RFCicret Bracelet: Components, Functionality, and Basics Explained
Advertisement
This article explains the basics of the Cicret Bracelet, including its components and how it functions.
The Cicret Bracelet is a wearable device that allows you to do everything you can do on a tablet or smartphone, but directly on your skin. Instead of interacting with a physical device, the bracelet projects the interface onto your forearm.
The device is developed and distributed by the company Cicret, hence the name. The actual smartphone or tablet that the bracelet connects to can be kept anywhere within Bluetooth or Wi-Fi range.
With the Cicret Bracelet, you can:
- Check and reply to emails while taking a bath.
- Read the news while waiting at railway stations.
- Navigate maps while driving or riding.
- Play games.
- Check the temperature or weather.
- Stay connected on social media.
- Receive calls while away from your smartphone.
The bracelet is available in two sizes with memory options of 16GB and 32GB. It also comes in 10 different colors.
The pricing of the Cicret Bracelet is around $250.
How cicret bracelet works
How the Cicret Bracelet Works
Let’s delve into the workings of the Cicret Bracelet:
- The bracelet uses a pico projector to project the smartphone interface directly onto your arm.
- When you place your finger on the projected interface, you block one of the eight long-range proximity sensors.
- These sensors then send the information back to the processor within the Cicret Bracelet.
- The bracelet uses wireless technologies like Bluetooth Low Energy or Wi-Fi to communicate with your actual smartphone or tablet.
Cicret Bracelet sensors
Cicret Bracelet Components
Cicret Bracelet Components
The following table details the Cicret Bracelet’s components and their functions:
| Component | Functional Description |
|---|---|
| Accelerometer | Detects motion and orientation of the bracelet. |
| Proximity Sensor | Detects when a finger is interacting with the projected interface. |
| Pico Projector | Projects the smartphone or tablet interface onto the user’s arm. |
| Bluetooth Low Energy | Enables wireless communication with the smartphone/tablet. |
| Wi-Fi component | Provides an alternative wireless communication method. |
| Processor | Processes user input and controls the bracelet’s functions. |
| Memory card | Stores data that is also available on the connected smartphone/tablet. |
| Vibrator | Provides haptic feedback and alerts to the user. |
| Micro USB port | Used to charge the battery. |
| LED | Senses user actions and directs them to the proximity sensors. |
| Battery | Powers the device. |
| Snap Button | Used to power the device on or off. |
