Tektronix TDP7706 TriMode Probe

28772.1 MFG #: TDP7706
$0.00 / EA
  • Manufacturer: Tektronix
  • Condition: New
  • Option Parent Model: MSO64 6-BW-1000, MSO64 6-BW-2500, MSO64 6-BW-4000, MSO64 6-BW-6000, MSO64 6-BW-8000

QTY
  • Description

    • High bandwidth for signal fidelity
      • 6 GHz TDP7706
    • Minimal device impact
      • Thin and flexible solder tips
      • Lightweight and flexible probe cable
      • Active buffer tip design for low probe loading
    • Easy to connect TekFlex™ Connector technology
      • Pinch-to-Open accessory connector
      • Versatile Connectivity - solder down tips, optional browser for handheld or fixtured probing, and coaxial input (SMA adapter)
      • Cross compatibility with P7700 series tip accessories
      • Full Bandwidth
      • Probe cable and solder down tips operate over an extended temperature range
    • Probe and tip specific S-parameters
      • Full AC calibration of the probe and tip's signal path based upon unique s-parameter models
      • Unique DSP filters created for each probe and tip
    • FlexChannel® interface for oscilloscope/probe control and usability
      • Direct control via probe buttons or from the oscilloscope's menus
      • Automated control of probe settings via the oscilloscope
      • Automatic recognition of the probe and tip when attached to the oscilloscope

    Tektronix TDP7700 Series TriMode probes provide the highest probe fidelity available for real-time oscilloscopes. In addition, with connectivity innovations such as solder down tips with the probe’s input buffer mounted only a few millimeters from the end of the tip, the TDP7700 series probes provide unmatched usability for connecting to today’s most challenging electronic designs.

    With TriMode probing one probe setup makes differential, single ended, and common mode measurements accurately. This unique capability allows you to work more effectively and efficiently, switching between differential, single ended and common mode measurements without moving the probe's connection points.