Specifications:
| Transmittance |
>85% |
| Pixels H×V |
1920 x 3(RGB) x 1080 |
| Support Color |
16.7M Colors ( RGB 8-bits ) |
| Contrast Ratio |
800 Typ. |
| Viewing Angle |
89 Typ. |
| Display Surface Treatment |
Anti-glare |
| Touch Linearity |
±2mm |
| Touch Response Time |
≤25ms |
| Touch Report Rate |
≥100Hz |
| Controller Supply Voltage |
USB 5V Typ. |
| Controller Interface |
USB Typ. |
| Support Touch Points |
10 points Typ. |
1.It adopts industrial-grade wide-temperature LCD supporting
-30℃ to +80℃. The liquid crystal formula, polarizers and driver IC are fully optimized for the full temperature range, ensuring no black screen in low temperature, no screen distortion in high temperature and controllable image afterimage.
2.The backlight LEDs, light guide plate, diffusion films and brightness enhancement films all adopt wide-temperature weather-resistant materials. The brightness will not drop sharply at -20℃, and there is no light attenuation or yellowing at 60~75℃.
3.Equipped with low-temperature start-up drive circuit, the backlight lights up normally in extremely cold environments without delayed black screen.
4.Upgraded with industrial-grade driver board, it optimizes driving voltage and scanning timing for wide temperature ranges. Enhanced signal filtering at high temperatures suppresses interference and screen distortion. Increased driving gain at low temperatures improves dim display and frame stuttering.
5.Enable dynamic pixel refresh and local image retention elimination algorithms. They reduce afterimages caused by liquid crystal molecule retention when displaying static images for a long time under high temperatures.
6.Adopt G+G full lamination to eliminate air gaps between layers and reduce deformation stress from temperature differences. A thorough constant-temperature aging process is applied after lamination to release internal manufacturing stress.
7.Highly elastic and temperature-resistant buffer pads are installed between the screen and housing, with uniform gaps reserved around. This allows free expansion and contraction with temperature changes, preventing screen deformation and damage caused by squeezing.
8.The device features IP65 sealing and is fitted with waterproof and breathable membranes to balance internal and external temperature and pressure. This prevents condensation from temperature differences, which would otherwise corrode circuits and worsen deformation.
How to solve the problem of unresponsive touch when wearing gloves?1.Equipped with industrial touch IC supporting thick glove recognition, it increases signal transmitting power and receiving sensitivity. It can reliably detect 3~8mm thick work gloves, cut-resistant gloves and heavy rubber gloves without firm pressing.
2.It adopts densely arranged sensing electrodes, large-plate sensing and differential sampling architecture to expand electric field coverage. This compensates for capacitive signal attenuation caused by gloves, delivering uniform touch recognition across the entire screen, including normal response at edge areas.
3.The optimized front-end sampling circuit reduces signal loss. Combined with low-noise filter circuits, it prevents recognition failures caused by workshop electromagnetic interference and weak signals from gloved operation.
4.Raised signal sampling gain, extended integration time and lowered trigger threshold to adapt to capacitive isolation of thick gloves. It also distinguishes between bare-hand and gloved operation modes without mutual interference.
5.It is optimized for the force characteristics of gloved operation with an expanded pressure detection range, eliminating unresponsiveness to light touches. It also filters clutter signals from glove sliding and friction to effectively reduce false touches.
6.Three adjustable modes for thin gloves, thick gloves and bare hands are available. You can switch with one click according to on-site glove types to adapt to various working conditions.
7.Where structure permits, thin tempered glass cover is adopted to shorten sensing distance and reduce electric field penetration loss. High-hardness material is prioritized to ensure excellent wear resistance.
FAQ1.Q: Can this touch screen work normally when wearing industrial gloves?A: Yes. It uses dedicated industrial touch IC and optimized algorithms, supporting stable operation with 3~8mm thick work gloves.
2.Q: Will the screen edges be unresponsive when using gloves?A: No. Dense electrodes and large-plate sensing ensure uniform touch performance across the whole screen including edges.
3.Q: Does workshop electromagnetic interference affect gloved touch recognition?A: Equipped with low-noise filter circuits, it effectively resists electromagnetic interference and avoids recognition failure.
4.Q: Are there different settings for various gloves?A: Three modes (thin gloves, thick gloves, bare hands) are available for one-click switching to fit different working scenarios.
5.Q: Does the glass cover affect glove touch sensitivity?A: Thin high-hardness tempered glass is used to shorten sensing distance, balancing sensitivity and wear resistance.
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