NLT Technologies, Ltd. is one of the world's leading providers of high-quality, innovative, active-matrix liquid crystal display (AM-LCDs) modules for the industrial and high-end monitor markets. The company focuses its development on four core technology areas: ultra-wide viewing angle SFT technology with high luminance, wide color gamut and fast response; NLT technology for high visibility in any kind of ambient light environment; VIT technology to add extra value to LCD modules; and adaptive design technology, which together meet a variety of specialized needs for the flat panel display markets.

As of October 1, 2015, Tianma NLT America, Inc. was acquired by Tianma Microelectronics (USA) Inc. Tianma NLT America, Inc. manufactures liquid crystal display (LCD) modules and products for industrial and professional applications. Tianma NLT America, Inc. was founded in 2013 and is headquartered in Santa Clara, California.

NLT Products


  • Super Fine TFT
  • Clear and bright displays in sunlight (T-EVT)
  • High-visibility in any ambient light (R-EVT)
  • Consistent high luminance and high reflectivity (R-EVT)
  • ColorXcell
  • High Density 3D Display HxDP
  • Application Shaped Display
  • PCAP Touch 

Inches Resol.BrightnessContrastFeatures
5.7QVGA800900Built-in LED driver circuit
5.7QVGA500900Built-in LED driver circuit
5.7VGA800900Built-in LED driver circuit, Vibration acceleration 6.8G
5.7VGA550900Built-in LED driver circuit, Vibration acceleration 6.8G
5.7VGA550900Built-in LED driver circuit
8.4SVGA400800Long life LED, Built-in LED driver circuit
10.4SVGA450900Long life LED, Built-in LED driver circuit
10.4SVGA450900Narrow frame, Long life LED, Built-in LED driver circuit
10.4XGA300700Super fine TFT, Compact model w/ narrow frame
12.1SVGA9001000Sunlight readable, Narrow frame, Long life LED
15.6WXGA1100900Sunlight readable, Long life LED
21.3QXGA8001400Super Fine TFT, Medical use w/ high image reproduction

21.31600×1200 (2M pixels) Mono 2port LVDS (RGB 8bits) 256/766 Grayscale1900
21.31600×1200 (2M pixels) Color 2port LVDS (RGB 8bits) 16.77 Mil.900
21.32048×1536 (3M pixels) Mono 4port LVDS (RGB 10bits) 1024/3072 Grayscale1700
21.32048×1536 (3M pixels) Color 4port LVDS (RGB 8bits) 16.77 Mil.800
21.32048×1536 (3M pixels) Color 4port LVDS (RGB 10bits) 1.07 Bil.800

InchesResol.InterfaceColors Brightness
5.7640×480CMOS 6bit262K 300
6.5640×480CMOS 6bit262K 1000
6.5640×480CMOS 6bit262K 600
6.5640×480LVDS 8/6bit16.77M/262K1000
6.5640×480LVDS 8/6bit16.77M/262K600
6.5640×480LVDS 8/6bit16.77M/262K800
6.5640×480LVDS 8/6bit16.77M/262K550
6.51024×768LVDS 8/6bit16.77M/262K650
6.51024×768LVDS 8/6bit16.77M/262K500
7.0 W800×480LVDS 6bit262K 1000
7.0 W800×480LVDS 6bit262K 500
7.0 W800×480LVDS 8/6bit16.77M/262K550
7.0 W800×480LVDS 8/6bit16.77M/262K400
8.0 W800×480LVDS 6bit262K 1000
8.4640×480LVDS 8/6bit16.77M/262K900
8.4640×480LVDS 8/6bit16.77M/262K500
8.4640×480CMOS 6bit262K 900
8.4640×480CMOS 6bit262K 500
8.4800×600LVDS 8/6bit16.77M/262K800
8.4800×600LVDS 8/6bit16.77M/262K400
8.41024×768LVDS 8/6bit16.77M/262K600
9.0 W800×480LVDS 8/6bit16.77M/262K450
9.0 W800×480LVDS 8/6bit16.77M/262K400
9.0 W1920×1080LVDS 8/6bit16.77M/262K400
10.4640×480LVDS 8/6bit16.77M/262K900
10.4640×480LVDS 8/6bit16.77M/262K450
10.4640×480CMOS 6bit262K 900
10.4640×480CMOS 6bit262K 450
10.4800×600LVDS 8/6bit16.77M/262K800
10.4800×600LVDS 8/6bit16.77M/262K400
10.41024×768LVDS 8/6bit16.77M/262K800
10.41024×768LVDS 8/6bit16.77M/262K400
10.41024×768LVDS 8/6bit16.77M/262K150
10.61280×768LVDS 8/6bit16.77M/262K300
12.1800×600CMOS 6bit262K 900
12.1800×600LVDS 8/6bit16.77M/262K450
12.11024×768LVDS 8/6bit16.77M/262K800(IL=50mA)1000(IL=70mA)
12.11024×768LVDS 8/6bit16.77M/262K450
12.11024×768LVDS 6bit262K 650
12.1 W1280×800LVDS 8/6bit16.77M/262K1800
12.1 W1280×800LVDS 8/6bit16.77M/262K450
151024×768LVDS 8/6bit16.77M/262K400
151024×768LVDS 8/6bit16.77M/262K600
151024×768LVDS 8bit16.77M 330(IL=50mA) 350(IL=55mA)
151024×768LVDS 8bit16.77M 500
15.3 W1280×768LVDS 8/6bit16.77M/262K470
15.6 W1366×768LVDS 8/6bit16.77M/262K1100
15.6 W1366×768LVDS 8/6bit16.77M/262K400
191280×1024LVDS 8bits16.77M800

NLT Recent News

Experiment for Practical Application of Hydrogen Gas Sensing

NLT Technologies and Akita Industrial Technology Center (AIT) are engaging in research and development of a hydrogen gas sensor utilizing the Magneto-optical (MO) cavity effect on perpendicular magnetic multilayers. In the recent study, we have demonstrated hydrogen gas sensing by magnetic multilayers, and studied the MO cavity effect on perpendicular magnetic multilayers for hydrogen gas sensing application.

When linearly polarized light is input to a magnetic material, the reflected light is elliptically polarized and rotation of the incident light (a Kerr rotation angle) occurs. In this study, we used the [hydrogen reaction/MO interference/reflection metal] multilayers, and attempted to detect the change in the optical properties caused by hydrogenation of the hydrogen reaction layer as the change in the Kerr rotation angle. As a result, in 4% H2/N2 mixture gas, a change of the Kerr rotation angle by approximately 3 degrees as compared with the angle in the air was observed in real time. This sensing method eliminates the need to apply voltage on a sensing device of hydrogen gas, meaning that it can realize a sensor with high explosion proof reliability.

Recently, hydrogen energy is attracting attention as alternative energy that can replace fossil fuel. To facilitate widespread use of hydrogen gas, it is necessary to establish the safety, for which gas sensing plays an important role. NLT Technologies will continue studies on hydrogen gas sensing, with the aim of realizing its practical application within three to five years.


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