8x1 lcd display pricelist

STN Yellow Green background with Y/G Edge-lit backlight, bottom (or 6:00) viewing angle, Transflective polarizer, 5V LCD, 5V LED, RoHS Compliant. This 8x1 has a wide temperature range: -20°Celcius to +70°Celcius which equates to (-4° Fahrenheit to +158° Fahrenheit).

STN (Super-twisted Nematic) provides a sharper image and wider viewing angle than TN (Twisted Nematic). The cost for STN if approximately 5% higher than TN. STN is an ideal fluid for outdoor products that need to be read at various angles. The Transflective polarizer is a mixture of Reflective and Transmissive. It provides the ability to read the LCD with or without the backlight on. It will work for all lighting conditions from dark with backlight to direct sunlight which makes it the most common choice. There is no cost difference between Transflective, Transmissive and Reflective.

Focus LCDs can provide many accessories to go with your display. If you would like to source a connector, cable, test jig or other accessory preassembled to your LCD (or just included in the package), our team will make sure you get the items you need.Get in touch with a team member today to accessorize your display!

Focus Display Solutions (aka: Focus LCDs) offers the original purchaser who has purchased a product from the FocusLCDs.com a limited warranty that the product (including accessories in the product"s package) will be free from defects in material or workmanship.

- Matrox TripleHead2Go DisplayPort Edition; w/ 3 DP-out ports; up to 3 external displays; 5760x1080 (3x 1920x1080) or 3840x1200 (2x 1920x1200) [$274]

- Package Contains: 16x2 Blue LCD, I2c Module (without Soldering) For Arduino UNO R3, Mega 2560, Nano Operate with 5v dc, you can connect directly to arduino board

The principle of operation of a monochrome liquid-crystal display (LCD) manufactured using the STN technology is based on a change in the polarisation of light caused by a change in the orientation of liquid crystal molecules under the influence of an electric field between the electrodes.

An STN LCD does not emit light like an LED display does, but transmits the light emitted by the backlight (transmissive displays) or reflects the light that reaches the display surface (reflective displays). In an LCD, the light is initially vertically polarised using a polarising filter. It then passes through a transparent electrode and a layer of liquid crystal. The electrode is shaped in a special way, so that when the voltage is switched off, the polarisation of the light is rotated by 90°. When voltage is applied, the electric field forces the molecules in the liquid crystal layer to rearrange in such a way that it does not rotate the polarisation of light. In this way, light is not transmitted through an analyser, which, depending on whether it is a positive or negative display, produces a black or transparent effect.

The basic division of liquid-crystal displays derives from the type of information displayed. Depending on the number of liquid-crystal elements (pixels) and their arrangement, an LCD may display digits, alphanumeric characters or graphic symbols. Positive LCDs display dark characters against a light background, while negative LCDs display characters in the colour of the backlight against a dark background.

An LCD may feature a built-in controller and communicate with the environment via a digital interface. It may also include a built-in command interpreter and be controlled using special commands sent by a master system. These are usually graphic displays and alphanumeric displays. The simplest models of digital displays have no built-in controller and must be controlled by an external circuit.

When choosing a liquid-crystal display for your application, you should first pay attention to the type of displayed information and environmental conditions in which the LCD device will be used. The ambient temperature range and ambient lighting are particularly important, as some LCD models are not suitable for use in low or elevated temperatures. Considering the performance of today"s microcontrollers and their associated peripheral modules, the type of interface and control method is less important. Other issues you need to consider are the type of connector, LCD mounting method, type of user interface (if you plan to use a touchscreen interface) and power supply parameters.