The conclusion shows that semiconductor cooling effect can only be applied in low heat capacity system or in high pressure closed system.
结论指出,半导体致冷只适用于低热容量系统或高压密封系统。扩大应用范围的唯一途径是研究新型高优质系数的常温致冷材料。
The heat dissipating device comprises at least a soaking unit, at least one semiconductor cooling device and a membrane solar energy battery.
所述散热装置包括至少一个均热单元、至少一个半导体致冷器及一个薄膜型太阳能电池。
The heat exchanger of the structure can effectively raise the semiconductor cooling and warming efficiencies of the semiconductor cold-warm cup seat.
这种结构的热交换装置可以有效提高半导体冷暖水杯座的半导体制冷、制热效能。
The membrane solar energy battery is arranged on the outer surface of the shell and used for providing electric energy for the semiconductor cooling device.
所述薄膜型太阳能电池设置于所述外壳的外表面,用于向所述半导体致冷器提供电能。
One of the key problems is lasers cooling in researching high power semiconductor diode laser arrays.
大功率半导体激光器列阵研制的关键问题之一就是散热技术。
The heat of high power semiconductor laser array is absorbed by a semiconductor refrigerator and dissipated by air cooling.
它利用半导体制冷器对大功率半导体激光阵列吸热,然后经由风冷散热。
One of key problems is lasers cooling in researching high power semiconductor diode lasers.
大功率半导体激光器研制的关键问题之一就是散热冷却技术。
Refrigerant gases generated by the semiconductor chip cooling, the current provided by the battery, the electric motor acts as blast equipment.
制冷气体由半导体制冷片产生,电流由蓄电池提供,鼓风设备由电动机充当。
Refrigerant gases generated by the semiconductor chip cooling, the current provided by the battery, the electric motor acts as blast equipment.
制冷气体由半导体制冷片产生,电流由蓄电池提供,鼓风设备由电动机充当。
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