通过对新设备液压系统发热功率和散热功率的计算,得出系统本身的散热量高于系统的发热量,系统不需外加冷却设备即可达到散热要求;
Through the calculation for the calorific capacity and the heat dissipating capacity of the hydraulic system, draw the system's calorific value below the heat emission value;
快速冷却系统:配置大功率散热风扇和高性能气泵,加速空气流动,大量的减少设备冷却时间。
Rapid and efficient cooling system: the equipment is provided with a high power fan and high-performance air pump, significantly decreasing equipment cooling time.
由于油底壳担负着机油散热功能的特殊性,试验对油底壳采用半约束阻尼包裹处理,结果显示整机声功率级降低了1。
Oil pan shoulder function due to the uniqueness of oil cooling, so the oil pan was semi-damping enwrapped in the experimentation , The results showed a piece of sound power level lower 1.
光效高,散热好,低消耗功率。
Effective lighting, efficient heat dissipation, low power consumption.
这些结果不但拓展了大功率电子模块散热器的方式,也为热管式大功率电子模块散热器走向市场奠定了基础。
These results not only develop the way of applying heat sink for power electronic module, but also establish the base of commercialization of heat pipe heat sink for power electronic module.
利用声学扫描检测技术,提示了热烧毁的微波功率器件氧化铍陶瓷基片与底座金属散热片的焊接不良现象;
Burn-out of a microwave power device due to the poor bonding between beryllium oxide and base metal sink was investigated using Sound Scanning technique.
在3d -MCM(多芯片组件)封装设计中,大功率和高热流密度导致系统的散热成为关键技术之一。
In 3d-mcm (multi chip module) packaging designs, heat dissipation is one of the key issues that must be solved.
基于LDMOSFET的高增益、高输出功率、低功耗和良好的散热特性,分别设计了S波段45w和180w固态功率放大器。
Considering LDMOS FETs high gain, high output power, low power loss and efficient heat dissipation, a S-band, 45w and 180w solid state power amplifier is designed.
针对工业电源恶劣的工作环境,对工业电源小功率器件的散热设计进行了探讨。
This article discusses the thermal design of miniwatt semicondutors in industrial power, which works in terrible environments.
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。
One of the key problems is lasers cooling in researching high power semiconductor diode laser arrays.
本发明涉及激光器领域,尤其涉及用于高功率使用中,需要解决散热问题的微片激光器。
The invention relates to the field of laser, in particular to a microchip laser which is used in high power and needs solving the problem of heat dissipation.
与现有技术相比,具有镜片调节角度大、调节方便,镜架散热效果好,功率稳定等优点。
Compared with the prior art, the invention has the advantages of large lens adjustment Angle, convenient adjustment, good heat dissipation effect of the mirror bracket, stable power, and the like.
微管道换热器以其换热性能卓越、结构紧凑等优点成为小体积高功率电子器件首选的新型散热方式。
Due to its outstanding heat transfer capacity and compact structure, the microchannel heat sink is the best choice for cooling of high-power electron device with small volume.
其中一个例子就是第六种元素T1功率芯片,这是安装在水里管的车的散热系统。
One example is the Sixth Element T1 Power Chip, which is fitted onto the water pipe of the car's radiator system.
根据管道或容器罐体总散热量和选定的电热带米功率,计算所需电热带总长度。
Calculate the total length of electric heating cables needed according to total heat loss of pipes or tanks and the chosen power per meter.
本文通过对大功率斩波器紫铜水冷散热器的焊接工艺、技术进行分析研究,得出了一种新型实用的直流反接焊接技术。
By analyzing weld technology of the purple copper water-cooled radiator used in high-power chopper, we have found a newly direct and current anti-weld method.
由于充电器功率较大,为保证系统运行的稳定性进行了相关的散热设计。
Due to the high power of the charger, the design of the thermal treatment has been implemented to obtain the stability of the system.
本文论述了如何设计IGBT散热器,以提高其耗散功率,同时介绍了IGBT过热检测保护电路。
This paper discussed that how to design IGBT radiator to improve its radiating capability and introduced the protective circuits for IGBT overheat check.
随着对器件输出功率的要求越来越高,器件的散热性能成了一个倍受关注的问题。
With the higher request on output power of the millimeter-wave devices, the problems of the ohmic wall loading have been paid much attention.
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.
如果集成模块散热设计冗余,则违背增大功率密度的初衷,而忽视散热设计将会影响系统的可靠性。
Redundant thermal design in the integration module reduces the power density. On the contrary, the system reliability will be decreased if the thermal design is neglected.
这促使电子元器件的功率密度急剧升高,能否进行有效地散热已经成为亟待解决的关键问题。
This makes the power density of electronic components increase sharply, and whether it can be effectively cooled has become a key problem to be solved.
机箱采用更具刚性的精密铸铝,并设计了散热孔以改进功率处理能力。
The chassis are of precision-cast aluminium for greater rigidity, with a vented design to improve power handling.
对各种正装和倒装焊功率型LED芯片的表面温度分布进行了直接测试,对其散热性能进行了分析。
The temperature distribution of power LEDs is measured, and the performance of thermal dispersion is discussed.
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。
The heat of high power semiconductor laser array is absorbed by a semiconductor refrigerator and dissipated by air cooling.
采用高亮度大功率LED颗粒l 70寿命长达30000小时,高品质铝合金散热泪盈眶器设计。
Using high brightness high power LED particles L70 life up to 30000 hours, high quality aluminum alloy scattered the design of tears in your eyes.
散热器五排加大散热水箱,性能更好,功率发挥更好。
Radiator has five rows of enlarged radiating water tanks to make better performance and use the most of engine power.
本发明采用如上技术方案,实现了小体积的高功率盘片激光器结构,且实现快速散热,并实现高功率激光输出。
By adopting the above technical scheme, the invention realizes the structure of high-power disc laser with small volume, and realizes fast heat dissipation and high-power laser output.
热管,热导管,超导管,散热器,换热器,功率散热,余热回收。
Heat pipe, hot tube, ultra-catheter, radiators, heat exchangers, thermal power, waste heat recovery.
热管,热导管,超导管,散热器,换热器,功率散热,余热回收。
Heat pipe, hot tube, ultra-catheter, radiators, heat exchangers, thermal power, waste heat recovery.
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