ELECTRONIC DEVICE INCLUDING POWER MANAGEMENT INTEGRATED CIRCUIT AND OPERATING METHOD THEREOF

Organization Name

Samsung Electronics Co., Ltd.

Inventor(s)

Jungjoon Kim of Gyeonggi-do (KR)

Dohun Kim of Gyeonggi-do (KR)

Heecheol Ahn of Gyeonggi-do (KR)

Yeonsang Yun of Gyeonggi-do (KR)

Kyujae Jang of Gyeonggi-do (KR)

Minkwon Jeong of Gyeonggi-do (KR)

ELECTRONIC DEVICE INCLUDING POWER MANAGEMENT INTEGRATED CIRCUIT AND OPERATING METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 17939586 titled 'ELECTRONIC DEVICE INCLUDING POWER MANAGEMENT INTEGRATED CIRCUIT AND OPERATING METHOD THEREOF

Simplified Explanation

The patent application describes an electronic device that includes a battery, capacitors, a converter, switches, and a controller. The device charges the capacitors to different voltages based on the power received from the battery. The switches are used to switch the path of the capacitors between the converter and a power amplifier (PA) based on a signal received by the controller.

• The device includes a battery, capacitors, a converter, switches, and a controller.
• The capacitors are charged to different voltages based on the power received from the battery.
• The switches are used to switch the path of the capacitors between the converter and a power amplifier (PA).
• The controller selects a switch based on a received signal and controls it to switch the path of a capacitor from the converter to the PA.

Potential applications of this technology:

• Mobile devices: This technology can be used in smartphones, tablets, and other portable electronic devices to efficiently manage power distribution and improve overall performance.
• Electric vehicles: The technology can be applied in electric vehicles to optimize power usage and enhance energy efficiency.
• Renewable energy systems: This technology can be utilized in renewable energy systems, such as solar or wind power systems, to efficiently store and distribute energy.

Problems solved by this technology:

• Efficient power distribution: The device allows for charging capacitors to different voltages, enabling efficient power distribution and utilization.
• Improved performance: By controlling the path of the capacitors, the device ensures optimal power flow, leading to improved performance of electronic devices.
• Energy optimization: The technology helps in optimizing energy usage, reducing wastage, and increasing overall energy efficiency.

Benefits of this technology:

• Enhanced power management: The device provides a more efficient and effective way to manage power distribution, leading to improved performance and longer battery life.
• Increased energy efficiency: By optimizing power flow and reducing wastage, the technology helps in conserving energy and reducing environmental impact.
• Improved device performance: The controlled switching of capacitor paths ensures optimal power delivery, resulting in improved performance of electronic devices.

Original Abstract Submitted

An electronic device includes a battery, a plurality of capacitors, a converter that receives power from the battery and charges each of the plurality of capacitors to different voltages based on the power, a plurality of switches that switch a first path and a second path of each of the plurality of capacitors, and a controller. The controller selects a first switch among the plurality of switches based on a received signal, and controls the first switch such that a path of a capacitor connected to the first switch is switched from the first path to the second path, and the first path is a path which electrically connects each of the plurality of capacitors to the converter, the second path is a path which electrically connects each of the plurality of capacitors and a power amplifier (PA).