LCD Games Java Touch Screen , Water Resistant Capacitive Touch Screen Panel
Contact Person : Ms Corrine
Phone Number : +86 18175635789
WhatsApp : +8618175635789
|Minimum Order Quantity :||negotiation||Price :||negotiation|
|Packaging Details :||Standard Packing With Carton||Delivery Time :||5-8 Work Day|
|Payment Terms :||T/T, Western Union, Paypal||Supply Ability :||50000/PCS/Month|
|Place of Origin:||China||Brand Name:||antouch|
|Certification:||ROHS SGS ISO9001||Model Number:||AC-C173001|
|Name:||17.3 Touch Screen Display||Screen Diagonal:||17.3|
|Operating System:||XP Win7 8 Android Linux||Powered:||USB Powered Touch Screen|
integrated touch screen,
ten point touch screen
Flexible 17.3 Touch Screen Display / Transparent USB Powered Touch Screen
17.3 Touch Screen Display Features:
Strong compatibility, support WindowsXP / 7/8 / 8.1 / 10 / CE, Mac, Android / Linux and other operating systems.
Anti-interference ability, without the interference of light and radiation, surface water / oil / dust can touch any place accurate and correct.
Free drive, plug and play.
Intelligent automatic calibration, simple and easy to adapt to internal / external use a variety of environments.
Wear resistance, long life, low maintenance costs.
17.3 Touch Screen Display Application:
►Gaming, lottery, and amusement.
►Public pay phones.
►Industrial control rooms.
17.3 Touch Screen Display details
|Structures||Cover Glass+ITO Glass|
|IC Controller||ILITEK 2510/WD8752|
|Operating System||XP win7,8 Android Linux|
17.3 Touch Screen Display Details
Structure & Operating Principle:
Capacitive touch screen is a piece of 2 layer of compound glass with double side transparent conductive coating that conducts a continuous electrical current across the sensor.
There is electrode pattern printed along the edges distributes a low voltage filed over the conductive layer.
The human body is also an electrical device which has stored electrons and therefore also exhibits capacitance.
When a finger touches the screen and draws a minute amount of current to the point of contact ,creating a voltage drop.
The current flow from each corner is proportional to the distance to the touch point. During a touch ,capacitance forms between the finger and the sensor grid. The touch location is calculated from the changing electrical characteristics of the sensor grid.