Difference between revisions of "PIC32MX: Digital Outputs"

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Working with digital inputs and outputs is fundamental to circuit design, and PIC microcontrollers add versatility to design by allowing programming and re-programming of the logic associated with input and output pins. In this way, one PIC microcontroller can take the place of many pre-programmed digital logic ICs.
Working with digital inputs and outputs is fundamental to circuit design, and PIC microcontrollers add versatility to design by allowing programming and re-programming of the logic associated with input and output pins. In this way, one PIC microcontroller can take the place of many pre-programmed digital logic ICs.
==Available Pins==
<br><br>
==Digital Output Example==
==Digital Output Example==
This section describes how to set up and write digital outputs using a PIC32MX460F512L.
This section describes how to set up and write digital outputs using a PIC32MX460F512L.
===Sample Code===
===Sample Code===
Program to turn on LEDs based on User Switch of UBW32. swUser must be defined for a switch [[PIC32MX460F512L : Digital Inputs |(digital input) ]] if not using UBW32.
Program to turn on LEDs based on User Switch of NU32. swUser must be defined for a switch [[PIC32MX460F512L : Digital Inputs |(digital input) ]] if not using NU32.


/********************************************************************
First include header files with definitions for generic type definitions, compiler, and for specific PIC. Also include the plib header file.
Super simple Digital Output.
********************************************************************/
#include "HardwareProfile.h"
// NOTE THAT BECAUSE WE USE THE BOOTLOADER, NO CONFIGURATION IS NECESSARY
// THE BOOTLOADER PROJECT ACTUALLY CONTROLS ALL OF OUR CONFIG BITS
// Define constants for PINS D1 - D4
#define PIN_D1 LATDbits.LATD1
#define PIN_D2 LATDbits.LATD2
#define PIN_D3 LATDbits.LATD3
#define PIN_D4 LATDbits.LATD4
int main(void)
{
// Set all analog pins to be digital I/O
// This line of code only needs to be used if your pins are Analog Input (B port)
AD1PCFG = 0xFFFF;
// Configure the proper PB frequency and the number of wait states
SYSTEMConfigPerformance(SYS_FREQ);
//Set D1, D2, D3, and D4 as a digital output
LATD |= 0x001E; TRISD &= 0xFFE1;
while(1)
{
if(swUser)
{
PIN_D1 = 1;
PIN_D2 = 0;
PIN_D3 = 1;
PIN_D4 = 0;
}
else
{
PIN_D1 = 0;
PIN_D2 = 1;
PIN_D3 = 0;
PIN_D4 = 1;
}
}
}


#include "GenericTypeDefs.h"
#include "Compiler.h"
#include "HardwareProfile.h"
#include <plib.h>

NOTE THAT BECAUSE WE USE THE BOOTLOADER, NO CONFIGURATION IS NECESSARY. THE BOOTLOADER PROJECT ACTUALLY CONTROLS ALL OF OUR CONFIG BITS.

Define a constants for 4 output pins. LATx is the function used to write to a pin.
#define PIN_D4 LATDbits.LATD4
#define PIN_D5 LATDbits.LATD5
#define PIN_D6 LATDbits.LATD6
#define PIN_D7 LATDbits.LATD7

Begin main body of program.
int main(void){

Configure the proper PB frequency and number of wait states in this case 80MHz.
SYSTEMConfigPerformance(80000000L);

Set all analog pins to be digital I/O
AD1PCFG = 0xFFFF;

Turn off JTAG so we get the pins back
mJTAGPortEnable(0);

The pins that we want to use as outputs must be initialized as an outputs. TRISx is a register that sets the pin as an input (1) or an output(0). You can set entire ports as inputs / outputs by using TRISX &= Hex number; We use &= hex number to only change the pins that we want to set as inputs / outputs.

Set D4, D5, D6, and D7 as a digital outputs
LATD |= 0x00F0; TRISD &= 0xFF0F;


Use while to set up infinite loop. What we're going to do is blink LEDs on the board on and off depending on whether the user switch is pressed.
while(1)
{
if(swUser)
{
PIN_D4 = 1;
PIN_D5 = 0;
PIN_D6 = 1;
PIN_D7 = 0;
}
else
{
PIN_D4 = 0;
PIN_D5 = 1;
PIN_D6 = 0;
PIN_D7 = 1;
}
}
} // end main
<br>
<br>

===Circuit Diagram===

Latest revision as of 15:40, 5 January 2010

Working with digital inputs and outputs is fundamental to circuit design, and PIC microcontrollers add versatility to design by allowing programming and re-programming of the logic associated with input and output pins. In this way, one PIC microcontroller can take the place of many pre-programmed digital logic ICs.

Digital Output Example

This section describes how to set up and write digital outputs using a PIC32MX460F512L.

Sample Code

Program to turn on LEDs based on User Switch of NU32. swUser must be defined for a switch (digital input) if not using NU32.

/********************************************************************
Super simple Digital Output. 
********************************************************************/

#include "HardwareProfile.h"

// NOTE THAT BECAUSE WE USE THE BOOTLOADER, NO CONFIGURATION IS NECESSARY
// THE BOOTLOADER PROJECT ACTUALLY CONTROLS ALL OF OUR CONFIG BITS

// Define constants for PINS D1 - D4
#define PIN_D1			LATDbits.LATD1
#define PIN_D2			LATDbits.LATD2
#define PIN_D3			LATDbits.LATD3
#define PIN_D4			LATDbits.LATD4

int main(void)
{

	// Set all analog pins to be digital I/O
	// This line of code only needs to be used if your pins are Analog Input (B port)
    AD1PCFG = 0xFFFF;

    // Configure the proper PB frequency and the number of wait states
	SYSTEMConfigPerformance(SYS_FREQ);

	//Set D1, D2, D3, and D4 as a digital output
	LATD |= 0x001E; TRISD &= 0xFFE1;
		
    while(1)
    {

		if(swUser)
		{
			PIN_D1 = 1;
			PIN_D2 = 0;
			PIN_D3 = 1;
			PIN_D4 = 0;
		}
		else
		{
			PIN_D1 = 0;
			PIN_D2 = 1;
			PIN_D3 = 0;
			PIN_D4 = 1;
		}
	}
}