STATOR CONNECTION CONFIGURATIONS

Organization Name

Hamilton Sundstrand Corporation

Inventor(s)

Skyler Ripplinger of Rockford IL (US)

Andreas C. Koenig of Rockford IL (US)

Glenn C. Lemmers, Jr. of Loves Park IL (US)

Joshua J. Krecklow of Leaf River IL (US)

STATOR CONNECTION CONFIGURATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18122939 titled 'STATOR CONNECTION CONFIGURATIONS

Simplified Explanation: The patent application describes an electric machine with a stator winding connected to a jumper, which then connects the stator to two different loads through separate electrical conduction paths.

• The electric machine includes a stator winding connected to a jumper.
• The jumper has two terminal branches, each connecting the stator to a different load.
• Separate electrical conduction paths are defined from the winding end to each terminal branch, ensuring load balancing.
• The electrical resistance of both conduction paths is equal for effective distribution of power.

Key Features and Innovation:

• Stator winding connected to a jumper for electrical connections.
• Two terminal branches for connecting the stator to different loads.
• Equal electrical resistance in conduction paths for load balancing.

Potential Applications: This technology can be applied in various electric machines and systems where load balancing is crucial for efficient operation.

Problems Solved: This technology addresses the need for balanced power distribution in electric machines to prevent overload or underutilization of components.

Benefits:

• Improved efficiency in electric machines.
• Enhanced reliability due to balanced load distribution.

Commercial Applications: Potential commercial applications include electric motors, generators, and other electrical systems where load balancing is essential for optimal performance.

Prior Art: Readers can explore prior patents related to load balancing in electric machines to understand the evolution of this technology.

Frequently Updated Research: Stay updated on research related to load balancing techniques in electric machines to incorporate the latest advancements in the field.

Questions about Electric Machine Load Balancing: 1. How does load balancing in electric machines impact overall efficiency? 2. What are the key considerations when designing electrical conduction paths for load balancing in electric machines?

Original Abstract Submitted

An electric machine includes a stator winding in a stator having a winding end. A jumper has a main base end that is connected to the winding end. A first terminal branch of the jumper has a first terminal for connecting the stator electrically to a first load. A second terminal branch of the jumper has a second terminal for connecting the stator electrically to a second load. A first electrical conduction path is defined from the winding end, through the jumper to the first terminal branch to the first terminal. A second electrical conduction path is defined from the winding end, through the jumper to the second terminal branch to the second terminal. The first electrical conduction path has an electrical resistance substantially equal to that of the second electrical conduction path for electrical load balancing from the winding end to the first and second terminals.