Visual level detection using ADXL335

The EzloPi smart devices provide automation through simple, customizable use with our open-source EzloPi platform, making daily life easier and improving human-machine interactions.

Before moving into this example, it is very important to know about the device registration, provisioning and converting the ESP32 device into an EzloPi device along with knowledge of Web Flasher, MiOS Mobile Application for Android/iOS and the MiOS Web Application.

This project for visual level detection using the GY-61 ADXL335 accelerometer with the EzloPi device aims to measure the tilt or orientation of a surface. The ADXL335 is a 3-axis accelerometer that detects motion and changes in inclination. By interfacing it with the EzloPi device, the sensor’s analog signals are read and processed to determine the angle of tilt along the X, Y, and Z axes. This data can be used for applications like balancing, leveling, or orientation measurement in projects requiring accurate tilt detection. The visual output is displayed on an LED to provide visual indication.

Welcome to the project demonstration video section. The following video showcases the key aspects of Visual level detection using ADXL335, providing a visual walkthrough of its implementation.

The following components are required for interfacing with the EzloPi device:

• ESP32 as an EzloPi smart device.
• GY-61 3-axis Accelerometer.
• LED with 120 Ohm Resistor

The wiring diagram of ESP32 30 pin is represented as follows:

The following connections are made in order to complete the circuit setup.

From ESP32 to the GY-61:

From ESP32 to the LED & Resistor:

1. Set up your device/hardware by visiting config.ezlopi.com

2. Log in using the credentials which you just set earlier while signing up.

3. Now, click on the Connect Device button and a pop-up window will appear.

4. Now, select COM Port to which your ESP32 device is connected. In our case, the COM3 port is used.

Click Connect

5. If you are new to this and it's your first time configuring, select Create new Device ID. Enter Wifi SSID and Wifi Password.
6. In the Device Configuration, tab click on Other.

7. An Other Input window will open for inputting the following parameters:

• Set a Device name of your choosing. In our case, we set it to GY-61 3-Axis Accelerometer.
• Set Device Subtype to GY61 3-Axis Accelerometer.
• Tick mark the box of GPIO1 and Set the GPIO1 to 25.
• Tick mark the box of GPIO2 and Set the GPIO2 to 32.
• Tick mark the box of GPIO3 and Set the GPIO3 to 33.
• Then Click Apply Button.

8. In the Device Configuration, tab click on Digital Output.

9. A Digital Output window will open for inputting the following parameters:

• Set a Device name of your choosing. In our case, we set it to the LED.
• Set Device Subtype to LED.
• Set the OUT GPIO to 15.
• Set the Resistor to PULL UP.
• Then Click Apply Button.
• After clicking the apply button you can see a table of your setting in the device configuration tab.
• Press the Flash Device button.

10. A window will appear on the bottom right side of the screen displaying “Please press BOOT button while flashing begins.”

11. Hold the BOOT button down until the next window appears on the bottom right side of the screen which says “Installation prepared. Please release the boot button now.”

12. Release the BOOT button from your ESP32 when this pop-up on the bottom right window appears.

13. After some time, a popup will appear saying Device Flashed Successfully! This means that your device has been set up successfully.

1. After configuring the controller with the EzloPi web flasher, head to ezlogic.mios.com

2. Use the same credential to log in that you used for configuring the controller with the web flasher.

3. Here, on the MiOS web dashboard, you will be able to see the tiles of connected devices. In our case we have two visible tiles for GY-61 sensor which are of Y-axis and Z-axis respectively whereas there is a tile for LED also. The LED tile will indicate the stability of the Z-axis.

MeshBots:

4. On the left side of the screen under Automation, click on MeshBots.
5. On meshbot screen, click on Create new MeshBot button present on the top right corner of the screen.
6. After clicking on Create new MeshBot, you will see this now under Automation MeshBot click on Cloud.

7. On the next screen you will see that we can create a name of our choosing, in this case we write it as Test001.

8. In the trigger tab you can set the TRIGGER for your device and in the ACTION tab you can set the action to be performed based on the trigger which you have created.

9. Set these things in TRIGGER section:

• Set Node Type to Device.
• Set the Node to GY-61 3-Axis Accelerometer.
• Set the Capability to parent_abstract.
• Set the variables to uuid.
• Set the Comparator to Equal (==).
• Set the Value Type to value.
• Set the value to 0.

10. Set these values in the TRUE part of the ACTION section.

• Set Controllable Type to Device.
• Set the Controllable to LED.
• Set the Capability to power_command.
• Set the Value Type to set.
• Set the value to true.
• Now Click the Save button.

11. After clicking the save button you can see this screen on the top right corner of the screen.

12. Here you can see your saved MeshBot. Now click on Dashboard.

13. Now in the MiOS web dashboard, we can see the values of Y-axis and Z-axis and also the tile of LED. For now, the LED does not turn ON because the Z-axis is not stable at 0 which is set in the meshbot settings.

14. Now in the above picture, we can see that the value of the Z-axis is stable at 0 so the LED turns ON because of our setting of meshbot.

You can download the MIOS Android app from the Google Play Store and Apple App Store.

1. After downloading the app, proceed to install the application and open it.

2. Using the MIOS mobile application, create a new Ezlo Cloud account using the sign-up option. If you already have an account, you may proceed to log in.

3. After successfully logging in, you will be able to see the number of controllers connected such as a lamp, fan, or any other device in the MiOS app. Tap on any controller of your desired ID:

4. You will be able to see the status of your controller whether it is online or offline. Access the device dashboard, and tap the device. The following view of the dashboard will appear:

5. Here, as seen above on the MiOS mobile dashboard, we can see the values of Y-axis and Z-axis and also the tile of LED. For now, the LED does not turn ON because the Z-axis is not stable at 0 which is set in the meshbot settings.

6. Now in the above picture, we can see that the value of the Z-axis is stable at 0 so the LED is turned ON because of our setting of meshbot.