In the semiconductor manufacturing process, in addition to eliminating external pollution sources, integrated circuit manufacturing steps such as high-temperature diffusion and ion implantation require wet cleaning or dry cleaning. Dry and wet cleaning effectively uses chemical solutions or gases to remove dust, metal ions and organic impurities remaining on the wafer without damaging the surface and electrical characteristics of the wafer.
The IC process requires the participation of some organic and inorganic substances. In addition, the production process is always carried out in a clean room with manual participation, which inevitably leads to various environmental pollution of silicon wafers.
A Semiconductor Chiller is a competent cooling machine for removing heat produced by exothermic processes in semiconductor industries. It utilizes a quality coolant to transfer heat, which can be later dissipated to the environment.
A chiller (thermostatic water circulator) is a device that supplies circulating liquid such as water while cooling/heating to a preset temperature. It is used to maintain a constant temperature of heat sources and other objects in facilities and equipment through temperature-controlled circulating water. Chiller is designed to help achieve precise temperature control and transform into the perfect “thermal solution leader”.
It is widely used in etching equipment, CMP (mechanical polishing), laboratory precision equipment, high-precision testing instruments, molds, etc. in the semiconductor industry. Reliability testing, such as characteristic analysis, high and low temperature change testing, temperature shock testing, failure analysis, etc. For example: chips, microelectronic devices, integrated circuits (SOC, FPGA, PLD, MC U, ADC/DAC, DSP, etc.) flash memory, UFS, eMMC, PCB, MC, Ms, MEMS, IGBT, sensors, small module components and light Communications (such as transceiver high and low temperature testing, SFP optical module high and low temperature testing, etc.), other electronic industries, aerospace new materials, laboratory research, etc.
Compact structure, mobile design; touch screen operation, fast DUT temperature stabilization time; temperature up to ±0.5 ℃. The entire system is a fully closed system, with no oil mist at high temperatures and no moisture in the air at low temperatures. The system will not be pressurized due to high temperatures during operation, and will automatically replenish the heat transfer medium at low temperatures.
URL: https://www.lneya.com/news/industry-news/semiconductor-process-integrated-circuit-etching-chiller.html
Email: [email protected]