How to Design Own Arduino Wifi shield PCB


Arduino wifi shield PCB connects the Arduino with a wifi chip through the serial communication pins. so that, we can perform different IOT projects using Arduino and this Board.


In a general sense, an Arduino WiFi shield PCB would likely be a printed circuit board designed to provide wireless communication capabilities to an Arduino microcontroller. The design would typically include components for WiFi connectivity, such as an integrated WiFi module or chipset, antenna connections, and possibly additional circuitry for power regulation and signal conditioning.


An Arduino Shield that allows you to prototype Arduino Wifi projects. It used Pin2,3 and Pin9,10 for Software Serial (Jumper Selectable). It can external power (9VDC) or be powered by the Arduino or from an FTDI Adapter.

  1. FTDI Adapter must be switched to 3V3.
  2. FTDI Adapter is used to Program the ESP01S.
  3. Arduino is programmed through its USB OnBoard.
  4. Arduino can also supply 3V3 to the ESP01S.
  5. Power Jumper is used to switch power between ARD/FTDI and External Power.

Bill Of Materials

1Arduino UNOREV31
2Connecting wiresjumper wiresome
4ESP8266Serial wifi module1
5Resistor PackSHT401
6Capacitor PackSPS301
7LED packMiCS55241
8Voltage Regulator5 volt / 3.3volt1

Steps to Design Your Arduino WiFi Shield PCB

  1. Define Requirements:
    • Clearly define the requirements for your WiFi shield, such as the supported WiFi standards (e.g., 802.11b/g/n), communication interfaces, and any additional features you want to include.
  2. Component Selection:
    • Choose the appropriate WiFi module, microcontroller, voltage regulators, and other components based on your requirements.
    • Common choices for WiFi modules include ESP8266 or ESP32, which have built-in WiFi capabilities and can communicate with an Arduino over UART or SPI.
  3. Create Schematic:
    • Use a schematic design tool (e.g., KiCad, Eagle) to create a schematic diagram of your WiFi shield.
    • Connect the selected components according to their datasheets and the required functionality.
    • Include power supply components, connectors, and any supporting circuitry.
  4. Layout Design:
    • Transfer your schematic into a PCB layout tool.
    • Place components on the board, considering factors like signal integrity, power distribution, and thermal considerations.
    • Route traces carefully, keeping in mind signal paths, high-speed signals, and avoiding interference.
  5. Grounding and Power Planes:
    • Implement a solid grounding strategy to minimize noise and interference.
    • Use power planes to ensure stable power distribution and reduce voltage drops.
  6. Antenna Design:
    • If your WiFi module requires an external antenna, include a suitable antenna and follow the manufacturer’s recommendations for layout.
    • Consider the placement and orientation of the antenna for optimal performance.
  7. Check Design Rules:
    • Ensure that your design adheres to the design rules of your chosen PCB manufacturer.
    • Check for any design rule violations, such as clearance issues, and resolve them.
  8. Gerber Files:
    • Generate Gerber files from your PCB layout tool. These files are used by the PCB manufacturer to fabricate your PCB.
  9. Prototype and Testing:
    • Order a prototype batch of your PCB.
    • Once received, assemble the components onto the PCB.
    • Test the WiFi shield for functionality, ensuring that it communicates properly with the Arduino.
  10. Iterate and Optimize:
    • Based on your testing results, make any necessary adjustments to your design.
    • Iterate through the design, prototyping, and testing phases until you achieve the desired performance.
  11. Documentation:
    • Document your design, including schematics, layout files, and any custom libraries or code.
  12. Production:
    • Once satisfied with your prototype, you can proceed with larger-scale production.


  • Review datasheets thoroughly for all components.
  • Consider power consumption, especially if your project is battery-powered.
  • Follow best practices for RF circuit design if dealing with WiFi.
  • Take into account EMI/EMC considerations to ensure your shield won’t interfere with other devices.

This is a simplified guide, and designing a WiFi shield can be a complex process. If you’re not experienced with PCB design, it might be helpful to consult with someone who is or consider starting with a pre-designed WiFi module and building around it.

PCB Manufacturer

PCBWAY is a highly skilled company specializing in PCB manufacturing. They offer their services at incredibly low prices, such as providing 10 PCBs for only $5. Additionally, new members receive a $5 bonus. The website allows customers to upload their Gerber Files and place orders.


PCBWAY is known for producing PCBs of exceptional quality and maintaining high standards, which is why many people trust them for their PCB and PCBA needs.

Below are some of my PCB’S manufactured by PCBWAY and I am fully satisfied by their Quality of service they provide.

Schematic Diagram

PCB Diagram

3D Diagram

Manufacturing Files

Gerber File

Bill Of Material File

Position File

Order Directly from PCB WAY

I have already uploaded all these required manufacturing files in PCBWAY website. You can easily go to the below link and place you order, and get your Own  Home Automation PCB manufactured from one of the best pcb manufacturer PCBWAY


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