Supports 10-bit color (over 1 billion colors) by utilizing extra pins for higher color accuracy, or high-speed dual-channel, 8-bit, (4K) panels. 2. 51 Pin LVDS Pinout Diagram (Typical Configuration)
Converting a salvaged laptop or TV screen into a standalone monitor using a universal controller board (like the V56 or V59). 51 pin lvds pinout datasheet
While you must always cross-reference the exact datasheet for your specific panel model, many modern Full HD panels follow a standardized configuration. Below is a common pinout layout for a dual-channel 8-bit/10-bit FI-RE51S interface: Pin Number Signal Name Description Panel Power Supply (+5V / +12V) 5 - 8 Ground Connection 9 Odd_O3N / JEIDA_Sel Odd Channel Data 3 Negative (or Bit Depth Selector) 10 Odd Channel Data 3 Positive 11 Odd Channel Clock Negative 12 Odd Channel Clock Positive 13 Odd Channel Data 2 Negative 14 Odd Channel Data 2 Positive 15 Odd Channel Data 1 Negative 16 Odd Channel Data 1 Positive 17 Odd Channel Data 0 Negative 18 Odd Channel Data 0 Positive 19 - 22 Ground Shielding 23 Even Channel Data 3 Negative 24 Even Channel Data 3 Positive 25 Even_CLKIN Even Channel Clock Negative 26 Even_CLKIP Even Channel Clock Positive 27 Even Channel Data 2 Negative 28 Even Channel Data 2 Positive 29 Even Channel Data 1 Negative 30 Even Channel Data 1 Positive 31 Even Channel Data 0 Negative 32 Even Channel Data 0 Positive 33 - 36 37 Odd Channel Data 4 Negative (For 10-bit panels) 38 Odd Channel Data 4 Positive (For 10-bit panels) 39 Even Channel Data 4 Negative (For 10-bit panels) 40 Even Channel Data 4 Positive (For 10-bit panels) 41 - 45 NC / Options No Connection or Vendor Specific Controls 46 - 51 BL_EN / PWM / VLED Backlight Enable, Dimming Control, and Backlight Power Critical Datasheet Variables to Watch For Supports 10-bit color (over 1 billion colors) by
: Primarily Ground (GND) and control signals like LVDS_SEL (VESA/JEIDA selection). Data Channels : While you must always cross-reference the exact datasheet
This article serves as the ultimate technical deep-dive. We will deconstruct the 51-pin LVDS pinout, explain the signal groups, differentiate between single-link and dual-link configurations, and tell you exactly how to read the datasheets you need.
In the world of embedded systems, industrial displays, and automotive infotainment, the term (Low-Voltage Differential Signaling) is ubiquitous. If you have ever worked with a high-resolution TFT LCD panel from manufacturers like Sharp, Mitsubishi, or NEC, you have likely encountered this specific connector.
The 51-pin LVDS interface is widely used in demanding visual applications, including: