18600110. SHIELD CONNECTOR simplified abstract (SUMITOMO ELECTRIC INDUSTRIES, LTD.)
Contents
SHIELD CONNECTOR
Organization Name
SUMITOMO ELECTRIC INDUSTRIES, LTD.
Inventor(s)
SHIELD CONNECTOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18600110 titled 'SHIELD CONNECTOR
The shield connector A described in the abstract includes an inner conductor and a resiliently displaceable locking spring that projects from an outer peripheral surface of a body portion. The body portion has an axial direction oriented in a front-rear direction. The connector also features a dielectric for retaining and accommodating the inner conductor when inserted from behind.
- The dielectric includes an accommodation chamber for the body portion, a locking portion for retaining the inner conductor by being locked to the locking spring, and an escaping groove formed by recessing only a region facing the locking spring in a circumferential direction, out of an inner peripheral surface of the accommodation chamber.
- The shield connector A is designed to securely hold the inner conductor in place while allowing for easy insertion and removal.
- The innovative design of the dielectric with the escaping groove ensures a reliable connection while facilitating assembly and disassembly of the connector.
- This technology offers improved efficiency and convenience in connecting shielded cables in various applications.
- The shield connector A provides a robust solution for maintaining signal integrity and preventing electromagnetic interference in electronic systems.
Potential Applications: - Telecommunications equipment - Data transmission systems - Industrial machinery - Automotive electronics
Problems Solved: - Secure retention of inner conductor - Easy assembly and disassembly - Prevention of signal interference
Benefits: - Enhanced signal integrity - Improved reliability - Simplified maintenance and repair processes
Commercial Applications: "Shield Connector A: Enhancing Signal Integrity in Telecommunications and Electronics"
Questions about Shield Connector A: 1. How does the escaping groove in the dielectric contribute to the functionality of the shield connector? 2. What are the key advantages of using a shield connector with a resilient locking spring mechanism?
Frequently Updated Research: Ongoing studies focus on optimizing the design of shield connectors for increased durability and performance in high-frequency applications.
Original Abstract Submitted
A shield connector A includes an inner conductor shaped such that a resiliently displaceable locking spring projects from an outer peripheral surface of a body portion having an axial direction oriented in a front-rear direction, and a dielectric for retaining and accommodating the inner conductor inserted from behind. The dielectric includes an accommodation chamber for accommodating the body portion a locking portion for retaining the inner conductor by being locked to the locking spring and an escaping groove formed by recessing only a region facing the locking spring in a circumferential direction, out of an inner peripheral surface of the accommodation chamber