Tektronix has announced what’s said to be the world’s fastest probe to complement the world’s fastest four-channel real-time oscilloscope. At 20GHz, the new P7520 probe matches the DSA72004 Digital Serial Analyzer (DSA) oscilloscope for bandwidth, providing electrical engineers with the most advanced oscilloscope and probe combination. The P7520 is the latest addition to the P7500 probing family and sets a new record for bandwidth, provides superior signal fidelity with fast risetime and low circuit loading, a “needle nose” form factor, and patented TriMode measurement switching. When used with the DSA72004, the P7520 enables R&D engineers to debug and validate high-speed serial data circuits up to 10Gbit/s.
Customers in the consumer, communications, computer, and semiconductor areas are increasingly tasked with designing for rapidly evolving standards and having to use more exacting measurement techniques. Moving from a signal environment with moderate consideration for RF effects to one that is dominated by them, they now need to connect to and acquire multiple, fast, complex, signals simultaneously. To do this, they need fast, accurate, and easy-to-use test instruments, beginning with the probe that provides the connection to the device under test (DUT). To meet the latest needs, Tektronix is introducing the 20 GHz P7520. This speed allows customers to debug and validate the 3rd harmonic of 10 Gbit/s signals and do compliance testing to the 5th harmonic on signals up to 8 Gbit/s including PCI-Express 3, SATA Gen-3, and HDMI 1.3. The new probe provides the fastest probing solution in the marketplace.
As much as the speed, engineers need instruments that work well together to form complete solutions. When used with Tektronix’ ultra high-performance oscilloscopes such as the DSA70000 and DPO70000 Series, the Tektronix P7520 probe provides the highest signal fidelity and acquisition performance in the industry. The result is a superior test bench to speed design and test of the most advanced products with the fastest and most complex signals.
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