100 MHz Digital Oscilloscope, 2 Channels, 1 GSa/s

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$841.59

Good price 100 MHz digital storage oscilloscope with 1 GSa/s sampling rate, 1 GSa/s sampling rate, and 2 channels. The 2-channel oscilloscope is a kind of digital equipment with a storage function, which adopts a digital circuit for analog/digital conversion.

SKU: ATO-SCOPE-100M2

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Overview

High-accuracy dual-channel digital oscilloscope with 100 MHz bandwidth, 1 GSa/s sampling rate, 8 bits vertical resolution. Digital oscilloscope has the advantages of waveform triggering, storage, display, measurement, and waveform data analysis and processing.

Specification

Model	ATO-EDS-102C
Bandwidth	100 MHz
Channel	2+ external trigger
Sample rate	1 GSa/s
Acquisition model	Sample, Peak detect
Record length	10M
Display	8 inch LCD
Waveform refresh rate	10000 wfrms/s
Input coupling	DC, AC, Ground
Probe attenuation	1X, 10X, 100X, 1000X
Input Impedance	1MΩ ± 2%, in parallel with 10pF ± 5pF
Max. input voltage	400V (DC+AC, PK - PK)
Bandwidth limit(typical)	20MHz / Full bandwidth
Sampling rate range	2ns/div ~ 100s/div,step by 1-2-5
Vertical Resolution	8 bits
Sensitivity Resolution	2mV/div~10V/div
Low Frequency（-3db）	≥10 Hz (at input, AC coupling)
Rise time (at input, Typical)	≤5.8ns
Trigger type	Edge
Trigger model	Auto, Normal, single
Trigger level range	±6 div from the screen center
Automatic measurement	Vpp, Vavg, Vrms, Frequency, Period, Vmax, Vmin, Vtop, Vbase, Vamp, Overshoot, Preshoot, Rise Time, Fall Time, +Width, -Width, +Duty, -Duty, DelayA→B , DelayA→B
Cursor measurement	ΔV, ΔT, ΔT&ΔV between cursors,auto cursor
Dimension	34015570mm
Weight	1.8kg

Accessories

Power cable
USB cable
Probe
Probe Adjust
Quick Guide

Dimension

Dimension of 100 MHz digital oscilloscope

Tips: When should the oscilloscope sample rate be considered?

Bandwidth is dependent on the object being measured. On the premise that the bandwidth is satisfied, it is hoped that the minimum sampling interval (the reciprocal of the sampling rate) can capture the signal details you need. When selecting a sine wave, the bandwidth of the oscilloscope should be more than 3 times the frequency of the measured sine signal, and the sampling rate should be 4 to 5 times the bandwidth, which is actually 12 to 15 times the signal; for other waveforms, Make sure the sampling rate is high enough to capture signal details. If you are using an oscilloscope, you can verify whether the sampling rate is sufficient by the following method: Stop the waveform and zoom in on the waveform. If you find changes in the waveform (such as certain amplitudes), it means that the sampling rate is not enough, otherwise it will be fine. In addition, point displays can also be used to analyze whether the sampling rate is sufficient.

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