Difference between revisions of "PIC16F684"
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==Configuring I/O== |
==Configuring I/O== |
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This section shows two sections of code that are used for setting up the I/O of the PIC. The INIT_IO function sets up the ports by setting their default value and their direction. The second function, INIT_ADC sets up the A/D converter. |
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<pre> |
<pre> |
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INIT_IO |
INIT_IO |
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BCF STATUS,RP0 ;Bank 0 |
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BANK0 |
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CLRF PORTA ;Init PORTA - initially set to LOW |
CLRF PORTA ;Init PORTA - initially set to LOW |
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MOVLW B'000101' ;Set RA<0> as input |
MOVLW B'000101' ;Set RA<0> as input |
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MOVWF TRISA ; and set RA<5:1> |
MOVWF TRISA ; and set RA<5:1> |
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; as outputs |
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BANK1 |
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BSF STATUS,RP0 ;Bank 1 |
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CLRF PORTC ;Init PORTC - initially set to LOW |
CLRF PORTC ;Init PORTC - initially set to LOW |
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MOVLW B'000000' ;Set RC<5:0> as outputs |
MOVLW B'000000' ;Set RC<5:0> as outputs |
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MOVLW B'000001' |
MOVLW B'000001' |
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MOVWF ANSEL ;Set AN<0> (RA<0>) to Analog input |
MOVWF ANSEL ;Set AN<0> (RA<0>) to Analog input |
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; RA<5:1> remain digital I/O |
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RETURN |
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INIT_ADC |
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BCF STATUS,RP0 ;Bank 0 |
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MOVLW B'00000001' ; Set output to left justified |
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MOVWF ADCON0 ; Select AN<0> (RA<0>) as input |
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; Internal Vref |
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; Start ADC ON |
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BSF STATUS,RP0 ;Bank 1 |
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CLRF ADCON1 |
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MOVLW B'00100000' ;Set Clock TAD to 1.6us (Fosc/32) |
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MOVWF ADCON1 |
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RETURN |
RETURN |
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</pre> |
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''Notice that the two following bits of code are equivalent:'' |
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<pre> |
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CLRF PORTA |
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</pre> |
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''and'' |
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<pre> |
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MOVLW B'000000' |
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MOVWF PORTA |
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</pre> |
</pre> |
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==Setting Up for PWM Output== |
==Setting Up for PWM Output== |
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Using the built-in PWM functionality is very useful, but it a little tricky to setup and use. First, you need to initialize the PWM by setting the mode, initial duty cycle, and frequency: |
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<pre> |
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INIT_PWM |
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BCF STATUS,RP0 ;Bank 0 |
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MOVLW B'10001100' ;Half-Bridge Output, Dual-Mode PWM |
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MOVWF CCP1CON |
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MOVLW B'00000100' ;Timer2 enabled with prescale 1 |
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MOVWF T2CON |
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MOVLW B'01111111' ;50% duty cycle |
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MOVWF CCPR1L |
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BSF STATUS,RP0 ;Bank 1 |
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MOVLW 0xFF |
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MOVWF PR2 ;Set frequency to 19.53 kHz |
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RETURN |
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</pre> |
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Next is setting the desired duty cycle. A 0% duty cycle will correspond to 5v on P1A and 0v on P1B. A 100% duty cycle will correspond to the opposite, 0v on P1A and 5v on P1B. The duty cycle is a 10-bit number that spans two registers, CCPR1L<7:0> and CCP1CON<5:4>. To set a 100% duty cycle, you will need code like this: |
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<pre> |
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UPDATE_PWM |
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BCF STATUS,RP0 ;Bank 0 |
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MOVLW B'11111111' ; Set 8 MSbs to the CCPR1L register |
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MOVWF CCPR1L |
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BSF CCP1CON,5 ; set 2 LSbs to 1 |
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BSF CCP1CON,4 |
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</pre> |
Latest revision as of 17:25, 11 July 2006
Overview
For a complete list of features, see this printout from the datasheet.
IMPORTANT: See PIC16F684 Registers for detailed information on registers.
Pinout
Label | Description |
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+ 5 V | |
Ground | |
External Voltage Reference | |
PORTA/PORTC Programmable I/O | |
A/D Channel | |
External Interrupt Input | |
PWM Output |
Initialization
Configuring I/O
This section shows two sections of code that are used for setting up the I/O of the PIC. The INIT_IO function sets up the ports by setting their default value and their direction. The second function, INIT_ADC sets up the A/D converter.
INIT_IO BCF STATUS,RP0 ;Bank 0 CLRF PORTA ;Init PORTA - initially set to LOW MOVLW B'000101' ;Set RA<0> as input MOVWF TRISA ; and set RA<5:1> ; as outputs BSF STATUS,RP0 ;Bank 1 CLRF PORTC ;Init PORTC - initially set to LOW MOVLW B'000000' ;Set RC<5:0> as outputs MOVWF TRISC CLRF ANSEL ;Set all pins initially to digital I/O MOVLW B'000001' MOVWF ANSEL ;Set AN<0> (RA<0>) to Analog input ; RA<5:1> remain digital I/O RETURN INIT_ADC BCF STATUS,RP0 ;Bank 0 MOVLW B'00000001' ; Set output to left justified MOVWF ADCON0 ; Select AN<0> (RA<0>) as input ; Internal Vref ; Start ADC ON BSF STATUS,RP0 ;Bank 1 CLRF ADCON1 MOVLW B'00100000' ;Set Clock TAD to 1.6us (Fosc/32) MOVWF ADCON1 RETURN
Notice that the two following bits of code are equivalent:
CLRF PORTA
and
MOVLW B'000000' MOVWF PORTA
Setting Up for PWM Output
Using the built-in PWM functionality is very useful, but it a little tricky to setup and use. First, you need to initialize the PWM by setting the mode, initial duty cycle, and frequency:
INIT_PWM BCF STATUS,RP0 ;Bank 0 MOVLW B'10001100' ;Half-Bridge Output, Dual-Mode PWM MOVWF CCP1CON MOVLW B'00000100' ;Timer2 enabled with prescale 1 MOVWF T2CON MOVLW B'01111111' ;50% duty cycle MOVWF CCPR1L BSF STATUS,RP0 ;Bank 1 MOVLW 0xFF MOVWF PR2 ;Set frequency to 19.53 kHz RETURN
Next is setting the desired duty cycle. A 0% duty cycle will correspond to 5v on P1A and 0v on P1B. A 100% duty cycle will correspond to the opposite, 0v on P1A and 5v on P1B. The duty cycle is a 10-bit number that spans two registers, CCPR1L<7:0> and CCP1CON<5:4>. To set a 100% duty cycle, you will need code like this:
UPDATE_PWM BCF STATUS,RP0 ;Bank 0 MOVLW B'11111111' ; Set 8 MSbs to the CCPR1L register MOVWF CCPR1L BSF CCP1CON,5 ; set 2 LSbs to 1 BSF CCP1CON,4