系统灵敏度可通过设计光源功率稳定电路和温度控制电路得到进一步提高。
The sensitivity can be improved by designing light source power stabling circuit and constant temperature controlling circuit.
其中包括时序逻辑驱动电路、直流偏置电压电路及单芯片焦平面温度控制电路。
The circuit includes a sequential logic drive circuit, a DC bias voltage circuit and a monolithic temperature control circuit for the focal plane array.
介绍了采用赛贝克效应工作的热电制冷器(TEC)的工作原理,详细讨论了基于ADN8830 的温度控制电路的设计。
The theory of thermo-electric cooler (TEC) using Seebeck effect is introduced, and the design of temperature control circuit based on ADN8830 is discussed.
本文介绍了温度继电器自动测试系统的设计,此系统由温控箱、开关量检测电路、温度控制电路、接口电路及工控机等硬件组成。
This system was composed of a temperature controlled tank , switch measurement circuit , temperature control circuit , interface circuit , an industrial manipulative computer, and so on.
为了完善通信系统的性能,除了主干电路外,还必须加入一些附加电路,如自动功率控制电路、自动温度控制电路和保护电路等等。
But to perfect the system performance, some accessorial circuits are necessary, such as automatic power control circuit, automatic temperature control circuit and protective circuit etc.
设计实现了基于差分后谐波检测的微弱信号处理电路、前置放大电路、差分电路、调制电路和光源温度控制电路及电流驱动电路等。
The circuit of Photoelectricity Weak Signal Detection, preamplifier circuit, difference circuit, modulation circuit, optical source thermal control and current drive circuit etc. are designed.
文中对激光供电方案中所需的关键器件激光器(LD)、光电转换的工作特性做了详细的描述,对激光器的驱动电路、保护电路和温度控制电路做了深入的研究。
This paper describes the working characteristics of the key apparatus LD and optoelectric conversion, and deeply researches the drive circuit, protection circuit and temperature controlled circuit.
控制电路通过加载或卸载冷冻剂压缩机而使空气-冷冻剂热交换器中的压缩空气温度保持恒定。
Control circuit through the loading or unloading coolant compressor and make the air-freeze agent in the heat exchanger compressed air temperature constant.
介绍一种油井井下参数(压力、温度)无线测试的数据信息传输方法及井下发射装置低功耗控制电路。
The paper introduces a data transmission method for wireless testing of oilwell underpit parameters (pressure and temperature) and low power consuming control circuits of underpit emission devices.
通过检查炉子内部控制设备点位置的操作温度,证实马弗炉的测量和控制电路的准确性。
Verify the accuracy of the measuring and controlling circuitry of the muffle furnace by checking the positions in the furnace at the control set point temperature of intended use.
超低噪音水平智能风扇控制电路我们的自动温度传感器。
Extreme low noise level Smart Fan Control Circuit based on our Automatic Temperature sensor.
所 述金属壳体的外部固定有与控制电路相连接的温度显示屏;
The outer part of the metal shell is fixed with a temperature display screen connected with the control circuit.
介绍了电阻炉温度控制系统的硬件组成、温度信号的高精度转换及触发控制电路。
The hardware composition, high precision conversion of temperature signal and the trigger control circuit for resistance furnace are introduced.
为了保持工作中的稳定平均输出功率和恒定消光比,采用了温度补偿电路和自动功率控制电路。
To maintain the constant average optical power and extiction ratio, the temperature compensation loop and automatic power control loop are incorporated in this chip.
设计和实现了一种采用工控机与温度模块、PWM输出卡、固态继电器及相关控制电路搭建的计算机电阻炉温度控制系统。
Temperature computer control system of a resistance furnace is designed with industry person computer (IPC), temperature input module, PWM output card, solid state relay(SSR) and interrelated circuit.
它包括了温度采集、温度设置、温度显示、差分放大电路、PID控制电路、限幅电路、半导体制冷器(TEC)驱动电路。
It is consisted of temperature acquisition, temperature setting, temperature display, differential amplifier, PID control circuit, limited circuit and thermoelectric cooler (TEC) Driver.
将单光子探测器的研制分为偏置电压、前置放大、雪崩信号提取、温度控制和数字控制电路五个模块。
The SPD R&D includes five modules: SPD bias voltage, pre-amplification, avalanche signal extraction, temperature control and digital control circuit.
设计了温度检测电路、助燃风机控制电路、风门电机控制电路。
A temperature detecting circuit, acombustion aiding air motor control circuit, a cool air gate motor control circuit and analarm circuit were designed.
温度测量与控制电路是在实际应用中相当广泛的测量电路。
Abstract Temperature measurement and control circuit are measuring circuit that were widely used in practical application.
论述充放电管理方法的总体思路,介绍无损均衡电路及电压、电流、温度的采样,给出充放电控制电路及MOSFET驱动电路等模块的设计。
The premise and background are introduced. It proposes the overall structure and non-dissipative equalization circuit of charging and discharging management method study.
红外瞄准镜环境温度冲击和不合理的温度变化将会诱发一系列的控制电路问题,如呈现局部过热,引起芯片结区烧毁;
Infrared Sight and unreasonable impact on the ambient temperature the temperature change will induce a series of control circuits such as rendering local overheating causing chip junction area burned;
红外瞄准镜环境温度冲击和不合理的温度变化将会诱发一系列的控制电路问题,如呈现局部过热,引起芯片结区烧毁;
Infrared Sight and unreasonable impact on the ambient temperature the temperature change will induce a series of control circuits such as rendering local overheating causing chip junction area burned;
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