Secondly, the paper carried out arbitrary waveform generator software design.
其次,论文进行了任意波形发生器的软件设计。
The task of drawing and simulating arbitrary waveform is completed by MATLAB software.
用MATLAB软件完成任意波形的绘制和模拟任务。
Square waveform, triangle waveform and arbitrary waveform may be obtained by modifying the look-up table.
通过修改数据表可以产生方波、三角波或其他任意波形信号。
This paper presents a method of arbitrary waveform generator's function circuit which is based on the VXI system.
本文给出了基于DDS技术的VXI系统平台上任意波形发生器功能电路的一种设计方法。
On line programmable arbitrary waveform generator is one of the important devices for Digitalization of Microfluids.
在线可编程任意波形发生器(程控任意波形发生器)是开展微流体数字化技术研究的基础设备。
The circuit equations were used to describe the winding connections to support voltage source with arbitrary waveform.
电路方程用于描述定子绕组连接及转子导条和端环连接,电压源可以是任意电压波形。
Agilent's N6032A arbitrary waveform generator delivers unprecedented performance for creation of complex wideband waveforms.
AgilentN6032 A任意波形发生器具有生成复杂宽带波形的卓越性能。
The paper introduces a method of high-accuracy arbitrary waveform generators variable address generator which is based on CPLD.
本文介绍了一种基于CPLD的高精度任意波形发生器中可变地址发生器的实现方法。
This paper introduces a design method of arbitrary waveform gene-rator which can gain more precision based on multi-pulses synthesis.
为此设计了一种基于多脉冲合成的高精度任意波形发生器,详细地阐述了系统的设计原理,并给出了具体的硬件结构框图。
The main task of this paper is a combination of virtual instrument technology, arbitrary waveform generator of the research and design.
本论文的主要工作是结合虚拟仪器技术,进行任意波形发生器的研究与设计。
This dissertation studies the compensation and calibration techniques of PCI extensions for instrumentation(PXI) arbitrary waveform generator (AWG).
本文对PXI任意波形发生器补偿及校准技术进行了研究。
The virtual arbitrary waveform generator has such functions as arbitrary waveform loading, gain controlling, DE offset adjusting, filters setting up.
虚拟任意波形发生器能够实现任意波形载入、增益控制、直流偏置调节、滤波器状态设置等功能。
The software exploitation of VXI arbitrary waveform generator is the main aim of this task. It includes Soft Panel and Arbitrary Waveform Editor(AWE).
本课题的主要任务是VXI任意波形发生器应用软件的开发,包括软面板和波形编辑器。
The real arbitrary waveform generator that can generate single acoustic frequency signal modulated by Manning window and Gaussian window is developed.
成功地实现了汉宁窗、高斯窗调制的任意频率单音频信号的产生,达到了任意波形发生器的功能。
With the two technologies and the flexible control ability of MCU, a new digital signal source, Arbitrary Waveform Generator (AWG), has been developed.
本设计结合这两项技术,并利用单片机灵活的控制技术,开发了一种新的信号源:任意波形发生器(AWG)。
The new spot welding technics of arbitrary waveform control is an effective approach to solve the contradiction of gain high strength joint but without splash.
阐明了任意波形控制法和任意波形控制法点焊新工艺是解决焊点强度高又无飞溅这一对矛盾的有效途径。
In addition, it can be used as a signal generator to generate multi-channel arbitrary waveform by using software to program so as to simulate the target environment.
除此以外,还可作为信号源使用,能够通过软件编程产生多通道的任意波形,从而来模拟目标环境。
The video signal model for synthetic aperture radar(SAR) is set up, and a method to generate echo signals for SAR using AWG520 arbitrary waveform generator is presented.
建立了合成孔径雷达回波视频信号模型,提出了一种用AWG520任意波形发生器生成SAR回波视频信号的方法,并用这种方法模拟了SAR实时成像的回波视频信号。
A method of digital phase moving and frequency synthesizing by using software technique is introduced, it is upon the arbitrary waveform generator, and in the virtual instrumentation mode.
介绍了使用软件方法,在虚拟仪器模式下,用任意波发生器产生精确相移与合成任意频率的周期信号。
First of all, this thesis introduces the features of Direct Digital Frequency Synthesis (DDS) technique and gives a new structure of the Arbitrary Waveform Generators (AWG) base on DDS technology.
首先,本文对数字频率直接合成(DDS)技术的特点进行介绍,提出一种基于DDS技术的任意波形发生器(AWG)的改进结构。
In the paper the dynamic responses of a multi support structure to an arbitrary excitation waveform is carried out by use of the multiple point excitation approach.
运用多点激振方法,求解多支承结构在任意波形下的动响应。
Secondly, the output waveform signal generator can be divided into sine wave signal generator, pulse-wave signal generator, function generator and arbitrary wave generator, and so on.
其次,按输出波形又可分为正弦波、脉冲波、函数发生器和任意波发生器等。
Secondly, the output waveform signal generator can be divided into sine wave signal generator, pulse-wave signal generator, function generator and arbitrary wave generator, and so on.
其次,按输出波形又可分为正弦波、脉冲波、函数发生器和任意波发生器等。
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