回收、出售泰克 P7340A差分探头
差分探头| P7340A差分探头| P7340A差分探头| P7340A差分探头| P7340A
Signal Fidelity
>12.5 GHz Bandwidth (P7313, Typical)
>8.0 GHz Bandwidth (P7380A, Typical)
>6.0 GHz Bandwidth (P7360A, Typical)
>4.0 GHz Bandwidth (P7340A, Typical)
Extended Linear Dynamic Range
1.25 Vp-p at 5x Attenuation (P7313)
4 Vp-p at 25x Attenuation (P7313)
2 Vp-p at 5x Attenuation (P7380A, P7360A, P7340A)
5 Vp-p at 25x Attenuation (P7380A, P7360A, P7340A)
Low Probe Loading
DC Input Resistance
100 kΩ Differential
50 kΩ Single Ended
AC Loading
Zmin >200 Ω out to 10 GHz (P7313)
Zmin >290 Ω, 4 GHz to 8 GHz (P7380A, P7360A, P7340A)
Versatility
Make Differential or Single-ended (Ground-referenced) Measurements*1
Solder-down Capability
Handheld Probing with Variable Spacing and Compliance
Fixtured Probing
Interchangeable Tip-Clip? Assemblies
Connect to a Variety of Devices
Economical
TekConnect? Interface
Applications
Examples Include, but are not Limited To:
PCI-Express I and II, Serial ATA II, USB 2.0, DDRII, DDRIII, Fireware 1394b, Rambus, XAUI
*1 For details, please see application note 60W-18344-0, “Making Single-ended Measurements with Differential Probes.”
Z-Active? Probing Architecture Leads the Way for High-speed Probing Applications
Tektronix has created a revolutionary Z-Active probe architecture that sets the industry benchmark for signal fidelity. Tektronix active probe architecture preserves high bandwidth while providing improved connectivity with low loading. The Z-Active architecture is a hybrid approach composed of a distributed attenuator topology feeding an active probe amplifier.
The Z-Active probes use a tiny passive probe tip element that is separate from the amplifier, extending the usable reach of the probe. In traditional active probes, adding this much length can introduce signal fidelity problems. However this architecture maintains high DC input resistance and presents a higher AC impedance than previous probe architec