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Kyocera KCG057QV1DC-G760 5.7" Industrial LCD Display Panel 320×240 Color
The KCG057QV1DC-G760 is a 5.7" industrial LCD display panel manufactured by Kyocera, featuring QVGA resolution (320x240) with CCFL backlight. With 300 cd/m² brightness and 40:1 contrast ratio, viewing angle 50/50/20/35, designed for industrial instrumentation, embedded systems, and reliable display applications.
| Brand | Kyocera |
| Model | KCG057QV1DC-G760 |
| Size | 5.7" |
| Resolution | 320×240 |
| Brightness | 300 cd/m² |
| Contrast Ratio | 40:1 |
| Viewing Angle | 50/50/20/35 |
| Display Type | Color |
| Backlight | CCFL |
| Interface | Parallel Data |
Industrial instrumentation and gauges
Embedded systems displays
Metering equipment
Point-of-sale terminals
Security alarm panels
Small appliance displays
FAQ:
Q1: What does the “DC” suffix indicate about this display’s video interface?
A1: The “DC” suffix indicates a Digital CMOS/TTL interface with a built-in timing controller (T-CON). Unlike the “AA” models (which take analog VGA signals) or the “DL” models (which take LVDS serial data), the “DC” panel accepts raw, parallel digital RGB signals (typically 6-bit or 8-bit per color) along with HSYNC, VSYNC, a Pixel Clock (DOTCLK), and Data Enable (DE). The integrated T-CON handles the gate driving of the TFT glass.
Q2: What is the significance of the “-G760” suffix regarding the backlight?
A2: The “-G760” indicates that this panel uses an LED backlight, but it belongs to an early/mid-generation LED design. Unlike modern panels where the LED driver is integrated into the panel’s main flex cable, early “-G7xx” Kyocera panels often still required a separate, external LED driver board to regulate the current. It is a step up in reliability from the old high-voltage CCFL inverters, but it is not the fully integrated “plug-and-play” LED design seen in the later “-G400” revisions.
Q3: How does this “DC” model differ from the “AC” model (KCG057QV1AC)?
A3: Both use a parallel digital TTL video interface, but the “DC” model has the built-in T-CON (Timing Controller) directly on the panel’s FPC, while the “AC” model relies on the host system to provide more of the raw timing signals. In practice, the “DC” model is often easier to drive from standard embedded SoCs because the T-CON handles the strict TFT gate line scanning, as long as you provide the standard digital video stream and clock.
