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PIC-EL III - FLEX LCD help?
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k0jdd



Joined: 06 Jul 2010
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PIC-EL III - FLEX LCD help?
PostPosted: Tue Jul 06, 2010 7:26 pm     Reply with quote

I have a Pic El III demo board (www.kangaus.com/picel_iii.htm)
I know it is working properly, because when i run the diagnostics that came with it, everything checks out.

I am using a PIC 16F88A-E/P chip
PCM compiler version is 4.109
the LCD is HT44780 compatible, the RW line is used.


I can't seem to get the Flex lcd driver working.
Here is my test program
Code:

#include <16F88.H>
#fuses  NOWDT, NOPROTECT, BROWNOUT, PUT, NOLVP, MCLR, HS
#use delay(crystal=4Mhz)

#define LCD_DB4   PIN_B0
#define LCD_DB5   PIN_B1
#define LCD_DB6   PIN_B2
#define LCD_DB7   PIN_B3


#define LCD_E     PIN_B4
#define LCD_RW    PIN_B5
#define LCD_RS    PIN_B6


#include "flex_lcd.c"
   
//==========================
void main() {

setup_oscillator(OSC_4Mhz);
set_tris_b(0x00000000);


lcd_init();  // Always call this first.
delay_ms(8);

while (1) {
lcd_putc("\fHello World");
delay_ms(500);
lcd_putc("\nLine Number 2");
delay_ms(500);
}

}


symptoms
all dots in the 5x8 for each character position on LCD line 1 are black.
as i pass endlessly through the while loop, LCD line 2 alternates between totally blank, and a row where in every character position the top 3 rows of 5 dots are black and the bottom 5 rows are blank.

Been working in programming for 30 years, but sure can't figure this one out

Shocked


Last edited by k0jdd on Wed Jul 07, 2010 7:58 am; edited 1 time in total
PCM programmer



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PostPosted: Tue Jul 06, 2010 8:44 pm     Reply with quote

1. Have you tried to make the board blink an LED, using the CCS compiler to make the program (not the built-in diagnostic program) ?

2. Are you putting the PGM/Run switch in the "run" position after
programming the PIC ? Have you tried pressing the Reset button
after doing so ?

3. Do you have a contrast circuit on Vo pin of the LCD ?
Is the contrast voltage set to about 0.4 volts ?
k0jdd



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PostPosted: Wed Jul 07, 2010 5:45 am     Reply with quote

PCM programmer wrote:
1. Have you tried to make the board blink an LED, using the CCS compiler to make the program (not the built-in diagnostic program) ?


yes - if i insert this code before the lcd_init () i get a blinking LED - the LEDS and the LCD are multiplexed on a few pins

Code:
for (i=0 ; i<10; i++){
output_high(LCD_DB5);
output_high(LCD_DB6);
output_high(LCD_DB7);
delay_ms(500);
output_low(LCD_DB7);
delay_ms(500);
}


Quote:
2. Are you putting the PGM/Run switch in the "run" position after
programming the PIC ? Have you tried pressing the Reset button
after doing so ?


yes to both

Quote:

3. Do you have a contrast circuit on Vo pin of the LCD ?
Is the contrast voltage set to about 0.4 volts ?


yes - the diagnostics would not run the LCD either if this was not set properly. btw diagnostics are not built in, they are on a PIC 16F628A which i insert into the Pic-El III


Last edited by k0jdd on Wed Jul 07, 2010 6:08 am; edited 1 time in total
k0jdd



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update
PostPosted: Wed Jul 07, 2010 6:08 am     Reply with quote

Just for grins I recompiled targeting the 16F628A that came with the diagnostics on it. Of course it works JUST FINE!

Guess I need to read-up on the 16F88A-E/P

Any thoughts?
k0jdd



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PostPosted: Wed Jul 07, 2010 8:31 am     Reply with quote

could this bug still exist in my compiler version 4.109?

http://www.ccsinfo.com/forum/viewtopic.php?t=40411&postdays=0&postorder=asc&highlight=16f88+lcd&start=15

i am not at home right now, so i will try this work-around tonight
k0jdd



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No Joy...
PostPosted: Wed Jul 07, 2010 5:25 pm     Reply with quote

Seems like a compiler bug is not the issue.

Compiler generates

Code:
....................    setup_adc(ADC_OFF);
0172:  BCF    03.5
0173:  BCF    1F.0
....................    setup_adc(NO_ANALOGS);
0174:  BCF    1F.0


I added

Code:
#byte ADCON0 = 0x1F
#byte ANSEL = 0x9B

//=====================================
void main(void)
{
ADCON0 = 0; // Disable A/D converter
ANSEL = 0; // Set i/o pins to be all digital




Any Ideas? Shall I post a complete .c and .LST file?


I would really like to use the 16F88 because I already have them in abundance and I need ADC functions for my project.
PCM programmer



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PostPosted: Wed Jul 07, 2010 7:04 pm     Reply with quote

Quote:

yes - if i insert this code before the lcd_init () i get a blinking LED - the LEDS and the LCD are multiplexed on a few pins

Code:
for (i=0 ; i<10; i++){
output_high(LCD_DB5);
output_high(LCD_DB6);
output_high(LCD_DB7);
delay_ms(500);
output_low(LCD_DB7);
delay_ms(500);
}

1. Was this test above done with the 16F88 ?

2. Are you pretty sure that the 16F88 works on this board in all respects
except for the LCD ?

3. What's the silicon revision of your 16F88 ? Does your programmer
software report the rev ? (MPLAB with ICD2 does this).

4. What is the manufacturer and part number of your LCD ?
k0jdd



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PostPosted: Wed Jul 07, 2010 7:31 pm     Reply with quote

PCM programmer wrote:

1. Was this test above done with the 16F88 ?


yes it was

Quote:

2. Are you pretty sure that the 16F88 works on this board in all respects
except for the LCD ?


as far as i can tell - i will try a different chip in the meantime

Quote:

3. What's the silicon revision of your 16F88 ? Does your programmer
software report the rev ? (MPLAB with ICD2 does this
).

I only have a pickit2 this is what it reports but I'm not sure this is what you needed
Code:
Initializing PICkit 2 version 0.0.3.63
Found PICkit 2 - Operating System Version 2.32.0
PICkit 2 Unit ID = OlHoss
Target power not detected - Powering from PICkit 2 ( 5.00V)
PIC16F88 found (Rev 0x8)
PICkit 2 Ready




Quote:

4. What is the manufacturer and part number of your LCD


08LCD9 from ElectronixExpress.com
PCM programmer



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PostPosted: Wed Jul 07, 2010 8:45 pm     Reply with quote

I tested your code with a 16F88 on my PicDem2-Plus board (non-Rohs
version) and it worked. I jumpered your pins over to the LCD pins on
the board. I tested it with vs. 4.109. I did have to unplug the ICD2
from the board to make it work. That's because you're using pin B6,
which is used by the ICD2. The documentation for your board says
that this isn't a problem, due to the design of your board. I don't have
the same external circuits as your board has.

My first thought is, re-install the compiler.
k0jdd



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Still no joy
PostPosted: Thu Jul 08, 2010 6:11 am     Reply with quote

uninstalled - rebooted - reinstalled from cd-rom

Same issues. I can't help think I am doing something wrong in my setup.

Can you email me your 16f88 source pgm and the hex file that worked for you?

First I can try the hex 'as is' which rules out both hardware and compiler
Then I can stare and compare your source.

I really appreciate the time you have spent on this...
PCM programmer



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PostPosted: Thu Jul 08, 2010 3:03 pm     Reply with quote

The source is the same as your source. The compiler version is the same.

Are you sure you're using the 16x2 "flex" driver in the code library ?
It's at this link. Make sure you're not using some modified version
of it that was posted elsewhere. Use this one:
http://www.ccsinfo.com/forum/viewtopic.php?t=24661
Make sure you're not using the 16x1 or 20x4 flex drivers. Those are
at different links in the Code Library forum.

Also, you said you're using the R/W line. To use it, the following line
in the Flex driver code must be uncommented. It must look like this:
Code:

#define USE_LCD_RW   1   



CCS also has a Flex lcd driver. They added this capability to their lcd.c
driver file. The following program shows how to configure the pins for
their driver:
Code:

#include <16F88.H>
#fuses  XT, NOWDT, BROWNOUT, PUT, NOLVP
#use delay(crystal=4Mhz)

#define LCD_DATA4       PIN_B0                                   
#define LCD_DATA5       PIN_B1                                   
#define LCD_DATA6       PIN_B2                                   
#define LCD_DATA7       PIN_B3     

#define LCD_ENABLE_PIN  PIN_B4
#define LCD_RW_PIN      PIN_B5                                   
#define LCD_RS_PIN      PIN_B6                                   

 // Use the CCS driver in c:\Program Files\Picc\Drivers
#include <lcd.c> 
   
//==========================
void main()
{
lcd_init();  // Always call this first.

while(1)
  {
   lcd_putc("\fHello World");
   delay_ms(500);
   lcd_putc("\nLine Number 2");
   delay_ms(500);
  }

}

Does that work ?
k0jdd



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Heavy Sigh....
PostPosted: Thu Jul 08, 2010 6:25 pm     Reply with quote

Using a PIC16F628A I can get the LCD to run using either the CCS lcd driver or the flex lcd driver.

Using a 16F88 I get the same old poor results...
(I thought for a moment it might be a low current to the LCD issue, so I switched to a wall wart from a battery pack with no effect.)

I received this input from the Pic-El designer, so I tried to mimic this setup as best as I understood it.

Code:

A 16F88A-E/P works fine in the PIC-EL. I do this with a assembler, though. I
use these config tags in my app.

__config _CONFIG1, _INTRC_IO & _WDT_OFF & _BODEN_OFF & _LVP_OFF & _PWRTE_ON &
_CCP1_RB3 & _MCLR_OFF
__config _CONFIG2, _IESO_OFF & _FCMEN_OFF


Here is my initialization code (in assembler)
============
clrf INTCON ; No interrupts for now Any Bank

banksel OSCCON ; Switch to bank 1
movlw 0x70 ; Set IRCF<2:0> = 7 (for 8 MHz Internal Osc)
movwf OSCCON ; Bank 1
movlw 0x07 ; Code to turn off the analog comparitors
movwf CMCON ; Turn off comparators (CM2,CM1,CM0 = 1)
; (16F88-> Bank 1)
clrf ANSEL ; Turn off Analog ('88 ONLY) Bank 1
bcf OPTION_REG,NOT_RBPU ; Enable weak pullups (!RBPU) Bank 1
movlw b'11100111' ; RA3,4 Outputs, all others Inputs
movwf TRISA ; Bank 1
movlw b'10000000' ; Port B is
movwf TRISB ; all outputs except RB7 is input Bank 1
banksel PORTA ; Switch back to bank 0
;
; New code for timer 1 and interrupt.
;
movlw 0xC0 ; Get GIE and PEIE bits
movwf INTCON ; Enable general interrupts
banksel PIE1 ; Switch to bank 1 to enable timer 1
movlw 0x01 ; Get bit to enable timer 1 interrupt
movwf PIE1 ; Set TMR1IE
banksel PORTA ; Switch to bank 0
============

Hope this helps. You will have to change it to run your analog ports but this
may be a good starting point for getting the LCD to work.

Best Regards,
-Craig, AA0ZZ



Attached is my exact test program.
If you change a few lines you can switch between the two chip types and re-compile. (Note that in flex_lcd.c on my system I have commented out the pin defines at the beginning so they would not overwrite what was in my program.


Code:
#include <16F88.H>
#fuses  XT, NOWDT, BROWNOUT, NOPUT, NOLVP
#use delay (internal=4MHz)


//defines for flex_lcd.c
#define LCD_DB4   PIN_B0
#define LCD_DB5   PIN_B1
#define LCD_DB6   PIN_B2
#define LCD_DB7   PIN_B3

#define LCD_E     PIN_B4
#define LCD_RW    PIN_B5
#define LCD_RS    PIN_B6
#define USE_LCD_RW   1 

// defines for lcd.c
#define LCD_DATA4       PIN_B0                                   
#define LCD_DATA5       PIN_B1                                   
#define LCD_DATA6       PIN_B2                                   
#define LCD_DATA7       PIN_B3     

#define LCD_ENABLE_PIN  PIN_B4
#define LCD_RW_PIN      PIN_B5                                   
#define LCD_RS_PIN      PIN_B6                                   

 // Use the CCS driver in c:\Program Files\Picc\Drivers
//#include <lcd.c>
// use the flex_lcd.c driver in c:\Program Files\Picc\Drivers
#include <flex_lcd.c>
   
//==========================
void main()
{


setup_comparator(NC_NC_NC_NC);
// comment out next line for 16F628A - it has no ADC ports
setup_adc_ports(ALL_ANALOG);
set_tris_a(0x11100111);
set_tris_b(0x10000000);
port_b_pullups(true);


// flash a few LEDs
volatile int8 i;
for (i=0 ; i<3; i++){
output_high(LCD_DB5);
output_high(LCD_DB6);
output_high(LCD_DB7);
delay_ms(200);
output_low(LCD_DB7);
delay_ms(200);

}

lcd_init();  // Always call this first.

switch (restart_cause()){
case WDT_FROM_SLEEP: lcd_putc("\fWDT From Sleep");
 break;
case WDT_TIMEOUT: lcd_putc("\fWDT Timeout");
 break;   
case MCLR_FROM_SLEEP: lcd_putc("\fMCLR From Sleep");
 break;   
case MCLR_FROM_RUN: lcd_putc("\fMCLR From Run");
 break; 
case NORMAL_POWER_UP: lcd_putc("\fNormal Power Up");
 break;   
case BROWNOUT_RESTART: lcd_putc("\fBrownout Restart");
 break;     
default:  lcd_putc("\fUnknown");
}
delay_ms(2000);

while(1)
  {
   lcd_putc("\fHello World");
   delay_ms(500);
   lcd_putc("\nLine Number 2");
   delay_ms(500);
  }

}


If Mr. PCM Programmer wants to take a crack at it, I am willing to send you my hardware.
PCM programmer



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PostPosted: Thu Jul 08, 2010 10:58 pm     Reply with quote

Ask him if he has code that will run a 16x2 LCD with the 16F88 on that
board (using the built-in LCD connector pins). Even if it's ASM code,
you could assemble it in MPLAB and at least prove that it works (or not).
k0jdd



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Curiouser and Curiouser
PostPosted: Fri Jul 09, 2010 6:03 pm     Reply with quote

I am 'this close' to concluding that the PIC16F88 will not work in my board in spite of what the designer says. Shocked
I googled up some 'hello world' ASM code (attached - apologies to Nigel)

Once again, when targeted for the 16F628A it works, but not on the 16F88.

Here is what is interesting.
On my board, there are LEDS multiplexed on the pins that drive the LCD data lines.

This ASM program is designed to spell out the messages one char at a time with delays in between. I slowed that way down. This allows me to visually track the LEDs as the program goes through the loops.

The LED patterns and timing on the 628A and the 88 are identical.
I can tell where the program is by the pattern and speed of the LEDs.

Is this an electrical problem? My completely uneducated speculation is that the LCD needs more voltage or current than the 16F88 can provide.

I am gonna ask the designer to try this code on his board.

One final thought. Any idea what the difference between 16F88-E/P(automotive spec) and 16F88-I/P (industrial spec) is besides cost and temp range. (Do I have the wrong stupid part!!!!)

Any other ideas out there in PIC land? I am truly stumped.

K0JDD


Code:
;LCD text demo - 4 bit mode
;Nigel Goodwin 2002

;   LIST   p=16F628A      ;tell assembler what chip we are using
;   include "P16F628A.inc"      ;include the defaults for the chip
   LIST   p=16F88      ;tell assembler what chip we are using
   include "P16F88.inc"      ;include the defaults for the chip
   ERRORLEVEL   0,   -302   ;suppress bank selection messages

;   __config  _WDT_OFF & _XT_OSC & _LVP_OFF   
   __config _CONFIG1, _WDT_OFF & _XT_OSC & _LVP_OFF & _DEBUG_OFF         ;sets the configuration settings (oscillator type etc.)
   __config _CONFIG2, _FCMEN_OFF & _IESO_OFF


      cblock   0x20         ;start of general purpose registers
         count         ;used in looping routines
         count1         ;used in delay routine
         counta         ;used in delay routine
         countb         ;used in delay routine
         tmp1         ;temporary storage
         tmp2
         templcd         ;temp store for 4 bit mode
         templcd2   
      endc

LCD_PORT   Equ   PORTB
LCD_TRIS   Equ   TRISB
LCD_RS      Equ   0x06         ;LCD handshake lines
LCD_RW      Equ   0x05
LCD_E      Equ   0x04

      org   0x0000
;      clrf   ANSEL
      movlw   0x07
      movwf   CMCON         ;turn comparators off (make it like a 16F84)

Initialise   clrf   count
      clrf   PORTA
      clrf   PORTB



SetPorts   bsf    STATUS,      RP0   ;select bank 1
      movlw   0x00         ;make all pins outputs
      movwf   LCD_TRIS
      bcf    STATUS,      RP0   ;select bank 0

      call   Delay100      ;wait for LCD to settle


      call   LCD_Init      ;setup LCD


      clrf   count         ;set counter register to zero
Message      movf   count, w      ;put counter value in W
      call   Text         ;get a character from the text table
      xorlw   0x00         ;is it a zero?
      btfsc   STATUS, Z
      goto   NextMessage
      call   LCD_Char
      call   Delay255
      call   Delay255
      call   Delay255
      call   Delay255
      incf   count, f
      goto   Message

NextMessage   call   LCD_Line2      ;move to 2nd row, first column

      clrf   count         ;set counter register to zero
Message2   movf   count, w      ;put counter value in W
      call   Text2         ;get a character from the text table
      xorlw   0x00         ;is it a zero?
      btfsc   STATUS, Z
      goto   EndMessage
      call   LCD_Char
      call   Delay255
      incf   count, f
      goto   Message2

EndMessage   
      
Stop      goto   Initialise         ;endless loop




;Subroutines and text tables

;LCD routines

;Initialise LCD
LCD_Init   
      movlw   0x03      
      call   LCD_Cmd
      movlw   0x03         
      call   LCD_Cmd
      movlw   0x03      
      call   LCD_Cmd
      movlw   0x02         
      call   LCD_Cmd


      movlw   0x20         ;Set 4 bit mode
      call   LCD_Cmd

      movlw   0x28         ;Set display shift
      call   LCD_Cmd

      movlw   0x06         ;Set display character mode
      call   LCD_Cmd

      movlw   0x0d         ;Set display on/off and cursor command
      call   LCD_Cmd

      call   LCD_Clr         ;clear display

      retlw   0x00

; command set routine
LCD_Cmd      movwf   templcd
      swapf   templcd,   w   ;send upper nibble
      andlw   0x0f         ;clear upper 4 bits of W
      movwf   LCD_PORT
      bcf   LCD_PORT, LCD_RS   ;RS line to 0
      call   Pulse_e         ;Pulse the E line high

      movf   templcd,   w   ;send lower nibble
      andlw   0x0f         ;clear upper 4 bits of W
      movwf   LCD_PORT
      bcf   LCD_PORT, LCD_RS   ;RS line to 0
      call   Pulse_e         ;Pulse the E line high
      call    Delay5
      retlw   0x00

LCD_CharD   addlw   0x30
LCD_Char   movwf   templcd
      swapf   templcd,   w   ;send upper nibble
      andlw   0x0f         ;clear upper 4 bits of W
      movwf   LCD_PORT
      bsf   LCD_PORT, LCD_RS   ;RS line to 1
      call   Pulse_e         ;Pulse the E line high

      movf   templcd,   w   ;send lower nibble
      andlw   0x0f         ;clear upper 4 bits of W
      movwf   LCD_PORT
      bsf   LCD_PORT, LCD_RS   ;RS line to 1
      call   Pulse_e         ;Pulse the E line high
      call    Delay5
      retlw   0x00

LCD_Line1   movlw   0x80         ;move to 1st row, first column
      call   LCD_Cmd
      retlw   0x00

LCD_Line2   movlw   0xc0         ;move to 2nd row, first column
      call   LCD_Cmd
      retlw   0x00

LCD_Line1W   addlw   0x80         ;move to 1st row, column W
      call   LCD_Cmd
      retlw   0x00

LCD_Line2W   addlw   0xc0         ;move to 2nd row, column W
      call   LCD_Cmd
      retlw   0x00

LCD_CurOn   movlw   0x0d         ;Set display on/off and cursor command
      call   LCD_Cmd
      retlw   0x00

LCD_CurOff   movlw   0x0c         ;Set display on/off and cursor command
      call   LCD_Cmd
      retlw   0x00

LCD_Clr      movlw   0x01         ;Clear display
      call   LCD_Cmd
      retlw   0x00

LCD_HEX      movwf   tmp1
      swapf   tmp1,   w
      andlw   0x0f
      call   HEX_Table
      call   LCD_Char
      movf   tmp1, w
      andlw   0x0f
      call   HEX_Table
      call   LCD_Char
      retlw   0x00

Delay255   movlw   0xff      ;delay 255 mS
      goto   d0
Delay100   movlw   d'100'      ;delay 100mS
      goto   d0
Delay50      movlw   d'50'      ;delay 50mS
      goto   d0
Delay20      movlw   d'20'      ;delay 20mS
      goto   d0
Delay5      movlw   0x05      ;delay 5.000 ms (4 MHz clock)
d0      movwf   count1
d1      movlw   0xC7         ;delay 1mS
      movwf   counta
      movlw   0x01
      movwf   countb
Delay_0
      decfsz   counta, f
      goto   $+2
      decfsz   countb, f
      goto   Delay_0

      decfsz   count1   ,f
      goto   d1
      retlw   0x00

Pulse_e      bsf   LCD_PORT, LCD_E
      nop
      bcf   LCD_PORT, LCD_E
      retlw   0x00

;end of LCD routines

HEX_Table     ADDWF   PCL       , f
               RETLW   0x30
               RETLW   0x31
               RETLW   0x32
               RETLW   0x33
               RETLW   0x34
               RETLW   0x35
               RETLW   0x36
               RETLW   0x37
               RETLW   0x38
               RETLW   0x39
               RETLW   0x41
               RETLW   0x42
               RETLW   0x43
               RETLW   0x44
               RETLW   0x45
               RETLW   0x46


Text      addwf   PCL, f
      retlw   'H'
      retlw   'e'
      retlw   'l'
      retlw   'l'
      retlw   'o'
      retlw   0x00

Text2      ADDWF   PCL, f
               RETLW   'R'
               RETLW   'e'
               RETLW   'a'
               RETLW   'd'
               RETLW   'y'
               RETLW   '.'
               RETLW   '.'
               RETLW   '.'
               RETLW   0x00


      end
PCM programmer



Joined: 06 Sep 2003
Posts: 21708

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PostPosted: Fri Jul 09, 2010 6:16 pm     Reply with quote

I was reluctant to suggest this, because I don't know how good you are
at soldering and rework. If you don't have the skills or the rework
station, you could burn off or tear up the pads on your board.
But...

1. Isolate all circuits on the board from the LCD.
Warm up the solder on one leg of each LED resistor and pull it the leg up
so it's not in contact with the pad. You need the FET circuits in place to
program the PIC, so you can't remove them. But you could at least
move the LCD pin from pin B6 to some other pin.

or,

2. Try breadboarding the 16F88 and LCD on a 3M protostrip.
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