SEMICONDUCTOR DEVICE AND OVERCURRENT PROTECTION DEVICE

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SEMICONDUCTOR DEVICE AND OVERCURRENT PROTECTION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18602638 titled 'SEMICONDUCTOR DEVICE AND OVERCURRENT PROTECTION DEVICE

The abstract describes a semiconductor device with an output element, a current monitoring element, and a voltage division circuit.

The output element switches to operate a load based on a drive signal applied to its gate.
The current monitoring element monitors the current flowing through the output element.
The voltage division circuit divides the voltage of the drive signal and applies it to the gate of the current monitoring element.

Potential Applications: - Power management systems - Motor control applications - Battery charging systems

Problems Solved: - Efficient monitoring of current flow - Precise control of load operation

Benefits: - Improved performance and reliability - Enhanced safety features - Energy efficiency

Commercial Applications: Title: "Advanced Semiconductor Device for Power Management" This technology can be used in various industries such as automotive, industrial automation, and renewable energy sectors. It can optimize power usage, improve system efficiency, and enhance overall performance.

Prior Art: Readers can explore prior art related to semiconductor devices, current monitoring elements, and voltage division circuits in the field of power electronics and integrated circuits.

Frequently Updated Research: Stay updated on the latest advancements in semiconductor devices, current monitoring technologies, and voltage division circuits for power management applications.

Questions about Semiconductor Devices for Power Management: 1. How does the voltage division circuit contribute to the overall efficiency of the semiconductor device? The voltage division circuit ensures precise voltage control for the current monitoring element, enhancing the accuracy of current monitoring and load operation.

2. What are the key factors to consider when implementing this semiconductor device in power management systems? Factors to consider include system compatibility, current monitoring accuracy, and overall system efficiency to maximize the benefits of the technology.

Original Abstract Submitted

A semiconductor device, including: an output element having a gate, the output element being configured to perform switching to thereby operate a load of the semiconductor device in accordance with a drive signal applied to the gate thereof; a current monitoring element having a gate and a sense emitter, the current monitoring element being configured to monitor a current flowing through the output element; and a voltage division circuit, which is connected between the gate of the output element and the sense emitter of the current monitoring element, which divides a voltage of the drive signal applied to the gate of the output element, and which applies an obtained voltage to the gate of the current monitoring element.