Heat dissipation solutions for LED lighting products
Poor heat dissipation can lead to serious problems such as a sharp reduction in the lifespan of LED lights, accelerated light efficiency decline, and color drift. We adopt an integrated die-cast aluminum heat dissipation structure to ensure that the core temperature remains below 75°C, minimizing light attenuation. We also use heat-conductive plastic and fin designs with increased heat dissipation area to accelerate the exchange of heat with air. The chimney effect/convection air duct design enables fanless and silent heat dissipation. As a result, the measured temperature of the chip substrate or key nodes of the lamp under specific ambient temperatures is lower than the market average. The extremely low light attenuation means maintaining high brightness throughout the life cycle, reducing the number of lamps used, saving energy and electricity, and achieving a lower TCO (Total Cost of Ownership).
Heat dissipation solutions for consumer electronics
To achieve full performance and remain cool and composed, follow the following heat dissipation solution path: from the chip → thermal paste → vapor chamber / heat pipe → graphite sheet → heat sink fins → outside the device body.
Core components used: vapor chamber, heat pipe, high thermal conductivity materials (multi-layer graphite sheet, aerospace-grade thermal paste), low-noise intelligent fan, and the "Frost Intelligence Control" system, which can sense your usage scenarios in real time and intelligently allocate energy consumption, ensuring that every bit of performance is output coolly.
Medical industry heat dissipation solution
Whether there is performance degradation, measurement inaccuracy, unexpected downtime, or shortened lifespan. Whether there are data errors leading to misdiagnosis, treatment interruption, or even overheating risks causing scalding. Therefore, we are committed to providing medical-grade cooling solutions that exceed industrial standards. Our extreme silent design, large-sized low-speed fans, fanless design, and intelligent temperature control algorithms achieve efficient and quiet operation. Military-grade connectors and derating design ensure the same lifespan as medical equipment. Our products are certified by IEC 60601-1, use biocompatible materials, flame-retardant materials (UL94 V-0), and anti-corrosion design to ensure the equipment can withstand frequent disinfection in hospital environments. How do technologies such as vapor chambers and heat pipes ensure that the heat from core heat-generating components (such as CPUs, power chips) is quickly dissipated, maintaining a low-temperature internal environment?
Heat dissipation solutions for the new energy industry
For every 10°C increase in temperature, the lifespan of batteries and electronic components may be halved. Battery thermal runaway risks and overheating breakdowns of power devices affect overall safety. We provide a full-stack thermal management solution for the core systems of new energy, from chip to system. From liquid-cooled battery packs with cold water plates to ensure a temperature difference of less than 2°C between cells, through integrated thermal management to achieve unified management of low-temperature heating and high-temperature cooling, to the use of phase change materials to help new energy equipment or batteries maintain passive temperature control and thermal buffering capabilities under extreme conditions. Comprehensive safety design ensures fire prevention, leakage prevention, and leakage protection.