SELF-IDENTIFYING SOLID-STATE TRANSDUCER MODULES AND ASSOCIATED SYSTEMS AND METHODS

Organization Name

Micron Technology, Inc.

Inventor(s)

Steven A. Mcmahon of Meridian ID (US)

SELF-IDENTIFYING SOLID-STATE TRANSDUCER MODULES AND ASSOCIATED SYSTEMS AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18401227 titled 'SELF-IDENTIFYING SOLID-STATE TRANSDUCER MODULES AND ASSOCIATED SYSTEMS AND METHODS

Simplified Explanation: The patent application discloses self-identifying solid-state transducer (SST) modules and associated systems and methods. These modules include SSTs and sense resistors that are connected to a driver for measuring sense resistance and delivering current based on that measurement.

• Each SST module consists of an SST and a sense resistor with similar resistance values.
• The SST modules are connected in parallel across an SST channel to the driver.
• The sense resistors of the SST modules are connected in parallel across a sense channel to the driver.
• The driver is designed to measure sense resistance and adjust current delivery across the SSTs accordingly.

Potential Applications: This technology can be applied in various fields such as automotive, industrial automation, and consumer electronics for efficient power management and control.

Problems Solved: This technology addresses the need for accurate measurement of sense resistance and precise current delivery in solid-state transducer modules.

Benefits: The benefits of this technology include improved performance, reliability, and energy efficiency in systems utilizing solid-state transducers.

Commercial Applications: Potential commercial applications include power electronics, renewable energy systems, and electric vehicle charging infrastructure, where precise current control is essential for optimal operation.

Prior Art: No specific information on prior art related to this technology is provided in the abstract.

Frequently Updated Research: There is no information on frequently updated research relevant to this technology at the moment.

Questions about Self-Identifying Solid-State Transducer (SST) Modules: Question 1: How does the sense resistor in each SST module contribute to the overall functionality of the system? Answer: The sense resistor helps the driver measure sense resistance accurately, enabling precise current delivery across the SSTs.

Question 2: What are the potential implications of using SST modules in electric vehicle charging infrastructure? Answer: SST modules can enhance the efficiency and reliability of electric vehicle charging systems by ensuring optimal current control and power management.

Original Abstract Submitted

Self-identifying solid-state transducer (SST) modules and associated systems and methods are disclosed herein. In several embodiments, for example, an SST system can include a driver and at least one SST module electrically coupled to the driver. Each SST module can include an SST and a sense resistor. The sense resistors of each SST module can have at least substantially similar resistance values. The SSTs of the SST modules can be coupled in parallel across an SST channel to the driver, and the sense resistors of the SST modules can be coupled in parallel across a sense channel to the driver. The driver can be configured to measure a sense resistance across the sense resistors and deliver a current across the SSTs based on the sense resistance.