Small-Signal Transfer Functions of the Classical Boost Converter Supplied by Ultracapacitor Banks

Ultracapacitor is an emerging device for energy storage that can replace batteries in some short-term applications. Due to the fact that the terminal voltage of an ultracapacitor varies with the level of energy stored, a power electronic converter with voltage boosting capability is usually needed at its terminals to interface with a load operating at a constant voltage. For the case of a classical boost dc-dc converter supplying a resistive load by drawing energy from a bank of ultracapacitors, the paper derives small-signal transfer functions by considering a time-varying steady-state. To reduce the complexity of resulting exact expressions of poles, highly accurate approximate expressions are also derived. Furthermore, it compares how the control characteristics change when a constant voltage source such as a battery replaces the ultracapacitor bank. A numerical example is presented to demonstrate the accuracy of the approximate values of poles and zeros and to describe how the poles and zeros vary with the duty ratio.

[1]  P.N. Enjeti,et al.  An approach to achieve ride-through of an adjustable speed drive with flyback converter modules powered by super capacitors , 1999, Conference Record of the 1999 IEEE Industry Applications Conference. Thirty-Forth IAS Annual Meeting (Cat. No.99CH36370).

[2]  Dipti Srinivasan,et al.  A novel tri-state boost converter with fast dynamics , 2002 .

[3]  Rik W. De Doncker,et al.  Modeling the dynamic behavior of supercapacitors using impedance-spectroskopy , 2002 .

[4]  A. Burke Ultracapacitors: why, how, and where is the technology , 2000 .

[5]  S. Rael,et al.  A physical based model of power electric double-layer supercapacitors , 2000, Conference Record of the 2000 IEEE Industry Applications Conference. Thirty-Fifth IAS Annual Meeting and World Conference on Industrial Applications of Electrical Energy (Cat. No.00CH37129).

[6]  M.F. Rose,et al.  High energy density double-layer capacitors for energy storage applications , 1992, IEEE Aerospace and Electronic Systems Magazine.

[7]  Karl J. Åström,et al.  Limitations on control system performance , 1997, 1997 European Control Conference (ECC).

[8]  R. Kötz,et al.  Principles and applications of electrochemical capacitors , 2000 .

[9]  R. Spee,et al.  Ultracapacitor-based ride-through system for adjustable speed drives , 1999, 30th Annual IEEE Power Electronics Specialists Conference. Record. (Cat. No.99CH36321).

[10]  R.W. De Doncker,et al.  Modeling the dynamic behavior of supercapacitors using impedance spectroscopy , 2001, Conference Record of the 2001 IEEE Industry Applications Conference. 36th IAS Annual Meeting (Cat. No.01CH37248).

[11]  R. D. Middlebrook Small-signal modeling of pulse-width modulated switched-mode power converters , 1988 .