Method for Compensating Electrical Device Variabilities in Configurable-Output Circuit and Device

Organization Name

micron technology, inc.

Inventor(s)

Pierguido Garofalo of San Donato Milanese (IT)

Method for Compensating Electrical Device Variabilities in Configurable-Output Circuit and Device - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240223197 titled 'Method for Compensating Electrical Device Variabilities in Configurable-Output Circuit and Device

Simplified Explanation: The patent application relates to a technique for compensating electrical variability in configurable-output circuits, ensuring the output stays within specified limits based on input codes.

• The compensation technique can be applied to a variety of circuits with outputs that need to vary within specific electrical limits.
• A switching sequence that is process gradient-direction agnostic is used to limit variability in the output.
• The invention includes an electric device with a processing gradient-direction agnostic configurable-output circuit.

Key Features and Innovation:

• Method for compensating electrical variability in configurable-output circuits.
• Application to circuits with outputs that need to vary within specific electrical limits.
• Use of a switching sequence that is process gradient-direction agnostic to limit variability.
• Invention of an electric device with a processing gradient-direction agnostic configurable-output circuit.

Potential Applications: The technology can be applied in various electronic devices where precise control of output variability is required, such as in communication systems, sensors, and control systems.

Problems Solved: The technology addresses the challenge of maintaining output variability within specified electrical limits in configurable-output circuits.

Benefits:

• Improved precision in controlling output variability.
• Enhanced performance and reliability of electronic devices.
• Simplified design and implementation of circuits with configurable outputs.

Commercial Applications: The technology has potential commercial applications in industries such as telecommunications, automotive, and consumer electronics, where precise control of output variability is crucial for product performance.

Prior Art: Prior art related to this technology may include research on compensation techniques for electrical variability in circuits and methods for controlling output limits in electronic devices.

Frequently Updated Research: Researchers may be exploring advancements in compensation techniques for electrical variability in circuits and the development of more efficient methods for controlling output limits in electronic devices.

Questions about Electrical Variability Compensation Technique: 1. How does the compensation technique ensure the output stays within specified electrical limits? 2. What are the potential challenges in implementing the switching sequence that limits variability in the output?

Original Abstract Submitted

a method has been disclosed that relates to electrical variability compensation technique for configurable-output circuits. the compensation technique can be applied to a generality of circuits whose output has to vary between two electrical limits spanning the range in between them according to a specific code given as input. a switching sequence that is process gradient-direction agnostic has been disclosed which limits variability. an electric device comprising a processing gradient-direction agnostic configurable-output circuit has been also disclosed.