LSC060I02-MP-V1: 6.0-Inch TFT LCD Module, Driver IC FocalTech FT8716U, 1080×2160 Resolution, MIPI Interface, High Brightness Display

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LSC060I02-MP-V1: 6.0-Inch TFT LCD Module, 1080×2160 Resolution, MIPI Interface, High Brightness Display

Product Subtitle / Keywords

6.0 Inch Display, 1080(RGB)×2160 Resolution, CG-Silicon TFT LCD Module, Transmissive, Normally Black, 16.7M Display Colors, COG+FPC+B/L+CTP Module Type, MIPI-DSI Interface (4 Data Lanes), Driver IC FocalTech FT8716U, Operating Temperature -20°C to +70°C, Supply Voltage VDDIO=1.8V (Typ), VSP=5.8V (Typ), VSN=-5.8V (Typ), Backlight ILED=20mA, Number of LED 21pcs (7pcs*3parallel), Contrast Ratio 1500 (Typ), Brightness 550 cd/m² (Typ), NTSC Ratio 95% (Typ), Response Time 30 ms (Typ), RoHS Compliant, Spec Rev 1.0, Lesson Smart Display Technology Co., Ltd.

1. Executive Summary & Product Positioning

The LSC060I02-MP-V1, developed by Lesson Smart Display Technology Co., Ltd. (立信(万安)智显科技有限公司), is a color transmissive, high contrast, wide viewing angle and active matrix LCD module incorporating CG-Silicon TFT (Continuous Grain-Silicon Thin Film Transistor) technology. The panel size is 6.0 inch and the resolution is 1080(RGB)*2160, the panel can display up to 16,777,216 colors. The module type is COG+FPC+B/L+CTP.

This product specification (Revision 1.0, SPEC No. LCP-1217025C) serves as the definitive technical document, defining the module's construction and outline, mechanical specifications (including dimension details with and without cover glass), pixel configuration and scanning direction, absolute maximum ratings (electrical and environmental), electrical specifications (including power supply voltages, DC characteristics, MIPI DSI characteristics, and LED backlight details), interface signal pin assignments, optical characteristics (including contrast ratio, brightness, color gamut, response time, and uniformity), and reliability test conditions.

The document provides the core parameters necessary for system integration into standard 6.0-inch high-resolution portrait display applications. The unequivocal recommendation for engineers is to strictly adhere to the mechanical and electrical specifications described herein to ensure reliable performance and compatibility.

2. Detailed Product Overview & Architecture

  • Core Technology: Color transmissive, high contrast, wide viewing angle and active matrix LCD module incorporating CG-Silicon TFT (Continuous Grain-Silicon Thin Film Transistor) technology, driven by Driver IC (FocalTech FT8716U).
  • Display Resolution: Ultra-high-density portrait format: 1080(RGB) × 2160 pixel array.
  • Display Mode: New mode2, Transmissive, Normally Black base color.
  • Module Construction: LCD panel, Polarizer, Driver(COF), FPC with electric components, OCA, cover glass, 21-white LED lump, prism sheet, diffuser, light guide and reflector, plastic frame to fix them mechanically.
  • Interface Type: The module uses a high-speed MIPI DSI (Display Serial Interface) with 4 data lanes and a dedicated clock lane for pixel data and command/register configuration. The host possesses 1080 x RGB x 2160 with black dummy patterns for unnecessary areas (including 2 corners and center notch for camera module).
  • Power Architecture: The module requires multiple power supplies: VDDIO (1.65V to 1.95V, Typ 1.8V) for digital I/O, VSP (typ. 5.8V) for positive analog, and VSN (typ. -5.8V) for negative analog supply. It also requires a separate backlight LED supply.
  • Backlight: The backlight uses 21 pieces of edge-light type white LEDs configured as 7 series and 3 parallel (7pcs*3parallel) strings. The typical forward current is 20 mA per parallel string, with a typical forward voltage of 19.6V x 3 (=58.8V total?). The document indicates "Forward Voltage 19.6 x 3", which requires careful interpretation.
  • Touch Panel: The module includes a Capacitive Touch Panel (CTP) interface with dedicated pins for I2C communication (TP_SDA, TP_SCL), interrupt (TP_INT), and reset (TP_RST).
  • Driver IC: The module is driven by the FocalTech FT8716U IC.
  • Supplier: 立信(万安)智显科技有限公司 (Lesson Smart Display Technology Co., Ltd).

3. Exhaustive Technical Specifications

3.1 Mechanical & Physical Specifications

Item Specification Unit
Model LSC060I02-MP-V1 -
Display Size (Diagonal) 6.0 inch
Resolution 1080(RGB) × 2160 pixels
Display Type / Mode Transmissive CG-Silicon TFT-LCD, Active matrix TFT, New mode2, Normally Black -
Module Type COG+FPC+B/L+CTP -
Display Colors 16,777,216 (16.7M) colors
Main LCD Driver IC FocalTech FT8716U -
Interface MIPI DSI (4 Data Lanes) -
Viewing Direction Wide viewing angle (Detailed in optical characteristics) -
Active Area 68.04(W) × 136.08(V) mm
Dot Pitch 0.021(W) × 0.063(H) mm
LCM Outline Dimension (Typ w/o CG) 69.64(W) × 140.33(H) × 1.19(D) mm
LCM Outline Dimension (Typ w/ CG) 71.34(W) × 145.34(H) × 2.04(D) mm
Connection 40-pin Board to Board Connector. HIROSE LCD Side: BM20B(0.8)-40DP-0.4V(51); User Side: BM20B(0.8)-40DS-0.4V(51) -
Mass 37.7 g
Supplier 立信(万安)智显科技有限公司 (Lesson Smart Display Technology Co., Ltd) -

3.2 Interface & Electrical Specifications

3.2.1 Absolute Maximum Ratings

Item Symbol Rating Unit Remark
Power Supply voltage (Digital I/O) VDDIO~GND -0.3 to +5.5 V Note 1,2
Power Supply voltage (Analog Pos) VSP~GND -0.3 to +6.5 V Note 1,3
Power Supply voltage (Analog Neg) GND~VSN -0.3 to +6.5 V Note 1,3
LED input current ILED Max 25 mA Note 4

3.2.2 Recommended Operating Conditions (DC Characteristics)

Item Symbol Conditions Min Typ Max Unit
Input high voltage VIH VDDIO=1.65V~1.95V 0.7VDDIO - VDDIO V
Input low voltage VIL VDDIO=1.65V~1.95V 0 - 0.3VDDIO V
Current consumption (Video mode - Normal Mode) IVDDIO All white, Ta=25°C - 31.8 47.6 mA
Current consumption (Video mode - Normal Mode) IVSP All white, Ta=25°C - 11.3 16.9 mA

Test Conditions for Current Consumption:

  • Full screen all white pattern, Ta=25°C
  • VSP=5.8V, VSN=-5.8V, VDDIO=1.8V
  • MIPI-DSI Video Mode, 4 lane, Refresh rate=60Hz
  • CABC/CE OFF, Touch panel is monitor mode

3.2.3 LED Backlight Specification

Item Min Nominal Max Unit
Forward current - 20 - mA
Forward Voltage - 19.6 x 3 - V
Power consumption - (1176) - mW
Number of LED components - 21pcs LED(7pcs*3parallel) - -

3.2.4 Pin Description (40-pin Board-to-Board Connector, Key Pins)

The module uses a 40-pin Board-to-Board connector (HIROSE BM20B series). Key pins include:

Pin No. Symbol I/O Description
1, 2 GND - Ground level
3 D3N I MIPI data3 negative signal line
4 TP_INT I INT for touch panel
5 D3P I MIPI data3 positive signal line
8 TP_SDA I/O I2C SDA for touch panel
9 D0N I/O MIPI data0 negative signal line
10 TP_SCL I I2C SCL for touch panel
11 D0P I/O MIPI data0 positive signal line
12 TP_RST I Reset for touch panel
15 CLKN I MIPI clock negative signal line
16 VDDIO - Digital Power Supply (IOVCC=typ.1.8V)
17 CLKP I MIPI clock positive signal line
21 D1N I MIPI data1 negative signal line
22 LED-PWM O Backlight LED driver PWM
23 D1P I MIPI data1 positive signal line
24 TE O TE signal output from driver IC
26 RESET I Reset Pin
27 D2N I MIPI data2 negative signal line
29 D2P I MIPI data2 positive signal line
32 LED_A1 - LED Anode
34 LED_A2 - LED Anode
35 VSN - Analog Power Supply (VSN=typ.-5.8V)
36 LED_K1 - LED Cathode
37 VSP - Analog Power Supply (VSP=typ.5.8V)
38 LED_K2 - LED Cathode

3.3 Initial Sequence (From Section 7)

The specification provides a specific power-on and initialization sequence. The key steps are:

  1. RESET="L" (low)
  2. VDDIO=1.8V (Power on)
  3. Wait 5ms
  4. RESET="H" (high)
  5. Wait 5ms
  6. VSP=5.8V (Power on)
  7. Wait 5ms
  8. VSN=-5.8V (Power on)
  9. Wait 5ms
  10. RESET="L" (low)
  11. Wait 1ms
  12. RESET="H" (high)
  13. Wait 15ms
  14. Sleep Out (11h) - LP mode
  15. Wait 120ms
  16. TE On (35h, 00h) - LP mode
  17. Wait 10ms
  18. Image transfer - HS mode
  19. Display On (29h) - HS mode

3.4 Electro-Optical & Timing Characteristics

3.4.1 Optical Characteristics (All with Cover Glass)

(Ta=25°C, VDDIO=1.8V, VSP=5.8V, VSN=-5.8V, ILED=20mA)

Parameter Condition Min Typ Max Unit
Contrast Ratio θ=0° 1050 1500 - -
Brightness (Luminance) θ=0° 440 550 - cd/m²
NTSC Ratio θ=0° - 95 - %
Response Time (Tr+Td) θ=0° - 30 35 ms
White Chromaticity x θ=0° 0.270 0.300 0.330 -
White Chromaticity y θ=0° 0.290 0.320 0.350 -
Brightness Uniformity θ=0° 80 85 - %
Gamma Gray scale 112-143 2.0 2.2 2.4 -
Flicker θ=0° - - -25 dB

3.4.2 MIPI DSI Clock Timing (Burst Mode, Partial)

Key parameters for the MIPI DSI timing:

Parameter Symbol MIN MAX Unit
DSI-CLK+/- Double UI instantaneous 2xUINST 2 25 ns
Data to clock setup time tos 0.15 - UI
Data to clock hold time tDH 0.15 - UI
Time to drive LP-00 to prepare for HS transmission $T_{HS-PREPARE}$ 40ns + 4UI 85ns + 6UI ns
Time to drive flipped differential state after last payload data bit $T_{HS-TRAIL}$ max (8UI, 60ns+4UI) - ns

4. Application Guidelines & Critical Notes

Intended Use

  • High-resolution 6.0-inch smartphone, tablet, and portable display applications requiring ultra-high resolution (1080x2160) and wide color gamut.
  • Systems requiring a high-speed 4-lane MIPI DSI interface for high bandwidth video data.
  • Applications requiring a built-in capacitive touch panel (CTP) with an independent I2C interface.

Critical Design Considerations

  1. Triple Power Supplies (VDDIO, VSP, VSN): The module requires three separate power rails: a digital I/O supply (VDDIO=1.8V typical) and bipolar analog supplies (VSP=+5.8V typical, VSN=-5.8V typical). Proper power sequencing per the Initial Sequence is critical. Note: VDDIO must be ≥ GND, VSP ≥ GND, and GND ≥ VSN.
  2. High-Speed 4-Lane MIPI DSI Interface: The module uses a 4-lane MIPI DSI interface (D0, D1, D2, D3) plus a dedicated clock lane (CLK). The host processor must support this configuration. PCB layout must ensure proper differential impedance (typically 100 ohms) and length matching for all high-speed differential pairs.
  3. Ultra-High Resolution (1080x2160): The 2K resolution demands significant processing power and memory bandwidth from the host system.
  4. Backlight Power Supply: The backlight consists of 21 LEDs (7 series, 3 parallel). The typical forward current is 20 mA, and the total forward voltage is noted as "19.6 x 3" (likely meaning the 3 parallel strings each have a forward voltage of 19.6V). A constant-current LED driver capable of ~58.8V is required, with current controlled per the 20mA specification.
  5. Reset Sequence: The module includes a dedicated Reset pin (RESET). The specification provides a precise initialization sequence that must be followed: a 5ms wait after VDDIO is set, followed by another reset pulse (1ms low, 15ms high), then a 120ms wait after "Sleep Out" command.
  6. Wide Color Gamut (NTSC 95%): The module achieves an exceptional NTSC ratio of 95% (typical), providing vibrant and saturated colors.
  7. High Brightness (550 cd/m²): The typical brightness is 550 cd/m², making it suitable for outdoor use and high-ambient-light environments.
  8. Temperature Range (-20°C to +70°C Operating): A robust consumer/industrial temperature range with extended storage capability. Note the humidity conditions: Ta ≤ 40°C: 95% RH Max; Ta > 40°C: absolute humidity shall be less than Ta=40°C/95% RH.
  9. Handling Precautions: The document provides specific handling instructions: Do not touch the COF's patterning area. Do not touch LSI chips. Place a protective cover on the LCD module. Do not operate or store under direct sunlight. Keep in a dark place (tray). The LCD panel is susceptible to mechanical stress (twisting, bending, pushing).
  10. Black Dummy Pattern: The host must possess 1080xRGBx2160 with black dummy patterns for unnecessary areas (2 corners and center notch for camera module).

Handling & Compliance

  • Observe standard ESD precautions during handling and assembly.
  • The module contains fragile glass – handle with care. Avoid mechanical stress on the active area or FPC.
  • Be sure to prevent light striking the chip surface.
  • Do not attempt to disassemble or modify the LCD module.
  • The module is RoHS compliant.

5. Conclusion & Design-In Support

The LSC060I02-MP-V1 specification details a highly advanced 6.0-inch (1080×2160) CG-Silicon TFT LCD module with a transmissive display, a high-speed 4-lane MIPI DSI interface, a built-in capacitive touch panel, and exceptional optical performance (NTSC 95%, 550 cd/m² brightness, 1500:1 contrast) — a premium choice for high-end embedded display applications.

Key Strengths

  • Ultra-High Resolution (1080x2160) - 2K Portrait: Provides exceptional pixel density for sharp text and detailed graphics.
  • CG-Silicon TFT Technology: Higher electron mobility than a-Si, enabling high-resolution, high-frame-rate displays.
  • Wide Color Gamut (NTSC 95%): Exceptional color reproduction for vibrant display.
  • High Brightness (550 cd/m²) & Contrast (1500:1): Excellent readability in various lighting conditions.
  • Integrated Capacitive Touch Panel (CTP): Provides a complete touch display solution.
  • Detailed Technical Documentation: Comprehensive specs with explicit initialization sequence facilitate rapid and reliable integration.

Main Design Focus

  • The critical design tasks are implementing the triple-rail power supply (VDDIO=1.8V, VSP=+5.8V, VSN=-5.8V) with the correct initialization sequence, interfacing the host processor's 4-lane MIPI DSI controller with correct differential signal routing (100-ohm impedance, length matching), providing a constant-current LED backlight driver for the 21-LED configuration (20mA at ~58.8V), and implementing the proper reset and initialization sequence as specified in Section 7.
  • Supporting requirements: Connect all ground pins (GND). Ensure the RESET pin is driven low and high per the initialization sequence. Follow the specific power-on/initialization timing (5ms waits, 120ms wait after Sleep Out).

This module is a premium choice for engineers designing high-end embedded systems that require a large, ultra-high-resolution display with a wide color gamut, high brightness, touch capability, and a high-speed MIPI interface.