本論文使用 dsPIC 與外部硬體結合實現了無感測技術,但由於在 低轉速上控制上能可以研究如何可以以更快的方法取得換相訊號,而 不是使用開迴路模式等到一定的狀態方能得知換相訊號,使在低轉速 上會遇到的控制麻煩,雖然論文利用 Fuzzy 控制器改善了此問題,但 對 於 快 速 的 速 度 變 化 仍 然 無 法 完 美 的 改 善 , 依 然 具 有 微 量 的 速 度 誤 差。
80
參考文獻
[1 ] S. M. M. Mirtalaei, J. S. Moghani and M. Shahbazi “A Novel Sen so r l es s Con tro l S t ra t eg y for Brushless DC Moto r D riv e Ba sed o n Fuz zy L o g i c Ob se rv er , ” Universities Power Engineering Conference, pp.1-5, Dec.2007
[2 ] C. H. Ch en and M. Y. Ch eng, “A New Cost E ffectiv e S en sorless Commutation Method for Brushless DC Motors Wi thout Phase Shift Circuit and Ne utral Voltage,” IEE E Tran s. Power Electron., vol.22, no.2, pp.644-653, Mar. 2007
[3 ] J. C. Moreira, “Indirect Sensing for Rotor Flux Position of Perman en t Magn et AC Motors Op er at in g fo r a Wid e Sp e ed Range,” IEEE Tran s. Ind. A pplicat. , vol.32, no.6, pp.1394-1401, Nov./Dec. 1996
[4 ] K. Iizuka, H. Uzuhashi, M. Kano, T. Endo, K. Mohri,
“M icro co mpu ter Contro l for Sensorless Brushless Motor, ” IEEE Trans. Ind. Applicat. , v ol. 2 1 , no .4 , p p .595-601, May/June 1985
[5 ] TB6575FNG: PWM Sensorless Contro ller for 3-Phasw Full-Wave BLDC Motors , Datash ee t, Tosh ib a CMOS Integ rated Circuit Silicon Monolithic, April 2005.
[6 ] ML4425: S e n so r l e ss B L D C M o t o r C o n t ro l l e r, D a t a sh e e t , Fairchild Semi conductor Inc., July 2001.
81
[7 ] L . A . J o n es an d J. H . L an g , “ A S t a t e O b se r v e r f o r t h e Permanent-Magnet Syn ch rono u s Mo to r, ” IEEE Trans. Ind.
Electron., vol.36, no.3, pp. 374-382, Aug. 1989.
[8 ] N . H . B a e, S . K . S u l, an d J . H . K wo n , “ I mple men ta tion o f Sensorless Ve ctor Control fo r Sup er-High-Speed PMSM of Turbo-Comp ressor,” IEEE Trans. Ind. Applicat., v ol.3 9, no .3 , pp.811-818, May/Jun. 2003.
[9 ] S . M o r i mo t o , M . S a n a d a , and , Y. Tak e da, “Wide-sp eed Operation of Interior Perman e n t M a g n e t S y n c h r o n o u s M o t o r s with High-Performance Current Regulator,” IEEE Trans. Ind . Applicat., vol.30, no.4, pp. 920-926, July 1994
[10] G. J. Su and J. W. Mckeever, “Low-Cost Sensorless Control of Bru shless DC Mo tors w ith I mp r o v e d S p e e d R a n g e , ” IEEE Trans. Power Electron. , vol.19, no.2, pp.296-302, Mar. 2004 [11 ] H. Ch en, Y. Ch ang , S . L in , C. Hu ang , Y . Ch en , and K . Liang ,
“Senso rless control for dc inverter-fed compresso rs,” in P r o c . APEC’04, Anaheim, CA, 2004, pp. 1100–1106.
[1 2 ] S . N a k a s h i ma , Y. I n a g a k i , a n d I . M i k i , “ S e n sor l e s s I n i t i a l R o t o r Position Estimation of Surface Permanent-Magnet Synchronous Moto r, ” IEEE Trans. Ind. Applicat., v o l . 3 6 , n o . 6 , pp.1598-1603, Nov./Dec. 2000
[13] J. Shao, D. Nolan, M. Teissier, and D. Swanson, “A novel mi cro co n tro l l er -b a s ed s en s o rl e s s b r u sh l e s s d c (BL DC ) mo to r driv e fo r auto mo tive fu el p ump s,” IEEE Trans. Ind. Appl., v o l . 39, no. 6, pp. 1730–1740, Nov./Dec. 2003.
82
[1 4 ] J. X. Shen, Z. Q. Zhu , and D. Howe, “Sen so rless Flux Weak enin g Contro l of P e rmanen t Magnet Brush less Mach in es using Third-Harmonic Back-EMF” IEEE Trans. Ind . Ap plicat., vol.50, no.6, pp.1629-1636, Nov. /Dec. 2004
[15] “dsPIC30F Family Reference Manual,” D S 7 0 0 4 6 B , M i cro ch ip T ech no lo gy I nc., 2 0 03
[1 6 ] S . M o r i mo t o , Y. Tak e d a , T. H i r a sa , a n d K . Tan i g u c h i ,
“Expansion of operating limits for permanent magnet mo tor by cur r en t v ec to r co n trol considering inverter capacity, ” IEEE Trans. Ind. Applicat. , vol.26, no5, pp.866- 871, Sep./Oct. 1990.
[1 7 ] C. H. Ch en, W. C. Tai, and M. Y. C heng, “A naly sis o f a cost E ff e c t i v e Z e r o E m i s sio n Scooter Drive,” in p ro c . o f t h e 2 5t h EPE Conf., Ta i n a n , Ta i w a n , pp.1329-1334, Nov.2004.
[1 8 ] Y. S . L a i , F. S . S h y u , a n d Y. H . Ch an g , “No v el L o s s R e d u c t i o n Plu sew id th Modu latio n Te c h n i q u e f o r B ru s h l e s s D C M o t o r Drives Fed by MOSFET Inverter,” IEEE Tr ans. Power Electron., vol.19, pp.1646-1656, Nov. 2004
[1 9 ] Q . J i a n g , C . B i , a n d R . H uang, “A new phas e-delay method to detect back EMF zero -cro ssing po ints fo r sensorless control of spind l e mo tors,” IEEE Trans. Magnetics, v o l . 4 1 , n o . 7 , p p . 2287–2594, Jul. 2005
[2 0 ] J . S h a o , D . N o l a n , a n d T . H o p k i n s , “ A N o v e l D i r e c t B a c k E M F Detection for Sensorless Brushless D C (BLDC ) Moto r Driv es,”
Applied Power Electronic Conference, p p . 3 3 - 3 8 , 2 0 0 2 .
83
[2 1 ] N. Ma t su i, “ S en so rl e s s PM Bru sh l e s s DC Mo to r D r iv e r, ” I E E E Trans. Ind. Electron., vol.43, no.2, pp.300-308,Apr. 1996 [2 2 ] J . S . K i m an d S . K . Su l, “N ew ap p ro ach fo r h ig h -p er fo r man c e
P M S M d r i v e s w i t h o u t r o t at i o n a l p o s i t i o n s e n s o r s , ” IEEE Trans.
Power Electron., vol. 12, no. 5, pp. 904-911, Sept. 1997.
[23 ] S. Og asawara and H. Akag i, “An approach to position s en so r le s s d r ive f o r b ru sh l e ss DC mo to r, ” IEEE Trans. Ind.
Applicat., vol. IA-27, no. 5, pp. 928-933, Oct. 1991.
[24 ] Y. S . L a i , F. S . S h y u , a n d S. S. Tseng, “New initial position detection technique for three-phase brushless DC mo tor without position and curr ent sensors,” IEEE Trans. Ind. Applicat. , v o l . 39, no. 2, 99. 485-491, Mar. /Apr. 2003.
[25 ] W. J . L e e a n d S . K . S u l , “ A new starting method o f B L D C mo t o r s without positio n s e n s o r, ” IEEE Trans. Ind. Applicat. , v o l . 4 2 , no. 6, pp. 1532-153, Nov./Dec. 2006.
[26 ] Z ad eh , L .A. , “Fu zzy s et s , ” Information and Contro l, vol.8, pp.338-353
[2 7 ] Wi told P edry c z, “Fuzzy Co ntro l and Fu zzy S ystem,” Research Studies Press Ltd, 1989
[2 8 ] C . C . L e e , “ F u z z y l o g i c in cont rol sy st e ms: fuzzy logic controller, part II,” IEEE Tr ans. on S M C . , 2 0 ( 2 ) : 4 1 9 - 4 3 5 , 1 9 9 0 [2 9 ] C . C . L e e , “ F u z z y l o g i c in cont rol sy st e ms: fuzzy logic
controller, part I,” IEEE Tran s. on S MC. , 2 0 ( 2 ) : 4 0 4 - 4 1 8 , 1 9 9 0
84
[30 ] M. Mi zu mo to and H. J. Z i mmer ma n , “Co mp ar i so n o f fuz zy reasoning me thods,” F u z z y S e t s a n d S y s t e m s , vol.8, No.3, PP.253-283, 1982
[31 ] J. F. B a ld win, “A n ew appro ach to ap proximate reasoning using f u z z y l o g i c , ” Fuzzy Sets and Systems , 2 , pp.309-325, 1979 [32 ] Leh Luoh, Wen-June Wang, Yi-Ke Liaw, “ New algorithm for
solving fuzzy relation equations," Mathematics and Computers in Simulation, vol. 59, Issue:4, pp. 329-333, June 1, 2002.
[3 3 ] Qu ad r ad o , J .C .; Fern ando Silv a, J.“O n th e elimin ation of steady-state errors with an “ela s t i c ” f u z z y p o s ition controller for mo tor d r ives,” Industrial Electronics, Contro l, and Instrumentation Conference, v o l . 1 , pp.194-199, N o v, 1 9 9 3
[34] Woo-Yong Han, Sang-Min Kim’, Sung-Joong Kim, Chang-Goo Lee “Sensorless Vector Control of Induction Motor using Improved Self-Tuning Fuzzy PID Controller,” S I C E A n n u a l Conference in Fukui, August 4-6,2003
[35] 孫清華,“最新無刷直流馬達",全華科技圖書,Dec. 2001
85
個人簡介
姓名:陳偉哲
就讀學校:國立台灣師範大學
系所:工業教育研究所-電機電子組 學歷:私立逢甲大學自動控制工程學系 專長:IC 應用
研究方向:模糊控制器應用於無感測技術 著作:
1. “ Implementation of Sensorless Brushless DC Motor Control,"第十五屆模糊理論及其應用會議
2. “PID Control of Brushless DC Motor without sensors,"2008 中華民國系統科學與工程研討會
3. “離心鑄造法於奈米製程上之新應用,"鑄造科技 212 期
4. “淺談高職 98 課程之發展與探討,"2007 海峽兩岸高等技術與職 業教育學術研討會
5. “台灣、日本與澳洲技職教育未來發展之比較,"高等教育治理與 發展之各國經驗分析與比較 國際學術研討會