High Brightness/Transflective Sunlight Readable LCD 650 Nits 10.4" Full IP65/NEMA 4 Chassis LCD (Model: WCHH1040P3-IP)

High Brightness/Transflective Sunlight Readable LCD 650 Nits 10.4" Full IP65/NEMA 4 Chassis LCD (Model: WCHH1040P3-IP)

High Brightness/Transflective Sunlight Readable LCD 650 Nits 10.4" Full IP65/NEMA 4 Chassis LCD (Model: WCHH1040P3-IP)

WCHH1040P3-IP
  • Overview
The Full IP65-rated displays are ideal for use in harsh, designed to be tough, rugged, wet and dusty environments, such as outdoor kiosks or spa pool kiosks.This full IP65 touch monitor provides full IP65 protection including connectors, cables and Touch option. It brings more interaction to your outdoor application.

Features
Enclosure: Completely sealed, IP65 (NEMA4) grade.
Material: stainless steel (EN:1.4301/ AISI:304/ JIS: SUS304) brushed
Widely used in chemical industry, food industry, medical devices, appliances etc. with good corrosion resistance


Specification
Model Name WCHH1040P3-IP
Screen Size 10.4"
Active Display Area (mm) 211.2 (H) x 158.4 (V)
Pixel Pitch (mm) 0.33 (H) x 0.33 (V)
Display Resolution (pixel) 640x480
Contrast Ratio 500:1 (typ.)
Display Color 262,144 (6bits/color)
Brightness (CD/m^2) 380 (typ.)
Viewing Angles (CR >=10) -65~65 (H); -65~45 (V)
Synchronization Range_Horizontal / Vertical 31.5~37.5KHz / 60~75Hz
Recommended Resolution 640x480@60Hz, 75Hz
Signal Connector D-Sub 15pin
I/O 3 pin Power cable(IP65 connector); 10 pin VGA cable (IP65 connector); Optional 10 pin RS232 or USB cable(IP65 connector);
Power Source DC12V in
Power Consumption 20 W typical, normal operation
Power Management VESA DPMS Compliant
Plug & Play VESA DDC 1/2B
Optional Touch Screen Resistive
System Operatiing Temp 0(°C);+50(°C)

Outdoor Readability
Ambient light(nit) Brightness measure angle 10,000 30,000 80,000
Brightness gain (BL0n)(nit) 35° 475 650 1,000
Reflectance(net)(%)   0.93% 0.88% 0.89%

*Due to Panel material's deviation, different panel supplier will set different specific variance range to optical characteristics. The factors of time used, Lamp current, Ambient temperature will influence the optical measurements.