Applied Marine Control and Automation

Course Topics

Introduction to control systems

Concepts of feedback

Effects of feedback

Objectives of control systems

Definition of linear and non linear systems

Elementary concepts of sensitivity and robustness

Types of control systems

Mathematical model long of dynamic systems

Electrical analogy of mechanical systems

Transfer function

Block diagram

Block diagram algebra

Block diagram reduction

Signal flow graph

Signal flow graph problems

Time domain analysis

Frequency domain analysis

Stability of linear second order control systems

Measuring sensors

Pressure measuring devices

Temperature measuring devices

Flow measuring devices

Level measuring devices

Electrical tachometer

Mechanical tachometer

Salinity indicator

Oil in water monitor

Viscosity sensors

Oil mist detector

Flaw detector

Photoelectric cells

Photo conductive cells

Photovoltaic cells

Servomotor

Electrical servomotor

Hydraulic servomotor

Control Units - Introduction 1

Control Units- Introduction 2

Control Units- valve terminology

Control Units- Valve terminology 2

Control Units

Control Units- Control Valve

Control Units- Actuators 2

Controol Units- Actuator types

Control Units- Piston Actuator 1

Control Units- Piston valve 2

Control Units - Rotary Actuator

Control Units - DA and IDA

Control Units- Working diagram of IDA

Control Unit- Valve action and Actuator action

Control Unit- Electric Actuator

Control Unit- Electric Actuator 2

Control Units - Valve Positioner 1

Control Units- Valve Positioner 2

Control Units - Valve Positioner 3

Control Units - Valve positioner 4

Control Units - Valve Positioner 5

Control Units - Valve positioner 6

Control Units - Valve Posiiioner 7

Controllers- Electro pneumatic 1

Controllers- Electro pneumatic 2

Controller - Electro pneumatic 3

Controller- EH -1

Controller - EH 2

Controller - EH 3

Controller- EH 4

Controllers- EH 5

Synchros 1

Synchros 2

Synchros 3

Synchro 5

Sunchro 6

Synchro 7

Synchro 8

Synchro 9

Synchro 10

Synchro 11

Capacitive Transducers 1

Capacitive Transducers 2

Capacitive transducers 3

Capacitive Transducers 4

Capacitive Transducers 5

Variable Inductance 1

Variable Inductance 2

Variable Inductance 3

Variable Inductance 4

Variable Inductance-5

Choice of Electrical Transmission Signals 1

Choice of Electrical Transmission Signals 2

Pneumatic Controllers 1

Pneumatic Controllers 2

Pneumatic Controllers 3

Pneumatic Controllers 4

Pneumatic Controller 5

Pneumatic Controllers 6

Pneumatic Controllers 7

Pneumatic Controller 8

Pneumatic Controller 9

Pneumatic Controllers 10

Introduction to control systems

In control system and automation we are going to acquire the knowledge about automation and control engineering in ships.

CONTROL SYSTEM:

A control system is a system, which provides the desired response by controlling the output. The following figure shows the simple block diagram of a control system.

Here, the control system is represented by a single block. Since, the output is controlled by varying input, the control system got this name. We will vary this input with some mechanism. In the next section on open loop and closed loop control systems, we will study in detail about the blocks inside the control system and how to vary this input in order to get the desired response.

Examples − Traffic lights control system, washing machine

Traffic lights control system is an example of control system. Here, a sequence of input signal is applied to this control system and the output is one of the three lights that will be on for some duration of time. During this time, the other two lights will be off. Based on the traffic study at a particular junction, the on and off times of the lights can be determined. Accordingly, the input signal controls the output. So, the traffic lights control system operates on time basis.

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