TFT LCD Display Module

TFT LCD Manufacturer
Longtech offers a wide range of standard TFT Display modules. Our TFT Display modules are available in various sizes from 0.85″ to 10.1′ TFT.
Using our nearly 20 years of expertise and advanced display technologies, we can modify our existing products or develop a completely unique solution for your application. Our dedicated team will be with you at every step, ensuring a successful result.
Standard Specifications
Size Inch | Part Number | Dot Format | A.A. (mm) | Outline Size (mm) | Contrast (Cr) | Backlight | Brightness (module surface, cd/m2) | Top.(°C) | Tstor. (°C) | Panel | Controller | Colors | Touch Panel | View Angle | Panel |
0.85 | LTPC08RR01-02 | 128xRGBx128 | 15.21 x 15.21 | 17.58×20.82×1.46 | 300 | 1LED | 320 | -20-70 | -30-80 | BOE | GC9107 | 16.7M | – | ALL Direction | Free IPS |
1.14 | LTPT11RN01-01 | 135xRGBx240 | 14.86 x 24.91 | 17.6x31x 1.65 | 600 | 2LED | 320 | -20-70 | -30-80 | HSD | ST7789V2 | 16.7M | – | ALL Direction | Free IPS |
1.28 | LTPT10RR04-02(roundness) | 240xRGBx240 | 32.4 x 32.4 | 35.6x 38.1x 1.6 | 600 | 2LED | 320 | -20-70 | -30-80 | HSD | ST7789V2 | 16.7M | – | ALL Direction | Free IPS |
1.30 | LTTT13RN04-02 | 240xRGBx240 | 23.4 x 23.4 | 26.16×29.22 x 1.52 | 600 | 2LED | 320 | -20-70 | -30-80 | HSD | ST7789V2 | 16.7M | – | ALL Direction | Free IPS |
1.44 | LTPC14TN02-03 | 128xRGBx128 | 25.5×26.5 | 30.6×34.8×1.5 | 500 | 1LED | 130 | -20-70 | -30-80 | HSD | ST7735S | 65K | – | 12 o’clock | TN |
1.50 | LTPT15RR05-01-2 | 320xRGBx320 | 27.74 x 27.74 | 32.52×34.62 x2.15 | 900 | 4LED | 720 | -20-70 | -30-80 | HSD | ST7796U | 16.7M | ALL Direction | Free IPS | |
1.77 | LTPJ17SN04-02 | 128xRGBx160 | 28.03×35.04 | 34.70×46.7×2.5 | 500 | 2LED | 350 | -20-70 | -30-80 | HSD | ST7735S | 262K | – | 6 o’clock | TN |
1.90 | LTPT19TN01-01 | 170xRGBx320 | 22.7x 42.72 | 25.8x 49.73 x 1.25 | 500 | 4LED | 300 | -20-70 | -30-80 | BOE | ST7789V | 262K | ALL Direction | Free IPS | |
2.00 | LTPQ20NN12-01-2 | 240xRGBx320 | 40.8x 30.6 | 51.2x 35.8 x 2.05 | 800 | 3LED | 300 | -20-70 | -30-80 | HSD | ST7789V | 262K | ALL Direction | Free IPS | |
2.00 | LTPQ20NN02-03 | 320xRGBx240 | 40.8×30.6 | 46.1×40.8×2.57 | 500 | 2LED | 180 | -20-70 | -30-80 | HSD | ILI9342C | 262K | – | 6 o’clock | TN |
2.00 | LTPQ20NN12-01-2 | 240xRGBx320 | 30.60×40.80 | 35.8×51.2×2.05 | 300 | 3LED | 230 | -20-70 | -30-80 | BOE | ST7789V | 262k | 6 o’clock | Free IPS | |
2.10 | LTPQ21SN01-01 | 480xRGBx480 | 53.28 x 53.28 | 56.18 x 59.71x 2.3 | 800 | 4LED | 300 | -20-70 | -30-80 | BOE | ST7701S | 16.7M | ALL Direction | Free IPS | |
2.20 | LTPQ23SN05-01 | 240xRGBx320 | 46.75×35.06 | 50.8×45.8×2.32 | 350 | 4LED | 200 | -20-70 | -30-80 | HSD | ILI9342C | 262k | 6 o’clock | TN | |
2.40 | LTPQ24SN16-04 | 240xRGBx320 | 36.72×48.96 | 42.72×60.26×2.15 | 250 | 6LED | 900 | -20-70 | -30-80 | BOE | ST7789V2 | 262k | 6:00 | Free IPS | |
2.40 | LTPQ24SN12-02 | 240xRGBx320 | 36.72 x 48.96 | 42.72 x 60.26x 2.2 | 640 | 4LED | 300 | -20-70 | -30-80 | HSD | ILI9341V | 262k | ALL Direction | Free IPS | |
2.80 | LTPQ28NN15-01 | 240xRGBx320 | 43.2X57.6 | 50.2×69.3×2.8 | 300 | 4LED | 250 | -20-70 | -30-80 | HSD | ILI9341V | 262k | ALL Direction | Free IPS | |
2.80 | LTPQ28NN15-01 | 240xRGBx320 | 43.2 x 57.6 | 50.2x 69.3 x 2.8 | 600 | 4LED | 250 | -20-70 | -30-80 | HSD | ILI9341V | 262k | ALL Direction | Free IPS | |
3.00 | LTPT30RN03-01 | 360xRGBx640 | 36.72x 65.28 | 43.04 x 74.91×2.45 | 600 | 4LED | 200 | -20-70 | -30-80 | TBD | ST7701S | 65K | ALL Direction | Free IPS | |
3.20 | LTPQ32NN01-01 | 240xRGBX320 | 48.6×64.8 | 56.64×79.3×2.45 | 600 | 5LED | 400 | -20~70 | -30~80 | HSD | ILI9341V | 262K | 6:00 | TN | |
3.50 | LTPQ35SN27-02 | 640xRGBX480 | 70.08×52.56 | 76.84×63.84×4.47 | 500 | 6LED | 380 | -20-70 | -30-80 | HSD | NV3052 | 262K | ALL Direction | Free IPS | |
3.50 | LTPT35RN26-03 | 320xRGBX480 | 48.96X73.44 | 54.46×82.94×2.15 | 500 | 6LED | 300 | -20-70 | -30-80 | HSD | ST7796U | 262K | with RTP | ALL Direction | Free IPS |
3.50 | LTPQ35RN23-06 | 320xRGBX480 | 70.08 x 52.56 | 76.9 x 63.9x 3.2 | 900 | 6LED | 420 | -20-70 | -30-80 | HSD | ST7272A-G4-1-E | 16.7M | ALL Direction | Free IPS | |
3.50 | LTPQ35SN07-11 | 320xRGBx240 | 70.08 x 52.56 | 76.9 x 63.9 x 3.2 | 300 | 6LED | 280 | -20-70 | -30-80 | CHIMEI | HX8238 | 262K | 6:00 | TN | |
3.97 | LTPQ40WT07-06 | 480xRGBx800 | 51.84×86.40 | 57.14×96.85×2.25 | 600 | 8LED | 320 | -20-70 | -30-80 | BOE | ILI9806E | 16.7M | ALL Direction | Free IPS | |
4.30 | LTPY43SN17-09 | 480xRGBX272 | 95.04X53.86 | 105.5X67.2X2.9 | 500 | 2x5LED | 400 | -20-70 | -30-80 | BOE | ST7283-G4-1-E | 16.7m | ALL Direction | Free IPS | |
4.30 | LTPW43RN14-03 | 480xRGBx800 | 56.16x 93.6 | 60 x 104.25 x 2.19 | 1000 | 2x5LED | 450 | -20-70 | -30-80 | BOE | ST7701S | 16.7M | ALL Direction | Free IPS | |
4.30 | LTPY43SN13-04 | 480xRGBx272 | 95.04×53.86 | 105.5×67.2×2.92 | 300 | 2x8LED | 800 | -20-70 | -30-80 | BOE | ST7282-G4 | 16.7M | 6:00 | TN | |
5.00 | LTPW50SN10-03 | 800xRGBx480 | 108 x 64.8 | 120.7x 75.9x 3.05 | 800 | 2x6LED | 500 | -20-70 | -30-80 | BOE | ST7262A | 16.7M | ALL Direction | Free IPS | |
5.00 | LTPW50SN11-05-3 | 800xRGBx480 | 108 x 64.8 | 120.7x 75.8x 2.95 | 300 | 2x6LED | 500 | -20-70 | -30-80 | BOE | ILI6122*1 / ILI5960*1 | 262K | 6 o’clock | TN | |
5.70 | LTPV57TP02-01-3 | 320xRGBx240 | 115.2X86.4 | 144×104.6×14.45 | 250 | 3x10LED | 700 | -20-70 | -30-80 | HSD | HX8218-C+HX8615DPD400 | 262K | 6:00 | TN | |
5.70 | LTPV57TP03-02 | 640xRGBX480 | 115.2X86.4 | 144×104.6×12.3 | 600 | 3x7LED | 800 | -20-70 | -30-80 | HSD | HX8250X2+HX8678X1 | 16.7m | with RTP | 6:00 | TN |
7.00 | LTPW70NP07-28-2 | 800xRGBX480 | 154.08×85.92 | 164.9X100X3.5 | 500 | 7x3LED | 350 | -20-70 | -30-80 | BOE | EK79713+EK73002 | 16.7m | 12:00 | TN | |
7.00 | LTPW70NP16-02-3 | 1024xRGBx600 | 154.2×85.92 | 164.86x 99.96x 3.5 | 600 | 3x9LED | 440 | -20-70 | -30-80 | HSD | EK79001/EK73215 | 16.7m | ALL Direction | Free IPS | |
8.00 | LTPX80NP09-01 | 800xRGBX600 | 162×121 | 182.9x141x5.5 | 600 | 3*8LED | 400 | -20-70 | -30-80 | HSD | EK79713+EK73002 | 16.7m | ALL Direction | Free IPS | |
8.00 | LTPW80NP01-01-2 | 800xRGBX480 | 176.64 x 99.36 | 192.8×116.9x 6.4 | 600 | 3*8LED | 400 | -20-70 | -30-80 | HSD | NT52001+NT39419B | 16.7m | 12:00 | TN | |
8.00 | LTPW80NP08 | 1024xRGBx600 | 176.64×99.36 | 192.8×116.9×6.4 | 700 | 3*12LED | 700 | -20-70 | -30-80 | CTC | HX8696+HX8282 | 16.7m | 12:00 | TN | |
10.10 | LTPTA1RR00-13 | 1280xRGBX800 | 216.96×135.6 | 229.46×149.1×2.5 | 600 | 3*13LED | 400 | -20-70 | -30-80 | HSD | HX8696+HX8282 | 16.7m | ALL Direction | Free IPS |
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Custom TFT LCD Solution

Cable
Modify your cables' length, orientation, and pinout, or add extra connections. Invest in a cable solution that is specifically made to simplify and safeguard your connections.

Interface
To choose the ideal interface for your project, choose from a large range of possibilities or consult with our specialists. To fulfill your design objectives, we can integrate HDMI, USB, SPI, VGA and more into your display.

Touchscreen
Upgrade your user experience using capacitive or resistive touch screen technologies. We'll alter the glass thickness or form of the touch panel to ensure that it fits perfectly with your design.

Cover Glass
To increase the durability of your display, add a custom-cut cover glass. Choose from a range of cover glass thicknesses and add optical bonding to protect against moisture and debris.
Custom LCD Solution
We have total control over the design, production, and quality control procedures for our display products. Our engineers will collaborate with you to create a prototype to validate and test your idea.
Are you looking for a unique display solution?
All You Need To Know About TFT LCD

This article provides you with everything you need to know about TFT LCD. What you’ll learn includes the uses of TFT LCD, its parts, the mechanism behind how it works. In the later end, you can check the difference between the small factories and us.
What is TFT LCD?
TFT LCD, or Thin-Film Transistor Liquid Crystal Display, is a type of LCD that uses thin-film transistor technology to improve image quality. Each pixel has its own transistor, resulting in sharp images and vibrant colors.
Longtech TFT LCD displays meet industrial standards, including conventional TFT-LCD modules, IPS TFT, High brightness TFT LCD (sunlight readable display), TFT panels with controller boards, Bar Type TFT, Wide Temperature TFT LCD, and Touch screen displays.
These screens can be in landscape or portrait orientation. These displays come in a variety of resolutions and can be equipped with resistive or projected capacitive (PCAP) touch screens.
Many of our TFT display modules offer multiple interface options, including MCU, RGB, LVDS, and MIPI DSI.
- High-Resolution Display
TFT LCDs offer high resolution, providing sharp images and clear text for superior visual experience.
- Wide Viewing Angle
TFT LCDs provide wide viewing angles, maintaining image quality and color accuracy from different perspectives.
- Versatile Size Range
Available in a variety of sizes, TFT LCDs can accommodate everything from small handheld devices to large display panels.
- Brightness Control
TFT LCDs feature adjustable brightness controls, optimizing visibility across a range of lighting conditions.
- Rich Color Reproduction
With their ability to display millions of colors, TFT LCDs can accurately reproduce vibrant and lifelike images.
- Robust and Durable
Engineered for durability, TFT LCDs can withstand various environmental conditions, ensuring longevity and consistent performance.

What Are TFT LCD Used For?
TFT LCD are present in almost all industries that need display. These could be the following:
- Instrument
- Industry Machinery Equipment
- Electrical Home Appliances
- Consumer Electronics
- White Goods
- POS System
- Home Applications
- Industrial Instrument
- Automation
- Audio/Visual Display Systems
- Medical Devices
How To Select the Best TFT LCD Display For Your Application
It is not easy to introduce all aspects of selecting the best TFT LCD display, so we have prepared a lot of information on this page for you to delve into. To make sure you can find the information you want quickly, we have prepared this content directory that will jump to the corresponding location when you click on it.
What is TFT LCD: Active-Matrix Technology
To comprehend the functioning of Active-Matrix displays, it is crucial to possess knowledge about their manufacturing process.

The TFT’s transistors are placed in a matrix on a glass substrate. Each pixel on the display remains off until a charge is applied to the transistor. Unlike traditional Passive-Matrix displays, to activate a given pixel, the relevant row is switched on and a charge is transferred along the appropriate column. This is when only the capacitor at the specified pixel receives a charge and is retained until the next refresh cycle.
Essentially, each transistor functions as an active switch. An active switch reduces the number of scan lines and eliminates cross-talk difficulties.

Producing Color
The pixels of the TFTs are divided into sub-pixels capable of producing various intensities of red, green or blue. The mixture of color and levels of intensity allows for an accurate depiction of any combination of 16.7 million colors.
How Does TFT LCD work?
Active-Matrix TFT display s have tiny switching transistors that control each pixel on the display. These transistors require very little energy to active ly change the orientation of the liquid crystal in the display. This allows for faster control of each red, green and blue sub-pixel cell thus producing clear fast-moving color graphics.
The transistors in the TFT are arranged in a matrix on the glass substrate. Each pixel on the display remains off until addressed by applying a charge to the transistor. Unlike conventional Passive-Matrix displays, in order to activate a specific pixel, the corresponding row is turned on and a charge is sent down the proper column. This is where only the capacitor at the designated pixel receive s a charge and is held until the next refresh cycle. Essentially, each transistor acts as an active switch. By incorporating an active switch, this limits the number of scan lines and eliminates cross-talk issues.
TFT LCD: Display Types
The display types of Active-Matrix LCD can be categorized into TN (Twisted Nematic), IPS (In-Plane Switching), and VA (Vertical Alignment) technologies.

TN Technology
TN (Twisted Nematic) is the most prevalent form of TFT display for consumers. They have fundamental features including wide working temperatures, 12 or 6 o'clock viewing angles, and full color motion graphics. To generate an image, the liquid crystals within each pixel twist, allowing light from the backlight to pass through. Because the liquid crystal is sandwiched between two oppositely charged polarizers, it twists down and towards its corresponding charge.The downward tilt of the liquid crystals causes the backlight to bend. The best viewing angle for the display is determined by how the light bends.

IPS Technology
IPS (In-Plane Switching) is a significant advancement in LCD (Liquid Crystal Display) technology, offering enhanced viewing angles and color reproduction compared to TN (Twisted Nematic) displays. Unlike TN panels, where the liquid crystals are aligned perpendicularly to the panel, in IPS displays they are parallel. This alignment allows the crystals to shift horizontally to the panel plane, resulting in wider viewing angles – typically up to 178 degrees both horizontally and vertically. This makes IPS displays ideal for scenarios where color accuracy and consistency are crucial, such as in graphic design and photo editing.

VA Technology
VA (Vertical Alignment) technology provides wide viewing angles, outstanding black depth, quick reaction times, and accurate color reproduction. Each pixel in an VA TFT is made up of three sub-pixels. Each of these sub-pixels is further split into two or more sub-pixels, with the liquid crystals randomly aligned thanks to a ridged polarizer. When charged, the crystals twist. With these crystals randomly positioned, the backlight may shine through in all directions while retaining the correct color saturation, giving the display a 150° viewing angle.
TN vs IPS vs VA
The primary characteristics that distinguish LCD screen types are brightness, viewing angles, color, and contrast.
TN LCD



IPS LCD



VA LCD



TN vs VA vs IPS display comparison.
Feature | TN | IPS | VA |
---|---|---|---|
Response Time | Fastest (1ms to 5ms) | Moderate (4ms to 8ms) | Moderate to Slow (4ms to 12ms) |
Color Reproduction | Good | Excellent | Better than TN, worse than IPS |
Viewing Angles | Narrower than IPS and VA | Wide | Wider than TN, narrower than IPS |
Black Levels | Average | Average to Good | Excellent (deep blacks) |
Contrast Ratio | Lower | Lower than VA, higher than TN | Highest |
Price | Generally the cheapest | More expensive than TN | Mid-range, varies |
Typical Use | Gaming, general use | Professional color work, general use | Mixed use, good for movies |
TFT LCD: Touch Panel
Touch panels are utilized in a wide range of applications to improve the user experience. Touch panel technology includes resistive and capacitive touch. Each sort of touch pan el technology provides distinct capabilities for a varied user experience.
Resistive Touch
Resistive Touch:These touch panels are designed to allow items other than your finger to activate the touch. Resistive touch panels don’t rely on organi c properties of a finger so there are more options to interact with them. Resistive technology senses pressure which is why a gloved hand will work, but it requires harder contact so a stylus is recommended since it responds more accurately.


Capacitive Touch
Capacitive Touch:These touch screens are multi-touch capable and exceptionally robust in most settings, withstanding water, dust, and grease. Capacitive touch panels may be activated with a bare finger or a capacitive pen, and they offer great dragging capability. Longtech capacitive touch panels use mutual capacitive sensors on the 3.5″, 4.3″, 5.0″, and 7.0″ TFTs.These capacitive touch panels include a built-in L²C interface controller. This provides for a faster time to market while keeping development expenses low.
Resistive Touch vs Capacitive Touch
Resistive touch screens are more durable and cost-effective, but less sensitive, while capacitive touch screens offer higher sensitivity and clarity, supporting multi-touch. The following table clearly compares their features:
Feature | Resistive Touch | Capacitive Touch |
---|---|---|
Sensitivity | Less sensitive | Highly sensitive |
Durability | More durable, but can wear out | Less durable, but doesn’t wear out |
Cost | Generally cheaper | Generally more expensive |
Multi-touch capability | Limited or none | Supports multi-touch |
Clarity | Less clarity due to additional layers | Higher clarity |
Operational with gloves or stylus | Yes | No, requires conductive material |
TFT LCD: Interface
TFT LCD interfaces encompass RGB for vivid color, LVDS for high-speed transmission, MCU for control efficiency, and MIPI DSI for streamlined communication.




What is HDMI TFT LCD?
HDMI TFT LCDs represent the fusion of two powerful display technologies: High-Definition Multimedia Interface (HDMI) and Thin Film Transistor Liquid Crystal Display (TFT LCD). This combination delivers high-definition visuals with exceptional clarity and color accuracy, making it an ideal choice for a wide range of industrial applications, from medical equipment to automotive displays. Its significance lies not only in its technical prowess but also in its ability to enhance user experience and operational efficiency.
Why is HDMI Important in Display Technology?
HDMI has become a ubiquitous standard in transmitting high-definition video and audio signals. But what makes it so vital for modern displays? HDMI supports not only higher resolutions but also various video formats, ensuring compatibility and flexibility. The ability to transmit uncompressed digital data results in unparalleled image quality.

How Does TFT Technology Enhance LCD Displays?
TFT technology, which stands for Thin Film Transistor, is a type of LCD (Liquid Crystal Display) that uses thin-film transistor technology to improve image qualities such as contrast and addressability. Each pixel on a TFT LCD is attached to a transistor, allowing for more precise control and faster response times. This means sharper images and more vibrant colors, essential for high-definition displays.
What Are the Advantages of Combining HDMI with TFT LCDs?
When HDMI meets TFT LCD technology, the result is a powerhouse of display excellence. This combination brings forward the best of both worlds: the high-definition and versatile connectivity of HDMI and the sharp, detailed imaging of TFT LCDs. This synergy is particularly beneficial in environments where clarity and detail are paramount, such as in control rooms, medical imaging, and high-end consumer electronics.
How Does Longtech Optimize HDMI TFT LCDs for Industrial Use?
At Longtech, we specialize in customizing HDMI TFT LCDs to meet the diverse needs of our industrial clients. We focus on durability, reliability, and longevity, ensuring that our displays can withstand the rigors of industrial environments. Our products are designed to offer superior performance, with extended lifespans and robust build quality, making them a cost-effective choice for businesses.
TFT LCD: Sunlight Readable Display
Sunlight Readable TFT LCDs are a game-changer in display technology, designed specifically for excellent visibility under direct sunlight. These displays utilize advanced brightness and contrast ratios, along with anti-reflective coatings, to deliver clear, vibrant images even in the brightest outdoor settings. This capability is not just a convenience; it’s a necessity in many professional and industrial applications.
What Makes TFT LCDs Sunlight Readable?
Sunlight readable displays are not your average screens. Their core lies in enhanced brightness levels – often exceeding 1000 nits – which is significantly higher than typical consumer-grade displays. But brightness alone isn’t the key. These displays also incorporate high contrast ratios, ensuring that colors and images remain distinct and clear under intense light.
Another vital component is the anti-reflective coating. This layer minimizes glare, a common issue with conventional screens used outdoors. By reflecting less light, these screens become much more readable in sunlight.

Why is Brightness Measured in Nits and Why Does it Matter?
In the realm of display technologies, ‘nits’ measure luminance or the intensity of visible light a display emits. One nit equals one candela per square meter. In simple terms, the higher the nit value, the brighter the screen.
For outdoor applications, a high nit value is essential. It ensures that the screen remains visible even under direct sunlight, which can have luminance values exceeding 1000 nits. Therefore, a sunlight readable TFT LCD must have a high enough brightness to compete with or surpass the ambient light conditions.
Where Are Sunlight Readable TFT LCDs Used?
These displays have found their niche in numerous industries. In automotive applications, they’re used in dashboard displays, ensuring clear visibility for drivers under varying lighting conditions.
In marine environments, where reflections from water can significantly impair visibility, these displays are invaluable for navigation systems. Similarly, in outdoor kiosks and digital signage, sunlight readable displays ensure that the information remains accessible and clear to the public, irrespective of the time of day or weather conditions.
TFT LCD: Connection Methods
FPC, or Flexible Printed Circuit
FPC, or Flexible Printed Circuit, is a key component in modern electronics, including TFT LCD displays. Its primary role is to provide a flexible and reliable connection between electronic components.
FPCs are designed to flex and bend, making them ideal for devices where space is limited or where components need to move relative to each other. They’re often used in applications like mobile phones, laptops, and other compact electronic devices.


Advantages of Using FPC in TFT LCD Applications
- Space Efficiency: FPCs are thin and flexible, making them ideal for compact electronic devices where space-saving is crucial.
- Reliability: They are less prone to damage from bending or folding, which is particularly important in portable devices.
- Design Versatility: FPCs can be customized in shape and size, offering designers more freedom in the layout and design of electronic devices.
Is TFT LCD better than LED?
When comparing TFT LCD with LED, it’s vital to understand that each has its unique strengths and applications. TFT LCDs are renowned for their superior image quality and resolution, making them ideal for detailed visual tasks. On the other hand, LEDs are celebrated for their energy efficiency and longevity, perfect for long-term, cost-effective solutions.
Why Consider TFT LCD for Industrial Applications?
TFT LCDs are particularly suited for industrial applications due to their durability and reliability in various environmental conditions. They can operate in extreme temperatures and withstand rough handling, which is often a requirement in industrial settings. Additionally, TFT LCDs offer excellent viewing angles and can be easily read in different lighting conditions, including direct sunlight.
The Benefits of LED Displays
One of the biggest advantages of LED displays is their energy efficiency. They consume less power compared to other display technologies, which can lead to significant cost savings over time. Additionally, LEDs have a longer lifespan, often lasting tens of thousands of hours, reducing the need for frequent replacements.

TFT LCD vs. LED: A Comparative Analysis
When it comes to choosing between TFT LCD and LED, several factors need to be considered:
- Power Consumption: LEDs are more energy-efficient than TFT LCDs.
- Lifespan: LEDs typically have a longer lifespan compared to TFT LCDs.
- Display Quality: TFT LCDs generally offer better resolution and image quality.
- Cost: LEDs are usually more cost-effective in the long run due to their energy efficiency and longer lifespan.
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Why Choose LCD Display From Longtech?
Diverse Product Line
With a broad array of LCD and OLED solutions, we cater to every tech requirement.
Unwavering Quality
Our products meet international standards, embodying top-tier quality and consistency.
Competitive Pricing
High quality meets affordability in our competitively priced products.
Low MOQ
Our production is flexible and will meet your requirement of ordering varying quantities.
Exceptional Service
Our customer service team ensures a seamless, professional experience.
Trusted Partner
Clients trust us for our reliability and unwavering commitment to their success.
More Than Just an LCD Display Manufacturer
Superior in-house production ensures quality and efficiency, unlike small factories with higher defect rates.
Small Factories
Our Advantages
Small Factories
Our Advantages
Small Factories
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A Few Steps of Our Production Process
There are more than 30 steps for the production process of display and here only a few typical production steps are displayed.












Frequently Asked Questions
We have compiled the most frequently asked questions about our LCD display here for your convenience, but please feel free to contact us if you have any additional questions.
We offer detailed datasheets and technical guides for all our products. These resources provide comprehensive information to facilitate the integration of our LCDs into your design. Our expert team is also available to assist you with any specific queries or challenges you may face.
Longtech specializes in custom solutions. Our team can work closely with you to understand your unique requirements and develop a customized LCD product that perfectly fits your application.
Our LCDs come with various options for temperature range, contrast adjustment, and backlighting to ensure optimal display performance under different conditions. Our technical team can also provide guidance on how to select and configure these options based on your specific needs.
Yes, we provide libraries and sample code for most of our LCD products. These resources can help you get started quickly with programming the display for your application.
How do I diagnose and resolve issues with the LCDs?
At Longtech, quality is our top priority. We follow a strict quality control process which includes various stages of testing and inspection to ensure our products meet the highest standards.
Yes, we understand the need for testing before making a large purchase. Please contact our sales team to discuss the minimum order quantity for your chosen product.
Lead times can vary depending on the complexity of the customization and the quantity required. Our team will provide a more precise timeline once the specifications are finalized.
We have extensive experience in global shipping and can coordinate logistics to any part of the world. Our team can work with you to determine the best shipping method based on your location, budget, and timeline.
Absolutely, our commitment to our customers doesn't end after a sale. We provide ongoing technical support to ensure the successful integration and operation of our products in your application.
We stand by the quality of our products. In the unlikely event that you receive a defective product, please contact us immediately, and we will work to address and rectify the issue promptly.
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LONGTECH DISPLAY
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- Email: zhong@longtech-display.com
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