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A Mechatronics Approach for the Design of a New High Performance ElectroHydraulic Actuator
Technical Paper
1999-01-2853
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
This paper describes the design strategy adopted for developing a new high performance actuation system referred to as the ElectroHydraulic Actuator (EHA). The design approach can be divided into fives phases that include: pre-conceptual analysis, conceptual design, preliminary design, detailed design and, integration and test. An important aspect of the design process is the use of modeling and simulation for the analysis, sizing and selection of off-the-shelf parts, and for the detailed design of new custom made components.
EHA is based on hydrostatic transmission. It is a unique device with its own characteristics and requires hydraulic components that are specifically tailored to its needs. A prototype of EHA has been produced and has demonstrated an extremely high level of performance. The performance of this prototype complies with design requirements and validates the chosen design approach.
Citation
Habibi, S. and Goldenberg, A., "A Mechatronics Approach for the Design of a New High Performance ElectroHydraulic Actuator," SAE Technical Paper 1999-01-2853, 1999, https://doi.org/10.4271/1999-01-2853.Also In
References
- Software Engineering Institute 1995 Systems Engineering Capability Maturity Model Carnegie Mellon University
- International Council on Systems Engineering 1996 Systems Engineering Capability Assessment Model International Council on Systems Engineering (INCOSE)
- Electronic Industries Alliance 1998 Systems Engineering Capability EIA Standard 731
- Electronic Industries Alliance 1998 Processes for Engineering a System EIA Standard 632
- Habibi S. Richards R. Goldenberg A. 1994 Hydraulic actuator analysis for industrial robot multivariable control: Am. Cont. Conf.
- Habibi S. Richards R. 1991 Computed-torque and variable-structure multivariable control of a hydraulic industrial robot: Pr. Inst Mech Eng. 205
- Manring N.D. Luecke G.R. 1998 Modeling & Designing a Hydrostatic Transmission with a Fixed-Dis. Motor J. Dyn. Sys. Meas. & Cont. 120 45 50
- Watton J. 1989 Fluid Power Systems Prentice Hall
- Korn J. 1972 Hydrostatic Transmission Systems Int. Textbook Ltd.
- Hunter I. 1985 Novel Actuators for Use in Robotics and Telerobotics Internal Report McGill University
- Desai J. Bobrow J.E. 1989 Modeling and Analysis of a High Torque Hydrostatic Actuator for Robotic Applications Exp. Robotics
- Arnautovic S. 1993 Electrohydraulic Actuator: Report Univ. Toronto