Optoelectronic Components and Circuits Design

Lecturer:

Zdeněk Burian (gar.), Vítězslav Jeřábek, Karel Novotný, Jan Voves

Tutor:

Zdeněk Burian (gar.), Vítězslav Jeřábek, Karel Novotný, Jan Voves

Supervisor:

Department of Microelectronics

Synopsis:

The subject introduces practical experience for design of important optoelectronic devices and application of the devices in optoelectronic systems. Survey of software for the optoelectronic. The programs for design of the technologic structre of the injection sources of optical radiation, optical waveguides, and devices for optical beam controlling are treated, too. Project of the devices is executed in the course of excercises, the properties of the proposed devices are checked in laboratory.

Requirements:

Syllabus of lectures:

1. Survey of software for the photonic components system design.

2. Injection lasers and diode photodetectors structures design using TCAD

3. Numeric methods for analysis of photonics waveguides structures

4. Computer-aided design of passive, electrooptic and thermooptic waveguide components

5. Waveguides with grating structures.

6. Optical planar and fibre amplifiers.

7. Design of planar and fibre optical sensors.

8. Special optical fiber for optical sensors.

9. Noise in optoelectronics components.

10. Influence of the noise to the optoelectronic circuits function.

11. Analysis of optical wave propagation in optoelectronics circuits by BMP method.

12. Professional software for optoelectronic design.

13. Software scope for optoelectronic circuits analysis.

14. Optoelectronics software transformation.

Syllabus of tutorials:

1. Design of PN photodiodes PIN and APD structures considering their properties of the devices.

2. Laser structures solution with FP, DBR and DFB feedback considering the suitable spectral properties.

3. Planar structures design for the sensor with evanescent wave.

4. Solution of Mach-Zehender with oxynitride planar waveguide as thermally controlled divider.

5. Optical transmitter design considering the spectral and thermal stability.

6. Optical receiver design considering threshold sensitivity for particular value of SNR and BER.

7. Optical demultiplexer design for DWDM system.

8. Calculation of properties of special optical fiber.

9. Calculation energy limits considering noises.

10. Solution of optoelectronic system considering attenuation and noise.

11. Calculation optical ray propagation by BMP method.

12. Optical circuit analysis by software SCOPE.

13. Optical circuit analysis by software SCOPE.

14. Design of optical system for transformation of optical beam.

Study Objective:

Study materials:

1. B.E.A. Saleh, M.C Teich: Fundamentals of Photonic. John Willey & sons, New York 1991.

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Telecommunications and Radio-engineering - Opto-electric Systems- structured studies (compulsory course)