CIRCUIT DEVICE AND OSCILLATOR

Organization Name

SEIKO EPSON CORPORATION

Inventor(s)

Yosuke Itasaka of Minowa (JP)

Kohei Beppu of Saitama (JP)

Naoki Ii of Suwa (JP)

CIRCUIT DEVICE AND OSCILLATOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18613421 titled 'CIRCUIT DEVICE AND OSCILLATOR

Simplified Explanation: The patent application describes a circuit device that can switch between two modes - one with lower phase noise in the output clock signal and the other with lower power consumption. The device includes an oscillation circuit, a waveform shaping circuit, and an output circuit.

• The circuit device can switch between a mode with low phase noise and a mode with low power consumption.
• It includes an oscillation circuit to generate an oscillation signal.
• A waveform shaping circuit shapes the signal into a rectangular wave clock signal.
• The output circuit then outputs the clock signal based on the shaped signal.
• The driving capability of the waveform shaping circuit is higher in the mode with low phase noise.

Key Features and Innovation:

• Dual-mode operation for optimizing phase noise and power consumption.
• Oscillation circuit for signal generation.
• Waveform shaping circuit for signal processing.
• Output circuit for clock signal transmission.
• Variable driving capability in different modes.

Potential Applications: The technology can be used in various electronic devices requiring precise clock signals with low phase noise and power-efficient operation.

Problems Solved: The circuit device addresses the need for balancing phase noise and power consumption in electronic systems, providing flexibility and efficiency in clock signal generation.

Benefits:

• Improved clock signal quality with low phase noise.
• Energy-efficient operation with reduced power consumption.
• Enhanced performance and reliability in electronic devices.

Commercial Applications: Potential commercial applications include telecommunications equipment, data storage systems, and high-performance computing devices where precise clock signals are essential for optimal operation.

Prior Art: Readers can explore prior patents related to oscillation circuits, waveform shaping techniques, and clock signal optimization to understand the evolution of this technology.

Frequently Updated Research: Researchers may be conducting studies on advanced waveform shaping algorithms, power-efficient circuit design, and phase noise reduction techniques in clock signal generation.

Questions about Circuit Device Technology: 1. What are the key advantages of using a circuit device that can switch between modes with different characteristics? 2. How does the driving capability of the waveform shaping circuit impact the overall performance of the circuit device?

Original Abstract Submitted

A circuit device is configured to switching between a first mode in which phase noise of an output clock signal is lower than that in a second mode and the second mode in which power consumption is smaller than that in the first mode, and the circuit device includes an oscillation circuit configured to generate an oscillation signal, a waveform shaping circuit configured to perform waveform shaping on the oscillation signal to obtain a rectangular wave clock signal; and an output circuit configured to output the output clock signal based on the clock signal. A driving capability of the waveform shaping circuit in the first mode is higher than a driving capability of the waveform shaping circuit in the second mode.