Optoelectronic Systems in Telecomunication (SOT)
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Lectures - Year 2019
Amphiteater 359/Lab Room 328, Office: B6 Adress: Baritiu 26-28, Tehnical University, Cluj.
Titles | Presentation | References |
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C1- "Why SOT?" - Introduction to photonics and optical communications. Economic impact in Europe | - |
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C2- "How?"-Optical communication: Studies of propagation - Optical fibers, materials, absorption and fabrication; light propagation. First step- Software for optical components |
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C3- Types of optical fibers and their characteristics; Special optical fibers. Linear and Nonlinear effects (intermodal, chormatic dispersion, Kerr) | - |
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C4-Studies of propagation: waveguides 2D and 3D optical guides. | - |
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C5-Fiber optic components for telecommunications. Active and Passive Fiber optic components – part 1 (modulators, filters, splitters). | - |
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C6-Optical communication: Emitters - LED, Lasers | - |
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C7-Optical communications: Receivers and Photodetectors | - |
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C8- Fiber communication systems. Network troubleshooting: OTDR technique. Power budget equation. | - |
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C9-Passive and Active components – part 2: Optical Amplifiers: fiber doped, EDFA, Raman. Tunable filters, MUX/DMUX. Functional PICs: electro-optic, magneto-optic, acousto-opti | - |
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C10-Application examples: success story in Europe (Horizon2020-Actpast for Photonics-SMEs) | - |
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C11-POF – plastic optical fibers (short distance intranet, automotive) | - |
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C12-Advanced Software for optical telecommunication: Component based software. System based software. Examples of applications: Lab-on-a-chip, wearable devices, optical sensors | - |
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C13-Optical networks. WDM. LiFI. FTTH - Fiber to the home. LIDAR. SmartCity. | - |
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C14-Reviw of the presented concepts. Partial exam. | - |
Lab activities (Year 2020)
Lab Room 328, Office: B6 Adress: Baritiu 26-28, Tehnical University, Cluj.
Each individual group (3 students) will work in parallel at different activity
as follows: L1-Group1-A1; Group2-A2 s.a.Titles | Presentation | References |
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Safety rules. Introduction. A1 - Spectrometry applications - spectrometer VIS: optical sources characterisation |
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A2 - Spectrometry applications - spectrometer IR: optical sources characterisation; IR camera Optiwave: simulation of the receivers (I) |
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A3 - Optical Powermeter applications: optical source chacarterisation Optiwave: simulation of the emitters (II) |
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A4 - Optiwave simulation: 2D and 3D waveguides based on Agraval's book |
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A5-Holography setup and 3D LED holography | - |
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A6-Depth sensors | - |
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A7-LIDAR: 1R Garmin application example and LIDAR camera | - |
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A8-OTDR for network trobleshooting Traceview interpretation |
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A9-Optiwave: simulation of the optical system (III) |
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A10-Coupling parallel guides: simulations simulations in Matlab/Optiwave |
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A11-Interferometers: simulations in Matlab /Optiwave | - |
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A12-Gratings: simulations in Matlab /Optiwave | - |
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A13-Optiwave: simulation of the optical system (IV) | - |
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C14-Review of the activities |
lab examination/lab recovery |
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