- 3.2" resistive TFT colour touch screen
- Integrated SD card reader and audio system
- Supported by Flowcode V5 graphics library
- Full graphics controller and language
- Produced in collaboration with 4D systems
|E-blocks 3.2" TFT LCD multimedia board with touchscreen||EB076-LCD32T|| £90.00 |
This 3.2"(8cm) multimedia module is a compact and cost effective all in one 'SMART' module that uses the latest state of the art TFT LCD technology with an embedded graphics controller to deliver full colour functionality to any project. To help you create highly functional systems the module is fitted with a resistive touch screen for user control, a micro SD card reader for mass storage of data, video, and sound, and a miniature speaker. Powerful graphics, text, image, animation and countless more features are built inside the module. It offers a simple yet effective serial interface to any host micro-controller that can communicate via a serial port. All screen related functions are sent using a simple protocol via the serial interface.
The unit is fully compatible with Flowcode 5 which interfaces directly to the module supplying access to a wide range of colour graphics routines.
- Integrated 4-Wire resistive Touch Panel.
- 240 x 320 QVGA resolution, RGB 65K true to life colours, TFT screen
- Powered by the 4D-Labs PICASO-SGC processor
- Asynchronous hardware serial port, TTL interface, with 300 baud to 256K baud.
- On-board micro-SD memory card adaptor for multimedia storage and data logging purposes. HC card support is also available for cards 4Gb and larger.
- DOS compatible file access (FAT16 format) as well as low level access to card memory.
- 4.0V to 5.5V range operation (single supply).
- On-board micro-SD memory card adaptor for multimedia storage and data logging purposes.
- FAT16 support for audio and data
- On-board audio amplifier with 8 Ohm speaker
- Built in extensive graphics and system library functions.
- Display full colour images, animations, icons and video clips.
- Supports Windows fonts and characters.
This project is a result of a collaboration between Matrix and 4D systems of Australia. For full documentation details see: www.4dsystems.com.au