18591827. SOLAR CHARGING SYSTEM simplified abstract (TOYOTA JIDOSHA KABUSHIKI KAISHA)
Contents
SOLAR CHARGING SYSTEM
Organization Name
TOYOTA JIDOSHA KABUSHIKI KAISHA
Inventor(s)
Takuya Yasui of Toyota-shi (JP)
SOLAR CHARGING SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 18591827 titled 'SOLAR CHARGING SYSTEM
The abstract of the patent application describes a solar charging system that includes a tandem solar cell and control unit with measuring circuit and storage device to control DC-DC converters based on command values.
- The solar charging system utilizes maximum power point tracking to determine the first command value for the first DC-DC converter.
- The relationship between the first command value and the second command value is defined by data stored in the storage device.
- The second command value for the second DC-DC converter is determined based on the first command value and the stored data.
- The system measures voltage and current of power input to optimize the charging process.
- The innovation aims to improve the efficiency and performance of solar charging systems.
Potential Applications: - Residential solar power systems - Portable solar chargers for electronic devices - Solar-powered outdoor lighting systems
Problems Solved: - Maximizing power output from solar panels - Efficient energy conversion in solar charging systems
Benefits: - Increased energy efficiency - Enhanced performance of solar charging systems - Cost-effective renewable energy solutions
Commercial Applications: Title: "Efficient Solar Charging System for Renewable Energy Solutions" This technology can be used in various commercial applications such as solar-powered devices, off-grid power systems, and sustainable energy solutions for businesses.
Questions about Solar Charging Systems: 1. How does the tandem solar cell improve the efficiency of the charging system? The tandem solar cell combines multiple layers of different materials to capture a broader spectrum of sunlight, increasing energy conversion efficiency. 2. What is the significance of using maximum power point tracking in solar charging systems? Maximum power point tracking ensures that the solar panel operates at its peak efficiency by continuously adjusting the operating point to maximize power output.
Original Abstract Submitted
A solar charging system includes a solar panel including a tandem solar cell. A control unit includes a measuring circuit that measures a voltage and a current of power input to the first DC-DC converter. A storage device stores data defining a relationship between a first command value and a second command value. The solar charging system controls the first DC-DC converter according to the first command value and controls the second DC-DC converter according to the second command value. The first command value is determined by executing maximum power point tracking while measuring a voltage and a current. The second command value is determined by using the data stored in the storage device and based on the first command value.