Teyleten Robot 1.28 Inch TFT LCD Display Module – Product Description
Welcome to the world of Teyleten Robot! We are excited to present the Teyleten Robot 1.28 Inch TFT LCD Display Module. This cutting-edge display module is designed to enhance your Arduino projects with its round RGB 240×240 screen and GC9A01 driver. With a 4-wire SPI interface, this module offers seamless integration and exceptional performance. Let’s dive into the features and benefits of this incredible product.
- 1.28 inch round TFT LCD display
- High-resolution RGB 240×240 screen
- GC9A01 driver for superior image quality
- 4-wire SPI interface for easy integration
- Compatible with Arduino and other microcontrollers
Enhance Your Projects
With the Teyleten Robot 1.28 Inch TFT LCD Display Module, you can take your Arduino projects to the next level. The high-resolution RGB screen ensures vibrant and sharp visuals, making your creations come to life. Whether you are building a smart home device, a wearable gadget, or a gaming console, this display module will add a touch of sophistication and functionality.
The 4-wire SPI interface of the Teyleten Robot 1.28 Inch TFT LCD Display Module simplifies the integration process. Connect it to your Arduino or any other microcontroller effortlessly and start displaying your data in no time. The module comes with a PCB that provides stability and durability, ensuring a long-lasting performance.
Frequently Asked Questions
1. Is this display module compatible with Raspberry Pi?
No, the Teyleten Robot 1.28 Inch TFT LCD Display Module is designed specifically for Arduino and other microcontrollers. It is not compatible with Raspberry Pi.
2. Can I use this module for touch-sensitive applications?
No, this display module does not support touch functionality. It is a non-touch display designed for visual output only.
3. What is the power supply requirement for this module?
The Teyleten Robot 1.28 Inch TFT LCD Display Module requires a power supply of 3.3V. Make sure to provide the appropriate voltage to ensure optimal performance.