18589478. Ground Shield Contact Member simplified abstract (TE Connectivity Solutions GmbH)

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Ground Shield Contact Member

Organization Name

TE Connectivity Solutions GmbH

Inventor(s)

Jacobus Nicolaas Tuin of Looierstraat Best (NL)

Bruce Allen Champion of Camp Hill PA (US)

Charles Raymond Gingrich, Iii of Mechanicsburg PA (US)

Keith Edwin Miller of Manheim PA (US)

Kyle Gary Annis of Hummelstown PA (US)

Rutger Wilhelmus Smink of Hamont-Achel (BE)

Sander Floris of Lennisheuvel (NL)

Scott Eric Walton of Mount Joy PA (US)

Ground Shield Contact Member - A simplified explanation of the abstract

This abstract first appeared for US patent application 18589478 titled 'Ground Shield Contact Member

Simplified Explanation: The patent application describes an electrical connector with a housing that has slots for inserting an electrical wafer. Signal contacts on one side of the slot exert a force on the wafer, while ground shield contacts on the other side exert a greater force, biasing the wafer towards the signal contacts.

  • Signal contacts exert a normal force on the electrical wafer.
  • Ground shield contacts exert a greater normal force on the wafer.
  • The wafer is biased towards the signal contacts regardless of its thickness.

Key Features and Innovation:

  • Dual-sided contacts for electrical wafers.
  • Differential normal forces applied by signal and ground shield contacts.
  • Biasing mechanism for wafer positioning.

Potential Applications:

  • High-speed data transmission systems.
  • Telecommunications equipment.
  • Electronic devices requiring secure and stable connections.

Problems Solved:

  • Ensures consistent and reliable electrical connections.
  • Prevents signal interference and loss.
  • Accommodates varying wafer thicknesses.

Benefits:

  • Enhanced signal integrity.
  • Improved data transmission quality.
  • Increased reliability of electrical connections.

Commercial Applications: The technology can be utilized in the development of high-performance electronic devices, telecommunications infrastructure, and data transmission systems, catering to industries such as telecommunications, computing, and consumer electronics.

Prior Art: Readers can explore prior art related to electrical connectors, signal contacts, and ground shield contacts in the field of electrical engineering and telecommunications.

Frequently Updated Research: Stay updated on advancements in electrical connector technology, signal transmission efficiency, and contact design for electronic devices.

Questions about Electrical Connectors: 1. How do differential normal forces improve the performance of electrical connectors? 2. What are the key considerations when designing connectors for high-speed data transmission systems?


Original Abstract Submitted

An electrical connector with a housing having at least one slot for receiving an electrical wafer therein. Signal contacts are positioned on a first side of the at least one slot. The signal contact resilient contact arms exert a first normal force on the electrical wafer inserted in the at least one slot. At least one ground shield contact member is positioned on a second side of the at least one slot. The ground shield resilient contact arms exert a second normal force on the wafer inserted in the at least one slot. The second normal force exerted by the ground shield resilient contact arms is greater than the first normal force exerted by the signal contact resilient contact arms. The wafer is biased toward the signal contact resilient contact arms of the signal contacts regardless of a thickness of the wafer.