18419784. LOW NOISE BANDGAP REFERENCE ARCHITECTURE simplified abstract (TEXAS INSTRUMENTS INCORPORATED)

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LOW NOISE BANDGAP REFERENCE ARCHITECTURE

Organization Name

TEXAS INSTRUMENTS INCORPORATED

Inventor(s)

Sanjeev Praphulla Chandra Nyshadham of Bangalore (IN)

Subrato Roy of Bangalore (IN)

LOW NOISE BANDGAP REFERENCE ARCHITECTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18419784 titled 'LOW NOISE BANDGAP REFERENCE ARCHITECTURE

The circuit described in the abstract includes a first current mirror circuit connected to a power input terminal, a first stage connected to the first current mirror circuit, a second stage connected to the first stage and the first current mirror circuit, and an amplifier connected to the first and second stages with first and second input terminals.

  • The first current mirror circuit is coupled to a power input terminal.
  • A first stage is connected to the first current mirror circuit.
  • A second stage is connected to the first stage and the first current mirror circuit.
  • An amplifier is connected to the first and second stages with first and second input terminals.
  • A second current mirror circuit is coupled to the first stage, the second stage, and the amplifier.

Potential Applications: - This technology can be used in audio amplifiers, signal processing circuits, and sensor interfaces.

Problems Solved: - Provides a stable and accurate current mirror circuit design. - Enhances the performance of amplifiers in various applications.

Benefits: - Improved accuracy and stability in current mirror circuits. - Enhanced performance of amplifiers in different electronic systems.

Commercial Applications: Title: Advanced Current Mirror Circuit for High-Performance Amplifiers This technology can be utilized in high-fidelity audio systems, medical equipment, and industrial automation for precise signal processing and amplification.

Prior Art: Readers can explore prior patents related to current mirror circuits, amplifier designs, and signal processing technologies to understand the evolution of this innovation.

Frequently Updated Research: Researchers are constantly exploring ways to optimize current mirror circuits for better performance and efficiency in various electronic applications.

Questions about the Advanced Current Mirror Circuit: 1. How does this technology improve the stability of current mirror circuits? 2. What are the key advantages of using a second current mirror circuit in this design?


Original Abstract Submitted

In described examples, a circuit includes a first current mirror circuit. The first current mirror circuit is coupled to a power input terminal. A first stage is coupled to the first current mirror circuit, and a second stage is coupled to the first stage and to the first current mirror circuit. An amplifier is coupled to the first and second stages. The amplifier has first and second input terminals. The first input terminal is coupled to the first stage, and the second input terminal is coupled to the second stage. A second current mirror circuit is coupled to the first stage, the second stage and the amplifier.

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