HIGH SPEED DUAL-TAIL LATCH WITH POWER GATING

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HIGH SPEED DUAL-TAIL LATCH WITH POWER GATING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240291492 titled 'HIGH SPEED DUAL-TAIL LATCH WITH POWER GATING

The semiconductor device described in the abstract includes two sensing stages that amplify voltage differentials of data signals. The first sensing stage outputs a first amplified voltage differential with two different voltages at separate output nodes. The second sensing stage further amplifies this voltage differential and outputs it with two different voltages at additional output nodes. Power gating circuits are then connected to these output nodes for power management purposes.

The semiconductor device has a two-stage sensing mechanism for amplifying voltage differentials.
The first sensing stage outputs a first amplified voltage differential with two distinct voltages at separate output nodes.
The second sensing stage further amplifies the voltage differential and outputs it with two different voltages at additional output nodes.
Power gating circuits are connected to the output nodes for efficient power management.
This innovation enhances the efficiency and performance of semiconductor devices by optimizing voltage differentials and power consumption.

Potential Applications: - This technology can be applied in various electronic devices requiring precise voltage sensing and power management. - It can be utilized in data transmission systems, communication devices, and sensor networks.

Problems Solved: - Efficient voltage sensing and power management in semiconductor devices. - Optimization of power consumption in electronic systems.

Benefits: - Improved performance and efficiency in electronic devices. - Enhanced power management capabilities. - Increased reliability and longevity of semiconductor devices.

Commercial Applications: Title: Advanced Semiconductor Device for Enhanced Power Management This technology can be commercialized in the semiconductor industry for the development of high-performance electronic devices with optimized power consumption. It can cater to a wide range of applications in consumer electronics, telecommunications, and industrial automation.

Questions about Semiconductor Device with Two-Stage Sensing Mechanism: 1. How does the two-stage sensing mechanism improve the performance of semiconductor devices? The two-stage sensing mechanism allows for precise amplification of voltage differentials, leading to enhanced efficiency and power management in electronic systems.

2. What are the potential applications of this technology beyond semiconductor devices? This technology can be applied in various industries such as telecommunications, data transmission, and sensor networks for efficient voltage sensing and power management.

Original Abstract Submitted

a semiconductor device includes a first sensing stage configured to sense a voltage differential of a data signal and a reference signal and output a first amplified voltage differential, wherein the first amplified voltage differential includes a first voltage at a first output node and a second voltage at a second output node. the semiconductor device further includes a second sensing stage configured to sense the first amplified voltage differential and output a second amplified voltage differential, where the second amplified voltage differential includes a third voltage at a third output node and a fourth voltage at a fourth output node. a first power gating circuit is coupled to the third output node and a second power gating circuit is coupled to the fourth output node.