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FG400 Isolated Arbitrary Function Generator
The FG400 easily generates basic, application specific and arbitrary waveforms with a sine wave frequency range of .01 µHz to 30 MHz. Output waveforms consist of Sine, Square, Pulse, Ramp, Parameter-variable, Noise (Gaussian distribution), DC and Arbitrary. This unit includes isolated outputs that allow the user to use it in the development of floating circuits, like motor drives, inverters, power supplies and other power electronic devices.Features:
FG410: 1 channel. FG420: 2 channel
Output waveforms: Sine, Square, Pulse, Ramp, Parameter-variable waveform, noise, DC, and Arbitrary waveforms
Frequency range: Sine wave 0.01 µHz to 30 MHz
Amplitude resolution: 16 bits
Sampling rate: 120 MS/s
Output: 0 to 20 Volts, peak-to-peak
Synchronize up to 6 units to provide up to 12 output channels
GPIB and USB Interface
Generate waveforms acquired by Yokogawa's ScopeCorder and DL Series Oscilloscopes with XviewerLITE software
Warranty period for this instrument is 3-years
APPLICATION EXAMPLE:
# Testing Automitive parts such vehicle and motocycle speedometer by injecting pulses as speed simulator.
#Engineers and scientists have been using oscilloscopes for many years to observe and capture waveforms from electrical devices. With the advancements of oscilloscope and recorder technology, these instruments can be left in the field to capture various signals for extended periods of time. Once these signals are captured and stored, engineers are then able to perform post data analysis on all of the captured waveforms. These waveforms can be analyzed for various properties such as amplitude, frequency, rise time, distortion, time interval, etc.
Once the desired properties have been analyzed, an engineer begins to further examine the cause of the observed phenomena. The issue for a number of engineers and scientists is being able to reproduce the phenomena that was captured by an oscilloscope, especially if it is a transient event. Previously, some engineers would record the various characteristics of the waveform and then attempt to manually enter points. Yokogawa now offers a convenient solution for the following application.
With a few steps, an engineer is able to capture a signal on a Yokogawa oscilloscope, save it to a file, decimate it with the XviewerLite software, recreate it with the Arb Edit Software and then transfer it to the FG410/420 Arbitrary Function Generator. Simply download the corresponding PDF for the full step by step guide.
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