Semiconductor refrigerators have many important applications in the medical industry, such as medical imaging equipment, biological sample storage, laser medical equipment, biomedical imaging devices, etc. They help various medical devices maintain a stable operating temperature and ensure the accuracy and reliability of medical equipment.
1. PCR reaction: Provide the precise temperature changes required for PCR reaction.
2. Therapeutic Equipment and Laser Devices: Cooling internal device components or coolant ensures optimal operating temperature and improves device performance.
3. Gas Analyzers: Precisely control the temperature of the sample chamber and delivery pipelines to stabilize analyzer accuracy and performance.
4. Constant temperature metal bath: The use of long-life, high-efficiency semiconductor refrigeration chips makes the instrument have the characteristics of high control accuracy and stable operation.
5. Low-temperature portable medicine boxes: Semiconductor refrigeration is used to control the temperature inside portable medicine boxes to achieve the optimal storage temperature for medicines.
6. Static CT scanners: The cold surface of a semiconductor refrigeration chip is physically bonded to the surface of a heat source, ensuring the heat source reaches a controlled operating temperature with a temperature control accuracy of ±0.1°C.
7. Magnetic Resonance Imaging (MRI): During the imaging process, the device itself generates a large amount of heat, which affects the imaging quality. Using a thermoelectric system to precisely control the temperature of the device ensures normal operation.
8. Centrifuge: When a centrifuge rotates at high speed, it generates heat. If this heat is transferred to the sample, it will affect the sample quality.
9. Cooling of medical diagnostic reagents: They need to be cooled below ambient temperature to inhibit microbial growth and prevent reagent contamination.
10. Digital microscope: Digital microscopes have very strict temperature requirements for stable operation. Thermoelectric systems ensure proper operation of the equipment through precise temperature control, thereby obtaining high-quality images.
