Mechatronics in Engineering

Mechatronics is a multidisciplinary field of engineering that includes a combination of systems, mechanical, electrical, telecommunications, control engineering and computer science. The App covers the subject i in detail.

Mechatronics finds it's application in AI, robotics, Sensing and control systems, auto engineering, Microcontrollers , mobile Apps and more.

The app is a handbook covering lecture notes, definitions, concepts, diagrams, formulas, theory, laws, tools, equations, calculations and graphs on the subject. The App covers the topic in a flashcard like format, purpose of the App is faster learning and revisions of the subject.

It covers more than 175 topics of Mechatronics in detail. The topics are divided in 3 units

Some of topics Covered in this application are:

1. MECHATRONICS

2. KEY ELEMENTS OF MECHATRONIC

3. HISTORY OF MECHATRONICS

4. DEVELOPMENT OF PNEUMATIC CONTROL SYSTEM

5. THE DEVELOPMENT OF THE AUTOMOBILE AS A MECHATRONIC SYSTEM

6. AUTONOMOUS VEHICLE SYSTEM DESIGN WITH SENSORS AND ACTUATORS

7. MECHATRONIC DESIGN APPROACH

8. HISTORICAL DEVELOPMENT OF MECHANICAL, ELECTRICAL, AND ELECTRONIC SYSTEMS

9. MECHATRONICS DEVELOPMENT

10. DIVISION OF MECHATRONICS

11. IMPROVEMENT OF OPERATING PROPERTIES

12. WAYS OF INTEGRATION

13. INFORMATION PROCESSING SYSTEMS (BASIC ARCHITECTURE AND HW/SW TRADE-OFFS)

14. SPECIAL SIGNAL PROCESSING

15. SUPERVISION AND FAULT DETECTION

16. INTELLIGENT SYSTEMS (BASIC TASKS)

17. CONCURRENT DESIGN PROCEDURE FOR MECHATRONIC SYSTEMS

18. MODELING PROCEDURE FOR MECHATRONIC SYSTEMS

19. REAL-TIME SIMULATION

20. CLASSIFICATION OF SIMULATION

21. HARDWARE-IN-THE-LOOP SIMULATION

22. CONTROL PROTOTYPING

23. THE MECHATRONIC SYSTEM

24. MICROPROCESSOR CONTROL SYSTEM

25. INPUT SIGNALS OF A MECHATRONIC SYSTEM

26. ANALOG-TO-DIGITAL CONVERTERS

27. OUTPUT SIGNALS OF A MECHATRONIC SYSTEM

28. SIGNAL CONDITIONING

29. MICROPROCESSOR CONTROL

30. MICROPROCESSOR NUMERICAL CONTROL

31. MICROPROCESSOR INPUT - OUTPUT CONTROL

32. MICROCONTROLLER NETWORK SYSTEMS

33. SOFTWARE ENGINEERING IN MECHATRONICS

34. TESTING AND INSTRUMENTATION

35. INTRODUCTION TO MICROELECTRONICS

36. OVERVIEW OF CONTROL COMPUTERS

37. MICROPROCESSORS AND MICROCONTROLLERS

38. DIGITAL COMMUNICATIONS

39. DYNAMIC MODELS AND ANALOGIES

40. MODEL TYPES IN DYNAMIC MODELS

41. SYSTEM RESPONSE

42. LUMPED MODEL OF A DISTRIBUTED SYSTEM

43. NATURAL FREQUENCY EQUIVALENCE

44. DYNAMIC ANALOGIES

45. MECHANICAL ELEMENTS

46. SPRING (STIFFNESS) ELEMENT

47. ELECTRICAL ELEMENTS

48. THERMAL ELEMENTS

49. FLUID ELEMENTS

50. NATURAL OSCILLATIONS

51. STATE-SPACE REPRESENTATION

52. STATE MODELS

53. TIME-INVARIANT SYSTEMS

54. FORCE AND VELOCITY SOURCES

55. TWO-PORT ELEMENTS

56. GYRATOR

57. SERIES AND PARALLEL CONNECTIONS

58. STEPS IN OBTAINING A STATE MODEL

59. OPERATIONAL AMPLIFIER

60. DC MOTORS

61. FLUID SYSTEMS

62. MECHANICAL COMPONENTS

63. TRANSMISSION COMPONENTS

64. LEAD SCREW AND NUT

65. LEAD SCREW AND NUT BASIC EQUATION

66. HARMONIC DRIVES

67. CONTINUOUSLY-VARIABLE TRANSMISSION

68. TWO-SLIDER CVT

69. THREE-SLIDER CVT

70. ROBOTIC MANIPULATORS

71. ROBOT CLASSIFICATION

72. ROBOT KINEMATICS

73. DENAVIT-HARTENBERG NOTATION

74. INVERSE KINEMATICS

75. NEWTON-EULER FORMULATION

76. SPACE-STATION ROBOTICS

77. ROBOT CONTROL ARCHITECTURE

78. HARDWARE ARCHITECTURE OF ROBOT

79. FRICTION AND BACKLASH

80. ROBOTIC SENSORS

81. ANALYTICAL MODEL ROBOTIC SENSORS

82. COMPONENT INTERCONNECTION AND SIGNAL CONDITIONING

83. COMPONENT INTERCONNECTION

84. CASCADE CONNECTION OF DEVICES

85. IMPEDANCE MATCHING

86. AMPLIFIERS

87. USE OF FEEDBACK IN OP-AMPS

88. VOLTAGE, CURRENT, AND POWER AMPLIFIERS

89. INSTRUMENTATION AMPLIFIERS

90. DIFFERENTIAL AMPLIFIER MATHEMATICALLY

91. COMMON MODE

92. ANALOG FILTERS

93. AMPLIFIER PERFORMANCE RATINGS

94. AC-COUPLED AMPLIFIERS

IMPORTANT LINKS

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Twitter : https://twitter.com/easyengineerin

Website:http://www.engineeringapps.net/

</div> <div jsname="WJz9Hc" style="display:none">机电一体化是工程，其中包括系统，机械，电气，通信，控制工程和计算机科学相结合的多学科领域。该应用程序涵盖了详细的主题我。

机电一体化发现它在人工智能，机器人传感与控制系统，汽车工程，微控制器，移动应用程序和更多的应用。

该应用程序是覆盖在主题讲义，定义，概念，图表，公式，理论，法律，工具，方程式，计算和图形的手册。该应用程序涵盖了像格式的烧录卡专题，应用程序的目的是更快地学习和主题的修订。

几乎涵盖了机电一体化的超过175个主题。该主题在3单元划分

一些在此应用中涉及的主题有：

1.机电一体化

2.机电一体化的关键要素

3.机电一体化历史

4.气动控制系统的研制

5.汽车作为机电系统的发展

有传感器和执行器6.自主汽车系统设计

7.机电一体化设计方法

8.机械，电气，电子系统的历史发展

9.机电一体化开发

10. DIVISION机电一体化

11.改进操作特性

12.整合方式

13.信息处理系统（基本体系结构和硬件/软件之间的权衡）

14.特殊的信号处理

15.监督和故障检测

16.智能系统（基本任务）

17.并行设计程序对机电系统

18.模拟程序对机电系统

19.实时仿真

20.分类模拟研究

21.硬件在环仿真

22.控制原型

23.机电一体化系统

24.微处理器控制系统

机电一体化系统的25 INPUT SIGNALS

26.模拟数字转换器

机电一体化系统的27输出信号

28.信号调理

29.微处理器控制

30.微处理器数控

31.微处理器输入 - 输出控制

32.单片机网络系统

33.软件工程机电一体化

34.测试与仪器

35.微电子学概论

36.概览控计算机

37.微处理器和微控制器

38.数字通讯

39.动态模型和类比

在动态模型40模式类型

41.系统响应

42集总动力学模型分布式系统

43.固有频率等价

44.动态类比

45.机械零件

46.​​弹簧（刚度）ELEMENT

47.电气元件

48.热敏元件

49.流体单元

50.固有振荡

51.状态空间

52.状态模型

53时不变系统

54.力和速度SOURCES

55.双端口元素

56.回转

57.串联和并联连接

58.步骤在获得State模式

59.运算放大器

60.直流电机

61.流体系统

62.机械部件

63.传动部件

64.铅螺丝和螺母

65.铅螺丝和螺母基本方程

66.谐波传动

67.无级变速器

68.两个滑块CVT

69.三滑块CVT

70.机械手

71.机器人分类

72.机器人运动学

73. DENAVIT-HARTENBERG NOTATION

74.逆运动学

75.牛顿 - 欧拉配方

76.空间站机器人技术

77.机器人控制体系结构

机器人78的硬件架构

79.摩擦BACKLASH

80.机器人传感器

81.分析模型机器人传感器

82.组件互连和信号调理

83.组件互连

器件84.级联

85.阻抗匹配

86.放大器

反馈在OP-AMPS 87.使用

88.电压，电流和功率放大器

89.仪表放大器

90.差动放大器数学学

91.共模

92.模拟滤波器

93.放大器的性能额定值

94. AC耦合放大器

重要链接

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社会联系

Facebook的：https://www.facebook.com/EngineeringEasy/

微博：https://twitter.com/easyengineerin

网址：http：//www.engineeringapps.net/</div> <div class="show-more-end">