AMPLIFIER CIRCUIT AND SYSTEM

Organization Name

kabushiki kaisha toshiba

Inventor(s)

Akira Yamauchi of Yokohama Kanagawa (JP)

Hiroshi Yoshino of Yokohama Kanagawa (JP)

AMPLIFIER CIRCUIT AND SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240313720 titled 'AMPLIFIER CIRCUIT AND SYSTEM

The abstract describes a patent application for a series of circuits that manipulate currents and voltages to produce specific outputs.

• The first circuit generates two currents with different magnitudes.
• The second circuit uses the first current and voltages to produce two additional currents.
• The third circuit uses the second current and voltages to produce two more currents.
• The fourth circuit generates two currents based on the outputs of the second and third circuits.
• The fifth circuit processes the currents from the fourth circuit to produce two final currents.

Potential Applications: - Power distribution systems - Electronic devices requiring precise current control

Problems Solved: - Efficient current manipulation - Precise voltage-based current generation

Benefits: - Improved control over current outputs - Enhanced efficiency in power management

Commercial Applications: Title: "Advanced Current Control Technology for Power Systems" This technology can be used in various industries such as telecommunications, automotive, and renewable energy to optimize power distribution and improve overall system performance.

Questions about the technology: 1. How does this technology improve current control in power systems? 2. What are the potential cost-saving benefits of implementing this technology in industrial applications?

Original Abstract Submitted

a first circuit outputs first and second currents having different magnitudes. a second circuit receives the first current and first and second voltages, and outputs third and fourth currents based on the first and second voltages. a third circuit receives the second current and the first and second voltages, and outputs fifth and sixth currents based on the first and second voltages. a fourth circuit outputs an eighth current having a magnitude of the magnitude of the third current without a magnitude of a seventh current, which is a sum of the fifth and sixth currents, and a ninth current having a magnitude of the magnitude of the fourth current without the magnitude of the seventh current. a fifth circuit receives the eighth and ninth currents, outputs tenth and eleventh currents based on the eighth and ninth currents to a first end.