Payment & Shipping Terms:
|Touch Points:||10points||TP Structure:||Cover Glass+UV Glue+ITO Sensor Glass|
|Surface Hardness:||More Than 7H||Input Method:||Finger Or Capacitive Pen|
|Working Voltage:||USB(5V)||TP Type:||COB|
POS Terminal Projected Touch Screen, Strong Compatibility AR Touch Panel
|Outline of Cover Lens:||256.9*159.46±0.3mm|
|Outline of ITO Sensor:||242.58*143.31±0.3mm|
|Controller:||ILITEK, WEIDA, EETI, Silicon Works etc.(Customized)|
|Cover glass thickness:||1.1mm,1.8mm,2mm,3mm,4mm,5mm,6mm (Customized)|
|Cover glass treatments:||AG, AR, AF, AE (Customized)|
|Operating system:||Win7, Win8, Win10, WCE, Android, Linux, XP|
|Working temperature and humidity||-20°C~70°C,20~85% RH, non-condensing|
|Storage environment and humidity :||-30°C~80°C, 20~85% RH, non-condensing|
|ESD Air discharge:||8KV|
|ESD Contact discharge:||4KV|
|Pen hitting life:||≥10,000,000/point|
|Pen sliding Durability:||≥500,000 times|
|Finger Touch life:||≥35,000,000 times|
|Certifications:||CE, FCC, Rohs|
|Input method:||Finger or capacitive pen|
Samples in stock: 1~3 working days
Customized project: 10~15days for samples
Mass production: 10~18days
Q. Are you a factory or trading company?
A: We are a factory.
Q. Does your products have CE&Rohs certificates?
Q. What’s the shipping method?
A: By sea / air / express, which methods to be used on the basis of customer’s requirements.
Q. What’s the payment methods?
A: T/T, 30% deposit before production, the balance before shipment.
Q. What size of touch screen can you manufacture?
A: 3.5” to 65”, the bigger size are researching and developing.
1. Touch Screen All in one Computers
2. Touch Screen laptop
3. POS Machine
4. Industrial Control industry
5. Touch Monitor
6. Information Kiosks
7. Gaming, Lottery ect
8. Multimedia marketing
9. Banking / Fanancial System
Capacitive Touch Screen:
Capacitive touch screen are built with two parallel layers of ITO but, but unlike the old and cheap resistive touch panels, the ITO layers in a projected capacitive touch panel are sealed between two sheets of glass by an optically clear adhesive.
There is no air gap between layers like in a resistive touch panel.
The patterns on the two parallel ITO layers form a grid of capacitors.
The electric fields of these capacitors are projected through the top layer of glass.
When the user places a finger near the top surface of the touch panel, it couples with the electric fields.
This coupling changes the capacitance of several of the capacitors in the vicinity of the finger.
An algorithm converts these changes in capacitance into a location along the X and Y axes of the panel.