Dynamic Characteristics and System Loss Research of the Variable Frequency Hydraulic Decoupling Control System

Peng Lei; Li Chen Gu; Pei Jin Liu

doi:10.4028/www.scientific.net/AMR.694-697.1479

Paper Titles

A Control Path Design of Communications Processor
p.1459

A Experiment Study of De-Noising to Reduce the Effect of Artificial Light Interferences for Visible Light Communications Using White-LEDs
p.1465

Research on Practical Control Circuit of SVG in Single-Phase Low Voltage Field
p.1469

Design of Intelligent Hanger Based on AT89C52 Single-Chip Microcomputer
p.1475

Dynamic Characteristics and System Loss Research of the Variable Frequency Hydraulic Decoupling Control System
p.1479

HILS Test Bench Based on Open and close Loop Test for Air ABS System
p.1484

Study on a Kind of Electric Eddy Current Retarder Using in Working Condition Tailpipe Emission Monitoring
p.1488

Study on Application of Motion Control Technology
p.1492

The Research of Closed Loop Control of AC Motor Based on J-M Transformation Control
p.1496

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 694-697Dynamic Characteristics and System Loss Research...

Dynamic Characteristics and System Loss Research of the Variable Frequency Hydraulic Decoupling Control System

Abstract:

In this paper, based on the nonlinear state feedback decoupling method, the dynamic transfer function of the inductor motor and pump control motor is setup, and the variable frequency hydraulic control system is realized to solve the contradiction between efficiency and dynamic characteristics using traditional control method. The simulation results show that this system has the better dynamic performance than VCS (Vector Control System). Then in order to optimize the system, the dynamic mathematical model including iron losses is built from the aspect of energy transmission. At last the condition of minimum loss of the system is deduced.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 694-697)

Pages:

1479-1483

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.694-697.1479

Citation:

Cite this paper

Online since:

May 2013

Authors:

Peng Lei, Li Chen Gu, Pei Jin Liu

Keywords:

Decoupling Control, Dynamic Performance, Nonlinear State Feedback, Variable Frequency Hydraulic System

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] PENG Tian-hao, XU Bing, YANG Hua-yong ．Development and research overview on variable frequency hydraulic technology [J]．Journal of Zhejiang University，2004,38（2）：215-221.

Google Scholar

[2] CHENG Qi-ming，CHENG Yin-man，WANG Ying-fei，et al．Overview of control strategies for AC motor[J]. Power System Protection and Control，2011,39（9）：145-154.

Google Scholar

[3] WU Wan-rong, LIU Mei-lin, LI Li-zheng，etal．A decoupling schemes used in field oriented control for frequency conversion hydraulic timing system [J]．Journal of Central South University of Technology，2005,36（6）：1037-1048 .

Google Scholar

[4] Chen BO-shi. Automatic control system of electric drive[M]. Beijing, China Machine Press.

Google Scholar

[5] Chen Bo-shi Xie Hong-ming．The Control Strategies of AC Drives[J]．Transactions of China Electrotechnical Society，2000，15（5）：11-15 .

Google Scholar

[6] LEVI E．Impact of iron loss on behavior of vector controlled induction machines[J]．IEEE Trans on Industry Applications，1995，31(6)：1287-1296．

DOI: 10.1109/28.475699

Google Scholar

[7] Gu Lichen，Zhang Youyun，Qiu Damou．Study on detection of running condition for hydraulic power system based on current signal [J]．Chinese Journal of Mechanical Engineering, 2001,37(6)：61-65.

DOI: 10.3901/jme.2001.06.061

Google Scholar

[8] Cao Jian-rong，Yu Lie，Xie You-bai． Decoupling and Vector Control of Induction Motor[J]. JOURNAL OF XI'AN JIAOTONG UNIVERSITY，2000，34（6）：71-75.

Google Scholar

[9] WANG Wen-tao，LIU Xue-jia．Decoupling control of asynchronous motor based on feedback linearization theory[J]．Journal of Shenyang University of Technology，2009,31（1）：22-25.

Google Scholar

[10] Wang Chunxing. Hydraulic control system[M], Beijing, China Machine Press.

Google Scholar

[11] Shang Yunqiu, Shi Nai. Electrical Machinery[M], Beijing, China Machine Press.

Google Scholar