The ESP32 CAM is Basically an ESP32 without a CP2102 Chip. Instead, it is equipped with a 2MP OV2640 camera module and an SD Card Reader on the bottom side of the board.
Also, the camera module is switchable, which means we can upgrade this camera from 2MP to 5MP or Higher.
It cost around 10$ which is a pretty sweet price tag for such a capable Microcontroller.
The WIFI module used in this Version is ESP-32S which has a built-in 32Mbit of Flash and 512KB Internal plus external 4M PSRAM.
It has 9 IO Ports and its default baud rate is 115200bps.
Also, it's five volts tolerance which means we can hook it up with an external 5V Charger setup but a voltage above 5V will kill the module.
Its specs are somewhat similar to generic ESP32 so I won't be listing the whole spec chart.
The goal here is to connect ESP32 CAM with FTDI Module and program it with the CAM WEB SERVER sketch which will allow us to monitor the camera feed via a web app.
The Next Level of this project is to make a ROCK SOLID WIFI SECURITY CAMERA!
which is coming soon, so without any further ado, let's get started.SUPPLIES
These are the things that you will need for this built/setup
- ESP32 CAM
- FTDI Module
- WIFI Connection
For Installing Third parties Dev Board on Arduino IDE, we have to copy their JSON URL which in our case is this- https://dl.espressif.com/dl/package_esp32_index.json
- copy this URL and paste it in the additional board manager URL which is in the Preferences of Arduino IDE.
(If you already have other dev board URL in the additional board manager, you can put a comma in between two URLs)
- After putting the URL, open the board manager and search ESP32 in, and then download the ESP32 Board package.
- After doing all this, you need to Restart the Arduino IDE and the new ESP32 Board will appear in the board manager menu.
ESP32 CAM doesn't have an onboard programming chip which is a bummer, because of this we have to add an external USB to Serial Programming module.
For That, I will be using this USB to Serial module. This Module is based around the FTDI FT232 chip. you can use other serial converters as well, wiring will remain the same for them as we only have to connect TX and RX with the ESP32.Wiring Schematic
- Set FTDI output to 5V
- Connect the FTDI's VCC (which is 5V) to 5V of ESP32 CAM
- GND to GND
- RX to U0T
- TX to U0R
- GPIO0 which is IO0 to GND (this will put the ESP32 CAM in Flash Mode)
Before Flashing Process, you need to change few things in the example sketch.
- Go to Example> ESP32> Camera and open the CameraWebServer sketch
- Input your SSID and password
- Change the camera module from#define CAMERA_MODEL_WROVER_KITto #define CAMERA_MODEL_AI_THINKER
Now, Go to Tools and select the right board which is in our case AI-Thinker ESP32-CAM.
Select the right port and hit upload.
Now, when the ESP32 Starts its uploading process you will see the connecting message with dots and dashes. press the reset button on the bottom side of the board which dots and dashes start.
If you have encountered an error during this setup that says unable to connect, this means your timing was not good, try again and when the first dot appears in the debugging menu, long-press the reset button for at least 1 second.
After few seconds, your sketch will be uploaded.
- now plug out the USB from FTDI Module and remove the jumper between GPIO0 and GND.
- Plug in the USB and open up the serial monitor.
- ESP32 will get connected with WIFI (which would take 1min) and you will see the IP address of the ESP32 CAM.
I copied the IP Address of the board from the serial monitor and open it up in chrome and you will see the live video which is being streamed by ESP32 CAM.watch the video-Next LEVEL
So the next level or next step would be to make a Breakout PCB for this setup which will have an AC to DC 5V 1A charger circuit on it so I can place it outside and power it with the direct AC supply.
This setup will have a 3D Printed Body that will house the custom PCB in a single solid package.
Leave a comment if you have any issues or problems.