Connection Method: This type of connector typically uses a plug-and-play connection method to ensure reliability and stability. The design of the plugs and sockets follows aviation connector standards and can withstand significant mechanical pressure and vibration.
Pin Configuration: A 17-pin design means the connector has 17 pins, allowing the transmission of various signals. In a Y-split configuration, one female connector is connected to two male connectors, distributing signals to two different devices or modules.
Interference Resistance: Aviation connectors are usually designed with strong interference resistance to ensure stable signal transmission, which is particularly important in environments with high electromagnetic interference.
Material and Structure: The connectors are often made from high-temperature and corrosion-resistant materials such as aluminum alloys or stainless steel to enhance durability and lifespan. The structural design also emphasizes sealing and protection to shield internal circuits from external environmental factors.
Electrical Characteristics: Electrical characteristics of aviation connectors include high voltage resistance, good contact resistance, and the ability to transmit high-frequency signals.
Application Environment: Due to their high reliability and durability, these connectors are widely used in fields such as aerospace, military, communications, and industrial automation.
