DPO73304SX

Brand: Tektronix

33 GHz Digital Phosphor Oscilloscope, 2 Ch, 33GHz, 100GS/s or 4 Ch, 23GHz, 50GS/s

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Product specifications

Plus d'infos
Manufacturer	Tektronix
Réf.	TEK-DPO73304SX

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Product description

Scalable Performance Oscilloscopes

DPO70000SX ATI Performance Oscilloscope

DPO70000SX provides ultra-high bandwidth real time signal acquisition and analysis up to 70 GHz analog bandwidth. The patented Asynchronous Time Interleaving (ATI) architecture provides the lowest noise and highest fidelity for real time signal acquisition.

Superior signal fidelity and excellent signal-to-noise ratio
Stable and precise multi-channel timing for most accurate analysis
Compact instrument package with flexibility for future expansion and simple reconfiguration

Introduction DPO70000SX Series oscilloscopes provide the most accurate real time performance for ultra-bandwidth applications.

Low noise, 70 GHz real time signal capture using patented ATI architecture
Compact 5 ¼" (3U) instrument package for the most versatile multichannel systems
Precise, scalable performance using UltraSync multi-unit time synchronization bus
Highest trigger performance with >25 GHz Edge trigger bandwidth, unique Envelope trigger
14.1 Gbps hardware serial trigger - Assures triggering on the first instance of a specified 8b10b pattern to allow isolation of patterndependent effects

Low noise, high fidelity signal acquisition is critical in ultra-bandwidth applications such as long-haul coherent optical, 400G datacom and wideband RF. The flagship DPO77002SX model uses ATI (Asynchronous Time Interleaving) architecture to achieve 70 GHz and 200 GS/s (5 ps/Sample) real time acquisition performance. This patented, symmetric architecture elegantly creates an inherent noise advantage over legacy bandwidth interleaving methods. The DPO70000SX provides the lowest noise, highest fidelity and maximum performance for complex optical modulation analysis, jitter and noise analysis of high speed serial signaling and frequency, phase and modulation analysis of wideband RF signals.