-40%

Excellent Tektronix P6022 Current Probe + Termination/ Fully Refurbished

$ 366.96

Availability: 13 in stock
  • All returns accepted: Returns Accepted
  • Refund will be given as: Money Back
  • Return shipping will be paid by: Buyer
  • Item must be returned within: 30 Days
  • Condition: Seller refurbished
  • Restocking Fee: No

    Description

    Tektronix P6022 AC Current Probe
    5-foot cable version
    This Tektronix P6022 current probe has been professionally refurbished, tested and checked out, electrically and mechanically, both are in excellent working order.
    All switches, BNC pins were replaced, cleaned/polished up to ensure perfect connection.
    Second picture shows probe's response to
    100KHz
    square wave current signal.
    It is in
    EXCELLENT
    physical condition.
    It has the standard 5-foot-long cable.
    This sale includes P6022 probe, passive termination (Tek P/N 011-0106-00),  3" and 6" ground leads, instruction/service manual (Tek P/N 070-0948-04).
    one-day shipping with cleared payment.
    30 days Right-of-Return.
    AC Current Probes
    P6022
    Features & Benefits
    P6022
    935 Hz to 120 MHz
    6 A Peak
    For 1 MΩ Inputs
    Shielded Probe Heads
    AC Only
    Split Core
    Applications
    Motor Drives
    Inverters
    Power Supply
    Avionics
    P6022 Current Probes
    The P6022 Current Probe provides versatile AC current measurements. Both probes provide accurate current measurements over a wide range of frequencies. The P6022 allow current measurements without breaking the circuit by clipping onto the current carrying conductor. Shielded probe heads are not grounded when the slides are in their open positions, eliminating accidental grounding of the circuit under test.
    With a head size of 0.47 in. x 0.25 in. (10 mm x 6 mm, about half the size of the P6021) and a bandwidth of 935 Hz to 120 MHz, the P6022 is ideal for measuring currents in compact, high-performance circuits. Passive termination output is switchable between 1 mA/mV or 10 mA/mV.