I thought I posted this earlier today but ??
Am working on a Christmas tree ornament similar to Brads tree ornament project except I am using a bi colored matrix and utilizing all the pins. Using a 18F24K20 pic and Swordfish for programming. Have a pcboard designed using Diptrace. Included files in case anyone finds any issues.
Want to experiment changing the port used to control the red and green but randomize the port used. In simple terms, toggle ports for green or red so part of a letters pixels (Merry Christmas) are red or green.
Christmas ornament project
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MrDEB
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Christmas ornament project
- Attachments
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- xmas ornment2.zip
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- xmas pcb1.zip
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brad
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Re: Christmas ornament project
Looking at your design, it seems you're not using any sort of transistors or perhaps a darlington array for the LED's. You will most certainly get uneven brightness with the LED's depending on how many LED's are turned on. This is the mistake I made with my early LED matrix designs.
Have you tested it out yet?
Have you tested it out yet?
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MrDEB
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Re: Christmas ornament project
am assembling a test circuit daughter board that plugs into a Tap-28 board. I have since included resistors for the leds. hopefully by using PWM or in laymens terms, toggle the leds really fast??
After I get the testy board working will find out just how bad the dimness of the leds are. One note I am using an 18F24K20 pic.
These are going to be Christmas presents that are personalized with recipients names.
hoping I have no issues w/ led brightness levels.
After I get the testy board working will find out just how bad the dimness of the leds are. One note I am using an 18F24K20 pic.
These are going to be Christmas presents that are personalized with recipients names.
hoping I have no issues w/ led brightness levels.
Re: Christmas ornament project
I think I'm with Brad here, and controlling the brightness of the leds might be an issue. When lighting up several leds on a row at the same time will seem more dimmer than only lighting up a single led on a row. But yes nice Diptrace design and I like the schematics.
Just a thought are you disabling the function of the MCLR pin? I don't see any external circuitry to stop the PIC resetting?.
Just a thought are you disabling the function of the MCLR pin? I don't see any external circuitry to stop the PIC resetting?.
If you don't know what Voltage your country is using, you shouldn't be doing electronics 
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MrDEB
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Re: Christmas ornament project
been busy getting the 18F24K20 code to compile and finally got it to decide to compile.
Now working on getting the matrix to display scrolling text but the LEDs seem pretty bright. NOTE not as bright with just a battery powering the matrix by itself (getting all the ports connected to the right matrix pins).
I have 100 ohm resistors on the common Anodes and dealing with the red and green leds.
At first run the green leds were coming on without any directive in the code.
I just put PORTA = %11111111
here is my code that needs LOTS of work to get it working and I mean LOTS of work. My plan is to give personalized Christmas ornaments as gifts.
Now working on getting the matrix to display scrolling text but the LEDs seem pretty bright. NOTE not as bright with just a battery powering the matrix by itself (getting all the ports connected to the right matrix pins).
I have 100 ohm resistors on the common Anodes and dealing with the red and green leds.
At first run the green leds were coming on without any directive in the code.
I just put PORTA = %11111111
here is my code that needs LOTS of work to get it working and I mean LOTS of work. My plan is to give personalized Christmas ornaments as gifts.
Code: Select all
****************************************************************************
* Name : UNTITLED.BAS *
* Author : [select VIEW...EDITOR OPTIONS] *
* Notice : Copyright (c) 2016 [select VIEW...EDITOR OPTIONS] *
* : All Rights Reserved *
* Date : 11/19/2016 *
* Version : 1.0 *
* Notes : Christmas matrix *
* : *
*****************************************************************************
}
DEVICE = 18F24k20 ' Tell the compiler what chip we are using
CLOCK = 8 ' Tell the compiler what we will be setting the clock to (Mhz)
CONFIG MCLRE = OFF
CONFIG fOSC = INTIO67 ' Internal oscillator, IO on pins 6 and 7
INCLUDE "SetDigitalIO.bas" // Include this file when we compile so that we can use keywords like 'setalldigital'
INCLUDE "utils.bas"
INCLUDE "convert.bas" //xxxxx
//DIM led(7) AS BYTE //xxxx
// variable declaration
DIM x AS BYTE
DIM y AS BYTE
DIM index AS BYTE
//DIM rows AS BYTE
//DIM colums AS BYTE
//DIM i AS BYTE
CONST Row_data(8)AS BYTE = (%00000001,%00000010,%00000100,%00001000,%00010000,%00100000,%01000000,%10000000)
CONST Red_Data(8) AS BYTE = (%11111110,%11111101,%11111011,%11110111,%11101111,%11011111,%10111111,%01111111)
CONST GREEN_data(8)AS BYTE = (%00000000,%00011111,%00010000,%00001100,%00001100,%00010000,%00011111,%00000000)
const M_data(8)as byte = (%00000000,%00011111,%00010000,%00001100,%00001100,%00010000,%00011111,%00000000)
OSCCON = %01100000 ' Internal oscillator running at 8mHz
CM1CON0 = 0 ' set ports to digital
CM2CON0 = 0 '
ANSEL = 0 '
ANSELH = 0 '
TRISA = %00000000 ' PORTA outputs
TRISB = %00000000 ' PORTB outputs
TRISC = %00000000 ' PORTC outputs
//xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
// Start Of Program
SetAllDigital // Make all Pins digital I/O's
TRISC = %00000000 // Make PORTC all outputs
TRISB = %00000000 // Make PORTB all outputs
TRISA = %00000000
// Main Loop
WHILE True()
FOR x = 0 TO 7
FOR y = 0 TO 7
portA=%11111111 //turns off portA GREEN
portC = Row_data(x)//=Anodes_data(y)
portB=M_Data(x)
//portB.0=0 // = GREEN_data(x)
DELAYMS(50)
// portC = %11111111
// DELAYMS(500)
NEXT
NEXT
WEND
{
WHILE true
FOR i = 0 TO 7
PORTB.Bits(i) = 1
portC.1 = 1
DELAYMS(500)
PORTB.Bits(i) = 0
NEXT
WEND
}
//END SUB
{
//DIM rows AS BYTE
DIM colums AS BYTE
DIM i AS BYTE
//SUB RightToLeft()
// DIM i AS BYTE
WHILE true
FOR i = 0 TO 7
PORTB.Bits(i) = 1
portC.1 = 1
DELAYMS(500)
PORTB.Bits(i) = 0
NEXT
WEND
//END SUB}Re: Christmas ornament project
I see you are disabling MCLR then.
You need to look at Multiplexing, that's how these matrix displays are controlled. here is a website that may help explain the process.
How Does Led Matrix Work.
Code: Select all
CONFIG MCLRE = OFFHow Does Led Matrix Work.
If you don't know what Voltage your country is using, you shouldn't be doing electronics
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MrDEB
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Re: Christmas ornament project
got this display to work right. I had the port bits set wrong. instead of a 1 I had a 0
I inserted at after each arry display a "multiplexing" turn off everything.
I tried your DELAYUS(0) and didn't get results??
I inserted at after each arry display a "multiplexing" turn off everything.
I tried your DELAYUS(0) and didn't get results??
Code: Select all
{
*****************************************************************************
* Name : UNTITLED.BAS *
* Author : [select VIEW...EDITOR OPTIONS] *
* Notice : Copyright (c) 2016 [select VIEW...EDITOR OPTIONS] *
* : All Rights Reserved *
* Date : 11/19/2016 *
* Version : 1.0 *
* Notes : Christmas matrix
turn off all is a form of multi plexing it smooths out the display *
* : *
*****************************************************************************
}
DEVICE = 18F24k20 ' Tell the compiler what chip we are using
CLOCK = 8 ' Tell the compiler what we will be setting the clock to (Mhz)
CONFIG MCLRE = OFF
CONFIG fOSC = INTIO67 ' Internal oscillator, IO on pins 6 and 7
INCLUDE "SetDigitalIO.bas" // Include this file when we compile so that we can use keywords like 'setalldigital'
INCLUDE "utils.bas"
INCLUDE "convert.bas" //xxxxx
//DIM led(7) AS BYTE //xxxx
// variable declaration
DIM x AS WORD
DIM y AS BYTE
DIM index AS BYTE
DIM b(8) AS BYTE
CONST Anodes_data(9)AS BYTE = (%00000001,%00000010,%00000100,%00001000,%00010000,%00100000,%01000000,%10000000,%00000000)
//CONST Cathodes_Data(8) AS BYTE = (%00000000,%00011111,%00010000,%00001100,%00001100,%00010000,%00011111,%00000000)
CONST Cathodes_Data(9)AS BYTE = (%11111111,%11110000,%11101111,%11110011,%11101111,%11110000,%11111111,%11111111,%11111111)
// oscilator directive
OSCCON = %01100000 ' Internal oscillator running at 8mHz
CM1CON0 = 0 ' set ports to digital
CM2CON0 = 0 '
ANSEL = 0 '
ANSELH = 0 '
TRISA = %00000000 ' PORTA outputs
TRISB = %00000000 ' PORTB outputs
TRISC = %00000000 ' PORTC outputs
//xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
// Start Of Program
SetAllDigital // Make all Pins digital I/O's
TRISC = %00000000 // Make PORTC all outputs
TRISB = %00000000 // Make PORTB all outputs
TRISA = %11111111
y = 0
porta = %11111111
// Main
'WHILE true
'FOR y = 0 TO 7
'FOR x = 0 TO 7
WHILE True
portc = Anodes_data(0) '0
portb = Cathodes_Data(0)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
//11111111111111111111111111
portc = Anodes_data(0) '1
portb = Cathodes_Data(0)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1)
portb = Cathodes_Data(0)
DELAYMS(100)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
//2222222222222222222222222
portc = Anodes_data(0) '2
portb = Cathodes_Data(2)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1)
portb = Cathodes_Data(1)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
delayms(10)
portc = Anodes_data(2)
portb = Cathodes_Data(0)
DELAYMS(100)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
//3333333333333333333333333333333333333
// portc = %00000000
portc = Anodes_data(0) '3
portb = Cathodes_Data(3)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1)
portb = Cathodes_Data(2)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2)
portb = Cathodes_Data(1)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3)
portb = Cathodes_Data(0)
DELAYMS(100)
portc = %00000000
//44444444444444444444444444444444444444
portc = Anodes_data(0)
portb = Cathodes_Data(4) '4
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(4)
portb = Cathodes_Data(0)
DELAYMS(100)
'portc = %00000000
//555555555555555555555555555555555555555555
portc = Anodes_data(0) '5
portb = Cathodes_Data(5)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
'portc = %00000000
portc = Anodes_data(1)
portb = Cathodes_Data(4)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2)
portb = Cathodes_Data(3)
DELAYms(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(4)
portb = Cathodes_Data(1)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(5)
portb = Cathodes_Data(0)
DELAYMS(100)
'66666666666666666666666666666666666666666666
'portc = %00000000
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(0) '6
portb = Cathodes_Data(6)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1)
portb = Cathodes_Data(5)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2)
portb = Cathodes_Data(4)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3)
portb = Cathodes_Data(3)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(4)
portb = Cathodes_Data(2)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(5)
portb = Cathodes_Data(1)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(6)
portb = Cathodes_Data(0)
DELAYMS(100)
//777777777777777777777777777777777777777
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(0) '7
portb = Cathodes_Data(7)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1)
portb = Cathodes_Data(6)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2)
portb = Cathodes_Data(5)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3)
portb = Cathodes_Data(4)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(4)
portb = Cathodes_Data(3)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(5)
portb = Cathodes_Data(2)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(6)
portb = Cathodes_Data(1)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(7)
portb = Cathodes_Data(0)
DELAYMS(100)
//portc = %00000000
//88888888888888888888888888888888888888 ROUTINES 8 & 9 are to finish out back end of letters
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(1) '8
portb = Cathodes_Data(7)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2)
portb = Cathodes_Data(6)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3)
portb = Cathodes_Data(5)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(4)
portb = Cathodes_Data(4)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(5)
portb = Cathodes_Data(3)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(6)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(7)
portb = Cathodes_Data(1)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(7)
portb = Cathodes_Data(0)
DELAYMS(100)
// portc = %00000000
//9999999999999999999999999999999999999
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(2) '0
portb = Cathodes_Data(7)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(3) '0
portb = Cathodes_Data(6)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(4) '0
portb = Cathodes_Data(5)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(5) '0
portb = Cathodes_Data(4)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(6) '0
portb = Cathodes_Data(3)
DELAYmS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(7) '0
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(7) '0
portb = Cathodes_Data(1)
DELAYuS(10)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_data(7) '0
portb = Cathodes_Data(0)
DELAYMS(100)
portc = Anodes_data(8) 'turn off all
portb = Cathodes_Data(8)
//portc = %00000000 ' eliminate ghosting
// NEXT
WEND // Loop back to the while loop as long as we havent finished.
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MrDEB
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Re: Christmas ornament project
Well I got it working after I realized I failed to insert the oscillator directives
It scrolls really well and decided to measure the current on one cathode (I enabled most of one byte) and come up with .7 ma using 100 ohm resistors on cathodes. yes less than 1 ma (reconfirmed measuring one led and 300 ohm resistor to check meter).
thinking maybe using the K series pic might be helping in the led brightness department??
Need to order SMD resistors at 100 ohm (help conserve battery life a little)
Seen several references to putting the const data bytes into a buffer but ??
I need to cram my fonts together of some how make all the bytes into one sentence or row of bytes.
Got confirmation that Elecrow has shipped my boards today.
It scrolls really well and decided to measure the current on one cathode (I enabled most of one byte) and come up with .7 ma using 100 ohm resistors on cathodes. yes less than 1 ma (reconfirmed measuring one led and 300 ohm resistor to check meter).
thinking maybe using the K series pic might be helping in the led brightness department??
Need to order SMD resistors at 100 ohm (help conserve battery life a little)
Seen several references to putting the const data bytes into a buffer but ??
I need to cram my fonts together of some how make all the bytes into one sentence or row of bytes.
Got confirmation that Elecrow has shipped my boards today.
Code: Select all
//xxxxxxxxxxxxxxxxxxxxxxxxxx
DEVICE = 18F24k20 ' Tell the compiler what chip we are using
CLOCK = 8 ' Tell the compiler what we will be setting the clock to (Mhz)
CONFIG MCLRE = OFF
CONFIG fOSC = INTIO67 ' Internal oscillator, IO on pins 6 and 7
INCLUDE "SetDigitalIO.bas" // Include this file when we compile so that we can use keywords like 'setalldigital'
INCLUDE "utils.bas"
INCLUDE "convert.bas" //xxxxx
// Arrays
' LETTER K
CONST Anodes_Data(9)AS BYTE = (%00000001,%00000010,%00000100,%00001000,%00010000,%00100000,%01000000,%10000000,%00000000)
//CONST Cathodes_Data(9)AS BYTE = (%11111111,%11111111,%11100000,%11011011,%11011011,%11011011,%11100000,%11111111,%11111111)
CONST E_Data(9)AS BYTE =(%11111111,%11111111,%11000000,%11011010,%11011010,%11111110,%11111111,%11111111,%11111111)
CONST M_Data(9)AS BYTE =(%11111111,%11110000,%11101111,%11110011,%11101111,%11110000,%11111111,%11111111,%11111111)
CONST C_Data(9)AS BYTE =(%11111111,%10000000,%10111110,%10111110,%10111110,%10011110,%11111111,%11111111,%11111111)
CONST H_Data(9)AS BYTE =(%11111111,%10000000,%11110111,%11110111,%11110000,%11111111,%11111111,%11111111,%11111111)
CONST I_Data(9)AS BYTE =(%11111111,%11111111,%11111111,%11100000,%11111111,%11111111,%11111111,%11111111,%11111111)
CONST R_Data(9)AS BYTE =(%11111111,%11110000,%11101111,%11110111,%11111111,%11111111,%11111111,%11111111,%11111111)
CONST S_Data(9)AS BYTE =(%11111111,%11111100,%10000110,%10110110,%10110000,%10011111,%11111111,%11111111,%11111111)
CONST T_Data(9)AS BYTE =(%11111111,%11111111,%11101111,%11101111,%11100000,%11101111,%11101111,%11111111,%11111111)
CONST Y_Data(9)AS BYTE = (%11111111,%11111111,%11111110,%11101101,%11110011,%11110111,%11101111,%11111111,%11111111)
// variable declaration
DIM Cathodes_Data(9) AS BYTE
DIM index AS BYTE
DIM y AS BYTE
DIM x AS BYTE
// Sub Routines
//Anodes_data(9) = L_M(7)
// oscilator directive
OSCCON = %01100000 ' Internal oscillator running at 8mHz
CM1CON0 = 0 ' set ports to digital
CM2CON0 = 0 '
ANSEL = 0 '
ANSELH = 0 '
TRISA = %00000000 ' PORTA outputs
TRISB = %00000000 ' PORTB outputs
TRISC = %00000000 ' PORTC outputs
// Start Of Program
SetAllDigital // Make all Pins digital I/O's
TRISC = %00000000 // Make PORTD all outputs
TRISB = %00000000 // Make PORTB all outputs
trisA = %00000000
y = 0
portA = %11111111
// Main Loop
WHILE True()
FOR x = 0 TO 6
IF x = 0 THEN Cathodes_Data = H_Data
END IF
IF x = 1 THEN Cathodes_Data = C_Data
END IF
IF x = 2 THEN Cathodes_Data = M_Data
END IF
IF x = 3 THEN Cathodes_Data = R_Data
END IF
IF x = 4 THEN Cathodes_Data = S_Data
END IF
IF x = 5 THEN Cathodes_Data = T_Data
END IF
IF x = 6 THEN Cathodes_Data = Y_Data
END IF
portc = Anodes_Data(0) '0
portb = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
//11111111111111111111111111
portc = Anodes_Data(0) '1
portb = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(0)
DELAYMS(100)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
//2222222222222222222222222
portc = Anodes_Data(0) '2
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
DELAYMS(10)
portc = Anodes_Data(2)
portb = Cathodes_Data(0)
DELAYMS(100)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
//3333333333333333333333333333333333333
// portc = %00000000
portc = Anodes_Data(0) '3
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(0)
DELAYMS(100)
portc = %00000000
//44444444444444444444444444444444444444
portc = Anodes_Data(0)
portb = Cathodes_Data(4) '4
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(0)
DELAYMS(100)
'portc = %00000000
//555555555555555555555555555555555555555555
portc = Anodes_Data(0) '5
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
'portc = %00000000
portc = Anodes_Data(1)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(0)
DELAYMS(100)
'66666666666666666666666666666666666666666666
'portc = %00000000
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(0) '6
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(6)
portb = Cathodes_Data(0)
DELAYMS(100)
//777777777777777777777777777777777777777
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(0) '7
portb = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(6)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(7)
portb = Cathodes_Data(0)
DELAYMS(100)
//portc = %00000000
//88888888888888888888888888888888888888 ROUTINES 8 & 9 are to finish out back end of letters
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(1) '8
portb = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(6)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(7)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(7)
portb = Cathodes_Data(0)
DELAYMS(100)
// portc = %00000000
//9999999999999999999999999999999999999
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(2) '0
portb = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(3) '0
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(4) '0
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(5) '0
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(6) '0
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(7) '0
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(7) '0
portb = Cathodes_Data(1)
DELAYUS(10)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
portc = Anodes_Data(7) '0
portb = Cathodes_Data(0)
DELAYMS(100)
portc = Anodes_Data(8) 'turn off all
portb = Cathodes_Data(8)
//portc = %00000000 ' eliminate ghosting
NEXT
WEND // Loop back to the while loop as long as we havent finished.
-
MrDEB
- I practically live here!
- Posts: 372
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Re: Christmas ornament project
HELP!!!
I am going nuts trying to get this dang thing to scroll. At this point I am getting nothing on the matrix
using an example from your site but I must have screwed up somewhere??
I am going nuts trying to get this dang thing to scroll. At this point I am getting nothing on the matrix
using an example from your site but I must have screwed up somewhere??
Code: Select all
{
*****************************************************************************
* Name : UNTITLED.BAS *
* Author : [select VIEW...EDITOR OPTIONS] *
* Notice : Copyright (c) 2016 [select VIEW...EDITOR OPTIONS] *
* : All Rights Reserved *
* Date : 11/25/2016 *
* Version : 1.0 *
* Notes : *
* : *
*****************************************************************************
}
DEVICE = 18F24k20 ' Tell the compiler what chip we are using
CLOCK = 8 ' Tell the compiler what we will be setting the clock to (Mhz)
CONFIG MCLRE = OFF
CONFIG fOSC = INTIO67 ' Internal oscillator, IO on pins 6 and 7
INCLUDE "SetDigitalIO.bas" // Include this file when we compile so that we can use keywords like 'setalldigital'
INCLUDE "utils.bas"
INCLUDE "convert.bas" //xxxxx
DIM Display_Out AS BYTE ' CONST array data
DIM Display_Buffer(8) AS BYTE ' data to send to matrix
DIM Data_Bus AS portb ' data that matrix displays
DIM Colum_start AS WORD ' cathodes
DIM Anode_Data AS PORTC ' Anodes
DIM x AS BYTE
DIM y AS BYTE
DIM Speed AS BYTE
DIM led AS portA.2
DIM led2 AS portC.2
//DIM Sentence_Data(8) AS BYTE
CONST Anodes_data(8)AS BYTE = (%00000001,%00000010,%00000100,%00001000,%00010000,%00100000,%01000000,%10000000)
//CONST Sentence_Data(96) AS BYTE = (%00000111,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%01111110,%01001010,%01001010,%01000010,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%01111110,%01000010,%01000010,%01000010,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00111100,%01000010,%01000010,%00111100,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%01111110,%01000010,%01000010,%01000010,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%01111110,%01000010,%01000010,%01000010,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000,%00000000)
CONST Sentence_Data(8) AS BYTE = (%11111110,%11111101,%11111011,%11110111,%11101111,%11011111,%10111111,%01111111)
//SUB ROUTINES
SUB Load_Buffer()
FOR x = 0 TO 15 ' 120 / 8 = 15
Display_Buffer(x) = Sentence_Data(x)
NEXT
END SUB
SUB Draw_Data()
FOR x = Colum_start TO (Colum_start+7) ' COLUMS ON PORT b counter
Display_Out = Display_Buffer(x) ' const data
Data_Bus = Display_Out XOR $11111111 ' inverts the CONST array data at the port
Display_Buffer(x) = Sentence_Data(x)
'Data_Bus = Sentence_Data XOR %11111111 ' reverse the data bits
Data_Bus = 0 ' data bus
Data_Bus.bits(7 - (x- Colum_start)) = 1 ' cycle the anodes from 0 to 7
Data_Bus = 0
Display_Out = 1
DELAYMS(10)
Display_Out= 0
NEXT
END SUB
SUB Scroll_Text()
IF Speed <> 0 THEN
DEC(Speed)
ELSE
Speed = 6
Colum_start = Colum_start + 1
IF Colum_start + 8 = 96 THEN ' # of elements in CONST array Colum Start is Cathodes on portb
Colum_start = 0
END IF
END IF
END SUB
// Start Of Program
SetAllDigital // Make all Pins digital I/O's
TRISC = %00000000 // Make PORTC all outputs
TRISB = %00000000 // Make PORTB all outputs
OSCCON = %01100000 ' Internal oscillator running at 8mHz
CM1CON0 = 0 ' set ports to digital
CM2CON0 = 0 '
ANSEL = 0 '
ANSELH = 0 '
// Main Loop
WHILE True()
Draw_Data ()
FOR y = 0 TO 20
Draw_Data()
NEXT
Scroll_Text()
WEND
-
brad
- Site Admin
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Re: Christmas ornament project
just so I am following along, you currently have nothing being displayed on the matrix - and the circuit you are using is exactly the same as the design files you posted, is that right?
-
MrDEB
- I practically live here!
- Posts: 372
- Joined: Fri Feb 18, 2011 4:24 am [phpBB Debug] PHP Warning: in file [ROOT]/vendor/twig/twig/lib/Twig/Extension/Core.php on line 1266: count(): Parameter must be an array or an object that implements Countable
Re: Christmas ornament project
yes and yes
The design schematic I posted might not of had the resistors on the anodes on portc
something really going wrong??
am wondering if I inserted a 18f2420 and not the 24K20 maybe the ossc settings or ?? settings but I ??? it.
had other codes I posted that worked.
The design schematic I posted might not of had the resistors on the anodes on portc
something really going wrong??
am wondering if I inserted a 18f2420 and not the 24K20 maybe the ossc settings or ?? settings but I ??? it.
had other codes I posted that worked.
-
MrDEB
- I practically live here!
- Posts: 372
- Joined: Fri Feb 18, 2011 4:24 am [phpBB Debug] PHP Warning: in file [ROOT]/vendor/twig/twig/lib/Twig/Extension/Core.php on line 1266: count(): Parameter must be an array or an object that implements Countable
Re: Christmas ornament project
I think I found an issue
the anodes are never used within the code??
the anodes are never used within the code??
-
MrDEB
- I practically live here!
- Posts: 372
- Joined: Fri Feb 18, 2011 4:24 am [phpBB Debug] PHP Warning: in file [ROOT]/vendor/twig/twig/lib/Twig/Extension/Core.php on line 1266: count(): Parameter must be an array or an object that implements Countable
Re: Christmas ornament project
trying a different approach by trying a code that was supposed to work but??
really need help to get the dang code to display text smoothly if possible You might reconize some bits of code from your projects.
really need help to get the dang code to display text smoothly if possible You might reconize some bits of code from your projects.
Code: Select all
*****************************************************************************
* Name : UNTITLED.BAS *
* Author : [select VIEW...EDITOR OPTIONS] *
* Notice : Copyright (c) 2016 [select VIEW...EDITOR OPTIONS] *
* : All Rights Reserved *
* Date : 11/27/2016 *
* Version : 1.0 *
* Notes :my code from brads need to insert const arrays *
* : *
*****************************************************************************
}
DEVICE = 18F24K20
CLOCK = 32
CONFIG MCLRE = OFF
CONFIG FOSC = intio67
INCLUDE "SetDigitalIO.bas" // Include this file when we compile so that we can use keywords like 'setalldigital'
INCLUDE "utils.bas"
INCLUDE "convert.bas" //xxxxx
INCLUDE "shift.bas"
DIM Scroll_Speed AS INTEGER
DIM x AS BYTE
DIM y AS BYTE
CONST Anodes_Data(9)AS BYTE = (%00000001,%00000010,%00000100,%00001000,%00010000,%00100000,%01000000,%10000000,%00000000)
//CONST Cathodes_Data(9)AS BYTE = (%11111111,%11111111,%11100000,%11011011,%11011011,%11011011,%11100000,%11111111,%11111111)
{
CONST M_Data(8)AS BYTE =(%11111111,%11110000,%11101111,%11110111,%11101111,%11110000,%11111111,%11111111)
CONST E_Data(8)AS BYTE =(%11111111,%11111111,%11100000,%11101010,%11101110,%11111111,%11111111,%11111111)
CONST R_Data(8)AS BYTE =(%11111111,%11111111,%11110000,%11101111,%11101111,%11110111,%11111111,%11111111)
// CONST R_Data(8)AS BYTE =(%11111111,%11111111,%11100000,%11111011,%11111011,%11100000,%11111111,%11111111)
CONST Y_Data(8)AS BYTE =(%11111111,%11111111,%11111110,%11101101,%11110011,%11110111,%11101111,%11111111)
CONST C_Data(8)AS BYTE =(%11111111,%11111111,%11100001,%11011110,%11011110,%11011110,%11111111,%11111111)
CONST H_Data(8)AS BYTE =(%11111111,%11111111,%11100000,%11111011,%11111011,%11100000,%11111111,%11111111)
CONST I_Data(8)AS BYTE =(%11111111,%11111111,%11111111,%11100000,%11111111,%11111111,%11111111,%11111111)
CONST S_Data(8)AS BYTE =(%11111111,%11111111,%11110010,%11101010,%11101000,%11111111,%11111111,%11111111)
CONST A_Data(8)AS BYTE =(%11111111,%11111111,%11110000,%11101011,%11101011,%11110000,%11111111,%11111111)
CONST T_Data(8)AS BYTE =(%11111111,%11101111,%11101111,%11100000,%11101111,%11101111,%11111111,%11111111)
CONST space(8)AS BYTE = (%11111111,%11111111,%11111111,%11111111,%11111111,%11111111,%11111111,%11111111)
}
CONST Cathodes_Data(88)AS BYTE = (%11100001,%11011111,%11101111,%11011111,%11100001,%11111111,%11111111,%11000001, // M
%11010101,%11010101,%11011101,%11111111,%11111111,%11100001,%11011111,%11011111,
%11101111,%11111111,%11111111,%11100001,%11011111,%11011111,%11101111,%11111111,
%11111111,%11011111,%11101111,%11110001,%11101111,%11011111,%11111111,%11111111,
%11111111,%11111111,%11000001,%11011101,%11011101,%11111111,%11111111,%11000001,
%11111111,%11110111,%11110111,%11000001,%11111111,%11111111,%11100001,%11011111,// H r
%11011111,%11011111,%11101111,%11111111,%11111111,%11000001,%11111111,%11111111,// I
%11111111,%11000110,%11010110,%11010110,%11010000,%11111111,%11111111,%11011111,// s t
%11011111,%11011111,%11000001,%11011111,%11011111,%11111111,%11111111,%11100001,// t m
%11011111,%11101111,%11011111,%11000001,%11111111,%11111111,%11100001,%11011011,// m A
%11011011,%11100001,%11111111,%11111111,%11000101,%11010101,%11010001,%11111111)// A s
SetAllDigital // Make all Pins digital I/O's
TRISC = %00000000 // Make PORTD all outputs
TRISB = %00000000
OSCCON = %01100000
OSCTUNE.bits(6) = 1
PORTC.bits(3) = 1
TRISA = %00001111
TRISB = %00000000
TRISC = %00000100
ADCON0 = %00000001
ADCON1 = %00000000
ADCON2 = %11110011
Scroll_Speed = 200
y = 0
porta = %11111111
WHILE true
FOR x = 0 TO 7
portc = %00000000
portc = Anodes_Data(x + y) //CONST array data Portc C is Anodes
portb = Cathodes_Data(x) // Cathodes on PortB
DELAYMS(1)
portc = %00000000
DELAYUS(100)
NEXT
IF y +x <88 THEN // number of byte data in CONST arrays
DELAYMS(Scroll_Speed)
y = y + 1 // next A_Data byte data
ELSE
y = 0
END IF
WEND
-
brad
- Site Admin
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Re: Christmas ornament project
I apologise for not being around much, hopefully this coming weekend i'll have some spare time to sit down and have a good look at your code and even test it out on some hardware.
-
MrDEB
- I practically live here!
- Posts: 372
- Joined: Fri Feb 18, 2011 4:24 am [phpBB Debug] PHP Warning: in file [ROOT]/vendor/twig/twig/lib/Twig/Extension/Core.php on line 1266: count(): Parameter must be an array or an object that implements Countable
Re: Christmas ornament project
enn hacking and added a couple of sub routines so green and red are enabled. There's got to be a way to get rid of all the code repetitiveness but time is getting short and as soon as my boards arrive it's assembly time.
here is my code to data customized for my brother.
NOTE every time I post a code I get a pm about using { instead of the square brackets??
here is my code to data customized for my brother.
NOTE every time I post a code I get a pm about using { instead of the square brackets??
Code: Select all
{
*****************************************************************************
* Name : UNTITLED.BAS *
* Author : [select VIEW...EDITOR OPTIONS] *
* Notice : Copyright (c) 2016 [select VIEW...EDITOR OPTIONS] *
* : All Rights Reserved *
* Date : 11/19/2016 *
* Version : 1.0 *
* Notes : *
* : *
*****************************************************************************
}
//xxxxxxxxxxxxxxxxxxxxxxxxxx
DEVICE = 18F24k20 ' Tell the compiler what chip we are using
CLOCK = 8 ' Tell the compiler what we will be setting the clock to (Mhz)
CONFIG MCLRE = OFF
CONFIG fOSC = INTIO67 ' Internal oscillator, IO on pins 6 and 7
INCLUDE "SetDigitalIO.bas" // Include this file when we compile so that we can use keywords like 'setalldigital'
INCLUDE "utils.bas"
INCLUDE "convert.bas" //xxxxx
// Arrays
CONST Anodes_Data(9)AS BYTE = (%00000001,%00000010,%00000100,%00001000,%00010000,%00100000,%01000000,%10000000,%00000000)
CONST A_Data(8)AS BYTE = (%11111111,%11111111,%11100000,%11011011,%11011011,%11011011,%11100000,%11111111)
CONST E_Data(8)AS BYTE =(%11111111,%11111111,%11100000,%11101010,%11101110,%11111111,%11111111,%11111111)
CONST M_Data(8)AS BYTE =(%11111111,%11110000,%11101111,%11110011,%11101111,%11110000,%11111111,%11111111)
CONST C_Data(8)AS BYTE =(%11111111,%11100001,%11011110,%11011110,%11011110,%11111111,%11111111,%11111111)
CONST H_Data(8)AS BYTE =(%11111111,%11111111,%11100000,%11111011,%11111011,%11100000,%11111111,%11111111)
CONST I_Data(8)AS BYTE =(%11111111,%11111111,%11111111,%11100000,%11111111,%11111111,%11111111,%11111111)
CONST R_Data(8)AS BYTE =(%11111111,%11110000,%11101111,%11101111,%11110111,%11111111,%11111111,%11111111)
CONST S_Data(8)AS BYTE =(%11111111,%11111111,%11100110,%11010110,%11010110,%11011000,%11111111,%11111111)
CONST T_Data(8)AS BYTE =(%11111111,%11111111,%11101111,%11101111,%11100000,%11101111,%11101111,%11111111)
CONST Y_Data(8)AS BYTE = (%11111111,%11101111,%11110111,%11111000,%11110111,%11101111,%11111111,%11111111)
CONST Space (8) AS BYTE =(%11111111,%11111111,%11111111,%11111111,%11111111,%10011111,%11111111,%11111111)
'' personalized CUSTOM ARRAYS
CONST T2_data (8)AS BYTE =(%11111111,%11011111,%11011111,%11000001,%11011111,%11011111,%11111111,%11111111)
CONST O_data(8) AS BYTE =(%11111111,%11111111,%11100011,%11011101,%11011101,%11100011,%11111111,%11111111)
CONST M2_data(8) AS BYTE =(%11111111,%11110001,%11101111,%11110111,%11101111,%11110001,%11111111,%11111111)
CONST N_data(8) AS BYTE =(%11111111,%11111111,%11100001,%11110111,%11111011,%11100001,%11111111,%11111111)
CONST L_data(8) AS BYTE =(%11111111,%11111111,%11000001,%11111101,%11111101,%11111111,%11111111,%11111111)
CONST O2_data(8) AS BYTE =(%11111111,%11111111,%11100011,%11011101,%11011101,%11100011,%11111111,%11111111)
CONST R2_data(8) AS BYTE =(%11111111,%11111111,%11100001,%11011111,%11011111,%11101111,%11111111,%11111111)
CONST I2_data(8) AS BYTE =(%11111111,%11111111,%11111111,%11000001,%11111111,%11111111,%11111111,%11111111)
// variable declaration
DIM Cathodes_Data(9) AS BYTE
DIM index AS BYTE
DIM y AS BYTE
DIM x AS BYTE
DIM color AS BYTE
// Sub Routines
SUB GREEN()
FOR x = 0 TO 23
SELECT x
CASE 0 Cathodes_Data = M_Data
CASE 1 Cathodes_Data = E_Data
CASE 2 Cathodes_Data = R_Data
CASE 3 Cathodes_Data = R_Data
CASE 4 Cathodes_Data = Y_Data
CASE 5 Cathodes_Data = Space
CASE 6 Cathodes_Data = C_Data
CASE 7 Cathodes_Data = H_Data
CASE 8 Cathodes_Data = R_Data
CASE 9 Cathodes_Data = I_Data
CASE 10 Cathodes_Data = S_Data
CASE 11 Cathodes_Data = T_Data
CASE 12 Cathodes_Data = M_Data
CASE 13 Cathodes_Data = A_Data
CASE 14 Cathodes_Data = S_Data
CASE 15 Cathodes_Data = Space
'xxxxxxxxxxxxxxxxxxxxxxxxxxx
CASE 16 Cathodes_Data = T2_data
CASE 17 Cathodes_Data = O_data
CASE 18 Cathodes_Data = M2_data
CASE 19 Cathodes_Data = N_data
CASE 20 Cathodes_Data = L_data
CASE 21 Cathodes_Data = O_data
CASE 22 Cathodes_Data = R2_data
CASE 23 Cathodes_Data = I2_data
END SELECT
portb = %11111111 // portb is off
portc = Anodes_Data(0) '0
porta = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'porta = %11111111
//11111111111111111111111111
portc = Anodes_Data(0) '1
porta = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'porta = %11111111
portc = Anodes_Data(1)
porta = Cathodes_Data(0)
DELAYMS(60)
portc = Anodes_Data(8) 'turn off all
'porta = %11111111
//2222222222222222222222222
portc = Anodes_Data(0) '2
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
DELAYMS(10)
portc = Anodes_Data(2)
porta = Cathodes_Data(0)
DELAYMS(60)
portc = Anodes_Data(8) 'turn off all
//3333333333333333333333333333333333333
// portc = %00000000
portc = Anodes_Data(0) '3
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1)
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3)
porta = Cathodes_Data(0)
DELAYMS(60)
portc = %00000000
//44444444444444444444444444444444444444
portc = Anodes_Data(0)
porta = Cathodes_Data(4) '4
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1)
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2)
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(4)
porta = Cathodes_Data(0)
DELAYMS(60)
//555555555555555555555555555555555555555555
portc = Anodes_Data(0) '5
porta = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1)
porta = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2)
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3)
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(4)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(5)
porta = Cathodes_Data(0)
DELAYMS(60)
'66666666666666666666666666666666666666666666
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(0) '6
porta = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1)
porta = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2)
porta = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3)
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(4)
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(5)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(6)
porta = Cathodes_Data(0)
DELAYMS(60)
//777777777777777777777777777777777777777
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(0) '7
porta = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1)
porta = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2)
porta = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3)
porta = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(4)
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(5)
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(6)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(7)
porta = Cathodes_Data(0)
DELAYMS(60)
//88888888888888888888888888888888888888 ROUTINES 8 & 9 are to finish out back end of letters
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(1) '8
porta = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2)
porta = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3)
porta = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(4)
porta = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(5)
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(6)
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(7)
porta = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(7)
porta = Cathodes_Data(0)
DELAYMS(60)
//9999999999999999999999999999999999999
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(2) '0
porta = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(3) '0
porta = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(4) '0
porta = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(5) '0
porta = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(6) '0
porta = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(7) '0
porta = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(7) '0
porta = Cathodes_Data(1)
DELAYUS(10)
portc = Anodes_Data(8) 'turn off all
portc = Anodes_Data(7) '0
porta = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
NEXT
END SUB
SUB RED()
FOR x = 0 TO 14
SELECT x
CASE 0 Cathodes_Data = M_Data
CASE 1 Cathodes_Data = E_Data
CASE 2 Cathodes_Data = R_Data
CASE 3 Cathodes_Data = R_Data
CASE 4 Cathodes_Data = Y_Data
CASE 5 Cathodes_Data = Space
CASE 6 Cathodes_Data = C_Data
CASE 7 Cathodes_Data = H_Data
CASE 8 Cathodes_Data = R_Data
CASE 9 Cathodes_Data = I_Data
CASE 10 Cathodes_Data = S_Data
CASE 11 Cathodes_Data = T_Data
CASE 12 Cathodes_Data = M_Data
CASE 13 Cathodes_Data = A_Data
CASE 14 Cathodes_Data = S_Data
END SELECT
portA = %11111111 // porta is off
portc = Anodes_Data(0) '0
portb = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = %11111111
//11111111111111111111111111
portc = Anodes_Data(0) '1
portb = Cathodes_Data(0)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = %11111111
portc = Anodes_Data(1)
portb = Cathodes_Data(0)
DELAYMS(60)
portc = Anodes_Data(8) 'turn off all
'portb = %11111111
//2222222222222222222222222
portc = Anodes_Data(0) '2
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb =%11111111
portc = Anodes_Data(1)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
DELAYMS(10)
portc = Anodes_Data(2)
portb = Cathodes_Data(0)
DELAYMS(60)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
//3333333333333333333333333333333333333
// portc = %00000000
portc = Anodes_Data(0) '3
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(0)
DELAYMS(60)
portc = %00000000
//44444444444444444444444444444444444444
portc = Anodes_Data(0)
portb = Cathodes_Data(4) '4
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(0)
DELAYMS(60)
'portc = %00000000
//555555555555555555555555555555555555555555
portc = Anodes_Data(0) '5
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
'portc = %00000000
portc = Anodes_Data(1)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(0)
DELAYMS(60)
'66666666666666666666666666666666666666666666
'portc = %00000000
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(0) '6
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(6)
portb = Cathodes_Data(0)
DELAYMS(60)
//777777777777777777777777777777777777777
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(0) '7
portb = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(1)
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(6)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(7)
portb = Cathodes_Data(0)
DELAYMS(60)
//portc = %00000000
//88888888888888888888888888888888888888 ROUTINES 8 & 9 are to finish out back end of letters
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(1) '8
portb = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(2)
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(3)
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(4)
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(5)
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(6)
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(7)
portb = Cathodes_Data(1)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(7)
portb = Cathodes_Data(0)
DELAYMS(60)
// portc = %00000000
//9999999999999999999999999999999999999
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(2) '0
portb = Cathodes_Data(7)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(3) '0
portb = Cathodes_Data(6)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(4) '0
portb = Cathodes_Data(5)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(5) '0
portb = Cathodes_Data(4)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(6) '0
portb = Cathodes_Data(3)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(7) '0
portb = Cathodes_Data(2)
DELAYMS(10)
portc = Anodes_Data(8) 'turn off all
' portb = Cathodes_Data(8)
portc = Anodes_Data(7) '0
portb = Cathodes_Data(1)
DELAYUS(10)
portc = Anodes_Data(8) 'turn off all
'portb = Cathodes_Data(8)
portc = Anodes_Data(7) '0
portb = Cathodes_Data(0)
DELAYMS(60)
portc = Anodes_Data(8) 'turn off all
NEXT
END SUB
// oscilator directive
OSCCON = %01100000 ' Internal oscillator running at 8mHz
CM1CON0 = 0 ' set ports to digital
CM2CON0 = 0 '
ANSEL = 0 '
ANSELH = 0 '
// Start Of Program
SetAllDigital // Make all Pins digital I/O's
TRISC = %00000000 // Make PORTD all outputs
TRISB = %00000000 // Make porta all outputs
TRISA = %00000000
y = 0
color = 0
// Main Loop
WHILE True()
FOR x = 0 TO 14
SELECT x
CASE 0 Cathodes_Data = M_Data
CASE 1 Cathodes_Data = E_Data
CASE 2 Cathodes_Data = R_Data
CASE 3 Cathodes_Data = R_Data
CASE 4 Cathodes_Data = Y_Data
CASE 5 Cathodes_Data = Space
CASE 6 Cathodes_Data = C_Data
CASE 7 Cathodes_Data = H_Data
CASE 8 Cathodes_Data = R_Data
CASE 9 Cathodes_Data = I_Data
CASE 10 Cathodes_Data = S_Data
CASE 11 Cathodes_Data = T_Data
CASE 12 Cathodes_Data = M_Data
CASE 13 Cathodes_Data = A_Data
CASE 14 Cathodes_Data = S_Data
END SELECT
GREEN()
RED()
NEXT
WEND
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