FPGA Cyclone IV DueProLogic Controls Raspberry Pi Camera

Introduction: FPGA Cyclone IV DueProLogic Controls Raspberry Pi Camera

About: All Projects are uploaded here - https://www.blogger.com/profile/13755472741602308501

Despite the FPGA DueProLogic is officially designed for Arduino, we are going to make the FPGA and Raspberry Pi 4B communicable.

Three tasks are implemented in this tutorial:

(A) Simultaneously press the two push buttons on FPGA to flip the angle of RPi camera.

(B) Raspberry Pi 4B controls the external LED circuit of FPGA.

(C) Live stream the Raspberry Pi Camera on Browser via WiFi

Step 1: Build Electronic Circuit

Step 2: Edit Verilog Code

When you buy the FPGA DueProLogic, you should receive a DVD. After you open "Projects_HDL", you should see the original HDL code file. After you set up the pin planner, add the highlighted code as shown in section 2A, 2B, 2C and 2D.

2A: To activate push buttons, you have to use this code

//Push Button Switches

input wire UBA,

input wire UBB

To communicate with Raspberry Pi, you need to add these.

reg sel_send; //activate Raspberry pi

reg rece; //received from raspberry pi

2B: To assigns values to the ports, you should edit the code accordingly

assign XIO_1[3] = start_stop_cntrl;

assign XIO_2[2] = rece; //output HIGH or LOW in LED circuit

assign XIO_2[3] = ~UBA; //push button

assign XIO_2[4] = UBB; //push button

assign XIO_2[5] = sel_send; // FPGA sends signal to raspberry pi

assign sel_read= XIO_5[1]; //FPGA receives signal from raspberry pi

assign c_enable = XIO_5[2]; //XIO_5 -- UB57 -- D17

assign LEDExt = XIO_5[5];

2C: If two push buttons are pressed simultaneously, the FPGA sends HIGH output to Raspberry Pi.

always @(sel_send or UBB or UBA) //send to RPi


if (UBB == 1'b0 && UBA == 1'b0)

sel_send = 1'b1;


sel_send = 1'b0;


2D: The FPGA reads signal from Raspberry Pi with the clock frequency of 66MHz. The port XIO_2[2] is linked to 'rece'.

always @(sel_read) //read pi


if (sel_read == 1'b1)

rece = 1'b0;


rece = 1'b1;


Step 3: Upload Verilog Code

Then upload the compiled pof file to the FPGA. If no hardware is detected automatically, click "Hardware Setup" to correct it manually

Step 4: Upload Raspberry Pi Code.

The highlighted lines allows the FPGA communicating with Raspberry Pi.

The full Raspberry Pi code for this project, https://roywchpi.blogspot.com/2020/06/12-fpga-cycl...

A = GPIO.input(pin) #read FPGA


camera.rotation = 0

GPIO.output(18,GPIO.LOW) #send to FPGA


camera.rotation = 180

GPIO.output(18,GPIO.HIGH) #send to FPGA

Step 5: Let's Try It!

Open your browser and type your IP address e.g. 192.168.xx.xxx:8000.

After all, the system should work!

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