POWER CONVERTER

Organization Name

NXP B.V.

Inventor(s)

Jin Hui Lee of Nam-yang-ju-si (KR)

Jonghak Moon of Youngin-si Gyeonggi-do (KR)

POWER CONVERTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18184122 titled 'POWER CONVERTER

The patent application describes a power converter with multiple load channels and select switches controlled by a controller to regulate output voltage and charge current to different loads.

• Power converter with multiple load channels and select switches
• Controller for regulating output voltage and charge current
• Inductance for power transfer
• First load channel with a first select switch
• Second load channel with a second select switch

Potential Applications: - Power supply systems - Renewable energy systems - Electric vehicle charging systems

Problems Solved: - Efficient power distribution to multiple loads - Precise control of output voltage and charge current

Benefits: - Improved energy efficiency - Enhanced load management capabilities - Increased system reliability

Commercial Applications: Title: Advanced Power Converter for Multi-Load Systems This technology can be used in various industries such as telecommunications, industrial automation, and renewable energy to optimize power distribution and improve overall system performance.

Questions about the technology: 1. How does the controller ensure accurate regulation of output voltage and charge current? - The controller monitors the input power and load requirements to adjust the select switches accordingly. 2. What are the key advantages of using multiple load channels in a power converter? - Multiple load channels allow for independent control of different loads, optimizing power distribution and efficiency.

Original Abstract Submitted

One example discloses a power converter, including: a power supply input configured to receive electrical power; a controller; an inductance having a first end coupled to the power supply input; a first load channel coupled to a second end of the inductance, and having a first select switch (SEL) coupled to the controller, and configured to present a first output voltage (Vout) and a first charge current from the power supply input to a first load; a second load channel coupled to the second end of the inductance, and having a second select switch (SEL) coupled to the controller, and configured to present a second output voltage (Vout) and a second charge current from the power supply input to a second load.