Electric Drives and Electromechanical Systems: Applications and Control (Paperback)
Richard Crowder
- 出版商: Newnes
- 出版日期: 2006-01-01
- 定價: $1,864
- 售價: 8.0 折 $1,491
- 語言: 英文
- 頁數: 312
- 裝訂: Paperback
- ISBN: 0750667400
- ISBN-13: 9780750667401
-
相關分類:
控制系統 Control-systems、電機學 Electric-machinery
立即出貨 (庫存=1)
買這商品的人也買了...
-
$1,150$1,127 -
$3,480$3,306 -
$3,240$3,078 -
$880$581 -
$450$383 -
$350$315 -
$1,350Verilog HDL: Digital Design and Modeling (Hardcover)
-
$1,350$1,323 -
$980$774 -
$550$435 -
$680$530 -
$1,570$1,492 -
$1,225Computer Systems: A Programmer's Perspective, 2/e (IE-Paperback)
-
$1,720$1,634 -
$1,960The Circuit Designer's Companion, 3/e (Paperback)
-
$1,570$1,492 -
$349$297 -
$1,235High-Frequency Integrated Circuits (Hardcover)
-
$780$616 -
$550$468 -
$520$411 -
$620$527 -
$580$458 -
$1,380$1,352 -
$1,880$1,786
相關主題
商品描述
Description
The focus of this book on the selection and application of electrical drives and control systems for electromechanical and mechatronics applications makes it uniquely useful for engineers in industry working with machines and drives. It also serves as a student text for courses on motors and drives, and engineering design courses, especially within mechanical engineering and mechatronics degree programs. The criteria for motor-drive selection are explained, and the main types of drives available to drive machine tools and robots introduced. The author also provides a review of control systems and their application, including PLCs and network technologies. The coverage of machine tools and high-performance drives in smaller applications makes this a highly practical book focused on the needs of students and engineers working with electromechanical systems.
Table of Contents
1 Electromechanical Systems; 1.1 Principles of automation; 1.2 Machine tools; 1.2.1 Conventional machining processes; 1.2.2 Non-conventional machining; 1.2.3 Machining centres; 1.3 Robots; 1.3.1 Industrial robots; 1.3.2 Robotic hands; 1.3.3 Mobile robotics; 1.3.4 Legged robots; 1.4 Other applications; 1.4.1 Automotive applications; 1.4.2 Aerospace applications; 1.5 Motion-control systems; 1.6 Summary; 2 Analysing a drive system; 2.1 Rotary systems; 2.1.1 Fundamental relationships; 2.1.2 Torque considerations; 2.1.3 Gear ratios; 2.1.4 Acceleration without an external load; 2.1.5 Acceleration with an applied external load; 2.1.6 Accelerating loads with variable inertias; 2.2 Linear systems; 2.3 Friction; 2.4 Motion profiles; 2.5 Assessment of a motor-drive system; 2.5.1 Mechanical compatibility; 2.5.2 Electromagnetic compatibility; 2.5.3 Wiring considerations; 2.5.4 Supply considerations; 2.5.5 Protection from the environment; 2.5.6 Drive hazards and risk; 2.6 Summary; 3 Power transmission and sizing; 3.1 Gearboxes; 3.1.1 Planetary gearbox; 3.1.2 Harmonic gearbox; 3.1.3 Cycloid gearbox ; 3.2 Lead and ball screws; 3.3 Belt drives; 3.4 Bearings; 3.4.1 Conventional bearings; 3.4.2 Air bearings; 3.4.3 Magnetic bearings; 3.5 Couplings; 3.6 Shafts; 3.6.1 Static behaviour of shafts; 3.6.2 Transient behaviour of shafts; 3.7 Linear drives; 3.8 Review of motor-drive sizing; 3.8.1 Continuous duty; 3.8.2 Intermittent duty; 3.8.3 Inability to meet both the speed and the torque requirements; 3.8.4 Linear motor sizing; 3.9 Summary; 4 Velocity and position transducers; 4.1 The performance of measurement systems; 4.1.1 Random errors; 4.1.2 Systematic errors; 4.1.3 Digital-system errors; 4.1.4 Analogue-digital and digital-analogue conversion errors; 4.1.5 Dynamic performance; 4.2 Rotating velocity transducers; 4.2.1 Brushed d.c. tachogenerators; 4.2.2 Brushless d.c. tachogenerators; 4.2.3 Incremental systems; 4.2.4 Electromechanical pulse encoders; 4.3 Position transducers; 4.3.1 Brushed potentiometers; 4.3.2 Linear variable differential transformers - LVDT; 4.3.3 Resolvers; 4.3.4 Rotary and linear Inductosyn; 4.3.5 Optical position sensors; 4.4 Application of position and velocity transducers; 4.4.1 Mechanical installation; 4.4.2 Electrical interconnection; 4.4.3 Determination of datum position; 4.5 Summary; 5 Brushed direct-current motors; 5.1 Review of motor theory; 5.2 Direct-current motors; 5.2.1 Ironless-rotor motors; 5.2.2 Iron-rotor motors; 5.2.3 Torque motors; 5.2.4 Printed-circuit motors; 5.3 Drives for d.c. brushed motors; 5.3.1 Four-quadrant thyristor converters; 5.3.2 Linear amplifiers; 5.3.3 Pulse width modulated servo drives; 5.3.4 Analysis of the bipolar PWM amplifier; 5.3.5 PWM amplifiers; 5.4 Regeneration; 5.5 Summary; 6 Brushless motors and controllers; 6.1 The d.c. brushless motor; 6.1.1 Torque-speed characteristics; 6.1.2 Brushless d.c. motor controllers; 6.2 Sinewave-wound brushless motors; 6.2.1 Torque characteristics; 6.2.2 Voltage characteristics; 6.2.3 Torque-speed characteristics; 6.2.4 Control of sinewave-wound brushless motors; 6.3 Linear motors; 6.4 Summary; 7 Induction motors; 7.1 Induction motor characteristics; 7.2 Scalar control; 7.3 Vector control; 7.3.1 Vector control principles; 7.3.2 Implementation of vector control; 7.3.3 Vector Control using sensors; 7.3.4 Sensorless Vector Control; 7.4 Matrix Converter; 7.5 Summary; 8 Stepper motors; 8.1 Principles of stepper-motor operation; 8.1.1 Multistack variable-reluctance motors; 8.1.2 Single-stack variable-reluctance motors; 8.1.3 Hybrid stepper motors; 8.1.4 Linear stepper motor; 8.1.5 Comparison of motor types; 8.2 Static-position accuracy; 8.3 Torque-speed characteristics; 8.4 Control of stepper motors; 8.4.1 Open-loop control; 8.4.2 Translators and drive circuits; 8.5 Summary; 9 Related motors and actuators; 9.1 Voice Coils; 9.2 Limited-angle torque motors; 9.3 Piezoelectric motors; 9.4 Switched Reluctance motors; 9.5 Shape-memory alloy; 9.6 Summary; 10 Controllers for automation; 10.1 Servo control; 10.1.1 Digital controllers; 10.1.2 Advanced control systems; 10.1.3 Digital signal processors; 10.2 Motion controllers; 10.3 Programmable logic controllers; 10.3.1 Combinational-logic programming; 10.3.2 Sequential-logic programming; 10.4 Networks; 10.4.1 Network architecture; 10.4.2 Industrial networking; 10.4.3 SCADA; 10.5 Summary; Units and Conversion Factors; Bibliography; Index.
商品描述(中文翻譯)
描述
本書的焦點是選擇和應用於電機和機電應用的電動驅動和控制系統,使其對於在機械和機電工程學位課程中特別是工業中與機械和驅動器一起工作的工程師來說非常有用。本書還作為馬達和驅動器課程以及工程設計課程的學生教材,特別是在機械工程和機電工程學位課程中。解釋了馬達驅動選擇的標準,並介紹了用於驅動機床和機器人的主要驅動器類型。作者還提供了控制系統及其應用的評論,包括PLC和網絡技術。本書涵蓋了機床和小型應用中的高性能驅動器,使其成為一本非常實用的書籍,專注於學生和工程師在電機機械系統中的需求。
目錄
1 電機機械系統; 1.1 自動化原理; 1.2 機床; 1.2.1 傳統加工過程; 1.2.2 非傳統加工; 1.2.3 加工中心; 1.3 機器人; 1.3.1 工業機器人; 1.3.2 機器人手; 1.3.3 移動機器人; 1.3.4 腿式機器人; 1.4 其他應用; 1.4.1 汽車應用; 1.4.2 航空航天應用; 1.5 運動控制系統; 1.6 摘要; 2 驅動系統分析; 2.1 旋轉系統; 2.1.1 基本關係; 2.1.2 扭矩考慮; 2.1.3 齒輪比; 2.1.4 無外部負載的加速度; 2.1.5 有外部負載的加速度; 2.1.6 變態慣性加速負載; 2.2 線性系統; 2.3 摩擦; 2.4 運動軌跡; 2.5 驅動系統評估; 2.5.1 機械相容性; 2.5.2 電磁相容性; 2.5.3 接線考慮; 2.5.4 供應考慮; 2.5.5 環境保護; 2.5.6 驅動危害和風險; 2.6 摘要; 3 傳動和尺寸選擇; 3.1 齒輪箱; 3.1.1 行星齒輪箱; 3.1.2 諧波齒輪箱; 3.1.3 周期齒輪箱; 3.2 螺桿和滾珠螺桿; 3.3 帶傳動; 3.4 軸承; 3.4.1 傳統軸承; 3.4.2 氣體軸承; 3.4.3 磁性軸承; 3.5 聯軸器; 3.6 軸; 3.6.1 軸的靜態行為; 3.6.2 軸的瞬態行為; 3.7 線性驅動; 3.8 馬達驅動尺寸選擇評論; 3.8.1 持續工作; 3.8.2 間歇工作; 3.8.3 不能滿足速度和扭矩要求; 3.8.4 線性馬達尺寸選擇; 3.9 摘要; 4 速度和位置傳感器; 4.1 測量系統的性能; 4.1.1 隨機誤差; 4.1.2 系統誤差; 4.1.3 數字系統誤差; 4.1.4 模數轉換誤差; 4.1.5 動態性能; 4.2 旋轉速度傳感器; 4.2.1 刷式直流速度發生器; 4.2.2 無刷直流速度發生器; 4.2.3 增量系統; 4.2.4 電機脈沖編碼器; 4.3 位置傳感器; 4.3.1 刷式電位計; 4.3.2 線性可變差動變壓器 - LVDT; 4.3.3 解析器; 4.3.4 旋轉和線性Inductosyn; 4.3.5 光學位置傳感器; 4.4 位置和速度傳感器的應用; 4.4.1 機械安裝; 4.4.2 電氣互連; 4.4.3 測定基準位置; 4.5 摘要; 5 刷式直流馬達; 5.1 馬達理論評論; 5.2 直流馬達; 5.2.1 無鐵芯轉子馬達; 5.2.2 鐵芯轉子馬達; 5.2.3 扭矩馬達; 5.2.4