Electronic signal converters

Kuanyshbekkyzy Kerbez

The instructor profile

Description: Information on the analysis and synthesis of analog and digital signals on the basis of chips of varying degrees of integration, as well as methods and circuit implementation of the transformation of analog signals of one type to other types of analog signals and analog signals to digital signals and digital signals to analog signals.

Amount of credits: 5

Пререквизиты:

  • Electronics

Course Workload:

Types of classes hours
Lectures 15
Practical works 30
Laboratory works
SAWTG (Student Autonomous Work under Teacher Guidance) 30
SAW (Student autonomous work) 75
Form of final control Exam
Final assessment method

Component: Component by selection

Cycle: Base disciplines

Goal
  • Building knowledge on the principles of building electronic signal converters based on analog microcircuits, digital-to-analog and analog-to-digital converters and gaining practical skills in designing and calculating basic circuits of electronic converters on microcircuits, including using large and ultra-large integrated circuits of digital-analog and analog -digital converters.
Objective
  • Training of specialists in the specialty Automation and Control for the professional use of electronic analog technology for converting signals of information and measuring channels of automated process control systems.
Learning outcome: knowledge and understanding
  • Know the types of signals used in electronic information-measuring systems, the goals and objectives of signal conversion, types of signal converters. Understand the tasks of signal conversion for the needs of circuit design.
Learning outcome: applying knowledge and understanding
  • Analysis of the operation of signal converter circuits, selection of the converter circuit according to the parameters of the input and output signals. Acquisition of skills in the development of electronic converters of electrical signals, calculation and selection of components, as well as modeling of converter circuits.
Learning outcome: formation of judgments
  • Based on the studied circuitry methods for converting analog signals, make design decisions for implementing the required conversions of analog signals to fulfill the technical requirements for the modification of information signals.
Learning outcome: communicative abilities
  • Perform preliminary calculations for the circuit design of analog signal converters using CAD modeling tools.
Learning outcome: learning skills or learning abilities
  • The use of methods for calculating and designing schemes of analog signal converters based on the op-amp. The study of catalogs and passports of the latest integrated analog microcircuits and devices in order to optimize the technical and economic indicators of the designed converter of analog signal converters.
Key reading
  • 1 Фолкенберри Л. Применение операционных усилителей и линейных ИС: Пер. с анг. – М: Мир, 1985. – 872 с., ил. 2 Герасимов В.М., Скворцов В.А. Электронные цепи и микросхемотехника. Часть 2. Схемотехника ключевых устройцств формирования и преобразования сигналов: Уч. пособие. – Томск: Томский межвузовский центр дистанционного образования, 2005. – 204с.