泰克深知,从原型通电到生产测试,工程师在整个设计周期都要依赖示波器。
Tektronix know, electricity production from prototype to test, the engineer must rely on the oscilloscope throughout the design cycle.
在测试设备的经验,例如数字万用表,示波器和I2C分析仪,电力供应是必不可少。
Experience in test equipment such as digital multimeter, oscilloscope, I2C analyzer, and power suppliers is a essential.
X1探头﹕没有衰减﹐输入阻抗跟示波器输入阻抗一样(通常是1兆欧)。由于对测试电路有很大的负载影响﹐所以很少使用这种探头。
X1 probe: no attenuation, input impedance follow that of scope input impedance (usually 1 Mohm). This type of probe is seldom used because of heavy loading effect on circuit under test.
如果测试电路是浮动的﹐示波器的地也可以接到除地以外的其他直流电平处。
Scope ground may be connected to other DC level in the circuit other than ground provided the circuit under test is floating.
本文对数字示波器的带宽特性及取样速率进行了简要描述,并分析了其在实际应用中对波形测试的影响。
This paper gives a brief description of the bandwidth characteristic and sampling rate of digital oscilloscope, and analyses their impact on waveform test in practical application.
最重要的电子测试和测量仪器之一是阴极射线示波器。
One of the most important electronic test and measuring instruments is the cathode-ray oscilloscope.
测试点可容纳包括电压表或示波器探头。
Test points can included to accommodate voltmeter or oscilloscope probes.
通过实验测试,频谱分析系统使用简便直观,只要接到信号源与示波器之间,即可观察信号的频谱。
The using of spectrum analyses system is easy and visual, after testing in lab. Only interfacing it between the signal and oscilloscope, then you can observe spectrum of signal.
本文介绍了泰克数字示波器(TDS540A系列)的一些主要的实用功能及其在手机测试中的应用。
This paper introduces some practical functions of Tektronix digital oscilloscope (TDS540A) and its application in handset test.
设计和验证超高密度FPGA的方法是采用逻辑分析仪、示波器和总线分析仪,通过测试头和连接器把信号送到仪器上。
Making use of logic analyzer, oscillograph and bus analyzer, we can design and test the superhigh density FPGA, and transmit the signal to the instrument through probe and linker.
在测试测量设备中也有它们的身影,例如计数器、信号发生器及示波器。
Quartz crystals are also found inside test and measurement equipment, such as counters, signal generators, and oscilloscopes.
采用高速示波器法和电快脉冲取样法测试高速瞬态信号。
High-speed transient signal is tested with the testing methods of high-speed oscillograph and fast electronics pulse sampling.
VBENCH资料撷取的测试基准,这个程式提供了虚拟示波器、信号产生器等功能。
VBENCH is a data acquisition virtual bench, which provides simulated oscilloscope, signal generators etc.
传感器的现场安装和存贮示波器的操作对测量有影响,但不影响测试结果的准确性。
There sults show that the measurement is affected by the installation of the transducer in the site and the operation of the memory oscilloscope, but the influence is very little.
熟练使用各种通用测试测量仪表,如频谱仪、信号源、示波器等。
Proficiency in the use of common test measuring instruments, such as frequency spectrum, signal source, oscilloscope, etc.
用数字示波器对电源性能进行了测试分析,获得电源性能曲线。
The performance of the power supply is tested with digital oscillograph and the curve is obtained.
信号由多用表卡、示波器卡测试并获取。被测信号由专用接口转接。
The signal was tested and obtained by a multi-meter card or oscillograph card, tested signal was transferred through special interface.
与常规示波器相比,不但简化了结构,提高了测试性能,而且实现了测试自动化。
Comparing with the normal oscilloscope, the new system not only simplifies the structure, improves testing performance, but also implements test automation.
本文介绍了以开环数字高频振荡发生器将DAC输出阶梯波的任一部分,在宽带示波器上显示出来的动态测试设备。
This paper presents a DAC dynamic test instrument which display DAC output waveform of any division open loop VHF number generator used in the broadband oscilloscope.
阐述了以开环数字高频振荡发生器将数模转换器输出阶梯波的任一部分,在宽带示波器上显示出来的动态测试设备。
Presents a DAC dynamic test instrument that display DAC output waveform of any division open loop VHF number generator used in the broadband oscilloscope.
从模拟到数字射频技术的转变产生了对高性能射频测试工具的需求,同时也为启动了对基于PC的示波器和数字化仪的需求。
The transition from analog to digital rf technology has generated the need for high-performance rf test tools and has fueled the demand for digital as well as PC-based oscilloscopes or digitizers.
设计了具有较宽频率响应范围的紧凑型测试电路,结合高速数字示波器TDS75 4c对油中的局部放电脉冲波形进行了测量。
A compact circuit with enough wide frequency response is designed and the high speed digital oscilloscope TDS754C is used to measure pulse current of Partial Discharge (PD).
该测试平台主要由下面几个部分组成:usb接口、数字存储式示波器模块、信号源模块、以及配套软件等。
This instrument platform mainly consists of digitizing storage oscilloscope module, signal generator module, USB interface circuit and corresponding software.
制备的器件用半导体激光测试,用CCD和示波器接收观察光信号。
The device was measured with a semiconductor laser, and the optical signal received by CCD was displayed on an oscilloscope.
该测控软件实现了对示波器的测试量程,测试通路、测试状态等80余种面板按钮操作功能自动设定;
The software can complete the automatic set of more than 80 panel functions such as the test range, channel and status, etc. of the oscilloscope;
结论:通过连接示波器和多道的实验测试,可以达到预期的产生计数率随时间曲线的结果。
Conclusion: Through connected to oscillograph and multichannel's experiment, it has reached the expecting purpose.
熟练使用信号源、示波器、频谱仪、阻抗分析仪和网络分析仪等常用射频测试仪器进行测试、评估和调试;
Be practiced in using of the common RF test and analyzing instruments, such as Signal Generator, Oscilloscope, Spectrum Analyzer , Impedance Analyzer and Net Analyzer;
熟练使用信号源、示波器、频谱仪、阻抗分析仪和网络分析仪等常用射频测试仪器进行测试、评估和调试;
Be practiced in using of the common RF test and analyzing instruments, such as Signal Generator, Oscilloscope, Spectrum Analyzer , Impedance Analyzer and Net Analyzer;
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