Press Release Summary:
LCD Displays with white, gray, or blue LED backlighting provide high contrast viewing and are available in both character and graphic types. Character types come in STN configuration and various sizes. Graphic models come in various sizes in both STN and FSTN configurations. Displays are suitable for portable devices, office equipment, and instrumentation.
Original Press Release:
White LED Backlit Liquid Crystal Displays Provide High-Contrast Viewing
Ideal for Portable Devices, Office Equipment, Instrumentation and More
IRVINE, CA May 3, 2002 Designed with crisp white LED backlighting that provides high-contrast viewing, EDT's newest LCDs are the clear choice in displays where high intensity lighting is important.
EDT's white LED backlit LCD products offer users advanced viewing characteristics in practically any type of ambient lighting environment and improve end-product appeal, ergonomics and value. White LED backlighting offers designers a number of advantages over traditional CCFL backlighting such as reduced size and weight while improving reliability.
White LED backlit LCDs are ideal in portable devices, office equipment, instrumentation, medical devices and more. Their high-
quality white, gray or blue LED backlighting is featured in both character and graphic type displays. The character types come in the STN configuration and various sizes. The graphic types are available in various sizes in both STN and FSTN configurations.
White backlit LCDs from EDT are available off the shelf or with up to four weeks lead-time depending on model and configuration. They are economically priced beginning at $4.50 in small sample quantities. Volume pricing discounts are available upon request.
EDTC is a global supplier of advanced LCDs and displays with manufacturing and sales offices located strategically around the world. The company offers the complete range of industry standard and custom graphics and character modules. Certified for quality to ISO9001 and IS09002, EDTC also is QS9000 qualified for automotive applications.
Mary Kent, RBMC