Your search keyword '"L.J. Borle"' showing total 2 results

1. Lossless Inductor Current Sensing Method With Improved Frequency Response

Author

Herbert Ho-Ching Iu, L.J. Borle, Robert C. Woodward, and S. Ziegler

Subjects

Engineering, Frequency response, business.industry, Low-pass filter, Electrical engineering, Sense (electronics), Inductor, Cutoff frequency, law.invention, Inductance, Capacitor, law, Electronic engineering, Waveform, Electrical and Electronic Engineering, business

Abstract

The lossless inductor current sensing method is well-known and is frequently applied in the measurement of output current in DC-DC converters due to its low cost and simplicity. This technique uses a low-pass filter that is matched to the inductance (L) and winding resistance to compensate for induced voltages due to the inductor. However, the waveform fidelity above the corner frequency of the inductor is generally poor due to large production tolerances and thermal drift. In this letter, we propose the use of a coupled sense winding, which increases the corner frequency of the sensing circuit by more than two orders of magnitude. We show, as an example, that for a 3.85 muH inductor the corner frequency of the measurement circuit can be increased from 36 Hz using the conventional approach to 5.8 kHz using the coupled sense winding method. Above the new corner frequency, a low-pass filter is still required but may now be constructed using a smaller capacitor and with improved high-frequency response.

Published

2009

2. Zero average current error controlled power flow for AC-DC power converters

Author

C.V. Nayar and L.J. Borle

Subjects

Harmonic analysis, Engineering, business.industry, Control theory, Harmonics, Waveform, Power factor, Electrical and Electronic Engineering, Converters, business, Power (physics), Voltage, Power control

Abstract

Unity and controlled power factor AC-DC power converters require a current control technique with zero average current error (ZACE) in each switching period. Acting on the current error signal alone, a ZACE controlled converter offers complete real and reactive power flow control with negligible low order current harmonics, a narrow switching frequency band, and relative immunity to DC link or AC line voltage harmonics. Slope-generated hysteresis, a new ZACE current control method is introduced. Simulation and experimental results in a three phase converter are presented. >

Published

1995