如果加热电路工作,它加热温度传感头,从而改变传感头的阻值。
If the heater circuit is working, it heats the sensing blub, thus changing the resistance of the bulb.
主电路主要由四部分组成:整流电路、逆变电路、高频变压器、焊丝加热电路。
The main circuit includes rectifier, inverter, high-frequency transformer and wire heating circuit.
电磁感应加热电路设计包括功率电路、控制电路、振荡和驱动电路等单元,阐述系统的电路设计。
Electromagnetic induction heating circuit design includes power circuit, control circuit, oscillations and driving circuit modules expounded on the circuit design.
一种喷墨打印头,包括打印头加热电路阵列,每一个所述打印头加热电路与各自的打印头喷嘴有关。
An inkjet print head comprises an array of print head heater circuits, each associated with a respective print head nozzle.
系统硬件包括按钮开关输入电路、七段数码管输出电路、加热电路、升压电路以及波形控制产生电路。
The system hardware includes switch input circuit, seven segments LED output circuit, heating circuit and boost circuit.
介绍了大功率单相变频加热电源的系统组成,包括整流、滤波、逆变和控制电路等部分。
This paper introduces the system of single phase large power source varied frequency for heating, contains rectifier, filter, inverter and control circuit etc.
本文主要介绍IGBT锁相控制电路在感应加热电源控制系统中的设计和应用。
This paper mainly discusses the design and the application of the IGBT phase lock control circuit controlled by the induction heating power supply.
串联谐振电路简单、启动容易、谐振频率高,适应于小功率感应加热电源系统。
The series resonance circuit is simple, its start easy and resonance-frequency high. It is suitable in small power induction heating supply.
通过了对串联谐振式和并联谐振式感应加热电源的分析与比较,选用了串联谐振主电路。
After the series resonant type and the parallel type induction heating power supply are analyzed and compared, the series resonant type main circuit is adopted.
本文设计的微气压传感器的制作工艺与集成电路工艺兼容,结构上主要包括加热电阻、敏感元件和测试电阻等三部分。
The micro gas pressure sensor designed in this thesis can be fabricated using an IC compatible process, and it is composed of a heating resistor, a sensitive element and a testing resistor.
第二章对超音频感应加热电源做了详细的技术分析,包括它的整流电路、逆变电路和并联谐振槽路。
In the second chapter, it has introduced the super-frequency induction heating power supply in detail, including its rectifier, its inverter and its parallel-resonant load.
随后,本文给出了380V电源供电的二电平变频加热电源的主电路和控制电路的设计与实现。
Secondly, the paper designs and realizes the two level variable frequency heating power supply with line of 380V.
感应加热电源已在工业生产中得到了广泛的应用,其逆变控制电路是直接影响感应加热电源能否安全、高效运行的关键因素。
Induction heating power has been used widely in industrial areas. The control method for inverter is crucial to determine whether induction heating power can work safely and efficiently.
以传统的E类高频功率放大电路为基础,提出了应用于高频感应加热电源的有源箝位E类逆变电源的一种新型控制方法。
Based on the conventional Class-E resonant high-frequency power amplifier, a new control scheme used in Active-clamped Class-E inverter for ultra-high frequency induction heating is proposed.
以传统的E类高频功率放大电路为基础,提出了应用于高频感应加热电源的有源箝位E类逆变电源的一种新型控制方法。
Based on the conventional Class-E resonant high-frequency power amplifier, a new control scheme used in Active-clamped Class-E inverter for ultra-high frequency induction heating is proposed.
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