![\"\"](\"http:\/\/faravic.com\/en\/wp-content\/uploads\/2025\/10\/\u56fd\u4ea7\u673a\u8f7d\u5bbd\u5e26Ku\u536b\u661f\u901a\u4fe1\u7cfb\u7edf.jpg\")
<\/figure>\n<\/div>\n\n\nAero broadband Ku satellite equipment is an aerial mobile satellite communication technology based on the Ku band. It utilizes Ku satellite communication resources from high orbits (Asia-9 and Asia Pacific-6D up to 2Mbps bidirection) and low orbits (QianFan Constellation up to 30Mbps bidirection). Combined with RF transmission equipment, baseband modem equipment, and network equipment, it achieves high-speed data transmission (such as internet access, data transmission, voice communication, real-time video, etc.) between aircraft and ground stations during flight. It can be widely applied in weather modification, emergency response, civil aviation, business aviation, military, and unmanned aircraft fields.<\/p>\n\n\n\n
The aero broadband Ku satellite communication system includes satellite terminal equipment and a phased array antenna.<\/p>\n\n\n\n
The aero Ku antenna adopts phased array antenna technology, which has the ability to overcome the high-speed movement and attitude changes of the aircraft to achieve continuous automatic tracking of satellites and has good heat dissipation performance.<\/p>\n\n\n\n
The aero Ku phased array antenna adopts a highly integrated, flexibly configurable, and scalable layered modular system architecture. It is mainly composed of a Ku-band receiving antenna array, a Ku-band transmitting antenna array, filters, an integrated control unit, a radome, an antenna frame, thermal control equipment, a frequency conversion module, power supply equipment, and a lightning protection circuit.<\/p>\n\n\n\n
The aero Ku satellite channel terminal converts user data (such as IP packets) into Ku-band RF signals via a modulator. The high-power amplifier boosts the signal strength, and the signal is transmitted to the satellite through the aero Ku phased array antenna. After the satellite receives the signal, it is down-converted by the transponder to the Ku-band downlink frequency and amplified. The re-transmitted signal is captured by the aero Ku phased array antenna, received by the low-noise amplifier, demodulated back to data, and distributed to network users through the aero Ku satellite channel terminal.<\/p>\n\n\n\n
The aero Ku satellite channel terminal uses a dual-mode aero modem, compatible with both regional beams and spot beams. The terminal is powered by 28V DC , and the business and management interface is a 100M\/1000M adaptive network port, compliant with the IEEE802.3 standard. It supports the OpenAMIP antenna control protocol and accepts Arinc429 airborne platform inertial navigation information input.<\/p>\n\n\n