POWER AMPLIFIER CIRCUIT

Organization Name

Murata Manufacturing Co., Ltd.

Inventor(s)

Shohei Imai of Kyoto (JP)

POWER AMPLIFIER CIRCUIT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18405258 titled 'POWER AMPLIFIER CIRCUIT

The abstract describes a patent application for a divider circuit that divides an input signal into four separate signals, each of which is processed and amplified in different ways before being combined back together.

• The circuit includes a first carrier amplifier that amplifies the first input signal to produce a first output signal.
• A first peak amplifier amplifies the second input signal to produce a second output signal.
• A first converter combines the first and second output signals.
• A second carrier amplifier amplifies the third input signal to produce a third output signal, working in tandem with the first carrier amplifier.
• A second peak amplifier amplifies the fourth input signal to produce a fourth output signal, working in tandem with the first peak amplifier.
• A second converter processes the third output signal and is connected to the first converter.
• A combiner combines the output signals from the first and second converters.

Potential Applications: - Signal processing in communication systems - Audio processing in sound systems - Data transmission in networking equipment

Problems Solved: - Efficiently dividing and processing input signals - Amplifying and combining signals accurately - Enhancing signal quality and fidelity

Benefits: - Improved signal processing capabilities - Enhanced audio and data transmission quality - Increased efficiency in signal amplification and combination

Commercial Applications: Title: "Advanced Signal Divider Circuit for Enhanced Communication Systems" This technology can be used in telecommunications equipment, audio systems, and networking devices to improve signal processing and transmission quality, leading to better overall performance and user experience.

Questions about the technology: 1. How does this divider circuit compare to traditional signal processing methods? 2. What are the key advantages of using a differential pair configuration in this circuit design?

Original Abstract Submitted

A divider circuit divides an input signal into first, second, third, and fourth input signals. A first carrier amplifier amplifies the first input signal and outputs a first output signal. A first peak amplifier amplifies the second input signal and outputs a second output signal. A first converter inputs the first and second output signals. A second carrier amplifier amplifies the third input signal and outputs a third output signal, the first and second carrier amplifiers forming a differential pair. A second peak amplifier amplifies the fourth input signal and outputs a fourth output signal, the first and second peak amplifiers forming a differential pair. A second converter inputs the third output signal and is electrically connected to the first converter. A combiner is electrically connected to an output terminal or a ground and to the first and second converters.