With the booming low-altitude economy, unmanned control equipment such as low-altitude aircraft, unmanned vessels, unmanned vehicles, and ground receiving stations are becoming a key force driving industry innovation. As the "visual center" of these devices, the performance of LCD displays directly determines the accuracy and stability of unmanned control. Leveraging over 20 years of experience and customization capabilities in the LCD/TFT/OLED display field, Sinda Display offers professional display solutions for low-altitude economic unmanned control systems, leveraging four core advantages: high definition and brightness, wide operating temperature range and low power consumption, EMC interference resistance, corrosion resistance, and high transparency. These solutions help these devices operate efficiently in complex environments.

Sinda Display: Meeting Unmanned Control Display Needs

Since its establishment in 2002, Sinda Display has focused on the design, development, and manufacturing of high-quality LCD/TFT/OLED displays and modules. With a professional R&D team of over 50 people, a 20,000-square-meter modern production facility, and a daily production capacity of 150,000 panels, Sinda Display has become a leading company in the display industry. In the field of low-altitude economical unmanned control systems, Sinda Display has a deep understanding of the stringent display requirements for these devices: clear visibility in strong outdoor sunlight, stable operation in extreme temperatures, anti-interference capabilities in complex electromagnetic environments, durability in harsh operating conditions, and the critical impact of low power consumption on device endurance.

Leveraging a comprehensive service process encompassing "demand communication - custom design - sample production - full-chain quality inspection - fast delivery," Sinda Display can develop customized LCD module samples for the individual needs of unmanned control systems within 15 days. Through multiple tests including baking, burn-in, and electrical testing, as well as ISO 9001 and ROHS certification, Sinda Display ensures a 99.9% product qualification rate, providing reliable display core support for low-altitude, economical unmanned control systems.

Four Core Advantages: Solving Unmanned Control Pain Points

1. High Definition & Brightness: Clear Visibility Under Strong Light

Low-altitude, economical unmanned control systems often operate outdoors, where direct sunlight can easily cause screen glare and blurry images, directly impacting the ability to interpret operational commands. By optimizing liquid crystal molecular alignment and backlight technology, Sinda Display's customized LCD displays achieve high-definition resolution (supporting up to 4K quality) and high brightness (some models exceed 4000 nits). The anti-reflective coating effectively reduces interference from strong light. Whether it's real-time display of flight routes and sensor data for low-altitude aircraft, analysis of high-definition imagery transmitted by drones at ground receiving stations, or visualization of the status of unmanned boats and vehicles against reflections on water or strong outdoor sunlight, Sinda LCD displays ensure crystal-clear image details, providing operators with precise visual support.

2. Wide Temperature & Low Power: Balancing Extreme Environments & Battery Life

Unmanned control equipment can be used in cold and hot regions, on water, and across a wide range of temperatures (-30°C to 85°C). The most important thing is that these devices don't use too much power, because this makes them last longer. To deal with this issue, Sinda Display uses liquid crystal materials that can be used at different temperatures and a driver solution that doesn't need much power. The LCD displays work well in very hot or very cold conditions (from -30°C to 85°C), and won't get damaged even at temperatures as high as 85°C. This is perfect for low-altitude aircraft that fly at high altitudes and low temperatures, as well as unmanned vehicles that are exposed to the summer sun.

Also, Sinda LCD displays use tech like dynamic backlight adjustment and low-power chip integration, which really cuts energy consumption. For unmanned vessels, for example, low-power display modules can reduce battery consumption, extending the vessel's single-operation time by 15%-20%, indirectly improving operational efficiency. For battery-powered handheld ground control devices, low power consumption can also prevent operational interruptions caused by frequent charging.

3. EMC Anti-Interference: Stable Display in Complex Electromagnetism

Low-altitude aircraft, unmanned vessels, and unmanned vehicles are subject to electromagnetic interference generated by their own communication modules, surrounding electronic equipment, and high-voltage lines during operation. If the display's interference resistance is insufficient, screen flickering, data corruption, and even misinterpretation of control commands can occur. Sinda Display incorporates a special electromagnetic shielding structure into its LCD module design and uses an LVDS interface for long-distance, interference-resistant transmission (providing superior stability compared to traditional RGB interfaces). The display has passed rigorous EMC testing to ensure stable display and accurate data transmission even in strong electromagnetic environments.

For example, when low-altitude aircraft fly through densely connected urban areas, the Sinda LCD display effectively resists electromagnetic interference and maintains a stable display of flight parameters. It also prevents navigation information distortion caused by interference when operating under high-voltage lines, ensuring safe operation.

4. Corrosion Resistance & High Transparency: Durability in Harsh Conditions

Unmanned control equipment is exposed to rain, dust, and salt spray (for unmanned boats) for extended periods. The display's resistance to corrosion and its high transparency directly determine the device's lifespan. Sinda Display has made the LCD's protection rating better by using better sealing structures, stronger bezel designs and waterproof adhesive treatment. This means that the LCD is now dustproof, waterproof and resistant to salt spray. If you have an unmanned boat on the water, the salt spray coating will protect the display from moisture and salt. This will stop the screen from getting old and breaking. For vehicles without a driver that are used outside, the sealed structure stops foreign matter like rain, dust and sand from getting into the module. This means the device will last longer.

The use of high-transmittance optical glass makes the screen even brighter. The Sinda LCD display uses an anti-reflective coating to make images clear even when there is not much light, like on cloudy days and at dusk. This means that backlighting doesn't have to be too bright and that the screen uses energy efficiently while still being easy to see.

Full-Scenario Coverage: Empowering Four Unmanned Control Areas

1. Low-Altitude Aircraft: "Visual Core" for Flight Control

Low-altitude aircraft (such as industrial drones and agricultural drones) require real-time display of data such as altitude, speed, battery charge, and payload status, placing extremely high demands on display stability and clarity. Sinda Display is a special LCD module that is made for aircraft that fly at low altitudes. It's lightweight (so it doesn't put too much strain on the aircraft) and high-resolution, bright, and works well in a range of temperatures and doesn't pick up interference. This means it can be used in the air at high altitudes and in bright or cold environments without any problems. For example, when you're using a drone to spray pesticides, you can connect to the aircraft's display screen using the ground equipment. This lets them see how the spray is spreading and how much pesticide is left. This makes sure the drone is being used the right way. For industrial inspection drones operating at high altitudes and in low temperatures, Sinda LCD displays can prevent freezing of the screen due to low temperatures, ensuring real-time transmission of inspection data.

2. Ground Receiving Stations: "Core Window" for Data Analysis

The ground receiving station serves as the "command center" for unmanned control equipment. It must simultaneously display images and data transmitted by multiple unmanned devices and support multi-screen coordinated operation. Sinda Display provides customized LCD solutions for ground receiving stations, including single- and dual-screen solutions. For example, a 15.6-inch high-definition, high-brightness dual-screen module with a brightness of 1000 nits supports outdoor dual-screen operation. The left screen displays real-time drone flight footage, while the right screen interprets sensor data (such as topographic mapping data and power inspection defect markers). Operators can simultaneously access information without switching between windows. What's more, it can operate in a wide range of temperatures. This means it can be used all day and all night in both very hot and very cold outdoor environments. It can be used for a long time.

3. Unmanned Ship Control: "Stable Interface" for Water Operations

Unmanned vessels are often used for search and rescue missions in the water, checking on the environment, and mapping channels. They have to deal with problems like salt spray, glare from the water, and turbulence. Sinda Display's custom LCD displays for unmanned vessels are coated to resist salt spray and have a high-transmittance screen that prevents corrosion from moisture and salt. This means that the displays can still show clear images even when there is strong light reflection from the water. The wide operating temperature range accommodates the significant temperature swings in aquatic environments, while the low power consumption extends the vessel's endurance and ensures a wider range of water coverage during a single monitoring mission. For example, when operating offshore, an environmental monitoring unmanned vessel's display can stably display water quality sensor data and route trajectory, even in windy and turbulent conditions without image shading or blackouts.

4. Unmanned Vehicle Control: "Safety Guarantee" for Land Driving

Unmanned vehicles (such as logistics and inspection vehicles) require real-time display of road conditions, navigation routes, obstacle warnings, and other information. Their displays must withstand strong outdoor sunlight, rain, and dust. Sinda Display's LCD modules, designed for unmanned vehicles, have an IP67 rating. This means they're protected against rain, dust and sand. Their high-def resolution makes it easy to spot road details like pedestrians and potholes, and their EMC (Electromagnetic Compatibility) immunity stops your navigation data being messed up by interference from other vehicles. For example, when an unmanned vehicle is driving through an urban area, the display shows the correct navigation and cargo information in real time, making sure it is safe to use even when passing through high-voltage power lines and communication base stations.

Conclusion: Custom Strength Drives Low-Altitude Economy Growth

As a provider of LCD/TFT/OLED display solutions with over 20 years of experience, Sinda Display has consistently prioritized "technological innovation + customized service." Targeted at the specific needs of the low-altitude economic unmanned control sector, Sinda Display develops LCD displays that combine high definition, high brightness, wide operating temperature, low power consumption, EMC immunity, corrosion resistance, and high transparency. These LCD displays provide a reliable "visual hub" for low-altitude aircraft, ground receiving stations, unmanned vessels, and unmanned vehicles.

In the future, Sinda Display will continue to deepen its research and development of display technology, and in line with the development trend of the low-altitude economy, launch lighter, highly integrated, and intelligent display solutions to help unmanned control equipment break through environmental limitations and promote the development of the low-altitude economy towards more efficient, safer, and broader areas.