shiftOut(DOUT, CLK, LSBFIRST,0);
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}
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digitalWrite(LATCH,HIGH); //Tells all SRs that uController is done sending data
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digitalWrite(LATCH,LOW); //Tells all SRs that uController is done sending data
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}
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void printSRData()
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{
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if(!debug)
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return;
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Serial.println("Printing SR Data...");
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//Display Scanner
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for(int dispID = 0; dispID < maxDisplays; dispID++)
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{
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Serial.print("Display # ");
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Serial.println(dispID);
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//Digit Scanner
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for(int digit = 0; digit < maxDigits; digit++)
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{
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Serial.print("Digit ");
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Serial.print(digit);
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Serial.print(": ");
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Serial.println(SRData[dispID][digit],BIN);
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}
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Serial.println();
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}
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}
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void setDigit(int dispID, int digit, int value, boolean dp)
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{
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//Parameter checker
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if(dispID < 0 || dispID >= numDevices)
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{
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Serial.println("dispID OoB!"); //OoB = Out of bounds
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return;
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}
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if(digit < 0 || digit > maxDigits)
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{
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Serial.println("digit OoB!");
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return;
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}
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if(value < 0 || value > 9)
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{
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Serial.println("Invalid value!");
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return;
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}
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value = numTable[value];
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//Toggle dp if needed
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if(dp)
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value |= B00000001; //Turns on the first binary digit (segment) using an OR bitmask
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//Store the digit
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SRData[dispID][digit] = value;
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if(debug)
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printSRData();
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}
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void setSegments(int dispID, int digit, byte value)
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{
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//Parameter checker
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if(dispID < 0 || dispID >= numDevices)
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{
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Serial.println("dispID OoB!");
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return;
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}
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if(digit < 0 || digit > maxDigits)
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{
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Serial.println("digit OoB!");
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return;
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}
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if(value < 0 || value > 255)
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{
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Serial.println("Invalid byte!");
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return;
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}
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//Store the digit
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SRData[dispID][digit] = value;
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if(debug)
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printSRData();
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}
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void clearDisplay(int dispID)
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{
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void clearDisplay(int dispID) {
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initializeSRData();
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refreshDisplay();
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}
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void refreshDisplay()
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{
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//Digit Scanner
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for(int digit = 0; digit < maxDigits; digit++)
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{
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//Display Scanner
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digitalWrite(LATCH,LOW);
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for(int dispID = numDevices - 1; dispID >= 0; dispID--)
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{
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//Pre-Digit blanker (shifts out 0s to correct digits before sending segment data to desired digit)
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for(int blanks = (maxDigits - 1 - digit); blanks > 0; blanks--)
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shiftOut(DOUT,CLK,LSBFIRST,0);
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void refreshDisplay() {
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shiftOut(DOUT,CLK,LSBFIRST,SRData[dispID][digit]);
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for(int fet=0; fet<FET_COUNT; fet++) {
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//Post-Digit blanker (shifts out 0s to remaining digits)
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for(int blanks = digit; blanks > 0; blanks--)
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shiftOut(DOUT,CLK,LSBFIRST,0);
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// switch fets
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digitalWrite(SEG_0, LOW);
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digitalWrite(SEG_1, LOW);
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digitalWrite(SEG_2, LOW);
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digitalWrite(SEG_3, LOW);
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digitalWrite(SEG_4, LOW);
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digitalWrite(SEG_5, LOW);
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digitalWrite(SEG_6, LOW);
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digitalWrite(SEG_7, LOW);
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digitalWrite(LATCH, HIGH);
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for(int digit = 0; digit < BYTE_PER_FET; digit++) {
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shiftOut(DOUT, CLK, LSBFIRST, data[fet][digit]);
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}
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digitalWrite(LATCH,HIGH);
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//Demonstrates multiplexing operation
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delay(delayTime);
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delayTime -= 10;
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if(delayTime <= 0)
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delayTime = 0;
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digitalWrite(LATCH, LOW);
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// switch fets
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digitalWrite(SEG_0, (fet == 0) ? HIGH : LOW);
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digitalWrite(SEG_1, (fet == 1) ? HIGH : LOW);
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digitalWrite(SEG_2, (fet == 2) ? HIGH : LOW);
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digitalWrite(SEG_3, (fet == 3) ? HIGH : LOW);
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digitalWrite(SEG_4, (fet == 4) ? HIGH : LOW);
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digitalWrite(SEG_5, (fet == 5) ? HIGH : LOW);
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digitalWrite(SEG_6, (fet == 6) ? HIGH : LOW);
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digitalWrite(SEG_7, (fet == 7) ? HIGH : LOW);
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delayMicroseconds(500);
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//delay(1);
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}
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}
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BIN
eigener_ctrl/docs/74HC_HCT132_Q100.pdf
Normal file
BIN
eigener_ctrl/docs/74hc595.pdf
Normal file
BIN
eigener_ctrl/docs/TD62084-ULN2804(2).pdf
Normal file
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