Higgstec T104G-XDNA66G-3S02R0-055PN Touch Screen Panel
Higgstec T104G-XDNA66G-3S02R0-055PN Touch Screen Panel
Higgstec T104G-XDNA66G-3S02R0-055PN Touch Screen Panel
Higgstec T104G-XDNA66G-3S02R0-055PN Touch Screen Panel
Higgstec T104G-XDNA66G-3S02R0-055PN Touch Screen Panel
Model
T057S-5RB006N-0A11R1-080PN

Item specifics

Warranty
365 Days
Shipping
DHL/FedEx/UPS/TNT/EMS/Aramex /DPEX
Touch points
Single-touch
Place of Origin
China
HMI touch glass
touch digitizer glass
HMI panel glass
touch screen monitor
Name
T104G-XDNA66G-3S02R0-055PN Touch Screen Panel

Review

Description

Higgstec T104G-XDNA66G-3S02R0-055PNImageN Touch Screen Panel

 

T104G-XDNA66G-3S02R0-055PN Touchscreen
T104G-XDNA66G-3S02R0-055PN touch assemble
T104G-XDNA66G-3S02R0-055PN touch front
T104G-XDNA66G-3S02R0-055PN touch interface
T104G-XDNA66G-3S02R0-055PN touch cover


5-Wire Resistive Touch Solution

Extremely stable, reliable and immune to electromagnetic interference, resistive touch technology remains popular today for critical applications such as for medical, aerospace and military use. Higgstec specializes in production of 5-Wire Resistive technology because of its superior endurance and reliability. 5-wire resistive screens don't require repeated calibration and can continue to function even when the surface has been scratched or damaged, because both the X and Y axis are detected on the lower (glass) layer, while the upper (film) layer is used as loop conduction only

Higgstec also uses a special high temperature production process for its resistive screens to fuse the silver sensor circuit onto the glass, preventing it from peeling off during extreme temperature or humidity variations, ensuring greater longevity and durability in harsh operating environments

A front cover shield (glass, fiberglass, PMMA or other material) can also be added to the front of the resistive panel for anti-abrasion and chemical resistance protection.

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FAQ:

Question: Inspection Methods:

Answer:
Linearity Condition
Step 1: short RT and RL(or short RL and LL).
Step 2: apply voltage DC 5V.
Step 3: short LT and LL (or short RT and LT).
Step 4: apply grounding.
Step 5: draw points along LX and LY at 5.0mm intervals within
pattern area and detect the voltage at SG.
Step 6: measure the voltage differences between RT and LT
(or RT and RL) (Fig 10-1) (Fig 10-2)

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