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60 V Common Mode Differential Probes

The 60 V Common Mode Differential Probes are the ideal probes for lower voltage GaN power conversion measurement with the highest accuracy, best CMRR, and lowest noise.

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   60 V Common Mode Differential Probes


DL02-HCM - 250 MHz 60 V Common Mode Differential Probe. Includes standard set of leads and tips.
DL05-HCM - 500 MHz 60 V Common Mode Differential Probe. Includes standard set of leads and tips.
DL10-HCM - 1 GHz 60 V Common Mode Differential Probe. Includes standard set of leads and tips.
DL-HCM-HiTemp - DL-HCM series high-temperature solder-in tip, 30 MHz bandwidth, 1 meter length.
DL-HCM-Acc-Kit - DL-HCM series accessories kit with probe holder, micro IC grabbers (Qty 2.), and Y-banana adaptor.
Key Features
  • Ideal probe for up to 48 V power conversion
    • 250, 500 MHz and 1 GHz bandwidth
    • 80 V dynamic range
    • 60 V common mode
  • Highest accuracy
    • 0.5% gain accuracy
    • Precision gain calibration
    • Best LF flatness (0.1 dB)
  • Lowest noise and highest rejection
  • Wide variety of tips
    • High performance solder-in
    • Browser
    • Single pins and header
    • Mini and micro grabbers
    • Socketed connections
    • High temp solder-in
    • Y-banana adaptor
  • ProBus active probe interface

 

Ideal Probes for up to 48V GaN Power Conversion

60 V of common mode and 80 V differential input range with 1 GHz of bandwidth, make these probes ideal for lower voltage GaN power conversion measurements. The 60 V of common mode is well suited for handling any float of the battery and bulk/absorption voltage during charging, while the 80 V differential input range provide margin for any overshoot.

Highest Accuracy

The DL-HCM probes are calibrated for high-precision measurements to within 0.5% at DC and 0.1 dB flatness from DC to 100 MHz. This ensures high accuracy top and base voltage level measurement of pulse-width modulated signals. The Precision Gain Calibration capability furthers measurement precision by improving the gain accuracy and removing small offset drifts from the measurement configuration.

Lowest Noise and Highest Rejection

The Common Mode Rejection Ratio (CMRR) is exceptional to very high frequencies. This provides for the best measurement performance when measuring very fast slew rate (high dV/dt) PWM signals typical of GaN devices and systems. Exceptional CMRR, combined with low probe noise and high offset capability, makes the probes capable of measuring very small control signals floating on high common mode voltages.

Wide Variety of Tips

The 60 V Common Mode Differential Probes provide the perfect combination of high performance and flexibility for connecting to any device under test. An optional accessory kit and high temperature solder-in tip are available for further connectivity options.