Introduction to Tsingyane's Technologies and Processes

We adopt the dry electrode process based on powder film-forming technology, which boasts multiple advantages:

• Technical Merits: It eliminates the need for solvent coating, directly forming electrodes by hot-pressing active materials, binders, and conductive agents. This simplifies the production process and enhances efficiency. The electrode features high compaction density, effectively improving the battery's energy density and cycle stability.

• Cost Efficiency: By reducing solvent usage and recycling procedures, it significantly lowers equipment investment and operational costs.

• Environmental Friendliness: Completely free from reliance on organic solvents like NMP, it eliminates environmental pollution and safety hazards caused by solvent volatilization, while reducing energy consumption. Aligning with the concept of green manufacturing, it has become a crucial direction for technological innovation in lithium-ion battery production.

This technology is compatible with cutting-edge fields such as solid-state batteries and large cylindrical batteries, and has passed industry verification, entering the stage of large-scale mass production.

Supercapacitor Process

As a core component in the power electronics industry, supercapacitors play a key role in power electronics, new energy, industrial control, and other fields. In terms of production processes:

We utilize dry technology to prepare electrode materials. The solvent-free nature not only greatly simplifies the production process, reduces equipment investment, but also lowers energy consumption and pollution, conforming to the trend of green manufacturing. Meanwhile, dry technology increases electrode compaction density and optimizes the internal material structure, laying a solid foundation for high-performance supercapacitors.

Dry supercapacitor cells have outstanding advantages: extremely fast charge-discharge speed, enabling rapid energy storage and release; a cycle life of hundreds of thousands of times, far exceeding that of traditional batteries; and high power density, capable of instantaneously outputting large currents.

At the system integration level, dry supercapacitor modules and systems achieve efficient energy synergy through scientific layout and intelligent control. They feature high reliability, strong anti-interference ability, adapt to harsh environments such as high and low temperatures, and meet strict requirements for supercapacitor performance and lifespan in different scenarios.

Copper Clad Laminate Process

Our dry technology is applied to high-frequency and high-speed copper clad laminates. The solvent-free process simplifies the production flow, reduces energy consumption and pollution, while improving production efficiency and lowering costs.

PTFE substrates have characteristics such as low dielectric constant, small dielectric loss, and resistance to high and low temperatures, providing a stable foundation for high-frequency and high-speed signal transmission. High-frequency and high-speed copper clad laminates based on this technology have extremely low loss in signal transmission, stably supporting ultra-high-frequency signal transmission such as 5G and millimeter waves.

They are widely used in fields such as 5G communication base stations, satellite communication, AI high-performance servers, and automotive radar, effectively promoting the development of electronic devices towards higher speed and higher frequency.