Samsung electronics co., ltd. (20240380323). DC-DC CONVERTER AND OPERATING METHOD OF DC-DC CONVERTER simplified abstract
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DC-DC CONVERTER AND OPERATING METHOD OF DC-DC CONVERTER
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DC-DC CONVERTER AND OPERATING METHOD OF DC-DC CONVERTER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240380323 titled 'DC-DC CONVERTER AND OPERATING METHOD OF DC-DC CONVERTER
The abstract describes a DC-DC converter that includes a voltage converter and a controller to select conversion modes based on charging and discharging periods.
- Voltage converter receives input voltage, converts it to output voltage, and outputs it.
- Controller selects conversion mode based on charging period ratio and controls voltage converter accordingly.
- Internal elements are charged and discharged during specific periods in the selected conversion mode.
Potential Applications: - Power supply systems - Renewable energy systems - Electric vehicles
Problems Solved: - Efficient energy conversion - Optimal use of internal elements - Enhanced control over voltage output
Benefits: - Improved energy efficiency - Enhanced performance - Customizable conversion modes
Commercial Applications: Title: "Advanced DC-DC Converter for Energy Systems" This technology can be used in various industries such as renewable energy, electric vehicles, and power supply systems, offering improved efficiency and performance.
Prior Art: Readers can explore prior art related to DC-DC converters, voltage converters, and energy conversion systems to understand the evolution of this technology.
Frequently Updated Research: Stay updated on the latest advancements in DC-DC converters, energy conversion technologies, and power supply systems to leverage the most recent innovations in the field.
Questions about DC-DC Converters: 1. How does the selection of conversion modes impact the efficiency of the DC-DC converter? - The selection of conversion modes based on charging period ratio optimizes the efficiency of the converter by effectively managing the charging and discharging of internal elements. 2. What are the key factors to consider when designing a controller for a DC-DC converter? - Designing a controller involves considering factors such as conversion modes, charging period ratio, and control mechanisms to ensure optimal performance of the DC-DC converter.
Original Abstract Submitted
disclosed is a dc-dc converter which includes a voltage converter configured to receive an input voltage through an input node, to convert the input voltage into an output voltage, and to output the output voltage to an output node, and a controller configured to select at least one conversion manner among a plurality of conversion manners based on a first ratio of a charging period of one cycle, to charge internal elements in the at least one conversion manner during the charging period of the one cycle, and to control the voltage converter to discharge the internal elements in the at least one conversion manner during a discharging period of the one cycle.
