第五章描述了虚拟任意波发生器实际产生的波形并加以分析。
The fifth chapter describes and analyzes the actual wave shape engendered by the generator.
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.
介绍了任意波发生器校准所采取的技术措施:虚拟仪器模式下的模型化测量方法;
Some technical steps in calibration AWG are presented, they are the modeling measurement methods.
对任意波发生器校准的内容、实质、目的、难点、技术等问题进行了充分的讨论和叙述。
The calibration methods of all of them are described in detail. The contents, substance, object, difficulty and techniques in the calibration of AWG are discussed.
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。
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.
辅助信号发生器的主要功能是在规定的时间段内输出正弦波或者任意波形。
The primary function of the auxiliary signal generator is output sine wave or SWIFT (stored wave form inverse Fourier transform) wave at the scheduled time.
辅助信号发生器的主要功能是在规定的时间段内输出正弦波或者任意波形。
The primary function of the auxiliary signal generator is output sine wave or SWIFT (stored wave form inverse Fourier transform) wave at the scheduled time.
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