Canon kabushiki kaisha (20240230326). DIFFERENTIAL SIGNAL DRIVE CIRCUIT AND PHOTOELECTRIC CONVERSION DEVICE simplified abstract
DIFFERENTIAL SIGNAL DRIVE CIRCUIT AND PHOTOELECTRIC CONVERSION DEVICE
Organization Name
Inventor(s)
Kohichi Nakamura of Kanagawa (JP)
Daisuke Kobayashi of Saitama (JP)
Tetsuya Itano of Kanagawa (JP)
Daisuke Yoshida of Kanagawa (JP)
DIFFERENTIAL SIGNAL DRIVE CIRCUIT AND PHOTOELECTRIC CONVERSION DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240230326 titled 'DIFFERENTIAL SIGNAL DRIVE CIRCUIT AND PHOTOELECTRIC CONVERSION DEVICE
The disclosed apparatus includes a power supply circuit that supplies a power supply voltage to a plurality of differential transmitters. The power supply circuit consists of a common circuit unit that defines the power supply voltage and multiple individual circuit units connected to the common circuit unit.
- Each individual circuit unit has an output node that delivers the power supply voltage to a corresponding differential transmitter.
- The output nodes of the individual circuit units are interconnected, ensuring a consistent power supply across all transmitters.
Potential Applications: - This technology can be used in communication systems, data transmission equipment, and signal processing devices. - It may find applications in automotive electronics, industrial automation, and wireless communication systems.
Problems Solved: - Ensures a stable and reliable power supply to multiple differential transmitters. - Simplifies the design and implementation of power supply circuits in complex electronic systems.
Benefits: - Improved performance and accuracy of differential transmitters. - Enhanced reliability and longevity of electronic devices. - Cost-effective solution for power supply management in various applications.
Commercial Applications: Title: Power Supply Circuit for Differential Transmitters This technology can be utilized in the development of advanced communication systems, industrial automation equipment, and automotive electronics. It offers a reliable and efficient solution for powering differential transmitters in a wide range of electronic devices.
Prior Art: Researchers can explore existing patents related to power supply circuits for differential transmitters to gain insights into the evolution of this technology and identify areas for further innovation.
Frequently Updated Research: Researchers and engineers are continuously exploring ways to enhance the efficiency and performance of power supply circuits for differential transmitters. Stay updated on the latest advancements in this field to leverage cutting-edge technologies for your applications.
Questions about Power Supply Circuit for Differential Transmitters: 1. How does the power supply circuit ensure a consistent voltage output to multiple differential transmitters? 2. What are the key advantages of using individual circuit units in conjunction with a common circuit unit for power supply management in electronic systems?
Original Abstract Submitted
the disclosed apparatus includes a plurality of differential transmitters, and a power supply circuit that supplies a power supply voltage to each of the plurality of differential transmitters. the power supply circuit includes a common circuit unit that defines the power supply voltage supplied to the plurality of differential transmitters, and a plurality of individual circuit units provided in association with the plurality of differential transmitters and each connected to the common circuit unit. each of the plurality of individual circuit units has an output node that outputs the power supply voltage defined by the common circuit unit to a corresponding differential transmitter of the plurality of differential transmitters, and respective output nodes of the plurality of individual circuit units are connected to each other.