你当前的浏览器版本过低或不支持。请升级或更换浏览器。推荐浏览器 Chrome Edge。

Agricultural drone applications

UAV is an unmanned aerial vehicle controlled by radio remote control or its own program control device. The agricultural UAV is an unmanned aircraft used for agricultural and forestry plant protection operations. It generally consists of a flight platform (fixed-wing, single-rotor, multi-rotor), GPS flight control, and spraying device. Through ground remote control or GPS flight control, agricultural drones can realize functions such as chemical, powder spraying, seed sowing, and field status viewing.

Aiming at the problems of large load demand, high work intensity, complex operating climate conditions, and frequent biological influences such as flying birds and insects in agricultural applications, TXGA provides targeted connector series products according to the special needs of agricultural drones. The male and female heads of the board-to-board connectors are equipped with metal positioning pieces, which can make the installation of the connector and the pcb board firmer and prevent the connector from loosening and falling under the continuous vibration of high-intensity operations. The product adopts surface mount, the combined height is only 5mm, the space requirement is small, and the arrangement is more flexible, which can help customers optimize the overall interconnection effect and realize the miniaturization and light weight of the drone body.

Aerial UAV

Aerial camera UAV is a kind of aerial camera controlled by radio remote control equipment or airborne computer program control system. By integrating new technologies such as aerial photography, remote control, telemetry, microwave transmission of video images, and computer image information processing, aerial photography UAVs can easily achieve aerial photography and provide users with excellent aerial photography experience.

Aiming at the higher requirements for transmission image quality, image transmission distance, endurance and other performance of aerial photography UAV. The frequency range of the SIM RF connector developed and produced by TXGA can reach 0~6GHz, covering the use frequency of various functions of the UAV. The voltage standing wave ratio of the product is 1.35Max, the characteristic impedance is 50 Ω, and the transmission loss is low. It can build an ultra long distance HD image return channel with lower power consumption and more stable signal for aerial photography UAVs. Meet the application requirements of aerial UAVs.

UAV data storage solution

UAV data storage solution

With the gradual stepping into the 4K era of UAV aerial image quality, users' demand for UAV data storage capacity is also rising. The built-in microSD card slot can effectively expand the storage space of the UAV to meet the needs of the UAV to shoot full HD and 4K ultra HD videos for a long time.

In this case, the Micro SD card connector provided by TGXA for UAV adopts a self elastic structure design. After the Micro SD card is inserted, the connector will lock the memory card through a temporary locking structure to ensure that the memory card can maintain safe contact in a high vibration environment. When pulling out, just press the memory card gently to eject the memory card smoothly, which is not easy to fly out or fall off. Even if the UAV crashed, the memory card remained safe. The product is simple, convenient and fast to use. It has a plugging life of more than 5000 times and can provide a reliable data storage solution in ultra compact space.

UAV onboard electronic equipment

UAV onboard electronic equipment

Unmanned aerial vehicle (UAV) onboard electronic devices refer to electronic devices installed on aircraft for UAV monitoring, control, navigation, communication, and data processing. Through the mutual cooperation of onboard electronic devices, unmanned aerial vehicles can adapt to various complex and dangerous climate environments, ensuring operational safety.

In this case, the JL23 printed circuit connector developed and produced by TXGA is designed with a hyperbolic spring structure for the strong vibration working environment of the drone's onboard electronic equipment. The wire spring wire flexibly clamps the pin, forming a more stable multi wire contact. In an environment with a vibration frequency of 10Hz-2000Hz and an acceleration of 147m/s2, the product's transient on/off time should not exceed 1 μ S. It can achieve more stable data transmission for unmanned aerial vehicles in strong vibration environments.