Your browser does not support JavaScript!
http://iet.metastore.ingenta.com
1887

Performance evaluation of doubly-fed twin stator induction machine drive with voltage and current space vector control schemes

Performance evaluation of doubly-fed twin stator induction machine drive with voltage and current space vector control schemes

For access to this article, please select a purchase option:

Buy article PDF
£12.50
(plus tax if applicable)
Add to cart
Buy Knowledge Pack
10 articles for £75.00
(plus taxes if applicable)
Add to cart

IET members benefit from discounts to all IET publications and free access to E&T Magazine. If you are an IET member, log in to your account and the discounts will automatically be applied.

Learn more about IET membership 

Recommend Title Publication to library

You must fill out fields marked with: *

Librarian details
Name:*
Email:*
Your details
Name:*
Email:*
Department:*
Why are you recommending this title?
Select reason:
 
 
 
 
 
IEE Proceedings - Electric Power Applications — Recommend this title to your library

Thank you

Your recommendation has been sent to your librarian.

© IEE
Published

The doubly-fed twin stator induction machine (DFTSIM) is of interest as an adjustable speed drive (ASD) and a variable speed generator (VSG), as it combines the advantages of a brushless drive with the potential for high-voltage, high-power, and limited speed range applications. Previous work on the DFTSIM (or its equivalent brushless doubly-fed machine) has considered steady state performance with open loop control or dynamic performance with closed loop control, but has not considered an overall peformance evaluation with an appropriate closed loop speed control. The comparative dynamic and steady state performance of a laboratory DFTSIM drive using ‘voltage space vector control’ and ‘current space vector control’ schemes is discussed. While the magnitude of the control winding voltage (or current) space vector is dynamically controlled to obtain the desired torque in a speed control loop, its position is regulated to operate the machine in synchronous mode. Results show that the maximum efficiency for the voltage space vector control is slightly higher than that for the current space vector control scheme, but the current space vector control offers better dynamic response and minimum converter voltampere requirement. Although the reduction in the converter VA rating with the DFTSIM drive is similar to that achievable with a slip power recovery drive, the brushless DFTSIM drive has a greater potential for applications requiring high reliability and low maintenance. Further, the DFTSIM is a viable alternative in the context of non-conventional power generation such as wind and small hydro.

Inspec keywords: closed loop systems; dynamic response; variable speed drives; control system synthesis; velocity control; induction motor drives; stators; machine testing; machine theory; machine vector control

Other keywords: performance evaluation; current space vector control; ASD; nonconventional power generation; steady state performance; variable speed generator; dynamic performance; control winding space vector magnitude; adjustable speed drive; closed loop speed control; dynamic response; doubly-fed twin stator induction machine drive; equivalent brushless doubly-fed machine; voltage space vector control

Subjects: Drives; Control system analysis and synthesis methods; Velocity, acceleration and rotation control; Asynchronous machines; Control of electric power systems

References

    1. 1)
      • A Kusko , C.B. Somuah . Speed control of single-frame cascade induction motor with slip powerpump back. IEEE Trans. Industr. Appl. , 2 , 97 - 105
    2. 2)
      • Zhou, D, Spee, R, Wallace, A.K.: `Laboratory control implementations for doubly fed machines', ', Proceedings of IEEE Conference on Industrial electronics,IECON'93, 1993, p. 1181–1186.
    3. 3)
      • Chilakapati, N, Ramsden, V.S., Ramaswamy, V, Zhu, J.G.: `Comparison of closed loop speed control schemes for a doubly fed twin stator induction motor drive', Proceedings of International Power Electronics and Motion Control Conference, IPEMC-2000, 2000, Beijing.
    4. 4)
      • Gorti, B.V., Alexander, G.C., Spee, R, Wallace, A.K.: `Characteristics of a brushless doubly fed machine in a current fed modeof operation', Proceedings of IEEE Industry Applications Society Annual Meeting, 1995, p. 143–148.
    5. 5)
      • R Li , A.K. Wallace , R Spee . Determination of converter control algorithms for stable brushless doublyfed drives using Floquet and Lyapunov techniques. Proceedings of IEEE Trans. Power Electron. , 1 , 78 - 85
    6. 6)
      • Boger, M.S, Wallace, A.K., Spee, R, Li, R: `General pole number model of the brushless doubly fed machine', Proceedings of IEEE Industry Annual Meeting, 1994, p. 67–73.
    7. 7)
      • B.H. Smith . Synchronous behaviour of doubly fed twin stator induction machine. IEEE Trans. Power Appar. Syst. , 10 , 1227 - 1236
    8. 8)
      • Zhou, D, Spee, R: `Synchronous frame model and decoupled control development for doublyfed machines', Proceedings of IEEE Power Electronics Specialists Conference,PESC'94, 1994, p. 1229–1236.
    9. 9)
      • Chilakapati, N, Ramsden, V.S., Ramaswamy, V, Zhu, J.G.: `Investigations of doubly fed twin stator induction motor as a variablespeed drive', Proceedings of International Conference on Power electronics,drives and energy systems, PEDES'98, 1998, Perth, p. 160–165.
    10. 10)
      • S Williamson , A.C. Ferreira . Generalized theory of the brushless doubly fed machine: Part 2: Modelverification and performance. Proc. IEE, Electr. Power Appl. , 2 , 123 - 129
    11. 11)
      • C.D. Cook , B.H. Smith . Stability and stabilization of doubly fed single frame cascade inductionmachines. Proc. IEE , 1168 - 1174
    12. 12)
      • R Li , A.K. Wallace , R Spec , Y Wang . Dynamic simulation of brushless doubly fed machines. IEEE Trans. Energy Convers. , 3 , 445 - 452
http://iet.metastore.ingenta.com/content/journals/10.1049/ip-epa_20010327
Loading

Related content

content/journals/10.1049/ip-epa_20010327
pub_keyword,iet_inspecKeyword,pub_concept
6
6
Loading
Print this page
This is a required field
Please enter a valid email address