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Related Experiment Video

Updated: Jan 28, 2026

Control of Eating Behavior Using a Novel Feedback System
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Mirrored enhanced Howland current source with feedback control.

Vinicius Grando Sirtoli1, Volney Coelho Vincence1, Pedro Bertemes-Filho1

  • 1Univeridade do Estado de Santa Catarina (UDESC), Rua Paulo Malschitzki, 200, Campus Universitario Prof. Avelino Marcante, Bairro Zona Industrial Norte, Joinville, SC, Brazil.

The Review of Scientific Instruments
|March 6, 2019
PubMed
Summary
This summary is machine-generated.

A novel modified mirrored enhanced Howland current source (MEHCS) improves electrical bioimpedance measurements. This feedback-enhanced circuit achieves higher output impedance and wider bandwidth for accurate material property extraction.

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Area of Science:

  • Electrical Engineering
  • Biomedical Engineering
  • Instrumentation

Background:

  • Electrical impedance spectroscopy requires a stable current source for accurate material property measurement.
  • Standard current sources suffer from reduced output impedance at higher frequencies due to stray capacitance.
  • Existing designs struggle to maintain high output impedance across a wide frequency range for bioimpedance applications.

Purpose of the Study:

  • To develop an improved current source for wide-frequency range electrical bioimpedance measurements.
  • To enhance the output impedance and bandwidth of a Howland current source using feedback techniques.
  • To evaluate the performance of a modified mirrored enhanced Howland current source (MEHCS) compared to standard designs.

Main Methods:

  • Implementation of four MEHCS circuit variations: with/without multiplexer (MUX) and with/without feedback.
  • Measurement of output current and impedance for each circuit configuration up to 20 MHz.
  • Comparative analysis of frequency response and output impedance across different MEHCS designs.

Main Results:

  • The proposed MEHCS demonstrated superior frequency response at both lower and higher frequencies compared to the standard circuit.
  • The modified circuit achieved a tenfold increase in measured output impedance relative to the standard MEHCS.
  • Incorporating feedback significantly broadened the operational bandwidth by nearly one decade for a 1 kΩ load.

Conclusions:

  • The feedback-enhanced MEHCS is a viable solution for achieving high output impedance and wide bandwidth in bioimpedance systems.
  • This improved current source design facilitates more accurate electrical property extraction from biological materials.
  • The MEHCS offers enhanced performance for frequency-domain bioimpedance analysis.