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Differential-pulse voltammetry (DPV) is a type of voltammetry that involves applying a series of voltage pulses to an electrochemical cell while measuring the resulting current. In DPV, the differential pulse or small potential pulses are superimposed on a linear potential sweep. The magnitude of these pulses is typically small, often in the millivolt range. Each voltage pulse lasts a short duration, usually in the order of a few milliseconds, and is applied at regular intervals along the...
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Updated: Nov 10, 2025

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Summary
This summary is machine-generated.

New capacitive sensors and directional couplers offer high attenuation for precise high-voltage pulse measurements. These advancements improve bandwidth and transient time in measuring circuits.

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Area of Science:

  • Electrical Engineering
  • Physics

Background:

  • High-voltage pulse measurements require precise and high-bandwidth instrumentation.
  • Existing attenuators can limit measurement accuracy and speed.

Purpose of the Study:

  • To introduce novel capacitive sensors and directional couplers for high-voltage pulse measurement.
  • To enhance the bandwidth and reduce transient time in measurement circuits.

Main Methods:

  • Development of capacitive sensors utilizing oxide dielectric substrates.
  • Integration of trough directional couplers for signal attenuation.
  • Analysis of wave processes for operational mode optimization.

Main Results:

  • Capacitive sensors achieve high attenuation factors (up to 30 × 10³).
  • Achieved transient time of approximately 38 ps for both sensors and couplers.
  • Demonstrated successful recording of high-voltage pulses from nanoseconds to picoseconds.
  • Utilized sensors as receiving antennas for GHz radio pulses.

Conclusions:

  • The developed sensors and couplers significantly improve measurement circuit parameters.
  • These components enable more accurate and faster high-voltage pulse analysis.
  • Proposed calibration methods enhance the reliability of attenuation factor calculations.