| 1. | Temperature analysis of thermal management system in large spacecraft
大型航天器热管理系统温度分析 |
| 2. | It has low heat generation load , low temperature and of high - stability
负载发热量小,设备系统温度低,稳定性好! |
| 3. | Design of temperature measure module in weighing motion system based on pvdf piezoeletric cable
压电薄膜轴动态称重系统温度测量模块的设计 |
| 4. | Applying a temperature compensating system to the whole system . the temperature error be limited to 2 % ; 3
采用铂热电阻作为温度传感器,增加系统温度补偿模块,将系统的温度误差控制在2之内; 3 |
| 5. | In its engineering design and industrial practice , the residence time at 80 and 90 strictly controlled , and the system temperature should be kept below 150
在工程设计和应用中,应严格控制硫酸尿素系统在80 ~ 90的停留时间,并保证系统温度不超过150 。 |
| 6. | Simulation results show that the joint arithmetic has less computing with good precision ; it can obtain the real - time model of the platform ' s air - conditioning system continually
仿真结果表明,该联合算法计算量较少,具有良好的辨识精度,可以不断提供试验台空调系统温度控制对象的实时模型。 |
| 7. | Changing temperature velocity in inner barrel is not a stable constant , and it will vary with advancement of measuring from time to time , thus cooling emendation quadrature model is established to compensate temperature dissipation
提出以内外桶温差导致的量热系统温度变化的速度对主期测量时间进行积分的冷却校正计算模型。 |
| 8. | In order to realize the control of the system temperatures , we use the control strategy of fuzzy parameters self - adjusted pid to make the controller of fuzzy self - adjusted by combining conventional pid with fuzzy control
我们采用参数自整定模糊pid的控制策略,将传统的pid方法和模糊控制有效地结合成模糊自整定pid控制器,实现对系统温度的精确控制。 |
| 9. | According to the assumption that porous iron sample has transformed to homogeneous medium under a given shock pressure , a morse - type potential is used to simulate hugoniot curve and shock temperatures of porous iron by md method
为了研究多孔铁样品在冲击压缩后系统温度均匀性的问题,本文还采用anderson的对势对多孔铁冲击压缩线进行了分子动力学模拟。 |
| 10. | This article according to the acquirement of the system parameters such as : temperature sensitivity 、 angle resolution 、 image forming time etc to design the type and diameter of the antenna ; the receiver type , integral time , rf gain , lpf gain ; the mode of calibration ; the sample frequency and program of the daq ; the scanning time , scan type , etc
本文根据系统温度灵敏度、角分辨率、成像时间等参数要求,对系统天线类型、直径,接收机类型、积分时间、射频增益、视频放大器增益,定标方式,数据采集卡的采样频率、编程及驱动装置的扫描速度、扫描类型等进行了详细的分析设计。 |
