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Thyrister Turn on
BENG electrical and electronic engineering year 2 notes for Thyrister turn on.
£5.00 Preview RemoveElectromagnetic Induction
Now gradually we are proceeding towards the application of electromagnetism which we have studied earlier. Before starting this section let’s first start what we mean by induction? In layman language; induction means introducing something new in an existing system e.g., induction of new teachers or students in a school. In the same way if we introduce E.M.F, current or magnetic properties, it will be known as induced E.M.F, induced current or induced magnetism respectively. We have a very good concept of magnetic field and its strength B which can be produced either by means of a permanent magnet or using an electromagnet. Electromagnetic induction is the most common area of physics with which people normally deal with; for example generators, transformers, electric bells, relays, loudspeakers are their common examples. The era of electromechanical saw a boom when electromagnetism along with electromagnetic induction boosted.
£3.13 Preview RemoveEasy Embedded Systems
This notes is designed in easy way to get the introduction of embedded systems which is very helpful to me as well as for the students who wanna learn what an embedded system actually is and what is does ? -Simple Lucid Language -Easy to understand -Covered Important points only
£0.50 Preview RemoveEEE 571 - RELIABILITY AND MAINTAINABILITY ENGINEERING
1.0 Reliability 1.1 The Importance of Reliability 1.2 Configuration and Functionality of Systems 1.2.1 Series System 1.2.2 Parallel System 1.2.3 Series-Parallel System 1.3 Reliability Prediction Model: Laws of Probability Relevant to Reliability Prediction 1.3.1 Multiplication Rule 1.3.2 Addition rule 1.3.3 Binomial distribution 1.4 The Reliability of a Series System 1.5 The Reliability of a Parallel System 1.6 The Reliability of a Series-Parallel System 1.7 Reliability Measurement 1.7.1 Mean Time between Failures (MTBF) 1.7.1.1 MTBF of a series system 1.7.1.2 MTBF of a Parallel System 1.7.1.3 MTBF of a Series-Parallel System 1.7.2 Mean Time to Failure (MTTF) 1.8 Derivation of MTBF, MTTF and failure rate 1.9 Failures 1.9.1 Classification of Failures 1.9.2 Failure Rate 1.9.3 Reliability and Unreliability Equation and Curves 1.10 Failure Pattern (The Bath-tub Curve) of Equipment 1.10.1 Early Failure Period 1.10.2 Constant Failure Period 1.10.3 Wearout Failure Period 1.11 Some of the Failures Which the Designer/Manufacturer Will Not Be Held Responsible 2.0 Maintainability 2.1 Factors That Affect Maintainability 3 2.2 Terminologies Relating To Maintainability 2.3 Design and Methods for Improving Maintainability 3.0 Availability 3.1 Analysis of System Availablity 3.1.1 Steady- State Availability (Ass) 3.1.2 Intantanneous Availability 3.1.3 Mission Availability 3.2 Availability of Items in Series and Parallel Combinations 4.0 Test Characteristics of Electrical and Electronic Components 4.1 Prototype Testing 4.2 Pre-production Testing 4.3 Production Testing 4.4 Reliability Demonstration and Acceptance Testing 5.0 Faults Analysis 5.0 Fault Test in Electrical and Electronic Components 5.1 Fault Tree Analysis 5.2 Methods of fault Analysis 5.2.1 Cut-Set Method 5.2.2 Tie-Set Method
£1.50 Preview RemoveCompTIA Network+ - TCP/IP Applications
CompTIA Network+ certification notes. Notes also work for any general networking class.
£1.38 Preview RemoveBASICS OF ROBOTICS
Comprehensive notes covering: - Composition, structure, and device of industrial robots -Terms and definitions -Classification of robots -Specifications IR -Robot coordinates system
£8.13 Preview RemoveInverted Pendulum Report
Classic inverted pendulum control problem is of interest that can be solved using a variety of systems and solutions. This problem is similar to trying to balance the broomstick practice. This problem invites those who are interested in the design of the system, control theory, and just plain problem-solving try to develop a working system. For this project, the motivation is to translate the mathematical models developed in control theory teaching real-time system. The design process of this project has required a great deal of planning and testing before deciding on a final design because there were so many alternatives to choose from. The design problem can be broken down into subsystems that are highly interdependent. The actual design of each subsystem is an iterative process of component testing and implementation of simple solutions until the solution "optimal" was found. The solution "optimum" may be defined as the solution, which can be developed at minimum cost that balances the pendulum better. During the design process, many obstacles have been encountered. The setbacks of the most important and time-all related to engine choice. When the first motor has been omitted, an engine torque faster and higher was obtained because the original one was not able to react fast enough in order to balance the pendulum. Since the new engine has different dimensions than the first, the entire mechanical system had to be redesigned. The next two engines broke when the control effort was too high and the direction changing rapidly, putting too much stress on the internal gears. To solve this problem, the controller has been redesigned with a closer bond on the control effort. The model is obtained on the basis of mathematical analysis of the physical system. Unknown parameters of the model are obtained from experiments in real time on the system inverted pendulum. The model was created with respect to the most nonlinearity in the system. Linearity is caused by fundamental principles of the system and by friction between the individual parts of the system. Therefore, the model is highly nonlinear and then linearization around the point of work has been performed and continuous linearized model was calculated as well as its discrete version. A controller has been constructed that has also been verified by experiments in real time.
£25.00 Preview RemoveReal Time System
This note contains Note for Real Time System by Liu chapter 9 and 11. 9 Multiprocessor Scheduling, Resource Access Control and Synchronization 11 Real-time Communication
£6.88 Preview Remove