Lattice Based Voltage Standoff

Organization Name

Applied Materials, Inc.

Inventor(s)

Adam M. Mclaughlin of Merrimac MA (US)

Craig R. Chaney of Gloucester MA (US)

Lattice Based Voltage Standoff - A simplified explanation of the abstract

This abstract first appeared for US patent application 18070640 titled 'Lattice Based Voltage Standoff

Simplified Explanation

The abstract describes an insulator with a lattice structure that increases the tracking length between two ends of a shaft, resulting in longer times before failure. The insulator can be used in an ion implantation system to separate components physically and electrically.

• The insulator has a lattice structure on the outer surface of the shaft.
• Sheaths may cover portions of the shaft, with lattices on the inner and/or outer walls of the sheaths.
• The lattice design increases the tracking length between the two ends of the shaft, improving durability.

Potential Applications

The insulator with a lattice structure can be used in ion implantation systems to separate components physically and electrically, ensuring efficient operation and preventing failures.

Problems Solved

This technology solves the issue of tracking length limitations in insulators, providing a solution for longer times before failure in systems where components need to be separated.

Benefits

- Improved durability and longevity of insulators - Enhanced performance in ion implantation systems - Efficient physical and electrical separation of components

Potential Commercial Applications

- Semiconductor manufacturing - Electronics industry - Research institutions

Possible Prior Art

There may be prior art related to insulators with lattice structures for increasing tracking length and durability in various industrial applications.

Unanswered Questions

How does the lattice structure impact the overall weight of the insulator?

The abstract does not mention the weight implications of the lattice structure on the insulator. This could be a crucial factor in certain applications where weight is a concern.

Are there any specific maintenance requirements for the insulator with a lattice structure?

The abstract does not address any maintenance needs or procedures for the insulator. Understanding the maintenance requirements can help users prolong the lifespan of the insulator and optimize its performance.

Original Abstract Submitted

An insulator that has a lattice is disclosed. The insulator may have a shaft with two ends. The lattice may be disposed on the outer surface of the shaft. In some embodiments, one or more sheaths are used to cover portions of the shaft. A lattice may also be disposed on the inner wall and/or outer walls of the sheaths. The lattice serves to increase the tracking length between the two ends of the shaft. This results in longer times before failure. This insulator may be used in an ion implantation system to physically and electrically separate two components.