What is DSC?

How does DSC self-powered module solve problems?

Under the low illumination light source, the DSC photodynamic energy module with the highest photoelectric conversion efficiency can be used as the ambient light energy collection device, and the self-developed low illumination special power management system can replace the traditional battery and be used in combination with the wireless sensor. The DSC self-power module receives the general environment or indoor light source and converts the power to provide the wireless sensor as a power source. Ultimately, depending on the end-use situation, it can replace or combine with disposable batteries, and can also be used with rechargeable batteries to extend the service life of the whole device. , to reduce the frequency of battery replacement, avoid the production of excessive battery waste, and greatly reduce the cost of manual monitoring and maintenance, effectively allowing the sensor to supply power independently through the environment, so that the sensing and communication functions will not be forced to be interrupted due to insufficient power.

Dye-sensitized cell (also known as DSC) is a thin-film light-driven cell. It is based on a semiconductor consisting of a photosensitive electrode and an electrolyte and is an electrochemical system. Due to its high low-light power generation efficiency, it is classified as the best power source in micro-energy harvesting technology. In the face of the deployment and sensing requirements of a large number of wireless IoT devices driven by 5G and big data technology, DSC technology will undoubtedly become one of the best self-powered solutions, with unlimited market application prospects.

Characteristics and Applications of DSC

In recent years, the Internet of Things industry is in the ascendant. The technology of solving the power problem of wireless Internet of Things devices by collecting environmental energy and converting it into electrical energy has gradually gained the attention of related industries. The best source of power for the device. At present, the photoelectric conversion efficiency of DSC modules in low-light environments (below 10,000 Lux/about 10% of direct sunlight) is more than three times that of mainstream silicon solar technology. In addition, DSCs are light, thin, and flexible. Therefore, it is very suitable for use in low-light human-induced activity environment, as a source of power supply for wireless Internet of Things devices, signal transmission, and wearable devices.

The World's Leading Solar Energy Battery Technology

Human-induced environment has the highest photoelectric conversion rate (15% -18%).
Ultra-thin and flexible photovoltaic module
The whole process is independently developed, with strong technical control.
Self-developed micro power management system.
Mass production technology, equipment, and modules have all been verified.
Direct boost with a single module, convenient application, beautiful appearance, and low current consumption.