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 VDC 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 Vp-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
