Vui lòng dùng định danh này để trích dẫn hoặc liên kết đến tài liệu này: https://dspace.ctu.edu.vn/jspui/handle/123456789/12594
Nhan đề: Modeling and design of an energy-efficient dual-motor actuation unit with a planetary differential and holding brakes
Tác giả: Verstraten, Tom
Cao, Hoàng Long
Rodriguez, Cianca D.
Lopez, Garcia P.
Vanderborght, B.
Lefeber, D.
Furnemont, R.
Từ khoá: Actuators
Energye efficiency
Redundant systems
Over-actuated systems
Planetary differential
Epicyclic gears
Năm xuất bản: 2018
Tùng thư/Số báo cáo: Mechatronics;49 .- p. 134-148
Tóm tắt: By connecting two drivetrains to a single load, a redundant degree of freedom is created. In this work, we investigate how the redundancy of such a system can be exploited in order to make it more energy efficient. The system under study consists of two drivetrains coupled to a planetary differential. Both drivetrains are composed of a geared DC motor and a holding brake. First, we derive an accurate semi-empirical model of this system and prove its validity on a test setup. Based on this model, which includes nonlinear friction terms, we analyze how the power flows and energy losses depend on the redundant degree of freedom. Furthermore, we discuss how the design of the actuator can be optimized for energy efficiency. This strategy is applied to a case study, where a 250 W geared DC motor is replaced by a more efficient dual-motor actuator. Experiments confirm that a dual-motor actuator succeeds in reducing the energy consumption at various loads and speeds. We also show that the results are very sensitive to friction and other speed- and load-dependent losses.
Định danh: http://dspace.ctu.edu.vn/jspui/handle/123456789/12594
Bộ sưu tập: Tạp chí quốc tế

Các tập tin trong tài liệu này:
Tập tin Mô tả Kích thước Định dạng  
_file_1.59 MBAdobe PDFXem
Your IP: 3.146.206.87


Khi sử dụng các tài liệu trong Thư viện số phải tuân thủ Luật bản quyền.