The TAP2500  Single-ended Active FET probes provide excellent high-speed electrical and mechanical performance required for today's digital system designs.

KEY FEATURES

• Outstanding electrical performance
  • High probe bandwidth
  • Fast probe rise time
  • Excellent signal fidelity
  • ≤0.8 pF input capacitance
  • 40 kΩ input resistance
  • -4 V to +4 V input dynamic range
  • -10 V to +10 V_DC input offset range
  • ±30 V (DC + peak AC) Maximum input voltage (nondestructive)
• Versatile mechanical performance
  • Small compact probe head for probing small geometry circuit elements
  • DUT attachment accessories enable connection to SMDs as small as 0.5 mm pitch
  • Robust design for reliability
• Easy to use
  • Connects directly to oscilloscopes with the TekVPI™ probe interface
  • Provides automatic units scaling and readout on the oscilloscope display
  • Easy access to oscilloscope probe menu display for probe status/diagnostic information and to control probe DC offset
  • Remote GPIB/USB probe control through the oscilloscope
• Applications
  • Verification, debug, and characterization of high-speed designs
  • Signal integrity, jitter, and timing analysis
  • Manufacturing engineering and test
  • Signals with voltage swings up to 8 V_p-p

TAP2500 Active Probes for TekVPI™ probe interface

Selecting the right probe for your application is key to attaining the best signal fidelity in your measurements. Active probes provide truer signal reproduction and fidelity for high-frequency measurements. With our ultra-low input capacitance and unique interface, the TAP2500  Single-ended Active FET probes provide excellent high-speed electrical and mechanical performance required for today's digital system designs.

Specifically designed for use and direct connection to oscilloscopes with the TekVPI™ probe interface, the TAP2500 Active FET probes achieve high-speed signal acquisition and measurement fidelity by solving three traditional problems:

• Lower DUT loading effects with ≤0.8 pF input capacitance and 40 kΩ input resistance
• Versatile DUT connectivity for attaching to small SMDs
• Preserves instrument bandwidth at the probe tip for up to 3.5 GHz oscilloscopes