If 12 volts are not present, check fuse, brakelight switch and Black/Red wire from brakelight switch to ECU. If 12 volts are present, brakelight switch is okay. Tutorials This section contains the following introductory tutorials.Brakelight Switch Turn ignition on. Lesson 8: Optical Systems - Working with multimode components Lesson 7: Optical Amplifiers - Designing optical fiber amplifiers and fiber lasers Lesson 6: Time-Driven Simulation - Working with individual samples Lesson 5: Bidirectional Simulation - Working with multiple iterations Lesson 4: Parameter Sweeps - BER x Input power Lesson 2: Subsystems - Hierarchical simulation Lesson 1: Transmitter - External modulated laser This document contains the following sections. Some of the information described here is also described in the Quick Start section of the OptiSystem User’s Guide.
MACH ZEHNDER MODULATOR DOES NOT EXIST IN OPTISYSTEM 14 HOW TO
You will learn how to use the software by solving problems. The most effective way for you to become familiar with OptiSystem is to complete the tutorials and read the advanced simulation projects in this document. 455 Dynamic Amplifier Using Ytterbium-Doped Fiber. 345 Excited state absorption impact on EDFA performance. 341 Optimizing the EDFA gain for WDM lightwave systems. 339 Analysis of Gain and Noise in Erbium doped fiber. 331 Sensitivity degradation-Extinction ratio. 329 Receiver sensitivity-Minimum input power. 325 Receiver sensitivity-Bit error rate (BER). 323 Receiver noise-Shot noise enhancement with APD. 317 Extracting the thermal noise parameter for a specific receiver sensitivity. 305 Bidirectional fiber and Raman design. 291 XPM-induced asymmetric spectral broadening.
281 Stimulated Raman scattering-Separated channels. 255 PMD-induced broadening of ultra-short pulses. 249 Combined effects of GVD and SPM on modulational instability. 241 Combined effects of GVD and SPM on Gaussian pulse propagation. 237 Effects of cross phase modulation (XPM) and four-wave mixing (FWM). 223 Effects of group velocity dispersion (GVD) on Gaussian pulse propagation. 191 Vertical-Cavity Surface-Emitting Laser - VCSEL Validation. 173Ĭhirp in Mach-Zehnder Lithium Niobate modulators. 169 Semiconductor laser-Large signal modulation. 165 Semiconductor laser modulation response. 101 Lesson 8: Optical Systems - Working with multimode components. 93 Lesson 7: Optical Amplifiers - Designing optical fiber amplifiers and fiber lasers. 83 Lesson 6: Time-Driven Simulation - Working with individual samples. 75 Lesson 5: Bidirectional Simulation - Working with multiple iterations. 55 Lesson 4: Parameter Sweeps - BER x Input power. 35 Lesson 3: Optical Systems - WDM Design. 5 Lesson 2: Subsystems - Hierarchical simulation. 1 Introductory Tutorials Lesson 1: Transmitter - External modulated laser. If you purchased Optiwave software from a distributor that is not listed here, please send technical questions to your distributor. In no event shall Optiwave, its employees, its contractors or the authors of this documentation, be liable for special, direct, indirect, or consequential damages, losses, costs, charges, claims, demands, or claim for lost profits, fees, or expenses of any nature or kind. No part of this document may be reproduced, stored in a retrieval system, or transmitted in any form or by any means whatsoever, including recording, photocopying, or faxing, without prior written approval of Optiwave.ĭisclaimer Optiwave makes no representation or warranty with respect to the adequacy of this documentation or the programs which it describes for any particular purpose or with respect to its adequacy to produce any particular result. All OptiSystem documents, including this one, and the information contained therein, is copyright material. OptiSystem Tutorials - Volume 1 Optical Communication System Design SoftwareĬopyright © 2008 Optiwave All rights reserved. Optical Communication System Design Software