SR2SB 70cm Gdynia

5 Bibliografia

 

 Lista bibliograficzna zawiera spis źródeł cytowanych w niniejszym opracowaniu. Wszelkie zapożyczenia zostały użyte wyłącznie w celach edukacyjnych i są oznakowane odwołaniami do publikacji oryginalnych w miarę dostępności danych o ich autorach,  wydawcach i dacie publikacji a także numeru ISBN/ISSN. W przypadku odkrycia nieprawidłowości co do oznaczenia cytatu lub źródła pochodzenia informacji (np. wcześniejsza publikacja) proszę o przesłanie stosownej informacji w celu dokonania sprostowania. Fotografie i rysunki pochodzace z archiwalnych materiałów katalogowych producentów sprzetu sieciowego i podzespołów oraz inne  materiały, które zostały użyte w niniejszym opracowaniu, zostały oznaczone jako pochodzące z zewnętrznych źródeł wraz ze znaną datą publikacji i nazwą firmy.

 

  1. ISO/IEC. ISO/IEC 7498-1:1994(E) Information Technology – Open System Interconnection – Basic reference Model: The Basic Model. Genewa: ISO IEC Copyright Office, 1996.
  2. Hersh, Matthew. Auto-Negotiation, This is good stuff folks. New Hampshire: University of New Hampshire Interoperability Laboratory, 2005.
  3. Węgrzynowicz, Kamil. 802.3ap Backplane Ethernet. Gdańsk: WETI Politechnika Gdańska, katedra Teleinformatyki, 2008.
  4. Rech, Jörg, Rudziński, Adam. Heise online. 10 gigabitów na miedzianym szlaku. [online] www.heise-online.pl: Heise Zeitschriften Verlag, 11.04.2008.
  5. Antoniewski, Michał. Autonegocjacja. Gdańsk: WETI Politechnika Gdańska, katedra Teleinformatyki, 2007.
  6. Fryska, Wojciech i Karpiński, Marcin. Instrukcja do ćwiczenia Autonegocjacja. Gdańsk: WETI Politechnika Gdańska, katedra Teleinformatyki, 2008.
  7. SMSC. LAN8700 / LAN8700i 15kV ESD Protected MII/RMII 10/100 Ethernet Transceiver with HP Auto-MDIX and flexPWR technology in a small Footprint. Hauppauge, NY, USA: Standard Microsystems Corporation, 2007. Rev 1.5.
  8. BEL. 10/100BASE-T Lan Magnetics Single Port Transformer Modules S558-5999-K8. Jersey City, NJ: Bel Fuse Inc., 2000.
  9. Gawron, Tadeusz. Linie przesyłowe i rezonansowe. Warszawa: Państwowe Wydawnictwo Naukowe, 1957. Zasady radiolokacji Zeszyt VII, Wydanie I.
  10. Flatman, Allan. 10 Gigabit Ethernet over Twisted Pair. Wellington, NZ: s.n., 2003.
  11. PULSE. 10/100BASE-T Single port transformer modules with 1:1 Transmit turns ratios. San Diego, CA: Pulse, A technitrol Company, 2003.
  12. BROADCOM. 10/100/1000 Link Timing. Irvine, CA: Materiały firmy Broadcom, 2002.
  13. INTEL. 10 Gigabit AT Server Adapter EXPX9501AT for 10GBASE-T. s.l.: Intel Corporation, 2008.
  14. ETHERNET ALLIANCE. A Historical Perspective of Ethernet. 2005.
  15. CEETUS ENTERPRISE CORPORATION. Function of Ethernet Magnetics. Guangzohou City: Ceetus, 2003.
  16. AQUANTIA. AQ1002 Broduct Brief - 10GBASE-T Ethernet PHY Transceiver. Milpitas CA, USA: Milpitas, 2008.
  17. GIGABIT ETHENET ALLIANCE. Gigabit Ethernet 1000BASE-T. Cupertino, CA: Gigabit Ethenet Alliance, 1997.
  18. BEL. Gigabit Ethernet Magnetics Single Port Transformer Modules S558-5999-T4. Jersey City, NJ: Bel Fuse Inc., 2001.
  19. SOLARFLARE. How SolarFlare Communications Broke the 10Gbps on UTP Barrier. s.l.: SolarFlare, 2006.
  20. MICRO LINEAR. ML4658 10BASE-T Transceiver. San Jose: Micro Linear, 1998. Vol. Materiały katalogowe.
  21. AMPHENOL. RJ-45 With integrated 10/100 BASE-T Lan magnetics. Scarborough: Amphenol Data / Telecom Products, 2006. Vol. Karta katalogowa.
  22. SMSC. Scalable 10/100 Ethernet Reference Design to Support Migration from SMSC LAN83C185 Non Auto-MDIX PHY to SMC LAN8187 HP Auto-MDIX PHY. Hauppauge, NY: Standard Microsystems Corporation, 2008. Vol. Nota aplikacyjna 13.18.
  23. TEKTRONIX. Tektronix Test Methods of Implementation Ethernet 1000Base-T PHY. Richardson, TX: Tektronix, 2007.
  24. ANSI/TIA/EIA. ANSI/TIA/EIA-568-A-1995 Commercial Building Telecomunications Cabling Standard.: ANSI, 1995.
  25. Babanezhad, Joseph. 10GBASE-T Signaling. San Jose: Plato Labs, 2003.
  26. Chen, John and Contreras, Steve. Lan Magnetics Interface Circuit. US 7,123,17 B2 USA, 10 17, 2006.
  27. Chustecki, Janusz. NetWorld. Gigabit Ethernet czeka na swoje aplikacje. Warszawa: IDG Poland S.A., 2003. 05. ISSN 12328723.
  28. D’Ambrosia, John and Healey, Adam. The State of IEEE 802.3ap Backplane Ethernet.: Agere, 2006.
  29. Dinh, Thuyen. Magnetics for 10GBase-T. San Francisco: PULSE, Lan Products Division, 2003.
  30. Dinh, Thuyen. Updates on Magnetics for 10GBASE-T. Vancouver: Pulse - LAN Products Division, 2004.
  31. Eggers, Jim and Hodnett, Steve. Erthernet Autonegotiation Best Practices. Santa Clara: Sun Microsystems Inc., 2004. Sun Bueprints.
  32. Ghiashi, Ali. IEEE 802.3ap "Backplane Ethernet” Overview. Irvin CA: Broadcom, 2005.
  33. Hermandez, Rich. Gigabit Ethernet Auto-Negotiation.: Dell, 2001.
  34. Hersh, Matthew. Auto-Crossover Whitepaper. New hampshire: University on New Hampshire Interoperability Laboratory, 2006.
  35. Jansweijer, Peter. 8B/10B Coding, 64B/66B Coding. Amsterdam: The National Institute for Nuclear Physics and High Energy Physics, 2008.
  36. Jim, Kuciel. NetworkWorld. Cat 5 calble can handle Gigabit Ethernet. Southborough, MA: The Network World Inc., 2000. 10.
  37. Kaplan, Hadriel and Noseworthy, Robert. The Ethernet Evolution From 10 Meg to 10 Gig. How it all Works! Atlanta: s.n., 2001.
  38. Klauser, Andreas. WARP - The UTP Technology for 10GBASE-T. Wetzikon: Reichle & De-Massari AG, 2006. Materiały informacyjne.
  39. Langner, Paul and Woodruff, Bill. An Overview of 10GBASE-T. Milpitas, CA USA: Aquantia, 2006.
  40. Luckoor, Sowmya. Introduction to 10 Gigabit 64b/66b (Clause 49). New Hampshire: University of New Hampshire Interoperability Laboratory, 2001.
  41. Lynskey, Eric. Auto-negotiation for 10GBASE-T. Vancouver: University of New Hampshire Interoperability Laboratory, 2004.
  42. Nowicki, Krzysztof. Ethernet - sieci, mechanizmy. Gdańsk: Infotech, 2006. ISBN 83-921711-2-8.
  43. Nowicki, Krzysztof i Woźniak, Józef. Przewodowe i bezprzewodowe sieci LAN. Warszawa: Oficyna Wydawnicza Politechniki Warszawskiej, 2002. ISBN 83-7207-092-X.
  44. Odom, Wendell i Knott, Tom. Akademia sieci CISCO CCNA semestr 1 - Podstawy dzialania sieci. Warszawa: Wydawnictwo naukowe PWN S.A., 2007. ISBN 15871216.
  45. Sevick, Jerry. Trnsmission Line Transformers. Atlanta: Noble Publishing, 1996. ISBN 1-884932-66-5.
  46. Walker, Rick and Dugan, Richard. 64b/66b low-overhead coding proposal for serial links. San Jose, CA: Agilent Technologies, Integrated Circuits Business Division, 2000.
  47. Widmer, Albert and Franaszek, Peter. A DC-Balanced, partitioned-Block, 8B/10B Transmission Code. s.l.: IBM, 1983. Journal of Research and Development.
  48. Woodruff, Bill and Schoolnik, Michael. Aquantia Announces Sampling of Industry’s First Low-Power 10GBASE-T Silicon for Mainstream Applications. Milpitas, CA USA: Aquantia Corp., 2008.
  49. Cirrus Logic. CS8920A Advanced Product Databook. Austin, TX, USA: Cirrus Logic Inc., 1997.
  50. SMSC. LAN91C94 ISA/PCMCIA Single-Chip Ethernet Controller with RAM. Hauppauge, NY, USA: Standard Microsystems Corporation, 1997.
  51. BEL. 10BASE-T Transceiver modules. Jersey City, NJ: Bell Fuse Inc, 2000.
  52. Kohlhepp, Robert. Network Computing. The 10 Most Important Products of the Decade. 2000, 10.
  53. Pickerd, John and Tan, Kan. Electronics for You. Ethernet Return Loss Measurements on a Scope. 2004, 10.
  54. Barrass, Hugh, et al. 10 Gigabit Ethernet over Twisted-pair Copper. Austin, TX, USA: Ethernet Alliance, 2007.
  55. DiMinico, Chris. 10GBASE-T Physical layer Specifications. Vancouver: CDT Corporation, 2003.
  56. DiMinico, Chris. Data Center Design Considerations. Vancouver: MC Communications, 2003.
  57. DiMinico, Chris. 802.3ba Copper cable assembly proposal. Vancouver: IEEE, 2008.
  58. Mazzola, Mario, Cafiero, Luca and DeNicolo, Maurilio. Method and apparatus for multilevel encoding for a local area network. 5 280 500 USA, 01 18, 1994.
  59. Metzenger, Piotr. Anatomia PC. Gliwice: Wydawnictwo Helion, 2007. ISBN 978-83-246-1119-5.
  60. DIGI. Digi Connect ME. Minnetonka, MN, USA: Digi International Inc., 2008.
  61. Noseworthy, Bob. Gigabit Ethernet 1000BASE-T Physical Coding Sublayer (PCS) Functional Basics and Overview. Durham, NH , USA: IOL Gigabit Ethernet Consortium, 2000.
  62. UNH-IOL. The Ethernet Effect: Collaboration, Interoperability and Adoption of new technologies. Durham, NH, USA: University of New Hampshire Interoperability Laboratoryin colaboration with Dell'Oro Group, 2006.
  63. UNH-IOL. 100BASE-TX Physical Medium Dependent. Durham, NH, USA: University of new Hampshire Interoperability Laboratory, 2004.
  64. Sevick, Jerry. Understanding, Building and Using Baluns and Ununs . Hicksville, NY, USA: C Q Communications Incorporated, 2003. ISBN 9780943016245.
  65. UNH-IOL. Gigabit Ethernet Signaling On Copper. Durham, NH, USA: University of new Hampshire Interoperability Laboratory, 2001.
  66. Agazzi, Oscar, Hatamian, Mehdi and Samueli, Henry. Update on QAM-Based 1000BASE-T Transceiver. Irvine, CA, USA: Broadcom, 1997.
  67. BEL. 10BASE-T Network Components Quad 4-Port Module. Jersey City, NJ: Bel Fuse Inc., 2000.
  68. UNH-IOL. 100BASE-X Physical Coding Sublayer (PCS). Durham, NH, USA: University of New Hampshire Interoperability Laboratory, 2004.
  69. Cole, Chris, Anslow, Pete and King, Jonathan. Update to Adopted 100GE 40km SMF PMD Baseline. Denver: IEEE 802.3ba Task Force, 2008.
  70. Anslow, Pete. 100GBASE-xR4 Discussion. Denver: IEEE P802.3ba Task Force, 2008.
  71. Ganga, Ilango and D'Ambrosia, John. IEEE 802.3 Plenary, HSSG meeting. IEEE 802.3 architecture and 40/100GbE. Atlanta, GA, USA: Intel, 2007.
  72. Mellitz, Richard and Ganga, Ilango. IEEE P802.3ba 40/100G Task Force meeting. 40GBASE-KR4 backplane PHY proposal and Next Steps. Munich: s.n., 2008.
  73. Steenman, Henk. Update on IEEE 802.3BA 40 and 100GE. Amsterdam: AMSIX, 2008.
  74. Petrilla, John. Proposed Characteristics for 40GBASE-SR4 & 100GBASE-SR10 TP1 & TP4 PMD Service Interfaces. Munich: Avago Technologies, 2008.
  75. Gustlin, Mark and Trowbridge, Steve. 100/40 GbE PMA Proposal. Denver: IEEE P802.3ba Task Force, 2008.
  76. Ganga, Ilango et. all. IEEE P802.3ba Task Force meeting. Chief Editor's Report. Munich: IEEE P8023ba Task Force, 2008.
  77. ANSI/TIA/EIA. ANSI/TIA/EIA-568-B-2001 Commercial Building Telecommunications Cabling Standard. s.l.: ANSI, 2001.
  78. ELEC & ELTEC MAGNETICS PRODUCTS LTD. 10G Base-T Single Port Magnetic Module. Kowolon, Hong Kong: Elec & Eltec Magnetics Products Ltd., 2007.
  79. PULSE. Pulse Jack 10GBASE-T Magnetics Module. San Diego, CA, USA: Pulse, 2009.
  80. PCA ELECTRONICS INC. 10/100Base-TX Interface Module with Enhanced Common Mode Attenuation EPF8188G. NORTH HILLS, CA, USA: PCA Electronics Inc., 2003.
  81. PULSE. 1000BASE-T Magnetics Modules Designed to Support 1:1 Turns Ratio Transceivers. San Diego, CA, USA: Pulse Inc., 2006.
  82. Fisher, Robert, Lampe, Alexander and Huber, Johannes. Proceedings of International Zurich Seminar on Broadband Communications. Tomlinson-Harashima Precoding in Space-Time Transmission for Low-Rate Backward Channel. Zurich: Lehrstuhl für Nachrichtentechnik II, Friedrich–Alexander Universität Erlangen–Nürnberg, 2002.
  83. Patela, Sergiusz. Ethernet optyczny - przykład światłowodowej sieci LAN 10BaseF i 100BaseFX. Wrocław: Politechnika Wrocławska, Wydział Elektroniki Mikrosystmów i Fotoniki, 2002. Tom Materiały wykładowe.
  84. Woźniak, Józef i Nowicki, Krzysztof. Sieci LAN, MAN i WAN - Protokoły komunikacyjne. Kraków: Wydawnictwo Postępu Telekomunikacji, 2003. ISBN 83-86476-32-X.
  85. D'Ambrosia, John and Stonick, John. 802.3ap backplane Ethernet PAM-4 Link Analysis. Austin, TX, USA: Tyco Electronics & Synopsys, 2004.
  86. D'Ambrosia, John and Mellitz, Rich. IEEE P802.3ap Backplane Ethernet Task Force Symposium. Informative Model Methodology Update. Austin, TX, USA: Tyco Electronics & Intel, 2005.
  87. John, David. Equalization. Toronto: University of Toronto, 1997.
  88. Ungerboeck, Gottfried. IEEE P802.3an Task Force Interim Symphosium. 10GBASE-T Coding and Modulation 128-DSQ + LDPC. Ottawa: IEEE P802.3an Task Force, 2004.
  89. Ungerboeck, Gottfried. NEWCOM-ACoRN Joint Workshop. 10GBASE-T: 10Gbit/s Ethernet over copper. Vienna: Broadcom, 2006.
  90. Ungerboeck, Gottfried, et al. LDPC (Low Density Parity Check) coded 128 DSQ (Double Square QAM) constellation modulation and associated labeling . 7515642 USA, 04 07, 2009.
  91. Rydzlewski, Jerzy. Pomiary oscyloskopowe. Warszawa: Wydawnictwa Naukowo-Techniczne, 2007. ISBN 978-83-204-3368-5.
  92. HAMEG INSTRUMENTS. Oscilloscope HM1507-3.02 Manual. Frankfurt, Germany: HAMEG GmbH, 2001.
  93. Lapack, Jeff. An Introduction to the Auto-negotiation process. New Hampshire: University of New Hampshire Interoperability Laboratory, 2004.
  94. IEEE. IEEE Standard for Information technology - Telecommunications and information exchange between systems - Local and metropolitan area networks Specific requirements. Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications. Amendment 4: Ethernet Operation over Electrical Backplanes. New York: IEEE, 2007.
  95. IEEE. IEEE Standard for Information technology - Telecommunications and information exchange between systems - Local and metropolitan area networks Specific requirements. Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications Amendment 2: Physical Layer and Management Parameters for 10 Gb/s Operation Type 10GBASE-LRM. New York: IEEE, 2006.
  96. IEEE. IEEE Standard for Information technology - Telecommunications and information exchange between systems - Local and metropolitan area networks Specific requirements. Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications Amendment 1: Physical Layer and Management Parameters for 10 Gb/s Operation, Type 10GBASE-T. New York: IEEE, 2007.
  97. IEEE. IEEE Std 802.3™-2005 Standard for Information technology - Telecommunicaions and information exchange between systems Local and metropolitan area networks - Specific Requirements. Part 3: Carrier sense multiple access with collision detection (CSMA/CD) access method and physical layer specifications. New York: IEEE, 2005.
  98. HEWLETT PACKARD. HP 54520 and HP 54540 Series Oscilloscopes user's Reference. Colorado Springs, CO, USA: Hewlett Packard, 1994. 54542-97016 First Edition.
  99. LECROY. Probe PP006 User's Manual. Chestnut Ridge, NY, USA: LeCroy Corp., 199.
  100. HEWLETT PACKARD. HP 10400A Miniature passive probes operating note. Colorado Springs, CO, USA: Hewlett Packard, 1993. 10400-90903.
  101. TEKTRONIX. P6046 Differential probe and amplifier user's manual. Baverton, OR, USA: Tektronix Inc., 1975.
  102. Kelly, Ed. Reengineered FR-4 Base Materials for Improved Multilayer PCB Performance. Santa Ana, CA,USA: Polyclad Laminates, 2005.
  103. Oganessyan, Gourgen. Constructing ~1M Improved FR4 Channels with the New Attenuation Limit. Lisle, IL, USA: Molex Inc., 2006.
  104. Dunham, Dave. Molex I-Trac Reference Backplane Channel Performance for 10G Serial Backplane Ethernet Applications: 10GBASE-KR. Lisle, IL, USA: Molex Inc., 2007. rev. 2.
  105. Sayre, Edward. Design of Multi Multi-Gigabit ATCA Backplanes and Logic Card Interfaces . Marshfield, MA, USA: North East Systems Associates Inc., 2006.
  106. Praca zbiorowa pod red. Boczyński, Tomasz i Kaczmarek, Stefan. Vademecum teleinformatyka, Warszawa: International data group poland S.A., 2002, Tom II, ISBN 83-903252-5-X

Logo PZK h15 200dpi

Ruch Obywatelski Miłośników Broni