Checking date: 05/09/2022


Course: 2022/2023

Photonics Technologies III
(17361)
Master in Photonics Engineering (Plan: 374 - Estudio: 338)
EPI


Coordinating teacher: SANCHEZ PENA, JOSE MANUEL

Department assigned to the subject: Electronic Technology Department

Type: Compulsory
ECTS Credits: 6.0 ECTS

Course:
Semester:




Requirements (Subjects that are assumed to be known)
No prerequisites.
Objectives
Upon successful completion of this course students will be able to: - Understand the working principle of photodetectors, amplifiers and signal conditioning circuits to select and use the most suitable ones in an application - Know the noise sources in photonic systems in order to evaluate their performance - Apply signal processing techniques to improve optical systems - Understand and apply optical modulation and multiplexing techniques - Analyze current optical communications systems - Propose and design photonic systems based on discrete components for sensor applications
Skills and learning outcomes
Description of contents: programme
This course together with the other two contained in the subject "Foundations of Photonic Engineering" (Photonic Technologies I and Photonic Technologies II) provides students the fundamental knowledge for the development of itineraries proposed in the Master. Contents proposed in this subject provide new tools and concepts associated with the operation, specification and design of photonic systems, including the selection and use of active and passive photonic devices available in the market and that can be incorporated in high added value photonic systems. The program of the subject "Photonic Technologies III" is divided into 4 blocks: I: Receivers in Photonic Systems - Photodetectors. Working principle - Amplifiers and conditioning circuits - Noise in optical receivers - Signal and image processing techniques II: Optical Modulation and Multiplexing - Modulation techniques. Modulation techniques for optical communications systems - Multiplexing techniques (OTDM, WDM, OFDM, SDM...) III:Current Optical Communications Systems Analysis - Optical communications link components and performance - Application examples IV: Photonic Systems for Sensors Applications - Sensors based on photonic components. Working principle - Application examples
Learning activities and methodology
TRAINING ACTIVITIES: - Lectures - Practical classes - Theoretical and practical classes - Laboratory practices - Tutorials - Team work - Individual student work TEACHING METHODS: - Exhibitions in class with teacher support and audiovisual media, in which the main concepts of matter are developed and the literature is provided to supplement student learning. - Critical reading of subject texts recommended by the teacher : newspaper articles, reports, manuals and / or academic papers, either for later discussion in class, either to expand and consolidate the knowledge of the subject. - Resolution of practical cases, problems, etc. posed by the teacher individually or in groups. - Preparation and defense of papers and reports individually or in groups.
Assessment System
  • % end-of-term-examination 60
  • % of continuous assessment (assigments, laboratory, practicals...) 40
Calendar of Continuous assessment
Basic Bibliography
  • 1. Faculty of the subject. Documentation of the subject. Faculty of the subject. 2019
  • 2. B.E.A. Saleh, M.C Teich. Fundamentals of photonics 2nd edition. Wiley Series in Applied Optics. John Wiley and Sons. 2007
  • 3. S.O.Kasap. Optoelectronics and Photonics: Principles and Practices. Pearson Education. 2013

The course syllabus may change due academic events or other reasons.