功率电路的热设计知识。
较深的功率电路的热设计知识。
大功率、高热流密度微波功率放大器是环境监测有效载荷中的关键设备,对整星的热设计影响很大。
Microwave power amplifier with large power and high heat flux is a key equipment of satellite which has a great influence on satellite thermal design.
本文阐述了与微波功率模块(MPM)可靠性有关的热设计及电磁兼容(EMC)设计。
This paper has introduced the thermal design and Electromagnetic Capability (EMC) related to the Reliability of Microwave Power Module (MPM).
随着大功率开关电源功率密度的不断提高,合理的热设计是保证电源可靠工作的前提条件。
With the continuous improvement on power density of high-power switching power supply, reasonable thermal design works as a prerequisite to ensure a reliable power supply.
以集热面上接收到的辐射强度均匀为设计原则,选取了氙灯的功率、个数,设计了布置方式。
According to uniformity of gather area radiation intensity, the xenon lamp power, the amount of the lamp as well as installation way have been designed.
详细讨论了热流道板的流道设计、加热形式及热功率计算、热膨胀量补偿以及密封等问题,并对流道板的制造方法作了介绍。
The design and manufacture of hot runner plates, including its runner, heating mode, calculation of thermal power, compensation for thermal expansion amount and sealing, etc. were discussed in detail.
介绍了无油超高真空系统、控制系统、烘箱与热功率以及软件的设计。
Oil free high vacuum system, control system, heat system, it's power and the control program have been introduced.
论文主要从功率合成电路、热设计和测试三个方面,论述了该功放的设计和实现。
In this thesis, the power combining circuits, thermal dissipation, test in the SSPA design and implementation are discussed and conducted.
针对电子设备中高功率器件的热设计问题,介绍了一种实用的强迫风冷散热设计方法。
Aiming at the thermal design problem of high-power components in electronic equipments, this paper introduces one practical thermal design method of forced air cooling of electronic equipment.
对于半导体产业,ANSYS 热分析软件Icepak可以读入晶片级设计工具所产生的动态晶片功率数据。
Relative to the semiconductor industry, ANSYS Icepak can import variable die power data from partner die-level design tools.
大功率电子设备发热量大,直接工作在恶劣的空间热环境,其热设计十分复杂。
Thermal design of near space high-power electronic equipment is very complex because it works in the rigorous space thermal environment.
根据制冷量 500kW等设计参数对冷水机组进 行了热力计算,确定了冷凝器热负荷及压缩机功率。
The thermodynamic calculation for the water chiller was Carried on basing on the design parameters such as 500kW cooling capacity to determine the condenser's heat loads and compressor power.
根据制冷量 500kW等设计参数对冷水机组进 行了热力计算,确定了冷凝器热负荷及压缩机功率。
The thermodynamic calculation for the water chiller was Carried on basing on the design parameters such as 500kW cooling capacity to determine the condenser's heat loads and compressor power.
应用推荐