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1.0/2.3 connectors are compact, high-performance electrical connectors designed for secure and reliable connections in various applications. Known for their durability and precision, they are widely used in automotive, industrial, and electronic systems. These connectors ensure efficient power and signal transmission, making them ideal for demanding environments.

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1.0/2.3 Connector Series

1.0/2.3 Connector Series

1.0/2.3 Connector Series,DC-1GHz,75Ω,350V

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1.0/2.3 connectors are widely used in telecommunications, industrial control systems, automotive electronics, and broadcasting equipment. Their compact design and excellent electrical performance make them ideal for applications where space is limited but reliable signal transmission is critical. These connectors are especially valued for their quick-locking mechanism and vibration resistance.
Compared to larger RF connectors like BNC or N-type, 1.0/2.3 connectors are much smaller, making them ideal for compact devices and densely packed systems. Despite their size, they offer excellent signal integrity at high frequencies and feature a push-pull or quick-lock mechanism for easy handling and secure connection.
1.0/2.3 connectors are typically compatible with thin coaxial cables such as RG-174 or RG-316. These cables are suitable for tight spaces and maintain good electrical performance. The connectors are available in both crimp and solder types, allowing flexibility in assembly based on specific application needs.
Yes, 1.0/2.3 connectors are engineered to perform well in high-frequency environments, often supporting up to 10 GHz depending on the design. Their excellent impedance matching and low insertion loss make them ideal for RF and microwave systems, including antennas, test equipment, and signal transmission lines.
1.0/2.3 connectors are known for their robust construction and secure locking mechanisms, which make them resistant to shock, vibration, and environmental stress. These features help ensure reliable performance in automotive, military, and industrial settings where mechanical stability and signal reliability are critical under demanding conditions.