
MSO/DPO5000B Series oscilloscopes, designed for engineers debugging and verifying complex systems, provide exceptional signal fidelity, and advanced analysis and math capabilities, for your bench or for your lab. MSO models include 16 digital timing channels and all models can be equipped to decode common serial protocols—providing a comprehensive view of your systems. Plus, you can run Windows®-based analysis software right on the scope.
Specification | |
Input Channels | 4 |
Bandwidth | 350 MHz |
Rise Time (Calculated) | 1 ns |
DC Gain Accuracy | ±1.5%, derated at 0.10%/°C above 30 °C |
Bandwidth Limits | Depending on instrument model: 1 GHz, 500 MHz, 350 MHz, 250 MHz, and 20 MHz |
Effective Number of Bits (Typical) | 6 bits (10 divisionp-p sine wave input at instrument bandwidth, 100 mV/div, 50 Ω Input Impedance, maximum sample rate, 1 k point record length) |
Random Noise (RMS, typical, sample mode, full BW, 50 Ω) | |
1 mV/div | 173 μV |
2 mV/div | 216 μV |
5 mV/div | 231 μV |
10 mV/div | 305 μV |
20 mV/div | 504 μV |
50 mV/div | 1.15 mV |
100 mV/div | 2.40 mV |
1 V/div | 22.96 mV |
Maximum Sample Rate (All channels) | 5 GS/s |
Maximum Sample Rate (1 or 2 channels) | 5 GS/s |
Maximum Equivalent Time Sampling Rate | 400 GS/s |
Maximum Record Length with Standard Configuration | 25 M |
Maximum Record Length with Option 5RL | 50 M |
Maximum Record Length with Option 10RL | 125 M |
- Wave inspector® controls provide easy navigation and automated search of waveform data
- Suite of advanced triggers, with standard Visual Trigger and Search
- 53 automated measurements, selectable filtering, waveform math and FFT analysis
- Waveform histogram, eye diagram, TIE (jitter/timing) measurement and analysis
- User-definable math using MATLAB, Visual Studio and Excel
- Optional analysis for memory, advanced jitter, serial data, power and Wideband RF
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