SWITCHING REGULATOR CIRCUIT

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Takahiro Nomiyama of Seoul (KR)

Jong Beom Baek of Yangju-si (KR)

SWITCHING REGULATOR CIRCUIT - A simplified explanation of the abstract

This abstract first appeared for US patent application 17937492 titled 'SWITCHING REGULATOR CIRCUIT

Simplified Explanation

The patent application describes a switching regulator that uses one or two inductors to connect an input circuit and a multi-output end circuit. This regulator can drive different loads at different voltage levels.

• The input circuit includes multiple input switches and can operate in different modes (buck, boost, boost-buck) to boost the input voltage or ground voltage and provide an applied voltage to the inductors.
• Each mode is selected based on the target voltage for one of the unit output ends in the multi-output end circuit.
• The output voltages are monitored and the on-times of switches in the multi-output end circuit are controlled to maintain the output voltages within the desired range.

Potential applications of this technology:

• Power supply systems for electronic devices
• Battery charging systems
• Renewable energy systems (solar, wind, etc.)
• Electric vehicle power management

Problems solved by this technology:

• Efficiently driving different loads at different voltage levels
• Maintaining stable output voltages within target ranges
• Reducing the complexity and cost of the switching regulator circuit

Benefits of this technology:

• Improved energy efficiency
• Flexibility in handling different loads and voltage levels
• Simplified circuit design
• Cost savings in manufacturing and operation.

Original Abstract Submitted

Embodiments of a switching regulator include a single inductor or two inductors connecting an input circuit and a multi-output end circuit that may drive different loads at different respective voltage levels. The input circuit may include a plurality of input switches, and may boost an input voltage or a ground voltage via operation in one of a plurality of selected modes such as a buck mode, a boost mode and a boost-buck mode, to thereby provide an applied voltage to the one or more inductors. Each selected mode may be based on a target voltage for one of a plurality of unit output ends (output load driving sections) in the multi-output end circuit. Output voltages may be monitored and on-times of switches controlled in the multi-output end circuit to maintain the output voltages in respective target ranges.