IEEE Organizations related to Sonet

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Conferences related to Sonet

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2012 OFC Collocated National Fiber Optic Engineers Conference OFC/NFOEC 2012

OFC/NFOEC is the world's leading international conference for optical communications and networking professionals.



Periodicals related to Sonet

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Communications, IEEE Transactions on

Telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; and communication theory. In addition to the above, ...


Network, IEEE

IEEE Network was the number one most-cited journal in telecommunications, the number twelve most-cited journal in electrical and electronics engineering, and the number three most-cited journal in Computer Science Hardware and Architecture in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers topics which include: ...


Selected Areas in Communications, IEEE Journal on

All telecommunications, including telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space, and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; communication theory; and wireless communications.




Xplore Articles related to Sonet

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Design of an 8:1 MUX at 1.7 Gbit/s in 0.8 μm CMOS technology

J. Navarro; W. A. M. Van Noije Proceedings of the 8th Great Lakes Symposium on VLSI (Cat. No.98TB100222), 1998

The design of an 8:1 multiplexer circuit, for SDH/SONET data transmission systems, is presented. In order to achieve maximum transmission rates, new circuits, high speed input/output converters for ECL-CMOS levels and modified true single phase clocked (TSPC) cells, as well as new techniques for clock buffer optimization, were applied. The multiplexer was implemented in a 0.8 μm CMOS process (0.7 ...


Dynamic bandwidth-allocation and path-restoration in SONET self-healing networks

A. Gersht; S. Kheradpir; A. Shulman IEEE Transactions on Reliability, 1996

This paper presents a new scheme for real-time bandwidth allocation and path restoration (BARS) in mesh networks via SONET wideband digital cross-connect systems (WDCSs) in response to demand and load dynamics and link and/or node failure(s). The scheme dynamically maximizes bandwidth allocation while ensuring full service restorability. Since the physical network capacity is limited, sometime not all the demand can ...


Systems integration & testing challenges for generation optical transport networks (NGOTNs)

M. Kanaan; R. S. Bernhey 2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference, 2006

In this paper, we discuss systems integration & testing challenges for NGOTNs. After an overview of the architecture, we discuss the issues we have experienced in the course of our evaluations. We end with recommendations to the vendor community.


A BiCMOS limiting amplifier for SONET OC-3

Chorng-Kuang Wang; Po-Chiun Huang; Chen-Yi Huang IEEE Journal of Solid-State Circuits, 1996

This paper presents a Synchronous Optical NETwork (SONET) OC-3 155.52 Mb/s limiting amplifier, which is implemented in a 1.0 μm double-poly double-metal N-well BiCMOS technology. Composed of amplifier cells, a slicer, an output driver, and offset cancellation circuits, this limiting amplifier allows an input dynamic range of 36 dB (6 mVpp~400 mVpp) and provides a constant output 1 V pp ...


Design of a 2.5Gbps Clock-Data Recovery circuit in 0.18um standard CMOS process

Chen Yueyang; Zhong Shun'an; Dang Hua 2009 IEEE 8th International Conference on ASIC, 2009

A 2.5 Gbps clock-data recovery (CDR) circuit is designed in 0.18 um standard CMOS process in this work. The CDR circuit utilizes one PLL loop and one CMU loop. The CDR loop works at 2.5 GHz by SONET OC-48 while the CMU loop runs at 625 MHz.The power consumption is 25 mW. The jitter bandwidth is 5.6 MHz. The peaking ...


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Educational Resources on Sonet

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eLearning

Design of an 8:1 MUX at 1.7 Gbit/s in 0.8 μm CMOS technology

J. Navarro; W. A. M. Van Noije Proceedings of the 8th Great Lakes Symposium on VLSI (Cat. No.98TB100222), 1998

The design of an 8:1 multiplexer circuit, for SDH/SONET data transmission systems, is presented. In order to achieve maximum transmission rates, new circuits, high speed input/output converters for ECL-CMOS levels and modified true single phase clocked (TSPC) cells, as well as new techniques for clock buffer optimization, were applied. The multiplexer was implemented in a 0.8 μm CMOS process (0.7 ...


Dynamic bandwidth-allocation and path-restoration in SONET self-healing networks

A. Gersht; S. Kheradpir; A. Shulman IEEE Transactions on Reliability, 1996

This paper presents a new scheme for real-time bandwidth allocation and path restoration (BARS) in mesh networks via SONET wideband digital cross-connect systems (WDCSs) in response to demand and load dynamics and link and/or node failure(s). The scheme dynamically maximizes bandwidth allocation while ensuring full service restorability. Since the physical network capacity is limited, sometime not all the demand can ...


Systems integration & testing challenges for generation optical transport networks (NGOTNs)

M. Kanaan; R. S. Bernhey 2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference, 2006

In this paper, we discuss systems integration & testing challenges for NGOTNs. After an overview of the architecture, we discuss the issues we have experienced in the course of our evaluations. We end with recommendations to the vendor community.


A BiCMOS limiting amplifier for SONET OC-3

Chorng-Kuang Wang; Po-Chiun Huang; Chen-Yi Huang IEEE Journal of Solid-State Circuits, 1996

This paper presents a Synchronous Optical NETwork (SONET) OC-3 155.52 Mb/s limiting amplifier, which is implemented in a 1.0 μm double-poly double-metal N-well BiCMOS technology. Composed of amplifier cells, a slicer, an output driver, and offset cancellation circuits, this limiting amplifier allows an input dynamic range of 36 dB (6 mVpp~400 mVpp) and provides a constant output 1 V pp ...


Design of a 2.5Gbps Clock-Data Recovery circuit in 0.18um standard CMOS process

Chen Yueyang; Zhong Shun'an; Dang Hua 2009 IEEE 8th International Conference on ASIC, 2009

A 2.5 Gbps clock-data recovery (CDR) circuit is designed in 0.18 um standard CMOS process in this work. The CDR circuit utilizes one PLL loop and one CMU loop. The CDR loop works at 2.5 GHz by SONET OC-48 while the CMU loop runs at 625 MHz.The power consumption is 25 mW. The jitter bandwidth is 5.6 MHz. The peaking ...


More eLearning Resources

IEEE-USA E-Books

  • Microwave Radio

    This chapter contains sections titled: Brief History Digital Radio Design Considerations SONET Radio Conclusion Review Questions for Chapter 9

  • Lightwave Systems

    This chapter contains sections titled: Brief History New Transcontinental Carriers Lightwave Undersea Systems Evolution of Lightwave Systems Optical Fiber Cable Optical Fiber Transmission Parameters Fiber Connectors Optical Emitters Optical Detectors Tunable Lasers All-Optical Networks Dense Wavelength-Division Multiplexing Optical Amplifiers Optical Cross-Connects System Design Considerations Synchronous Optical Network Asynchronous Transfer Mode SONET Ring Networks System Availability Cable Placement Choices Cable Placement Techniques Placement of Underground Cable Placement of Aerial Cable Placement of Direct Buried Cable Field Splicing Mechanical Splicing Field Testing Using an Optical Time Domain Reflectometer Fiber-to-the-Home Video-on-Demand (VOD) Fiber-to-the-Curb Local Area Network Ethernet IBM Token Ring LAN Topology Wireless LANs Fiber Optic LANs Conclusion Review Questions for Chapter 18

  • Synchronous Optical NetworksSONET/SDH

    This chapter contains sections titled: Introduction SONET Frames Virtual Tributaries STS-N Frames Maintenance Summary This chapter contains sections titled: References

  • List of Abbreviations

    "Optical communications and fiber technology are fast becoming key solutions for the increasing bandwidth demands of the 21st century. This introductory text provides practicing engineers, managers, and students with a useful guide to the latest developments and future trends of three major technologies: SONET, SDH, and ATM, and a brief introduction to legacy TDM communications systems. There are clear explanations of: * How ATM is mapped onto SONET/SDH * The role of IP networking with ATM * Dense wavelength division multiplexing (DWDM) * The future direction of convergence of communications. This concise book features easy-to-follow illustrations, review questions, worked examples, and valuable references. An accompanying CD-ROM provides the key figures in full color, suitable for easy cut-and-paste presentations. UNDERSTANDING SONET/SDH AND ATM is a must-read for communication professionals who want to improve their knowledge of this emerging technology." Sponsored by: IEEE Communications Society

  • A Fully Integrated SiGe Receiver IC for 10Gb/s Data Rate

    A silicon germanium (SiGe) receiver IC is presented here which integrates most of the 10-Gb/s SONET receiver functions. The receiver combines an automatic gain control and clock and data recovery circuit (CDR) with a binary-type phase-locked loop, 1 : 8 demultiplexer, and a 27 - 1 pseudorandom bit sequence generator for self-testing. This work demonstrates a higher level of integration compared to other silicon designs as well as a CDR with SONET- compliant jitter characteristics. The receiver has a die size of 4.5 x 4.5 mm2 and consumes 4.5 W from -5 V.

  • About the Author

    "Optical communications and fiber technology are fast becoming key solutions for the increasing bandwidth demands of the 21st century. This introductory text provides practicing engineers, managers, and students with a useful guide to the latest developments and future trends of three major technologies: SONET, SDH, and ATM, and a brief introduction to legacy TDM communications systems. There are clear explanations of: * How ATM is mapped onto SONET/SDH * The role of IP networking with ATM * Dense wavelength division multiplexing (DWDM) * The future direction of convergence of communications. This concise book features easy-to-follow illustrations, review questions, worked examples, and valuable references. An accompanying CD-ROM provides the key figures in full color, suitable for easy cut-and-paste presentations. UNDERSTANDING SONET/SDH AND ATM is a must-read for communication professionals who want to improve their knowledge of this emerging technology." Sponsored by: IEEE Communications Society

  • LeadingEdge Applications

    Chapter 4 provides an insight into some of the leading-edge applications, which have been enabled using the IBM advanced SiGe process technologies. These examples have been chosen to show both the leading-edge nature of the applications, but also the breadth of the application space - as initially discussed in the Introduction chapter. The chapter presents implementations of a wired SONET 40GB/s design, a 3G direct conversion receiver, a power amp for cellular radio, and a high-speed memory design. Key points brought out in this chapter include: Presents an OC768 40-56GB/s Wired serializer/deserializer design. Discussion of the design of a 3G W-CDMA direct conversion receiver. Presents an Ericsson power amp design for use in cellular phones. Presents a SiGe memory circuit design for use with high-speed micro- processors.

  • Appendix C

    THE DEFINITIVE GUIDEBOOK TO NEXT GENERATION SONET/SDH, OPTICAL NETWORKS, AND NEW DATA COMMUNICATIONS PROTOCOL The next generation SONET/SDH answers the demand for a communications network with improved data QoS, higher data rates, exceptional flexibility, efficiency and scalability, superb protection, and a data-friendly standard, by integrating the simplicity and cost-efficiency of the data network with bandwidth capacity and QoS of the synchronous optical network. Designed for communication specialists who need to understand the implications and implementation requirements of the next generation optical network. Next Generation SONET/SDH: Voice and Data offers an accessible yet comprehensive introduction to this latest version of SONET/SDH. In this, his fourth book on optical networking, Dr. Kartalopoulos explains in simple terms the wealth of new protocols designed to optimize this new optical network, increase its efficiency, and decrease its cost. Featuring only essential mathematics and supported by many helpful illustrations, the text: Explains and references the new SONET/SDH standards Details the many implications and improvements that the next generation of SONET-over-DWDM will bring Provides careful explanations of such optical systems as Data-over SONET, Packet-over-SONET, Link Capacity Adjustment Scheme (LCAST), the Generalized Framing Procedure (GFP), Link Access Procedure for SDH (LAPS), Internet and Gigabit Ethernet over SONET, Virtual Concatenation, the Multi-Service Provisioning Platform (MSPP), and the Multi-Service Switching Platform (MSSP). In addition, the book explains other optical networks including the optical transport network (OTN).

  • Index

    THE DEFINITIVE GUIDEBOOK TO NEXT GENERATION SONET/SDH, OPTICAL NETWORKS, AND NEW DATA COMMUNICATIONS PROTOCOL The next generation SONET/SDH answers the demand for a communications network with improved data QoS, higher data rates, exceptional flexibility, efficiency and scalability, superb protection, and a data-friendly standard, by integrating the simplicity and cost-efficiency of the data network with bandwidth capacity and QoS of the synchronous optical network. Designed for communication specialists who need to understand the implications and implementation requirements of the next generation optical network. Next Generation SONET/SDH: Voice and Data offers an accessible yet comprehensive introduction to this latest version of SONET/SDH. In this, his fourth book on optical networking, Dr. Kartalopoulos explains in simple terms the wealth of new protocols designed to optimize this new optical network, increase its efficiency, and decrease its cost. Featuring only essential mathematics and supported by many helpful illustrations, the text: Explains and references the new SONET/SDH standards Details the many implications and improvements that the next generation of SONET-over-DWDM will bring Provides careful explanations of such optical systems as Data-over SONET, Packet-over-SONET, Link Capacity Adjustment Scheme (LCAST), the Generalized Framing Procedure (GFP), Link Access Procedure for SDH (LAPS), Internet and Gigabit Ethernet over SONET, Virtual Concatenation, the Multi-Service Provisioning Platform (MSPP), and the Multi-Service Switching Platform (MSSP). In addition, the book explains other optical networks including the optical transport network (OTN).

  • Communications Fundamentals

    This chapter contains sections titled: Introduction Pulse Coded Modulation Loop Accessing Methods Time Division Multiplexing Systems Getting Connected Data Systems SONET and SDH Internet Optical Networks What Is a DWDM System and Network? Exercises References Standards



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