Condition: Good
The Agilent InfiniiVision DSOX2002A, offers entry-level price points to fit your budget with superior performance and optional capabilities that are not available in any other oscilloscope in its class. The breakthrough technology from Agilent delivers more scope for the same budget.
This 2-channel oscilloscope model in the InfiniiVision 2000 X-Series offers 50,000 waveforms per second, gives you superior performance and functionality today, and investment protection tomorrow with full upgradability, including bandwidth.
Largest screen in its class: 8.5-inch WVGA display Fastest update rate of 50,000 waveforms per second Deepest memory: 100 kpts Reference waveforms: Store up to two waveforms in the non-volatile reference waveform memory locations, for comparing with live waveforms, and performing post analysis Best-in-class oscilloscope, integrated logic analyzer (MSO, Optional and upgradable with DSOX2MSO), and built-in 20-MHz WaveGen function generator 23 automated measurements such as voltage, time, and frequency as well as four waveform math functions including FFT Autoscale button for automatically setting the vertical, horizontal, and trigger controls for optimal viewing (can be disabled or enabled) Localized GUI and Help Upgradability: add bandwidth, digital channels, or WaveGen after purchase Segmented memory Mask Testing Connectivity: Built-in USB host (one front, one rear), and USB device ports, a web browser interface, an optional LAN/VGA module, and an optional GPIB module
Performance characteristics of the DSOX2002A:
Analog bandwidth (-3 dB): 70 MHz Channels: 2 Sample rate on each channel: 1 GSa/s per channel, 2 GSa/s interleaved Memory depth (record length): 100 kpts Display: 8.5-inch WVGA with 64 levels of intensity grading Waveform update rate: 50,000 waveforms/s, 800 x 480 pixel format Vertical resolution: 8 bits Horizontal resolution: 2.5 ps Vertical sensitivity (range): 2 mV/div to 5 V/div Bandwidth limit: 20 MHz selectable Time base range: 5 ns/div to 50 s /div Input impedance: 1 MΩ ±2% Acquisition modes
Normal Peak detect: Capture glitch as narrow as 500 ps at all timebase settings Averaging: Select from 2, 4, 8, 16, 64, up to 65,536 High resolution mode: 12 bits of resolution when ? 20 ?s/div Segmented: Re-arm time= 19 ?s (minimum time between trigger events)
Trigger modes
Edge (rising/falling alternate, either): Conventional level-driven trigger Pulse width (or glitch): Trigger on a pulse width less than, greater than, or within a time range, with a selectable time limit ranging from 17 ns to 10 s Pattern-trigger on a logical AND combination of the channels. Each channel can have a value of zero, one, don�t care (X), or a rising or falling edge (one channel only) Video: Trigger on all lines or individual lines, odd/even or all fields from composite video or broadcast standards (NTSC, PAL, PAL-M, SECAM)
Trigger coupling: Coupling selections: AC, DC, noise reject, LF reject and HF reject Automatic waveforms measurements
Voltage: Snapshot all, maximum, minimum, peak-to-peak, top, base, amplitude, overshoot, preshoot, average- N cycles, average-full screen, DC RMS- N cycles, DC RMS- full screen, AC RMS- N cycles Time: Period, frequency, rise time, fall time, + width, – width, duty cycle, delay A?B (rising edge), delay A?B (falling edge), phase A?B (rising edge,) and phase A?B (falling edge)
Waveform math
Operators: Add, subtract, multiply, FFT FFT: Windows: Hanning, flat top, rectangular; Blackman-Harris Sources: Analog channels 1 and 2
In stock