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Hydraulic and Electric-Hydraulic Control Systems

  • R. B. Walters

Table of contents

  1. Front Matter
    Pages i-xi
  2. Part 1

    1. R. B. Walters
      Pages 1-2
    2. R. B. Walters
      Pages 3-7
    3. R. B. Walters
      Pages 8-9
    4. R. B. Walters
      Pages 10-12
    5. R. B. Walters
      Pages 13-24
    6. R. B. Walters
      Pages 25-29
    7. R. B. Walters
      Pages 30-41
    8. R. B. Walters
      Pages 42-54
    9. R. B. Walters
      Pages 79-87
    10. R. B. Walters
      Pages 97-108
    11. R. B. Walters
      Pages 109-118
    12. R. B. Walters
      Pages 119-128
    13. R. B. Walters
      Pages 129-151
    14. R. B. Walters
      Pages 152-162
    15. R. B. Walters
      Pages 163-168
    16. R. B. Walters
      Pages 169-172
    17. R. B. Walters
      Pages 173-178
    18. R. B. Walters
      Pages 179-199
    19. R. B. Walters
      Pages 200-208
    20. R. B. Walters
      Pages 209-215
    21. R. B. Walters
      Pages 216-223
    22. R. B. Walters
      Pages 224-229
    23. R. B. Walters
      Pages 230-236
    24. R. B. Walters
      Pages 237-241
    25. R. B. Walters
      Pages 242-243
    26. R. B. Walters
      Pages 244-244
  3. System Simulation Package HYDRO ANALYST

    1. R. B. Walters
      Pages 245-245
    2. R. B. Walters
      Pages 246-247
    3. R. B. Walters
      Pages 248-269
    4. R. B. Walters
      Pages 270-271
    5. R. B. Walters
      Pages 272-274
    6. R. B. Walters
      Pages 275-280
    7. R. B. Walters
      Pages 281-282
    8. R. B. Walters
      Pages 283-284
    9. R. B. Walters
      Pages 285-286
    10. R. B. Walters
      Pages 287-289
    11. R. B. Walters
      Pages 290-290
    12. R. B. Walters
      Pages 291-324
    13. R. B. Walters
      Pages 332-332
  4. Back Matter
    Pages 325-331

About this book

Introduction

Force and motion control systems of varying degrees of sophistication have shaped the lives of all individuals living in industrialized countries all over the world, and together with communication technology are largely responsible for the high standard ofliving prevalent in many communities. The brains of the vast majority of current control systems are electronic, in the shape of computers, microprocessors or programmable logic controllers (PLC), the nerves are provided by sensors, mainly electromech­ anical transducers, and the muscle comprises the drive system, in most cases either electric, pneumatic or hydraulic. The factors governing the choice of the most suitable drive are the nature of the application, the performance specification, size, weight, environ­ mental and safety constraints, with higher power levels favouring hydraulic drives. Past experience, especially in the machine tool sector, has clearly shown that, in the face of competition from electric drives, it is difficult to make a convincing case for hydraulic drives at the bottom end of the power range, specifically at fractional horsepower level. A further, and frequently overriding factor in the choice of drive is the familiarity of the system designer with a particular discipline, which can inhibit the selection of the optimum and most cost-effective solution for a given application. One of the objectives of this book is to help the electrical engineer overcome his natural reluctance to apply any other than electric drives.

Keywords

algorithms feedback hydraulics simulation structure system

Authors and affiliations

  • R. B. Walters
    • 1
  1. 1.WembleyUK

Bibliographic information

  • DOI https://doi.org/10.1007/978-94-015-9427-1
  • Copyright Information Springer Science+Business Media B.V. 2000
  • Publisher Name Springer, Dordrecht
  • eBook Packages Springer Book Archive
  • Print ISBN 978-94-015-9429-5
  • Online ISBN 978-94-015-9427-1
  • Buy this book on publisher's site
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