APSUNY PDK: Overview and Future Trends
|
|
- Katherine Cannon
- 5 years ago
- Views:
Transcription
1 APSUNY PDK: Overview and Future Trends Erman Timurdogan Analog Photonics, 1 Marina Park Drive, Suite 205, Boston, MA, erman@analogphotonics.com
2 Silicon Photonics Integrated Circuit Process Design Kits APSUNY PDK Academy Feedback Ideas Feedback Industry Design APSUNY PDK Release Model Optimize Layout Fab EPDA Abstracts Design Guide DRC deck EPDA models Documentation Verify Risk Time Cost High Low High Low $$$ $
3 APSUNY PDK - Organization Silicon Photonic Integrated Circuit (PIC) PDK Interface Optical I/O, Polarization Diversity Passives Actives Digital Analog Resonant Broadband Generic PDK enables prototyping/manufacturing on many focus areas. Focus area based hierarchy; Datacenter (Interface+Digital Resonant+Passive) Telecommunications (Interface+Digital Broadband+Passive) RF/MW Analog Communications (Interface+Analog+Passive) Sensors/IoT 2
4 APSUNY PDK What is inside? Interface + Passives <1.5dB loss/facet couplers Polarization MUX with <0.35dB PDL 1db/cm loss waveguides 3dB splitters (std. 0.7%) Crossings with low crosstalk Actives O+C+L Band operation Low Voltage Modulators (<1Vpp) High BW (>45GHz) detectors Efficient Filters and Switches High Dynamic Range Analog Devices
5 Interface Library Current and Upcoming PDK PDKv2.0 Edge Coupler 3.5um MFD Fiber Upcoming O Band 3.5um MFD PDKv2.0 Polarization Splitter & Rotator C+L Band SMF28 TM input TE input 5 3
6 Passives Library Highlights 5 Waveguides Waveguiding and Routing Seamless Multi-Layer Transitions Power Distribution 3dB Splitters Low Loss Waveguides (Available Now) Waveguide Crossing 1%/10% Power Taps 6 6 4
7 Transmission Transmission Digital Broadband Mach-Zehnder Modulators 1 50Gb/s PDK v Gb/s Under Dev. High bandwidth; 34GHz, 48GHz -> 64Gbaud capable Low insertion loss; 3dB Low V π L=0.9V.cm, <1Vpp for >5dB extinction ratio
8 Digital O,C and L Band Detectors O Band (PDKv2.5) C+L Band (Now) PD C pd R s O Band 11fF 45Ω C Band 13fF 50Ω C+L Band 19fF 100Ω High Responsivity ~0.85A/W (O band), 1A/W (C Band), 1.1A/W (C+L Band) High OE Bandwidth; >45GHz (O and C bands), >35GHz (C+L Band) Low Dark Current; <15nA (O and C bands), <40nA (C+L Band) Low capacitance and resistance (f elec BW>80GHz) 8 6
9 Digital Resonant Microdisk Modulators O Band (PDKv2.5) C+L Band (Available Now) TX 50Gbps 0.75Vpp TX 25Gbps 0.75Vpp TX 25Gbps 0.75Vpp TX 25Gbaud 0.75Vpp Vpp Transmission Penalty Extinction Ratio Insertion Loss O-Band C+L Band O-Band C+L Band O-Band C+L Band dB 8.8dB 3.7dB 3.9dB 3.1dB 3.5dB dB 6.5dB 5.1dB 6.7dB 2.2dB 2.3dB 9 7
10 Reconfigurable WDM Ecosystem λ 2 λ 0 Cavity-based WDM System λ 0 λ 2 λ 1 λ 3 Filter Modulator Switch λ 3 λ 1 4λ Wavelength Division Multiplexed System (±1nm from target wavelength) Tunable Filters (MUX/DEMUX), Modulators, Switches, all compatible Reconfigure to cover in between wavelengths or increase number of channels. 10
11 Laser Fiber Based Communication Links λ=1310nm PC Transmitter AC Coupled 0.7Vpp PC Component Loss Power Receiver BiasTee -1V PPG Clock DCA Laser 0dB 13dBm PC+Setup 0.5dB 12.5dBm Edge Coupler 1dB 11.5dBm Modulator TP 9.5dB 2.0dBm Edge Coupler 1dB 1.0dBm PC+Setup 0.5dB 0.5dBm Edge Coupler 1dB -0.5dBm Detector OE 0.7dB 38mVpp TX 25Gbps 0.7Vpp TX/RX 25Gbps 0.7Vpp TX/RX 32Gbps 0.7Vpp O Band (~1310nm) NRZ modulation format support up to 32Gbps (PDKv2.5a). 100G+ Datacenter module compatible TX/RX E-O/O-E demonstration at ~1310nm.
12 100G/200G/400G IEEE Standard, MSA Compatibility Standards/MSA Wavelength [nm] Format Rate [Gbaud] Extinction Ratio [db] Power per λ [dbm] Electrical Interface 100G-LR to to G-ER to to G-CWDM to to G-CLR to to 2.5 NRZ 100G-4WDM to to G-4WDM to to 6.5 Open Optics 1504 to G-CWDM to to G-FR to > to G-LR to PAM > to G-FR8/LR to > to 5.3 CAUI-n CEI-28R-VSR GAUI-n APSUNY PDK: Support for O,C and L band with large power per lane variation. NRZ, PAM4 modulation formats at 50Gbps and 25Gbaud signaling rates. Coherent modulation and detection ready up to 64Gbaud (>45GHz) ~1Vpp drive, high extinction ratio -> CAUI/GAUI/CEI-28R-VSR electrical interface <900mVpp, minimal driver power. 12
13 Analog RF/MW Communication Links Analog Link Testing Setup Analog Link Performance 102.8dB Hz 2/3 Full link demonstration using an analog silicon photonic modulator and detector. High Power, Linear, High Dynamic range analog link with 102.8dB Hz 2/3 SFDR Component Laser Power Modulator TP Responsivity Photocurrent Power dBm >11.35dB ~0.95A/W <2.40mA 13 9
14 Optical Phased Array (OPA) Based Free-Space Comms Mirror TX OPA RX OPA 10Gb/s Link at 50m Propagation High element counts (128) for mm-scale aperture Enabled through PIC Array KTMA 14
15 Conclusions Upcoming Capability For more information, visit us at Booth #6130 or contact Job Applications: 15 10
An Example Design using the Analog Photonics Component Library. 3/21/2017 Benjamin Moss
An Example Design using the Analog Photonics Component Library 3/21/2017 Benjamin Moss Component Library Elements Passive Library Elements: Component Current specs 1 Edge Couplers (Si)
More informationNEXT GENERATION SILICON PHOTONICS FOR COMPUTING AND COMMUNICATION PHILIPPE ABSIL
NEXT GENERATION SILICON PHOTONICS FOR COMPUTING AND COMMUNICATION PHILIPPE ABSIL OUTLINE Introduction Platform Overview Device Library Overview What s Next? Conclusion OUTLINE Introduction Platform Overview
More informationScott Schube, Intel Corporation CWDM8 MSA Project Chair
400G CWDM8 Data Center Optics Scott Schube, Intel Corporation CWDM8 MSA Project Chair 400G CWDM8 MSA Multiple optics, component, and system companies have formed an MSA group to define 2 km and 10 km reach
More informationPLC-based integrated devices for advanced modulation formats
ECOC 2009 workshop 7-5 Sep. 20, 2009 PLC-based integrated devices for advanced modulation formats Y. Inoue NTT Photonics Labs. NTT Corporation NTT Photonics Laboratories Hybrid integration of photonics
More informationInnovations in Photonic Integration Platforms
Innovations in Photonic Integration Platforms September 20, 20 Burgeoning Growth Demand Disruptive Technology Video content is fast becoming a larger percentage of total internet traffic 50% Video services
More informationOPTICAL I/O RESEARCH PROGRAM AT IMEC
OPTICAL I/O RESEARCH PROGRAM AT IMEC IMEC CORE CMOS PHILIPPE ABSIL, PROGRAM DIRECTOR JORIS VAN CAMPENHOUT, PROGRAM MANAGER SCALING TRENDS IN CHIP-LEVEL I/O RECENT EXAMPLES OF HIGH-BANDWIDTH I/O Graphics
More informationExperimental Demonstration of 56Gbps NRZ for 400GbE 2km and 10km PMD Using 100GbE Tx & Rx with Rx EQ
Experimental Demonstration of 56Gbps NRZ for 400GbE 2km and 10km PMD Using 100GbE Tx & Rx with Rx EQ Yangjing Wen, Fei Zhu, and Yusheng Bai Huawei Technologies, US R&D Center Santa Clara, CA 95050 IEEE802.3bs
More information40GBd QSFP+ LR4 Optical Transceiver
Preliminary DATA SHEET CFORTH-QSFP-40G-LR4 40GBd QSFP+ LR4 Optical Transceiver CFORTH-QSFP-40G-LR4 Overview CFORTH-QSFP-40G-LR4 QSFP+ LR4 optical transceivers are based on Ethernet IEEE P802.3ba standard
More informationSi Photonics Technology Platform for High Speed Optical Interconnect. Peter De Dobbelaere 9/17/2012
Si Photonics Technology Platform for High Speed Optical Interconnect Peter De Dobbelaere 9/17/2012 ECOC 2012 - Luxtera Proprietary www.luxtera.com Overview Luxtera: Introduction Silicon Photonics: Introduction
More informationWWDM Transceiver Module for 10-Gb/s Ethernet
WWDM Transceiver Module for 10-Gb/s Ethernet Brian E. Lemoff Hewlett-Packard Laboratories lemoff@hpl.hp.com IEEE 802.3 HSSG Interim Meeting Coeur d Alene, Idaho June 1-3, 1999 Why pursue WWDM for the LAN?
More informationFiber-based components. by: Khanh Kieu
Fiber-based components by: Khanh Kieu Projects 1. Handling optical fibers, numerical aperture 2. Measurement of fiber attenuation 3. Connectors and splices 4. Free space coupling of laser into fibers 5.
More informationA 3.9 ns 8.9 mw 4 4 Silicon Photonic Switch Hybrid-Integrated with CMOS Driver
A 3.9 ns 8.9 mw 4 4 Silicon Photonic Switch Hybrid-Integrated with CMOS Driver A. Rylyakov, C. Schow, B. Lee, W. Green, J. Van Campenhout, M. Yang, F. Doany, S. Assefa, C. Jahnes, J. Kash, Y. Vlasov IBM
More informationUNIVERSITY OF TORONTO FACULTY OF APPLIED SCIENCE AND ENGINEERING. FINAL EXAMINATION, April 2017 DURATION: 2.5 hours
UNIVERSITY OF TORONTO FACULTY OF APPLIED SCIENCE AND ENGINEERING ECE4691-111 S - FINAL EXAMINATION, April 2017 DURATION: 2.5 hours Optical Communication and Networks Calculator Type: 2 Exam Type: X Examiner:
More informationModBox-OBand-56GBaud-PAM4 O-Band, 56 Gbaud PAM-4 Reference Transmitter
-OBand-5GBaud-PAM4 O-Band, 5 Gbaud PAM-4 Reference Transmitter The -OBand-5Gbaud-PAM4 is a 4-level Pulse Amplitude Modulation (PAM-4) Optical Reference Transmitter that generates in the O-band excellent
More informationDATASHEET 4.1. QSFP, 40GBase-LR, CWDM nm, SM, DDM, 6.0dB, 10km, LC
SO-QSFP-LR4 QSFP, 40GBASE-LR, CWDM 1270-1330nm, SM, DDM, 6.0dB, 10km, LC OVERVIEW The SO-QSFP-LR4 is a transceiver module designed for optical communication applications up to 10km. The design is compliant
More informationX2-10GB-LR-OC Transceiver, 1310nm, SC Connectors, 10km over Single-Mode Fiber.
X2-10GB-LR-OC Transceiver, 1310nm, SC Connectors, 10km over Single-Mode Fiber. Description These X2-10GB-LR-OC optical transceivers are designed for Storage, IP network and LAN. They are hot pluggable
More informationSilicon Photonics Photo-Detector Announcement. Mario Paniccia Intel Fellow Director, Photonics Technology Lab
Silicon Photonics Photo-Detector Announcement Mario Paniccia Intel Fellow Director, Photonics Technology Lab Agenda Intel s Silicon Photonics Research 40G Modulator Recap 40G Photodetector Announcement
More informationProposal for 4-channel WDM (WDM4) for intermediate reach 100GbE SMF PMD
Proposal for 4-channel WDM (WDM4) for intermediate reach 100GbE SMF PMD Contributors Yurii Vlasov Douglas Gill IBM IBM 802.3bm Plenary Meeting, November 13, San Antonio, TX 1 Supporters Stefan Rochus Mounir
More informationPR-12-B-M. 12 GHz PhotoReceiver, Module. Features. Applications. Functional Diagram
PR-12-B-M 12 GHz PhotoReceiver, Module The Optilab PR-12-B-M is a 12 GHz bandwidth amplified PIN photodiode receiver module, designed for RF over fiber, antenna remoting, and broadband RF signals transmission
More information40Gb/s Optical Transmission System Testbed
The University of Kansas Technical Report 40Gb/s Optical Transmission System Testbed Ron Hui, Sen Zhang, Ashvini Ganesh, Chris Allen and Ken Demarest ITTC-FY2004-TR-22738-01 January 2004 Sponsor: Sprint
More informationOPTICAL COMMUNICATIONS S
OPTICAL COMMUNICATIONS S-108.3110 1 Course program 1. Introduction and Optical Fibers 2. Nonlinear Effects in Optical Fibers 3. Fiber-Optic Components 4. Transmitters and Receivers 5. Fiber-Optic Measurements
More informationEE 232 Lightwave Devices Optical Interconnects
EE 232 Lightwave Devices Optical Interconnects Sajjad Moazeni Department of Electrical Engineering & Computer Sciences University of California, Berkeley 1 Emergence of Optical Links US IT Map Hyper-Scale
More informationIBM T. J. Watson Research Center IBM Corporation
Broadband Silicon Photonic Switch Integrated with CMOS Drive Electronics B. G. Lee, J. Van Campenhout, A. V. Rylyakov, C. L. Schow, W. M. J. Green, S. Assefa, M. Yang, F. E. Doany, C. V. Jahnes, R. A.
More informationHigh-Fidelity RF over Fiber Links
High-Fidelity RF over Fiber Links 8 Uplander Way, Suite 2 Culver City, CA 923 Rugged, Small Form Factor Transmitter and Receiver Modules for RF over Optical Fiber Links Applications Fiber to the Antenna:
More informationBTI-10GLR-XN-AS. 10GBASE-LR XENPAK Transceiver,1310nm, SC Connectors, 10km over Single-Mode Fiber. For More Information: DATA SHEET
DATA SHEET 10GBASE-LR XENPAK Transceiver,1310nm, SC Connectors, 10km over Single-Mode Fiber BTI-10GLR-XN-AS Overview Agilestar's BTI-10GLR-XN-AS 10GBd XENPAK optical transceiver is designed for Storage,
More informationLow Power DSP and Photonic Integration in Optical Networks. Atul Srivastava CTO, NTT Electronics - America. Market Focus ECOC 2014
Low Power DSP and Photonic Integration in Optical Networks Atul Srivastava CTO, NTT Electronics - America Market Focus ECOC 2014 Outline 100G Deployment Rapid Growth in Long Haul Role of Modules New Low
More informationCFORTH-QSFP28-100G-LR4 Specifications Rev. D00B. Product Features
Preliminary DATA SHEET CFORTH-QSFP28-100G-LR4 100G QSFP28 LR4 Optical Transceiver CFORTH-QSFP28-100G-LR4 Overview CFORTH-QSFP28-100G-LR4 QSFP28 LR4 optical transceivers are based on 100G Ethernet IEEE
More informationPAM-4 Four Wavelength 400Gb/s solution on Duplex SMF
PAM-4 Four Wavelength 400Gb/s solution on Duplex SMF IEEE P802.3bs 400Gb/sTask Force Meeting Ottawa Presented by Keith Conroy, MultiPhy, Ltd 1 Supporters 2 Why Four Wavelengths for 400GE? It is what the
More informationSHF Communication Technologies AG
SHF Communication Technologies AG Wilhelm-von-Siemens-Str. 23D 12277 Berlin Germany Phone ++49 30 772 051-0 Fax ++49 30 753 10 78 E-Mail: sales@shf.de Web: http://www.shf.de Datasheet SHF 46123 A Optical
More informationElectronic-Photonic ICs for Low Cost and Scalable Datacenter Solutions
Electronic-Photonic ICs for Low Cost and Scalable Datacenter Solutions Christoph Theiss, Director Packaging Christoph.Theiss@sicoya.com 1 SEMICON Europe 2016, October 27 2016 Sicoya Overview Spin-off from
More information100G CWDM4 MSA Technical Specifications 2km Optical Specifications
100G CWDM4 MSA Technical Specifications 2km Specifications Participants Editor David Lewis, LUMENTUM Comment Resolution Administrator Chris Cole, Finisar The following companies were members of the CWDM4
More informationConsideration about wavelength allocation in O-band
IEEE P802.3ca -EPON Task Force meeting, Whistler Consideration about wavelength allocation in O-band Tomoyuki Funada May 24-25, 2016 Introduction 29dB channel insertion loss with 25Gbps/lane is challenging.
More informationFinisar Contributors. Dave Adams Alan Chen Dingbo Chen Shiyun Lin Daniel Mahgerefteh Yasuhiro Matsui Thelinh Nguyen. 19 September
nm vs 1550nm Session 1: Enabling the Data Center 5 th Int. Symposium for Optical Interconnect in Data Centers 43 rd European Conference on Optical Communication Gothenburg, Sweden 19 September 2017 Chris
More informationSilicon Photonics: A Platform for Integration, Wafer Level Assembly and Packaging
Silicon Photonics: A Platform for Integration, Wafer Level Assembly and Packaging M. Asghari Kotura Inc April 27 Contents: Who is Kotura Choice of waveguide technology Challenges and merits of Si photonics
More informationDWDM XENPAK Transceivers, 32 wavelengths, SC Connectors, 80km over Single Mode Fiber
DATA SHEET DWDM XENPAK Transceivers, 32 wavelengths, SC Connectors, 80km over Single Mode Fiber Overview Agilestar's DWDM 10GBd XENPAK optical transceiver is designed for Storage, IP network and LAN, it
More information400G CWDM8 10 km Optical Interface Technical Specifications Revision 1.0
400G CWDM8 10 km Optical Interface Technical Specifications Revision 1.0 Contact: cwdm8-msa.org CWDM8 10 km Technical Specifications, Revision 1.0 1 Table of Contents 1. General...5 1.1. Scope...5 1.2.
More informationLM-QPSK-R. Lightwave Modulator for QPSK/ QAM. Features. Applications. Functional Diagram
LM-QPSK-R Lightwave Modulator for QPSK/ QAM The Optilab LM-QPSK-R is a high performance Quadrature Phase Shift Key (QPSK) lightwave transmitter designed for Optical Communication up to 80 Gb/s or beyond.
More informationEmerging Highly Compact Amplification Solutions for Coherent Transmission
Emerging Highly Compact Amplification Solutions for Coherent Transmission Market Focus ECOC 2017 Sep 20, 2017 Dr. Sanjai Parthasarathi Vice President, Product Marketing & Strategy II-VI Photonics Outline
More informationECEN689: Special Topics in Optical Interconnects Circuits and Systems Spring 2016
ECEN689: Special Topics in Optical Interconnects Circuits and Systems Spring 016 Lecture 7: Transmitter Analysis Sam Palermo Analog & Mixed-Signal Center Texas A&M University Optical Modulation Techniques
More informationPhotonic Integrated Beamformer for Broadband Radio Astronomy
M. Burla, D. A. I. Marpaung, M. R. H. Khan, C. G. H. Roeloffzen Telecommunication Engineering group University of Twente, Enschede, The Netherlands P. Maat, K. Dijkstra ASTRON, Dwingeloo, The Netherlands
More informationPutting PICs in Products A Practical Guideline. Katarzyna Ławniczuk
Putting PICs in Products A Practical Guideline Katarzyna Ławniczuk k.lawniczuk@brightphotonics.eu Outline Product development considerations Selecting PIC technology Design flow and design tooling considerations
More informationOPTI510R: Photonics. Khanh Kieu College of Optical Sciences, University of Arizona Meinel building R.626
OPTI510R: Photonics Khanh Kieu College of Optical Sciences, University of Arizona kkieu@optics.arizona.edu Meinel building R.626 Announcements Homework #4 is due today, HW #5 is assigned (due April 8)
More informationOptical Communications and Networks - Review and Evolution (OPTI 500) Massoud Karbassian
Optical Communications and Networks - Review and Evolution (OPTI 500) Massoud Karbassian m.karbassian@arizona.edu Contents Optical Communications: Review Optical Communications and Photonics Why Photonics?
More informationLight source approach for silicon photonics transceivers September Fiber to the Chip
Light source approach for silicon photonics transceivers September 2014 Fiber to the Chip Silicon Photonics Silicon Photonics Technology: Silicon material system & processing techniques to manufacture
More informationSHF Communication Technologies AG
SHF Communication Technologies AG Wilhelm-von-Siemens-Str. 23 Aufgang D 12277 Berlin Marienfelde Germany Phone ++49 30 / 772 05 10 Fax ++49 30 / 753 10 78 E-Mail: sales@shf.biz Web: http://www.shf.biz
More informationChapter 10 WDM concepts and components
Chapter 10 WDM concepts and components - Outline 10.1 Operational principle of WDM 10. Passive Components - The x Fiber Coupler - Scattering Matrix Representation - The x Waveguide Coupler - Mach-Zehnder
More informationHigh-speed Ge photodetector monolithically integrated with large cross silicon-on-insulator waveguide
[ APPLIED PHYSICS LETTERS ] High-speed Ge photodetector monolithically integrated with large cross silicon-on-insulator waveguide Dazeng Feng, Shirong Liao, Roshanak Shafiiha. etc Contents 1. Introduction
More informationPROLABS XENPAK-10GB-SR-C
PROLABS XENPAK-10GB-SR-C 10GBASE-SR XENPAK 850nm Transceiver XENPAK-10GB-SR-C Overview PROLABS s XENPAK-10GB-SR-C 10 GBd XENPAK optical transceivers are designed for Storage, IP network and LAN, it is
More informationCHAPTER 4 RESULTS. 4.1 Introduction
CHAPTER 4 RESULTS 4.1 Introduction In this chapter focus are given more on WDM system. The results which are obtained mainly from the simulation work are presented. In simulation analysis, the study will
More informationWavelength Multiplexing. The Target
The Target Design a MAN* like fiber network for high data transmission rates. The network is partial below sea level and difficult to install and to maintain. Such a fiber network demands an optimized
More informationSilicon photonics on 3 and 12 μm thick SOI for optical interconnects Timo Aalto VTT Technical Research Centre of Finland
Silicon photonics on 3 and 12 μm thick SOI for optical interconnects Timo Aalto VTT Technical Research Centre of Finland 5th International Symposium for Optical Interconnect in Data Centres in ECOC, Gothenburg,
More informationIntroduction of 25 Gb/s VCSELs
Introduction of 25 Gb/s VCSELs IEEE P802.3.ba 40Gb/s and 100Gb/s Ethernet Task Force May 2008, Munich Kenichiro Yashiki - NEC Hikaru Kouta - NEC 1 Contributors and Supporters Jim Tatum - Finisar Akimasa
More informationSO-SFP-16GFC-ER-Dxxxx
SO-SFP-16GFC-ER-Dxxxx SFP+, 16G/8G/4G FC, 10G FC, 10GBASE-ER, DWDM (ITU 921 to 960), SM, DDM, 40km, LC SO-SFP-16GFC-ER-Dxxxx Overview The SO-SFP-16GFC-ER-Dxxxx fiber optical SFP+ (small form pluggable)
More informationSenior Project Manager / Keysight Joe Lin 林昭彥
Senior Project Manager / Keysight 2017.04.17 Joe Lin 林昭彥 How do you build a 400G optical link? Multimode fiber or single-mode fiber? IEEE 802.3bs 400G will use both multimode fiber for 100 meter spans
More informationPerformance Analysis of WDM RoF-EPON Link with and without DCF and FBG
Optics and Photonics Journal, 2013, 3, 163-168 http://dx.doi.org/10.4236/opj.2013.32027 Published Online June 2013 (http://www.scirp.org/journal/opj) Performance Analysis of WDM RoF-EPON Link with and
More informationSHF Communication Technologies AG
SHF Communication Technologies AG Wilhelm-von-Siemens-Str. 23D 12277 Berlin Germany Phone ++49 30 772 051-0 Fax ++49 30 753 10 78 E-Mail: sales@shf.de Web: http://www.shf.de Datasheet SHF 46120 B Optical
More informationDWDM XENPAK Transceiver, 32 wavelengths, SC Connectors, 80km over Single Mode Fiber
CFORTH-DWDM-XENPAK-xx.xx Specifications Rev. D00B Preiminary DATA SHEET CFORTH-DWDM-XENPAK-xx.xx DWDM XENPAK Transceiver, 32 wavelengths, SC Connectors, 80km over Single Mode Fiber CFORTH-DWDM-XENPAK-xx.xx
More informationDATASHEET 4.1. SFP+, 10GBase-ZR, Multirate Gbps, C Tunable, DWDM, C-Band, 50GHz, 22dB, 80km, ind. temp.
SO-SFP-10G-ZR-DWDM-I SFP+, 10GBase-ZR, Multirate 9.95-11.1 Gbps, C Tunable, DWDM, C-Band, 50GHz, 22dB, 80km, ind. temp. OVERVIEW The SO-SFP-10G-ZR-DWDM-I Tunable SFP+ Optical Transceiver is a full duplex,
More information400G-FR4 Technical Specification
400G-FR4 Technical Specification 100G Lambda MSA Group Rev 2.0 September 18, 2018 Chair Mark Nowell, Cisco Systems Co-Chair - Jeffery J. Maki, Juniper Networks Marketing Chair - Rang-Chen (Ryan) Yu Editor
More informationWDM Concept and Components. EE 8114 Course Notes
WDM Concept and Components EE 8114 Course Notes Part 1: WDM Concept Evolution of the Technology Why WDM? Capacity upgrade of existing fiber networks (without adding fibers) Transparency:Each optical channel
More informationIntegrated TOSA with High-Speed EML Chips for up to 400 Gbit/s Communication
FEATURED TOPIC Integrated TOSA with High-Speed EML Chips for up to 4 Gbit/s Communication Ryota TERANISHI*, Hidetoshi NAITO, Masahiro HIRAYAMA, Masahiro HONDA, Shuichi KUBOTA, and Takayuki MIYAHARA ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
More information1310NM FP LASER FOR 10GBASE-LRM SC AND LC TOSA
DATA SHEET 1310NM FP LASER FOR 10GBASE-LRM SC AND LC TOSA FP-1310-10LRM-X FEATURES: 1310nm FP laser Very low power dissipation SC and LC optical receptacles 10Gbps direct modulation Impedance matching
More informationECEN620: Network Theory Broadband Circuit Design Fall 2014
ECEN620: Network Theory Broadband Circuit Design Fall 2014 Lecture 19: High-Speed Transmitters Sam Palermo Analog & Mixed-Signal Center Texas A&M University Announcements Exam 3 is on Friday Dec 5 Focus
More informationSOA + PIN-PD receiver performance
SOA + PIN-PD receiver performance Naruto TANAKA Daisuke UMEDA January 10-12 th, 2017 Sumitomo Electric Industries, LTD. Introduction 25G APD receiver sensitivity was discussed in previous meeting. We showed
More information40Gb/s & 100Gb/s Transport in the WAN Dr. Olga Vassilieva Fujitsu Laboratories of America, Inc. Richardson, Texas
40Gb/s & 100Gb/s Transport in the WAN Dr. Olga Vassilieva Fujitsu Laboratories of America, Inc. Richardson, Texas All Rights Reserved, 2007 Fujitsu Laboratories of America, Inc. Outline Introduction Challenges
More informationArista QSFP-40G-PLR4. Part Number: QSFP-40G-PLR4 QSFP-40G-PLR4 OVERVIEW PRODUCT FEATURES APPLICATIONS FUNCTIONAL DIAGRAM.
Part Number: QSFP-40G-PLR4 QSFP-40G-PLR4 OVERVIEW The QSFP-40G-PLR4 is a parallel 40 Gbps Quad Small Form-factor Pluggable (QSFP+) optical module. It provides increased port density and total system cost
More informationVePAL UX400 Universal Test Platform
CWDM and DWDM Testing VePAL UX400 Universal Test Platform Optical Spectrum/Channel Analyzer for CWDM and DWDM Networks Using superior micro-optic design and MEMS tuning technology, the UX400 OSA module
More informationX5 and Z5 Modulator. Telcordia 468. Key Features. Applications. Compliance AGILE OPTICAL COMPONENTS NORTH AMERICA: JDSU (5378)
AGILE OPTICAL COMPONENTS X5 and Z5 Modulator Key Features Small size: 65 x 12 x 5 mm Surface mountable with gull wing DC pins GPO RF connector Integrated PD (photodiode) for bias and power control 200
More informationA Fully Integrated 20 Gb/s Optoelectronic Transceiver Implemented in a Standard
A Fully Integrated 20 Gb/s Optoelectronic Transceiver Implemented in a Standard 0.13 µm CMOS SOI Technology School of Electrical and Electronic Engineering Yonsei University 이슬아 1. Introduction 2. Architecture
More informationMicrophotonics Readiness for Commercial CMOS Manufacturing. Marco Romagnoli
Microphotonics Readiness for Commercial CMOS Manufacturing Marco Romagnoli MicroPhotonics Consortium meeting MIT, Cambridge October 15 th, 2012 Passive optical structures based on SOI technology Building
More informationDr. Monir Hossen ECE, KUET
Dr. Monir Hossen ECE, KUET 1 Outlines of the Class Principles of WDM DWDM, CWDM, Bidirectional WDM Components of WDM AWG, filter Problems with WDM Four-wave mixing Stimulated Brillouin scattering WDM Network
More informationDS-8G-ZR-Cxx. SFP+, 8/4/2/1 Gbps FC/FICON, CWDM, SM, DDM, 23dB, 70km. DS-8G-ZR-Cxx OVERVIEW PRODUCT FEATURES APPLICATIONS ORDERING INFORMATION
DS-8G-ZR-Cxx SFP+, 8/4/2/1 Gbps FC/FICON, CWDM, SM, DDM, 23dB, 70km DS-8G-ZR-Cxx OVERVIEW The DS-8G-ZR-Cxx fiber optical SFP+ (small form pluggable) transceivers are uniquely layer 1 tested and approved
More informationThursday, April 17, 2008, 6:28:40
Wavelength Division Multiplexing By: Gurudatha Pai K gurudatha@gmail.com Thursday, April 17, 2008, 6:28:40 Overview Introduction Popular Multiplexing Techniques Optical Networking WDM An Analogy of Multiplexing
More informationDS-8G-ZR-Dxxxx. SFP+, 8/4/2/1 Gbps FC/FICON, DWDM, SM, DDM, 23dB, 80km. DS-8G-ZR-Dxxxx OVERVIEW PRODUCT FEATURES APPLICATIONS ORDERING INFORMATION
DS-8G-ZR-Dxxxx SFP+, 8/4/2/1 Gbps FC/FICON, DWDM, SM, DDM, 23dB, 80km DS-8G-ZR-Dxxxx OVERVIEW The DS-8G-ZR-Dxxxx fiber optical SFP+ (small form pluggable) transceivers are uniquely layer 1 tested and approved
More informationProgress Toward Fast Reconfigurable Optical Cross-connect
Progress Toward Fast Reconfigurable Optical Cross-connect Prasanna A. Gamage, Huug e Waardt COBRA Research Institute, Technical niversity of Eindhoven. In Co-operation with SurfNet. Outline Overview Existing
More informationSilicon Photonics Transceivers for Hyper Scale Datacenters: Deployment and Roadmap
Silicon Photonics Transceivers for Hyper Scale Datacenters: Deployment and Roadmap Peter De Dobbelaere Luxtera Inc. 09/19/2016 Luxtera Proprietary www.luxtera.com Luxtera Company Introduction $100B+ Shift
More informationROHS Compliant MM SFP Transceiver 1.25Gb Gigabit Ethernet
Product Overview WFT s SFP transceiver modules is specifically designed for the high performance and cost-effectiveness integrated duplex data link over a single fiber. The high-speed laser diode and photo
More informationAnalysis of four channel CWDM Transceiver Modules based on Extinction Ratio and with the use of EDFA
Analysis of four channel CWDM Transceiver Modules based on Extinction Ratio and with the use of EDFA P.P. Hema [1], Prof. A.Sangeetha [2] School of Electronics Engineering [SENSE], VIT University, Vellore
More informationQSFP SV-QSFP-40G-LR4L
Features 4 CWDM lanes MUX/DEMUX design Up to 11.2Gb/s data rate per wavelength QSFP+ MSA compliant IEEE 802.3ba Electrical Interface Up to 2km transmission on single mode fiber (SMF) Operating case temperature:
More informationA NOVEL SCHEME FOR OPTICAL MILLIMETER WAVE GENERATION USING MZM
A NOVEL SCHEME FOR OPTICAL MILLIMETER WAVE GENERATION USING MZM Poomari S. and Arvind Chakrapani Department of Electronics and Communication Engineering, Karpagam College of Engineering, Coimbatore, Tamil
More informationBR-43. Dual 20 GHz, 43 Gbit/s Balanced Photoreceiver
Dual 20 GHz, 43 Gbit/s Balanced Photoreceiver The Optilab, a dual balanced 20 GHZ linear photoreceiver, is a differential front end featuring high differential gain of up to 5000 V/W. With a high Common
More informationModBox-CBand-28Gb/s-DPSK C-Band, 28 Gb/s DPSK Reference Transmitter
-CBand-28Gb/s-DPSK FEATURES Full C-Band Reference Transmitter Up to 28 Gb/s Reliable & reproducible measurements High eye diagram stability APPLICATIONS Transmission system test Components characterization
More informationUNIT - 7 WDM CONCEPTS AND COMPONENTS
UNIT - 7 WDM CONCEPTS AND COMPONENTS WDM concepts, overview of WDM operation principles, WDM standards, Mach-Zehender interferometer, multiplexer, Isolators and circulators, direct thin film filters, active
More informationTDECQ versus real receiver slope.
TDECQ versus real receiver slope. Authors: Marco Mazzini Cisco Matt Traverso Cisco Jonathan King Finisar Marlin Viss - Keysight TDECQ versus real receiver slope 1 Background Transmitter and dispersion
More informationEvolution from TDM-PONs to Next-Generation PONs
Evolution from TDM-PONs to Next-Generation PONs Ki-Man Choi, Jong-Hoon Lee, and Chang-Hee Lee Department of Electrical Engineering and Computer Science, Korea Advanced Institute of Science and Technology,
More informationDS-16G-ER-Cxx. SFP+, 16/8/4 Gbps FC/FICON, CWDM, SM, DDM, 13dB, 40km OVERVIEW PRODUCT FEATURES APPLICATIONS ORDERING INFORMATION DATASHEET 4.
DS-16G-ER-Cxx SFP+, 16/8/4 Gbps FC/FICON, CWDM, SM, DDM, 13dB, 40km OVERVIEW The DS-16G-ER-Cxx fiber optical SFP+ (small form pluggable) transceivers are uniquely layer 1 tested and approved by Cisco.
More informationModBox-CBand-NRZ series C-Band, 28 Gb/s, 44 Gb/s, 50 Gb/s Reference Transmitters
The is a family of Reference Transmitters that generate excellent quality NRZ optical data streams up to 28 Gb/s, 44 Gb/s, 50 Gb/s in the C-band. These transmitters produce very clean eye diagrams with
More informationOptical Integrated Devices in Silicon On Insulator for VLSI Photonics
Optical Integrated Devices in Silicon On Insulator for VLSI Photonics Design, Modelling, Fabrication & Characterization Piero Orlandi 1 Possible Approaches Reduced Design time Transparent Technology Shared
More informationSIMULATIVE INVESTIGATION OF SINGLE-TONE ROF SYSTEM USING VARIOUS DUOBINARY MODULATION FORMATS
SIMULATIVE INVESTIGATION OF SINGLE-TONE ROF SYSTEM USING VARIOUS DUOBINARY MODULATION FORMATS Namita Kathpal 1 and Amit Kumar Garg 2 1,2 Department of Electronics & Communication Engineering, Deenbandhu
More informationX2-10GB-Cxx-ER CWDM X2-10GBASE, 40km Reach
X2-10GB-Cxx-ER CWDM X2-10GBASE, 40km Reach Features Wavelength selectable to ITU-T standards covering CWDM grid Compatible with X2 MSA Rev2.0b Support of IEEE 802.3ae 10GBASE-ER at 10.3125Gbps Transmission
More informationOptical Communications and Networking 朱祖勍. Sept. 25, 2017
Optical Communications and Networking Sept. 25, 2017 Lecture 4: Signal Propagation in Fiber 1 Nonlinear Effects The assumption of linearity may not always be valid. Nonlinear effects are all related to
More informationAgilent 83430A Lightwave Digital Source Product Overview
Agilent Lightwave Digital Source Product Overview SDH/SONET Compliant DFB laser source for digital, WDM, and analog test up to 2.5 Gb/s 52 Mb/s STM-0/OC-1 155 Mb/s STM-1/OC-3 622 Mb/s STM-4/OC-12 2488
More informationQSFP SFP-QSFP-40G-LR4
Features Compliant with 40G Ethernet IEEE802.3ba and 40GBASE-LR4 Standard QSFP+ MSA compliant Compliant with QDR/DDR Infiniband data rates Up to 11.2Gb/s data rate per wavelength 4 CWDM lanes MUX/DEMUX
More informationModBox 1550 nm 44 Gb/s NRZ C, L bands ; 100 Mb/s - 44 Gb/s Reference Transmitter
Delivering Modulation Solutions The -1550nm-44Gbps-NRZ is an optical modulation unit that generates high performance NRZ optical data streams. The equipment incorporates a modulation stage based on a high
More informationQSFP. Parameter Symbol Min Max Unit Notes. Relative Humidity (non-condensation) RH 0 85 %
Features 4 CWDM lanes MUX/DEMUX design Up to 11.2Gb/s data rate per wavelength QSFP+ MSA compliant IEEE 802.3ba Electrical Interface Digital diagnostic capabilities Compliant with QDR/DDR Infiniband data
More informationModBox 1550 nm 12 Gb/s DPSK C, L bands ; 12 Gb/s Reference Transmitter & Receiver
Delivering Modulation Solutions The -1550nm-12Gbps-DPSK is an optical modulation unit that generates high performance DPSK optical data streams. The equipment incorporates a modulation stage based on a
More informationSpectrally Compact Optical Subcarrier Multiplexing with 42.6 Gbit/s AM-PSK Payload and 2.5Gbit/s NRZ Labels
Spectrally Compact Optical Subcarrier Multiplexing with 42.6 Gbit/s AM-PSK Payload and 2.5Gbit/s NRZ Labels A.K. Mishra (1), A.D. Ellis (1), D. Cotter (1),F. Smyth (2), E. Connolly (2), L.P. Barry (2)
More informationImpact of High-Speed Modulation on the Scalability of Silicon Photonic Interconnects
Impact of High-Speed Modulation on the Scalability of Silicon Photonic Interconnects OPTICS 201, March 18 th, Dresden, Germany Meisam Bahadori, Sébastien Rumley,and Keren Bergman Lightwave Research Lab,
More informationRZ BASED DISPERSION COMPENSATION TECHNIQUE IN DWDM SYSTEM FOR BROADBAND SPECTRUM
RZ BASED DISPERSION COMPENSATION TECHNIQUE IN DWDM SYSTEM FOR BROADBAND SPECTRUM Prof. Muthumani 1, Mr. Ayyanar 2 1 Professor and HOD, 2 UG Student, Department of Electronics and Communication Engineering,
More informationOptical Communications and Networks - Review and Evolution (OPTI 500) Massoud Karbassian
Optical Communications and Networks - Review and Evolution (OPTI 500) Massoud Karbassian m.karbassian@arizona.edu Contents Optical Communications: Review Optical Communications and Photonics Why Photonics?
More information