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An oscilloscope known as a digital storage oscilloscope (DSO) stores and analyses the input signal digitally as opposed to utilising analog methods. Due to the sophisticated trigger, storage, display, and measuring functions that it normally offers, it is now the most widely used form of oscilloscope.
The input analogue signal is sampled, and the amplitude of the signal at each sample time is recorded digitally. Electrical signals are measured and recorded by an electronic device known as a digital storage oscilloscope (DSO). It digitises the analog signal and stores it in its digital memory, making retrieval and analysis simple.
The Global Digital Storage Oscilloscope market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
The new GDS-3000A Series Digital Storage Oscilloscopes are launched by GW Instek. Power Quality, Switching Loss, Harmonic Distortion, Ripple, Inrush Current, Modulation Analysis, Safe Operation Area, Transient Response, Power Efficiency, B-H Curve, Control Loop Analysis, Power Supply Rejection Ratio, and Power On/Off Analysis are among the numerous 13 measurement functions that the power analysis kit of the GDS-3000A series offers.
Along with a number of measurement functions for time-domain signals, the GDS-3000A series offers dual-channel spectrum analysis and FFT analysis operations, which can be used to simultaneously monitor the spectrum on two channels.
The resolution bandwidth, frequency range, and centre frequency can all be customised for the spectrum analysis function.
Frequency domain component time variation analysis is provided through the built-in Spectrogram function. Engineers can test and debug their designed time domain and frequency domain signals rapidly thanks to straightforward procedures and good computational speed.
