Keysight N2800A Probe Amplifier

23711.2 MFG #: N2800A
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  • Description

Product Features

    Four models delivering up to 30 GHz (model dependent) to the probe tip Industry's lowest probe and scope system noise Industry's highest fidelity and accuracy due to bandwidth and extremely low loading Probe amplifiers loaded with measured s-parameters for more accurate response correction Probe bandwidth upgradable Variety of probe heads for different use models with maximum usability

    Industry Leading Probe Bandwidth
    The InfiniiMax III probing system provides the highest bandwidth and incredibly low loading to allow for a completely new level of signal fidelity and accuracy. Four different InfiniiMax III probe amplifiers ranging from 16 GHz to 30 GHz are available for matching your probing solution to your performance and budget requirements. A proprietary 200 GHz fT InP (indium phosphide) IC process with backside ground vias and novel thick film technology is utilized for the InfiniiMax III probe system to accommodate your highest performance needs and is unmatched by any product in the market.

    Key Features & Specifications

    Keysight N2800A, N2801A, N2802A, N2803A Probe Amplifiers
    Keysight's InfiniiMax III supports a wide variety of high-speed applications with an extensive line-up
    of probe heads and accessories.

    Bandwidth:

    • N2800A is discontinued and replaced by N7002A 16 GHz InfiniiMax III+ probe
      • 16 GHz
      • Tr = 27.1 psec
    • N2801A
      • 20 GHz
      • Tr = 27.1 psec
    • N2802A
      • 25 GHz
      • Tr = 17.4 psec
    • N2803A
      • 30 GHz
      • Tr = 14.3 psec
    Range:
    • DC attenuation ratio: 6:1 (3:1 with 200 Ω ZIF tip)
    • Input voltage range: 1.6 Vpp (0.8 Vpp with 200 Ω ZIF tip)
    • Input common mode range: ±12 V at DC to 250 Hz, ±2.5 V at >250 Hz (±6 V at DC to 250 Hz, ±1.25 V at >250 Hz with 200 Ω ZIF tip)
    • Offset range: ±16 V when probing a single-ended signal
    Input Impedance:
    • DC input resistance: R diff = 100 kΩ ±2%, R se = 50 kΩ ±2%
    • Input resistance @ >10 kHz : R diff = 1 kΩ, R se = 500 Ω
    • Input capacitance: C diff = 32 fP, C se = 48 fP (with ZIF probe head)
    Connectivity: