Title :
Hysteresis and delta modulation control of converters using sensorless current mode
Author :
Kimball, Jonathan W. ; Krein, Philip T. ; Yongxiang Chen
Author_Institution :
Grainger Center for Electr. Machinery & Electromech., Illinois Univ., Urbana, IL, USA
fDate :
7/1/2006 12:00:00 AM
Abstract :
Sensorless current mode (SCM) is a control formulation for dc-dc converters that results in voltage-source characteristics, excellent open-loop tracking, and near-ideal source rejection. Hysteresis and delta modulation are well-known, easy-to-construct large-signal methods for switched systems. Combining either large-signal method with SCM creates a controller that is simpler and more robust than a pulse-width modulation (PWM) based controller. The small-signal advantages of PWM-based SCM are retained and expanded to include converter response to large-signal disturbances. These approaches can be used with any converter topology over a broad range of operating conditions. In the present work, hysteresis and delta modulation SCM controllers are derived and simulated. Extensive experimental results demonstrate the large-signal behavior of both control schemes.
Keywords :
DC-DC power convertors; PWM power convertors; delta modulation; electric current control; hysteresis; converter topology; converters; dc-dc converters; delta modulation control; hysteresis control; near-ideal source rejection; open-loop tracking; sensorless current mode; DC-DC power converters; Delta modulation; Hysteresis; Open loop systems; Pulse width modulation; Robust control; Sensorless control; Space vector pulse width modulation; Switched systems; Voltage control; Discontinuous conduction mode (DCM); hysteresis, delta modulation; sensorless current mode (SCM);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2006.879051
