In this tutorial we are going to discuss how to use the inbuilt PIC16f877A ADC.
We will be reading the ADC values from chanel Zero and transmitted on UART at 9600 baudrate. Lpc1768Adc.gif


PIC16F877A ADC pins

PIC16F877A has an inbuilt 10 bit Successive Approximation ADC which is multiplexed among 8 input pins.
The A/D module has high and low-voltage reference input that is software selectable to some combination of VDD, VSS, RA2 or RA3. With 5v as the Vref the resolution of Pic16f877a ADC can be determined as below: $$resolution of ADC = Vref/(2^{10}) = 5/1024 =0.00488 = 4.9mv$$

The below table shows the ADC input pins multiplexed with other GPIO pins.
The ADC pin can be enabled by configuring the corresponding ACON1 register.
When the ADC function is selected for a pin ,then other Digital signals are disconnected from the ADC input pins.

Adc Channel Pic16f877a Pin Pin Function
0 RA0 AN0
1 RA1 AN1
2 RA2 AN2/VREF-
3 RA3 AN3/VREF+
4 RA5 AN4
2 RE0 AN5
3 RE1 AN6
4 RE2 AN7


ADC Registers

The below table shows the registers associated with PIC16F877A ADC.

Register Description
ADCON0 Used to Turn ON the ADC, Select the Sampling Freq and also Start the conversion.
ADCON1 Used to configure the gpio pins for ADC
ADRESH Holds the higher byte of ADC result
ADRESL Holds the lower byte of ADC result



x

y

Code

Below is the sample code to read the ADC value of channel0 and sent it on UART at 9600 baud rate.
As the POT is connected to ADC0, the values can be varied using this POT.

Pic16f877aADC01.PNG