RKPK28 Prototype PCB
The next PIC development board is again from RKeducation and is designed for use with 28 pin PICs in this case I used a PIC 18f2685, another PIC microcontroller I didn’t have in my collection
You can find out more about the device at http://www.microchip.com/wwwproducts/Devices.aspx?product=PIC18F2685
Here is a table showing some of the features
| Program Memory (KB) | 96 |
| CPU Speed (MIPS) | 10 |
| RAM Bytes | 3,328 |
| Data EEPROM (bytes) | 1024 |
| Digital Communication Peripherals | 1-UART, 1-A/E/USART, 1-SPI, 1-I2C1-MSSP(SPI/I2C) |
| Capture/Compare/PWM Peripherals | 1 CCP |
| Timers | 1 x 8-bit, 3 x 16-bit |
| ADC | 8 ch, 10-bit |
| CAN | 1 CAN |
| Temperature Range (C) | -40 to 125 |
| Operating Voltage Range (V) | 2 to 5.5 |
| Pin Count | 28 |
Features
Low cost development board at £7.99
Supports several PICs
Can be used with the Pickit programmers – I tested this with a Pickit3
Prototyping area on board
5v and 3.3v regulators on board
Through hole components
USB connection can be used to power the board
The build is again fairly straightforward and only requires basic soldering skills.
I connected a Pickit3 to the programming header and verified if I could read the device connected. You can see this in the screenshot below.
An easy way of testing is to connect some LEDs to one of the ports and flash them on and off. Here is a simple schematic showing 3 LEDs connected to Port A
Code
Again Mikroc for PIC was used and once again we just toggled PORTA low and high, connected LEDs and verified they were working correctly
[codesyntax lang=”cpp”]
int main(void)
{
TRISA = 0x00; // Configure port A as output
while(1)
{
PORTA = 0x00;
delay_ms(1000); // Wait for 1s
PORTA = 0xFF;
delay_ms(1000); // Wait for 1s
}
}
[/codesyntax]
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