51 Pin Lvds Pinout Datasheet [better]

A 51-pin LVDS (Low-Voltage Differential Signaling) connector is primarily used in Full HD (1080p) LED and LCD TV panels, particularly those from manufacturers like Samsung and LG. Unlike standard 30-pin connectors, the 51-pin interface supports dual-channel 10-bit data transmission, allowing it to handle higher resolutions and a larger color gamut (up to 1.07 billion colors). Typical 51-Pin LVDS Pinout Layout

While pinouts can vary slightly by manufacturer, most 51-pin connectors follow a standardized grouping of signals. Below is the general configuration found in common Full HD panels:

Pins 1–4: VCC (Power Supply) – Typically +12V for large TV panels.

Pins 5–10: GND (Ground) – Multiple ground pins for signal stability and shielding.

Pins 11–20: Channel A (Even/Odd Data) – LVDS differential pairs (e.g., RXO0-, RXO0+ through RXO3- and CLK).

Pins 21–30: Channel B (Even/Odd Data) – Secondary data pairs used for dual-channel transmission to achieve 1080p resolution.

Pins 31–51: Control & Optional Signals – Includes SDA/SCL for I2C communication, VESA/JEIDA mode selection, and additional ground/shielding pins. Key Technical Specifications LVDS Pinout Diagrams and Specifications | PDF - Scribd

A 51-pin LVDS (Low-Voltage Differential Signaling) interface is a high-speed data standard typically used to connect a television mainboard or computer to a high-resolution LCD panel (like Full HD or 4K). Because "51-pin" refers to the physical connector—often a JAE FI-RE51S-HF or equivalent—the exact pinout can vary between manufacturers like LG and Samsung. Core Technical Specifications

Data Channels: Most 51-pin configurations support Dual-Channel 8-bit or 10-bit data transmission.

Signal Format: Supports both VESA and JEIDA mapping standards.

Physical Interface: Common connectors include the Hirose DF9C-51S-1V or JAE FI-RE series with a 0.5mm pitch. General 51-Pin LVDS Pinout Layout

While you should always verify with your specific panel's datasheet (e.g., Scribd's LVDS Pinout Collection), a standard 51-pin dual-channel configuration often follows this logic: Data Sheet LVDS Converter

The 51-pin LVDS (Low Voltage Differential Signaling) interface is a high-performance standard primarily used in large-format displays, such as Full HD (1080p) and 4K LED/LCD TVs. This pinout configuration supports dual-channel 8-bit or 10-bit data transmission, providing the bandwidth necessary for high-resolution imaging and fast refresh rates. Common 51-Pin LVDS Pinout Configurations

While specific pinouts can vary by manufacturer (e.g., Samsung vs. LG), most 51-pin interfaces follow a similar logic for power, ground, and differential signal pairs. Pin Number Signal Type Description 1 – 4 (or 48 – 51) VCC / Power Power supply (typically 12V for large panels) GND Ground Distributed throughout to reduce EMI Even Channels LVDS Signals

Differential pairs for even-numbered pixels (E0-, E0+, etc.) Odd Channels LVDS Signals Differential pairs for odd-numbered pixels (O0-, O0+, etc.) Clock Pairs Timing Clock signals for synchronization (OC/EC pairs) 51 pin lvds pinout datasheet

Samsung/CMO Standard: Often uses Pins 1–4 for power supply.

LG/AUO Standard: Frequently utilizes Pins 48–51 for power supply. Key Hardware Specifications Specification of Cortex Board

The 51-pin LVDS (Low-Voltage Differential Signaling) interface is a standard high-speed data transmission connector used primarily in 4K UHD and high-end Full HD LCD/LED television panels. Unlike the simpler 30-pin connectors found in HD displays, the 51-pin configuration supports higher bandwidth for increased resolutions and refresh rates. Common 51-Pin LVDS Pinout Structure

While specific manufacturers like Samsung or LG may have slight variations, a typical 51-pin datasheet for a 4K panel generally follows this functional grouping: DS90LV047A 3-V LVDS Quad CMOS Differential Line Driver

interfaces often mistaken for LVDS. Because pinouts for 51-pin connectors vary significantly by manufacturer (e.g., Samsung vs. LG), there is no single "universal" datasheet. AliExpress Common 51-Pin Interface Types FHD LVDS (2-Channel, 8-bit/10-bit):

Used for Full HD resolutions. Often features a power block (VCC) on pins 48–51 or 1–4 depending on the panel orientation. V-by-One HS:

Physically looks like a 51-pin LVDS connector but uses a different signal protocol for 4K UHD resolutions. These are electrically compatible without a converter. Samsung vs. LG Layouts:

Samsung and LG often use identical physical connectors but different signal mappings. Using the wrong cable can permanently damage the panel.

IJERT – International Journal of Engineering Research & Technology Representative Pinout Structures

While you must verify against your specific panel's datasheet (e.g., Samsung LTA460HN01

), general configurations for high-resolution panels often follow these clusters: Function Type Description Control/Ground Includes NC (No Connect), SDA/SCL (I2C), and Ground pins. LVDS Data Lanes Odd/Even channel pairs (e.g., RXO0± to RXE3±) and Clocks. Ground/Option Signal grounds and selection pins (e.g., JEIDA/VESA mode). Power (VCC)

Typically 12V for large panels; sometimes 5V for smaller displays. Technical Resources for Verification Conversion diagram of small board connection

According to the statistics, the LVDS and V-by-One signal formats currently occupy a large. proportion of TVs, and the LVDS and V- www.bulcomp-eng.com Vbyone To Lvds Conversion Using Kintex-7 FPGA

The 51-pin LVDS pinout is a high-speed digital interface standard typically found in Full HD (FHD) and 4K Ultra HD LCD/LED TV panels. This configuration commonly uses the JAE FI-RE51S-HF connector series, which features a 0.5mm pitch and is widely adopted by major manufacturers like Samsung and LG for internal video transmission. Common 51-Pin LVDS Pinout Layout (2-Channel 8-Bit) LVDS pinout standards : There are a few

While specific pinouts can vary by manufacturer (especially between LG and Samsung standards), a typical 2-channel 8-bit configuration for FHD panels often follows this general structure: Signal Group Description 1 - 5 VCC Power Supply (typically +12V for large TV panels) 6 - 8 GND Signal and Power Ground 9 - 18 Odd Channel (RXO) LVDS data pairs for odd pixels ( 19 - 21 GND Isolation Ground 22 - 33 Even Channel (RXE) LVDS data pairs for even pixels ( 34 - 40 NC / Control

Not Connected or Vendor Specific Control (e.g., Backlight PWM) 41 - 47 GND / NC Signal Ground or No Connection 48 - 51 VCC Power Supply Key Technical Specifications

The JAE FI-RE51S-HF datasheet provides the mechanical and electrical foundations for these connections: LVDS Pinout Diagrams and Specifications | PDF - Scribd

51-pin LVDS (Low Voltage Differential Signaling) connector is a high-density interface commonly used in large Full HD (FHD) and 4K LCD/LED television panels. Unlike the standard 30-pin cables found in laptops, the 51-pin configuration typically supports dual-channel 8-bit or 10-bit data transmission , allowing for higher resolutions and refresh rates. www.bulcomp-eng.com Common 51-Pin LVDS Pinout Layout

While pinouts can vary by manufacturer (e.g., LG vs. Samsung), many follow a generalized pattern for FHD 60Hz panels: Signal Name Description GND / NC / Config

Grounding and configuration pins (e.g., LVDS_SEL for VESA/JEIDA switching). RXE0-, RXE0+ Even Channel Data 0 (Differential Pair). RXE1-, RXE1+ Even Channel Data 1 (Differential Pair). RXE2-, RXE2+ Even Channel Data 2 (Differential Pair). RXEC-, RXEC+ Even Channel Clock. RXE3-, RXE3+ Even Channel Data 3 (Differential Pair). RXO0-, RXO0+ Odd Channel Data 0 (Differential Pair). RXO1-, RXO1+ Odd Channel Data 1 (Differential Pair). RXO2-, RXO2+ Odd Channel Data 2 (Differential Pair). RXOC-, RXOC+ Odd Channel Clock. RXO3-, RXO3+ Odd Channel Data 3 (Differential Pair). Main power supply for the LCD panel logic.

The 51-pin LVDS (Low-Voltage Differential Signaling) interface is a high-density connector standard commonly used for 4K UHD LCD and LED TV panels. Unlike standard 30-pin connectors used for Full HD, the 51-pin configuration supports higher data bandwidth, often utilizing dual-channel 8-bit or 10-bit signaling to handle the increased pixel clock required for high-resolution displays.  General Pinout Overview 

While specific pinouts can vary by manufacturer (such as Samsung, LG, or CSOT), most 51-pin interfaces follow a standardized V-by-One or dual-channel LVDS layout with a 0.5mm pitch.  Typical 51-Pin Dual-Channel 8-Bit Configuration 

The pins are generally grouped into power, ground, and differential signal pairs:  Pin Group  Typical Function Description Power (VCC) Pins 1–5 (approx.) Typically +12V or +5V depending on the panel. Ground (GND) Strategic grounding between signal pairs to reduce EMI. Odd Channel RXO0± to RXO3± First data channel for odd-numbered pixels. Odd Clock Differential clock signal for the odd channel. Even Channel RXE0± to RXE3± Second data channel for even-numbered pixels. Even Clock Differential clock signal for the even channel. Control/NC Selection Pins Used for JEIDA/VESA mode selection or factory debugging. Key Specifications 

Connector Type: Often compatible with I-PEX or FI-RE51 series connectors.

Channel Support: Standard for Dual 8-bit (4 pairs + 1 clock per channel) or Dual 10-bit (5 pairs + 1 clock per channel).

Application: Essential for 4K LCD TV screen interfaces and high-end monitor repairs.  Technical Resources 

Samsung LVDS 51-Pin Search: Use the Datasheet Archive for specific model schematics.

Universal Pinout Diagrams: Detailed PDFs for various panel types are available on Scribd. VESA (Video Electronics Standards Association) LVDS: This is

Connector Manuals: Specific socket connector details can be found at Manuals Plus. 

Caution: Always verify the specific panel model number before connecting, as incorrect power pin alignment can permanently damage the T-CON board or LCD panel.  LVDS CONNECTOR 51 PIN datasheets

You're looking for the pinout datasheet of a 51-pin LVDS (Low-Voltage Differential Signaling) connector. LVDS is a signaling standard used for high-speed data transmission, commonly found in display interfaces, such as LCD monitors, laptops, and automotive displays.

Unfortunately, there isn't a single, universally accepted 51-pin LVDS pinout standard. The pinout can vary depending on the specific application, display type, and manufacturer.

However, I can provide some general information and resources that might help you find the datasheet you're looking for:

1. LVDS pinout standards: There are a few LVDS pinout standards, such as:
   • VESA (Video Electronics Standards Association) LVDS: This is a widely used standard for display interfaces.
   • TIA/EIA (Telecommunications Industry Association/Engineering Industries Association) LVDS: This standard is commonly used in telecommunications and industrial applications.
2. Display manufacturers' datasheets: You can try searching for datasheets from display manufacturers, such as:
   • AU Optronics (AUO)
   • Innolux (formerly known as Chi Mei Optoelectronics)
   • LG Display
   • Samsung Display
   • Toshiba
3. Connector manufacturers' datasheets: You can also search for datasheets from connector manufacturers, such as:
   • TE Connectivity (Tyco)
   • Molex
   • Hirose
   • Foxconn
4. Online resources:
   • EDID (Extended Display Identification Data): You can search for EDID databases or tools that provide information on display pinouts, including LVDS.
   • Pinout.net: This website provides a comprehensive database of pinouts for various connectors, including LVDS.

To help you find the specific datasheet you're looking for, can you provide more information about your application or the display you're working with? For example:

• What is the display resolution and size?
• What is the device or system you're trying to connect to (e.g., laptop, automotive system, medical device)?
• Do you have any specific requirements or features you're looking for in the LVDS pinout (e.g., touch screen, LED backlight)?

I'll do my best to help you find the datasheet or guide you through the process of determining the pinout.

Unlike standard 20/30-pin LVDS, the 51-pin interface is a proprietary high-density connector typically manufactured by JAE (model FI-XB30SRL-HF or FI series). It is designed to carry dual-channel or even quad-channel LVDS signals, power, backlight control, and I²C for touchscreens in a single compact housing.

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PWM Brightness (Pin 50)

• Frequency: 100Hz to 30kHz (most common: 200Hz-1kHz).
• Duty cycle: 0% (off) to 100% (max).
• Logic level: 3.3V typical; some panels require open-drain.

5. Critical Non-LVDS Signals on the 51-Pin

Panel Enable (Pin 24)

• Active-high TTL (3.3V/5V tolerant). Must be asserted after VDD stable to prevent latch-up.
• Typical timing: VDD → wait 10ms → LVDS data → wait 20ms → Enable → Backlight on.

Step 2: Search for [Model Number] datasheet.

For example: "G150XG01 V3 datasheet"

Part 2: The Physical Connector (Mechanical Datasheet)

If you search for "51 pin lvds pinout datasheet," you will often find a mechanical drawing first.

• Type: 0.5mm pitch connector (most common) or 1.0mm pitch (older panels).
• Rows: Typically two rows—Row A (usually odd numbers or "1-51") and Row B. Many datasheets label pins A1-A25 and B1-B26 to reach 51.
• Mating type: Flat Flexible Cable (FFC) or Flat Printed Cable (FPC).
• Locking mechanism: Usually a flip-lock actuator or slide-lock on the socket.

Crucial warning: Always verify if the pin numbering is "1-to-51" straight across or "Zig-zag" (Top row left to right, then bottom row right to left). Check the connector's mechanical datasheet before designing a PCB.

Step 1: Locate the sticker on the back of the LCD.

Look for a string like: G150XG01 V3, NL10276BC20-18D, or AA121TH01.

2. Typical Pinout Table (Dual-Channel LVDS + Power + Control)

Below is a generalized 51-pin LVDS pinout based on common 1920×1080 or 1366×768 panels (e.g., AUO, BOE, LG, Innolux). Always consult your exact datasheet.

| Pin | Signal | Pin | Signal | |-----|--------|-----|--------| | 1 | GND | 26 | LVDS A0- | | 2 | GND | 27 | LVDS A0+ | | 3 | VDD (3.3V / 5V) | 28 | GND | | 4 | VDD | 29 | LVDS A1- | | 5 | VDD | 30 | LVDS A1+ | | 6 | VDD | 31 | GND | | 7 | VDD | 32 | LVDS A2- | | 8 | VDD | 33 | LVDS A2+ | | 9 | VDD | 34 | GND | | 10 | VDD | 35 | LVDS A3- (CLK) | | 11 | GND | 36 | LVDS A3+ (CLK) | | 12 | GND | 37 | GND | | 13 | NC / SEL (LVDS format) | 38 | LVDS B0- (if dual) | | 14 | GND | 39 | LVDS B0+ | | 15 | Backlight Enable | 40 | GND | | 16 | Backlight PWM Dimming | 41 | LVDS B1- | | 17 | GND | 42 | LVDS B1+ | | 18 | I²C Clock (DDC) | 43 | GND | | 19 | I²C Data | 44 | LVDS B2- | | 20 | GND | 45 | LVDS B2+ | | 21 | LVDS A0- (or A0+) | 46 | GND | | 22 | LVDS A0+ | 47 | LVDS B3- (CLK2) | | 23 | GND | 48 | LVDS B3+ | | 24 | LVDS A1- | 49 | GND | | 25 | LVDS A1+ | 50 | GND | | – | – | 51 | GND |

Note: Pins 21–36 often carry channel A (odd pixels), pins 38–48 channel B (even pixels) for dual-channel. Single-channel panels leave B side NC.

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1. Search by panel model (best method)

Look for a sticker on the back of the LCD. Example:
AA150XS01, G150XGE, NL10276BC13 → then search:

[Model Number] datasheet 51 pin lvds pinout