Special Components and Mechanisms for Strain-optical and Mechatronic Systems

Major: Information Technologies in Instrument Engineering
Code of subject: 7.152.05.E.031
Credits: 4.00
Department: Department of Intelligent Mechatronics and Robotics
Lecturer: Myroslav Tykhan
Semester: 2 семестр
Mode of study: денна
Learning outcomes: As a result of the course students should know: - the basis of optical and mechanical functional units mechatronics; - method of calculation of standard units mechatronic devices; - theoretical bases of construction and principles of mechatronic devices, their calculation; - functional and design features opto-mechanical assemblies mechatronic products. Trained professional should be able to: - to carry out a preliminary calculation of standard optical and mechanical components and mechatronic devices; - use elements of opto-mechanical systems; - use design features in the design of opto-mechanical components and mechatronic systems.
Required prior and related subjects: prerequsite: physics; mechanical engineering; fundamentals of mechatronic precision tools fundamentals of mechatronics; electro-mechanical components of mechatronics. corequisite: іntelligent mechatronic systems; мodeling of electronic components; modeling in instrument.
Summary of the subject: This discipline seeks to explore theoretical premises and principles of special mechanisms of optical systems and train their own calculations to perform optical-mechanical devices. Optical lighting system. Magnifying glass and microscope. Telescope system. The photographic lens. Optics television systems. Projection systems. Optical photovoltaic system. Optical systems for lasers. Optical Dual symmetry. Aberrational calculation of optical systems.
Assessment methods and criteria: • written report, oral polling (examination) (30%). • final control (control event, exam), oral-writing form (70%).
Recommended books: 1. Андреев Л.Н., Грамматин А.П., Кирюшин С.И., Кузичев В.И. Сборник задач по теории оптических систем. – М.: Машиностроение, 1987. – 192 с. 2. Апенко М.И., Запрягаева Л.А., Свешникова И.С. Задачник по прикладной оптике / Учеб. пособие для студ. оптич. специальностей вузов. – М.: Недра, 1987. – 310 с. 3. Бегунов Н.Н., Заказнов Н.П., Кирюшин С.И., Кузичев В.И. Теория оптических систем / Учебн. для оптич. спец. вузов; 2-е изд., перераб. и доп. – М.: Машиностроение, 1981. – 432 с. 4. Паламарчук В.О. Вступ до технології оптичного приладобудування / Навч. посібн.; Каф. оптики Чернівец. ун-ту. – Чернівці, 1977. – 65 с. – (НБ ЛДУ І 355036 ) 5. Турыгин И.Г. Прикладная оптика: Фотографические, проекционные и фотоэлектрические системы; Методы аберационного расчета оптических систем. – М.: Машиностроение, 1966. –431 с. - (НБ ЛДУ ІІ 111023) 6. Элементы приборных устройств (основной курс). В двух частях под редакцией О.Ф.Тищенко. М.: Высшая школа, 1982 г.