CAD in Medical Instrumentation

Soltan Almas Mukhtarkhanuly

The instructor profile

Description: The discipline contains the following sections. The role and interaction of types of CAD in the stages of the life cycle of instrumentation products. Classification of CAD. The number of levels of technical support. Types of CAD support. Organizational and normative legal basics of design unity. Basic terms. Functions and support for CAD. Technical support for CAD. Mathematical software. Software.

Amount of credits: 5

Пререквизиты:

  • Engineering Graphics

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: Profiling disciplines

Goal
  • The aim of the discipline is to apply computer-aided design of electronic circuits, printed circuit boards of measuring devices, as well as - to provide specialist engineering education in the field of computer-aided design of medical equipment.
Objective
  • Studying and mastering hardware, software and information technology in medical devices.
Learning outcome: knowledge and understanding
  • - standards, methodological and regulatory materials accompanying the design of automation and control systems hardware; - methods and tools for developing mathematical, linguistic, information and software for digital and measuring devices; - rules, methods and tools for the preparation of technical documentation; - modern computer tools used in the design of devices and systems; - technical characteristics and economic indicators of domestic and foreign samples of software and hardware complexes of automation and control systems.
Learning outcome: applying knowledge and understanding
  • - in organising the development and operation of software complexes for complex technical digital and measurement instrumentation of various production facilities; - in the operation of software tools for control of devices and automated systems; - in carrying out system analysis of technical systems, technological processes and production; - Mathematical modelling and computer-aided design systems for creating and improving software and hardware and automation and control systems;
Learning outcome: formation of judgments
  • - analyse and improve the performance of medical device computer-aided design systems; - formulate arguments and solve problems in computer-aided design systems for medical devices.
Learning outcome: communicative abilities
  • The ability to work effectively individually and as part of a team, demonstrating skills in leading individual teams, including interdisciplinary projects, personal responsibility, commitment to professional ethics and standards of professional practice.
Learning outcome: learning skills or learning abilities
  • Communicate in a professional environment and in society at large, including in a foreign language; analyse existing and independently develop technical documentation; clearly state and defend the results of complex engineering activities in the field of medical engineering.
Teaching methods

The following educational technologies shall be used in training sessions: - interactive lecture (application of the following active forms of learning: guided (guided) discussion or conversation; moderation; demonstration of slides or educational films; brainstorming; motivational speech); - construction of scenarios of various situations based on given conditions; - information and communication (for example, lessons in a computer lab using professional application software packages); - research and exploration (independent research activity of students in the learning process); - solution of educational tasks.

Topics of lectures
  • Topic 1: Fundamentals of automation in the design of electronic devices and systems
  • Topic 2: The history of design automation
  • Topic 3: Classification of CAD
  • Topic 4: Design documentation programmes
  • Topic 5: Introduction to AutoCAD (AutoDesk) and Compass (Ascon)
  • Topic 6: Electronic device modelling software
  • Topic 7: Electronic device modelling programmes at circuit diagram level
  • Topic 8: Electronic device modelling programmes at circuit diagram level
  • Topic 9: Introduction to the Electronics Workbench software
  • Topic 10
  • Topic 11
  • Topic 12
  • Topic 13
  • Topic 14
  • Topic 15
Key reading
  • 1. Zagidullin, R.Sh. SystemView. System-technical modelling of signal processing devices / R.Sh. Zagidullin, S.N. Karutin, V.B. Steshenko. М: Hot Line-Telecom, 2005. 294 p.
  • 2. Afanasyev, A.O. OrCAD 7.0...9.0. Designing of electronic equipment and printed-circuit boards / A.O. Afanasyev, S.A. Kuznetsova // Nauka i tekhnika. М., 2001. 464 p.
  • 3. Mitin, G.P. Symbols in domestic and foreign electric schemes / G.P. Mitin. Moscow: Izumrud, 2003. 224 p.
  • 4. D.I. Panfilov et al. Electronics and Electrical Engineering in Experiments, Volume 2, Workshop on Electronics Workbench,"Dodeca", M. 2000.
  • 5. Uvarov A.S. AutoCAD 2007 for designers.-M.: DKM Press, 2007. -400 p., ill.
  • 6. Sokolova T. AutoCAD 2007. User's library (+CD) - Saint-Petersburg: Peter, 2007. - (User's library series)
  • 7. Demidova-Panferova R.M. et al, Problems and examples of calculations in electrical measuring technique: Textbook for universities / R. M. Demidova-Panferova, V. N. Malinovsky, Yu. S. Solodov -2nd ed., revised and extended. - M.: Energoatomizd, 1990. -192 p.: ill.
Further reading
  • 8.https://yandex.kz/video/preview/2618692415572890121
  • 9.https://yandex.kz/video/preview/12512297295295878914