This repository contains an example of bare-metal source code for SPI as described in TB3265 - Getting Started with SPI using MSSP on PIC18 document from Microchip.
In this demo, the SPI will be configured as host and it will be used to send data to a client device, in data mode 3.
- TB3265 - Getting Started with SPI using MSSP on PIC18
- PIC18-Q10 Product Family Page
- PIC18F47Q10 Data Sheet
- PIC18F47Q10 Code Examples on GitHub
- TB3261 - PIC1000: Getting Started with Writing C-Code for PIC16 and PIC18
- MPLAB® X IDE 5.30 or newer (microchip.com/mplab/mplab-x-ide)
- MPLAB® XC8 2.10 or a newer compiler (microchip.com/mplab/compilers)
- Microchip PIC18F-Q Series Device Support 1.3.89 or newer (packs.download.microchip.com/)
- PIC18F47Q10 Curiosity Nano (DM182029)
The PIC18F47Q10 Curiosity Nano Development Board is used as the test platform.
The following configurations must be made for this project:
-
Clock
- Oscillator Select: HFINTOSC
- HF Internal Clock: 64 MHz
- Clock Divider: 1
-
MSSP1:
- MSSP1 Enabled
- Serial Protocol: SPI
- Mode: Master
- Data Mode: 3
- Input Data Sampled At: Middle
- Clock Source Selection: FOSC/4_SSPxADD
- SPI Clock Frequency: 8 MHz
-
Watchdog Timer: disabled
-
Low-voltage Programming: enabled
Pin | Configuration |
---|---|
RC3 (SCK) | Digital Output |
RC4 (SDI) | Digital Input |
RC5 (SDO) | Digital Output |
RC6 (SS) | Digital Output |
-
Connect the board to the PC.
-
Open the pic18f47q10-cnano-spi-mode-change-bare.X project in MPLAB® X IDE.
-
Set pic18f47q10-cnano-spi-mode-change-bare.X project as main project. Right click on the project in the Projects tab and click Set as Main Project.
-
Select the PIC18F47Q10 Curiosity Nano in the Hardware Tool section of the project settings:
- Right click on the project and click Properties;
- Select the PIC18F47Q10 Curiosity Nano (click on the SN) in the Hardware Tool tab and then click OK:
- Program the project to the board: right click on the project and click Make and Program Device.
Result:
This project is an illustration for a basic use case based around MSSP1 in SPI mode.