Appliance of split structure, between the shock plate and the ultrasonic generator using high frequency link with a socket, use and maintenance are easy. 采用分体式结构,震板与超声波发生器之间采用带插座的高频连接,使用及保养均方便。
Input ultrasonic vibrating board device is made up of vibrating plate and ultrasonic generator. 投入式超声震板装置由震板及超声波发生器两部分构成。
E acoustic wave pressure sensor ultrasonic generator 声表面波式压力传感器超声波振荡器超声波发生器
Sound surface wave band rejection filter ultrasonic generator 声表面波带阻滤波器超声波振荡器超声波发生器
Design for Frequency-modulated Ultrasonic Generator in Ultrasonic Bonding Field 超声键合变频式超声波发生器的设计
The self-adaptable control of output voltage could be realized under certain range by adding a APFC in ultrasonic generator and adjusting voltage feedback network with digital potentiometers. 本文在超声发生器中加入功率因数校正电路(APFC),并利用单片机控制数字电位器实现了对电压反馈网络的调节,从而实现APFC输出电压在一定范围内的自适应控制。
Frequency tracking circuit is one of the special circuits used in the ultrasonic generator. 频率跟踪电路是超声波发生器中的一种特殊电路。
The structure characteristics of ultrasonic generator and transducer are analyzed, the characteristics offer practice foundation for design of the ultrasonic trough. 分析了超声发生器和换能器的结构特点,为超声槽的设计提供了实践基础。
Study on Auto-tracking Circuit of Frequency of a New Ultrasonic Generator 新型超声波发生器频率自动跟踪电路的研究
A smart ultrasonic generator was investigated for rotary ultrasonic machining of hard, fragile material. 为进行硬脆材料的旋转超声加工,研制了智能超声波发生器。
The Design of the High-power Ultrasonic Generator 大功率超声波发生器的设计
Frequency Tracking Circuit for Ultrasonic Generator 超声波发生器的频率跟踪电路
Here the design of power ultrasonic generator for use in rigid material boring is introduced along with the analysis and study in automatic tracking circuit of frequency, driving circuit, power amplifying circuit and complete protections. 介绍了一种在脆性材料钻孔中使用的功率超声波发生器的设计方法,分析和研究了频率自动跟踪电路、驱动电路、功放电路及其完善的保护功能。
Frequency Tracking of Ultrasonic Generator in Ultrasonic Machining 超声加工中超声发生器的频率跟踪技术
Research on a power auto-adjustable system for plastic weld with ultrasonic generator 一种用于超声波塑料焊接的功率自动调节系统的研究
Based on the feed-back current, automatic frequency tracking controlled witha single chip computer has been implemented for an ultrasonic generator. 根据反馈电流,由单片机控制实现超声发生器的频率自动跟踪.试验分析了压电陶瓷换能器超声振动系统的频率与电流和振幅的关系。
The principle of the ultrasonic generator is introduced, and the method of importing the electricity of the ultrasonic energy conversion device is studied. 介绍了超声波发生器的工作原理,研究了超声换能器电流的引入方法。
Research on Frequency Tracking for an Current Feedback Ultrasonic Generator 电流反馈式超声发生器的频率跟踪研究
Time domain characteristics of pressure signal and effect of ultrasonic generator on it in low-frequency ultrasonic fields for cleaning 低频超声清洗中声压的时域特征及发生器对其的影响
It is important that the frequency of ultrasonic generator tracks the transducer mechanical resonance in the power ultrasonic equipment. 功率超声设备中,频率自动跟踪技术是一个重要课题。
In addition, the design progress of the high-power ultrasonic generator is detailed in this paper, which is hard to see in the papers of the past. 除此之外,论文对超声波发生器的设计过程进行了详尽的介绍,这在过去的论文中是没有的。
Ultrasonic generator is the power supply of transducer. Transducer transforms electrical energy into kinetic energy. 超声波发生器为换能器供电,换能器将电能转换成动能。
Output characteristic of ultrasonic generator determines the ultrasonic vibration state. 超声电源的输出特性决定了超声的振动状态。
Ultrasonic cleaning machines is mainly made up of ultrasonic generator and ultrasonic transducer. 超声波清洗机主要由超声波发生器和超声波换能器组成,本文重点介绍超声波发生器。
The main function of ultrasonic generator is used to excite transducer and make the transducer reach resonant state. 超声电源的主要作用是用于产生激励后级换能器的超声频电信号,使换能器达到谐振状态。
Ultrasonic impacting equipment is made of actuator and ultrasonic generator. 超声冲击设备由两部分组成:超声波发生器和执行机构。
The vibrating condition testing experimental platform for the designed vibration system is set up, the platform is made up of ultrasonic generator, piezoelectric ceramic transducer, cup tool horn vibration system, laser displacement sensor and oscilloscope. 搭建杯形工具变幅杆振动系统振动状态验证试验平台,试验平台由超声波发生器、压电陶瓷超声换能器、杯形工具变幅杆振动系统、激光位移传感器以及示波器组成。
An ultrasonic generator was made in the paper. Its output performance and frequency tracking performance were tested. The test results showed that the power output waveform was nice and frequency tracking characteristics was effective and satisfied the need of ultrasonic. 制作了超声波电源样机,并对输出性能以及频率跟踪性能进行了试验测试,测试结果显示该电源的输出波形较好并具有良好的频率跟踪特性,可用于超声辅助磨削加工。
Through the integration, we have established a set of ultrasonic cavitation noise measuring apparatus composed of the ultrasonic generator, ultrasonic power meter, sensor, spectrum analyzer. 通过整合、改进,建立一套由超声发生器、超声功率计、水听器、频谱分析仪组成的测量超声空化效应噪声的装置。