The aim of this work is the study of the mode of operation of the circuit of the operational amplifier by simulating the modes using the software package MicroCap and consolidate the theoretical material in the section "Analog circuit design". This manual provides a description of the frequency properties of analog devices, their parameters, units of measurement on the example of the operational amplifier. Shows how to measure these parameters using the built-in means of the program MicroCap. The student must have representation on logarithmic scale of measurement, be able to explain the obtained simulation results: amplification factor, frequency response, phase response, for their version of the task and to answer questions on the topic.
This manual is aimed at the study of the mode of operation of the circuits of the integrator and differentiator based on an operational amplifier by simulating the modes using the software package Micro-Cap and consolidate the theoretical material in the section "Analog circuit design". These manual contains the description of integrator and differentiator working principles and configuration methods of elimination the output voltage effects of drift due to the excitation of operational amplifier underlying operating scheme.
This manual is aimed at the study of methods of calculation of parameters of circuits of Sallen and Kay active filters, their modes of operation through simulation using the Micro-Cap software package and consolidate the theoretical material in the section "Analog circuit design". These manual provides a description of Sallen and Kay active filters, principles and methods of calculation of circuit parameters.
Methodical instructions contain a description of the principles of the Zeeman ring laser and laser gyrocompass based on it, methods of calculation of the maximum accuracy, the analysis of physical and technical factors limiting the accuracy, the instrument errors estimation. Instructions are intended for performing the self work by the masters in the discipline "Control, orientation and navigation systems" (in the direction 230100.68 "Informatics and computer technology” – the master program "Laser intelligent navigation systems", in the direction 231300.68 "Applied mathematics” – the master program "Control and information systems in engineering").
The brochure provides an overview of methodological and practical aspects of Russian scientific organisations and universities' participation in international science and technology (S&T) cooperation. The methodological manual offers a systematized approach to conducting international collaboration and contains reference information on S&T potenatial and S&T cooperation programmes of selected foreign countries.
The research leading to these results has received funding from the Ministry of Education and Science of the Russian Federation in the framework of the project “Development of Instruments for Methodological, Information and Analytical Support of Russia’s Scientific Organizations and Universities’ Participation in International Science and Technology Cooperation” (Subsidy Agreement no 14.602.21.0013 dated August 3, 2016 with the Russian Ministry of Education and Science in the framework of the federal targeted programme “Research and Development in Russian Priority S&T Development Areas in 2014–2020”, unique identification number – RFMEFI60216X0013).
This manual is aimed at consolidating the theoretical material on the section "Computer Architecture", "Cache memory". The manual provides information about the Cache memory subsystem architecture in a multiprocessor/multi-core computer, system memory and Cache memory appointment, the description of the maintain protocols of cache memory coherency, we considered a model of operation of a subsystem of the Cache memory in a multiprocessor/multi-core system using the maintain of cache memory coherency, implemented by using different protocols: MSI, MESI, MOSI, MOESI/MESIF.
The purpose of this manual is to consolidate the theoretical knowledge in areas of "computer microarchitecture", "CPU", "CISC-to-RISC pipelines". In this manual describes the features of the organization of the work of contemporary superscalar processors, the Intel architecture when running native commands. At the end of the laboratory work the student must have an understanding of the cycle and phases of operation of the processor core for execution of the command, the micro-operations and the number of them for different phases of the command. The student should be able to explain the graphs and tables the results of modeling for their version of the task and answer the questions placed at the end of this study guide.