1.3-inch IPS LCD colour display module, 240 x 240 resolution, 23.4 x 23.4 mm display area, plug-in board with ST7789 control chip for Arduino Raspberry Pi DIY projects
1.3-inch IPS LCD colour display module, 240 x 240 resolution, 23.4 x 23.4 mm display area, plug-in board with ST7789 control chip for Arduino Raspberry Pi DIY projects
1.3-Inch IPS LCD Colour Display Module with 240x240 Resolution for DIY Electronics
This compact 1.3-inch plug-in board is designed to add a vivid, full-colour visual interface to custom electronics projects. Featuring a high-definition IPS (In-Plane Switching) screen, it delivers more vibrant and accurate colours compared to conventional TFT LCD technology, making it ideal for prototypes, instrumentation, or interactive builds on platforms like Arduino and Raspberry Pi. Its small physical footprint and flexible interface options allow it to be integrated into space-constrained designs without sacrificing display quality.
Features and Construction
This display module combines a quality IPS panel with a capable driver circuit on a single plug-in board. Its construction is focused on providing a reliable and clear visual output for hobbyist and educational applications where colour fidelity and ease of use are important.
Material and Build
The core component is a high-definition IPS colour screen. This type of panel is known for offering wider viewing angles and better colour reproduction than standard TFT screens, which is supported by the source text noting its more vivid colour output. The display is driven by an ST7789 control chip, a common driver IC that manages the 240 x 240 pixel array and allows for the display's orientation to be adjusted via software, providing flexibility in how the module is mounted within a project.
Size and Practical Fit
The module is designed for compact integration. The actual viewable screen area is 23.4 mm by 23.4 mm, housed on a PCB that measures 27.78 mm by 39.22 mm. This square form factor and small size make it suitable for projects where panel space is limited, such as in handheld devices, compact control panels, or small robots. The board operates effectively across a temperature range of -20°C to 70°C, ensuring stable performance in various indoor environments.
Uses and Placement
With its plug-in design and dual interface support, this display module is versatile. It can serve as the user interface for a wide array of electronics projects, from simple sensor readouts to more complex interactive menus.
Event or Professional Use
For professional prototyping, maker fairs, or educational workshops, this module provides a cost-effective way to incorporate a colour display into a proof-of-concept or demonstration unit. Its support for both 8-bit parallel and SPI communication means it can be connected to a broad range of microcontrollers and single-board computers, speeding up development time for functional prototypes that require user feedback or data visualisation.
Everyday Home Use
For the home hobbyist, it's an excellent component for personal DIY projects. It could be used to build a custom weather station display, a retro gaming console screen, a smart home controller interface, or a status monitor for a 3D printer. The adjustable display orientation allows it to be fitted into custom enclosures whether mounted vertically or horizontally.
Benefits and Buying Value
Choosing this module offers practical advantages for anyone adding a display to an electronics project. Its specifications provide clear boundaries for its performance, and its design prioritises integration flexibility.
Reuse and Low Maintenance
As a solid-state component with no moving parts and a wide operating temperature range, the display module requires minimal maintenance once installed. It is a reusable component that can be desoldered and repurposed for different projects. Its durable PCB construction is intended for typical bench-top prototyping and embedded use.
Why Choose This Product
This product stands out for its use of an IPS screen at this compact size, offering better colour quality than basic TFT alternatives often found in similar modules. The inclusion of two standard interface options (8-bit parallel and SPI) on one board provides immediate flexibility, eliminating the need for additional interface converter boards. The clear documentation of its dimensions, resolution, and operating parameters allows for precise planning within a project's design constraints.
