IEEE 802.3bv 2017
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IEEE Standard for Ethernet Amendment 9: Physical Layer Specifications and Management Parameters for 1000 Mb/s Operation Over Plastic Optical Fiber
| Published By | Publication Date | Number of Pages |
| IEEE | 2017 | 140 |
Amendment Standard – Superseded. A family of three point-to-point physical layers (PHYs) for 1000 Mb/s operation over duplex plastic optical fiber (POF) and related management parameters are specified by this amendment to IEEE Std 802.3-2015.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | IEEE Std 802.3bv-2017 Front Cover |
| 2 | Title page |
| 4 | Important Notices and Disclaimers Concerning IEEE Standards Documents |
| 7 | Participants |
| 11 | Introduction |
| 14 | Contents |
| 19 | 1. Introduction 1.3 Normative references 1.4 Definitions |
| 21 | 1.5 Abbreviations |
| 22 | 30. Management 30.3.2.1.2 aPhyType 30.3.2.1.3 aPhyTypeList 30.5.1.1.2 aMAUType 30.5.1.1.4 aMediaAvailable |
| 23 | 45. Management Data Input/Output (MDIO) Interface 45.2 MDIO Interface Registers 45.2.1 PMA/PMD registers |
| 24 | 45.2.1.6 PMA/PMD control 2 register (Register 1.7) 45.2.1.10 PMA/PMD extended ability register (Register 1.11) 45.2.1.10.aaaa BASE-H extended abilities (1.11.15) |
| 25 | 45.2.1.14d BASE-H PMA/PMD extended ability register (Register 1.22) 45.2.1.117a BASE-H PMA/PMD control register (Register 1.900) 45.2.1.117a.1 Type selection (1.900.3:0) |
| 26 | 45.2.3 PCS registers 45.2.3.47a 1000BASE-H OAM transmit registers (Registers 3.500 through 3.508) 45.2.3.47a.1 TXO_REQ (3.500.15) |
| 27 | 45.2.3.47a.2 TXO_PHYT (3.500.14) 45.2.3.47a.3 TXO_MERT (3.500.13) 45.2.3.47a.4 TXO_MSGT (3.500.12) 45.2.3.47a.5 TXO_DATAx (Bits 3.500.11:0 and Registers 3.501 through 3.508) |
| 28 | 45.2.3.47b 1000BASE-H OAM receive registers (Registers 3.509 through 3.517) 45.2.3.47b.1 RXO_VAL (3.509.15) |
| 29 | 45.2.3.47b.2 RXO_MSGT (3.509.12) 45.2.3.47b.3 RXO_DATAx (Bits 3.509.11:0 and Registers 3.510 through 3.517) 45.2.3.47c 1000BASE-H PCS control register (Register 3.518) 45.2.3.47c.1 Operation mode (3.518.15:13) 45.2.3.47c.2 Loopback mode (3.518.12:10) |
| 30 | 45.2.3.47c.3 1000BASE-H OAM enable (3.518.1) 45.2.3.47c.4 EEE enable (3.518.0) 45.2.3.47d 1000BASE-H PCS status 1 register (Register 3.519) |
| 31 | 45.2.3.47d.1 Local receiver status (3.519.15) 45.2.3.47d.2 Remote receiver status (3.519.14) 45.2.3.47d.3 Link status (3.519.13) 45.2.3.47d.4 Local PHD reception status (3.519.12) 45.2.3.47d.5 Remote PHD reception status (3.519.11) 45.2.3.47d.6 PHD lock status (3.519.10) 45.2.3.47d.7 THP lock status (3.519.9) |
| 32 | 45.2.3.47d.8 Tx Assert LPI received (3.519.8) 45.2.3.47d.9 Rx Assert LPI generated (3.519.7) 45.2.3.47d.10 Tx LPI indication (3.519.6) 45.2.3.47d.11 Rx LPI indication (3.519.5) 45.2.3.47d.12 Remote 1000BASE-H OAM ability (3.519.3) 45.2.3.47d.13 Remote EEE ability (3.519.2) 45.2.3.47d.14 1000BASE-H OAM ability (3.519.1) |
| 33 | 45.2.3.47d.15 EEE ability (3.519.0) 45.2.3.47e 1000BASE-H PCS status 2 register (Register 3.520) 45.2.3.47e.1 Local link margin (3.520.7:0) 45.2.3.47f 1000BASE-H PCS status 3 register (Register 3.521) 45.2.3.47f.1 Remote link margin (3.521.7:0) 45.2.3.47g 1000BASE-H PCS status 4 register (Register 3.522) |
| 35 | 45.5 Protocol implementation conformance statement (PICS) proforma for Clause 45, Management Data Input/Output (MDIO) interface 45.5.3 PICS proforma tables for the Management Data Input Output (MDIO) interface 45.5.3.2 PMA/PMD MMD options 45.5.3.3 PMA/PMD management functions |
| 36 | 45.5.3.6 PCS options 45.5.3.7 PCS management functions |
| 38 | 78. Energy-Efficient Ethernet (EEE) 78.1.4 PHY types optionally supporting EEE 78.2 LPI mode timing parameters descriptions 78.5 Communication link access latency |
| 39 | 115. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer, and Physical Medium Dependent (PMD) sublayer, types 1000BASE-RHA, 1000BASE-RHB, and 1000BASE-RHC 115.1 Overview 115.1.1 Features 115.1.2 Conventions 115.1.3 Relationship of 1000BASE-RHx to other standards |
| 40 | 115.1.4 Relationship to other Gigabit Ethernet PHY types 115.1.5 Operation of 1000BASE-RHx |
| 42 | 115.1.6 Functional block diagram |
| 43 | 115.2 Physical Coding Sublayer (PCS) 115.2.1 Transmit Block |
| 45 | 115.2.2 Pilots data path 115.2.2.1 Pilot S1 generator |
| 46 | 115.2.2.2 Pilot S2 generator |
| 47 | 115.2.3 Physical header encoding and scrambling 115.2.3.1 Physical header CRC16 |
| 48 | 115.2.3.2 Physical header binary scrambler 115.2.3.3 Physical header BCH encoder 115.2.3.4 Physical header modulation |
| 49 | 115.2.3.5 Physical header ordering 115.2.4 Payload data encoding and scrambling 115.2.4.1 GMII data stream encoding 115.2.4.1.1 64B/65B encoding |
| 52 | 115.2.4.1.2 64B/65B encoding formal definition |
| 53 | 115.2.4.1.3 PDB alignment with Transmit Block 115.2.4.2 Payload data binary scrambler |
| 54 | 115.2.4.3 PAM16 encoder |
| 55 | 115.2.4.3.1 MLCC demultiplexer 115.2.4.3.2 Payload BCH encoder |
| 56 | 115.2.4.3.3 QAM16 mapper |
| 57 | 115.2.4.3.4 QAM8 mapper 115.2.4.3.5 First lattice transformation 115.2.4.3.6 Lattice addition |
| 58 | 115.2.4.3.7 Second lattice transformation 115.2.4.3.8 QAM to PAM multiplexer 115.2.4.4 Payload data symbol scrambler |
| 59 | 115.2.5 PCS receive function |
| 61 | 115.3 Physical Medium Attachment (PMA) sublayer 115.3.1 PMA transmit function 115.3.1.1 Payload data Tomlinson-Harashima precoding |
| 62 | 115.3.1.2 Transmit power scaling 115.3.2 PMA receive function |
| 63 | 115.3.3 Interface to the PMD 115.3.3.1 Signals transmitted to the PMD 115.3.3.2 Signals received from PMD (informative) |
| 64 | 115.3.4 Physical Header Data (PHD) |
| 67 | 115.3.5 PHY control 115.3.5.1 PHY control state variables |
| 69 | 115.3.5.2 PHY TX control state diagram |
| 70 | 115.3.5.3 PHY RX control state diagram |
| 72 | 115.3.5.4 Link monitor state diagram |
| 73 | 115.3.5.5 PHD monitor state diagrams |
| 75 | 115.3.6 Adaptive THP protocol 115.3.6.1 Adaptive THP state variables |
| 76 | 115.3.6.2 Adaptive THP TX state diagram |
| 78 | 115.3.6.3 Adaptive THP REQ state diagram |
| 79 | 115.3.7 PHY quality monitor 115.3.7.1 PHY quality criterion 115.3.7.2 PHY quality assessment |
| 80 | 115.3.7.3 PHY quality monitor state variables 115.3.7.4 PHY quality monitor state diagram |
| 82 | 115.3.8 Fixed-point format formal definition 115.3.8.1 Fixed-point encoding 115.3.8.2 Fixed-point decoding 115.4 Energy-Efficient Ethernet (EEE) |
| 84 | 115.4.1 LPI mode transmit operation 115.4.2 LPI mode receive operation |
| 85 | 115.4.3 PMD power control state variables 115.4.4 PMD power control state diagrams |
| 87 | 115.5 Test modes |
| 88 | 115.5.1 Test mode 1 115.5.2 Test mode 2 115.5.3 Test mode 3 115.5.4 Test mode 4 115.5.5 Test mode 5 115.5.6 Test mode 6 |
| 90 | 115.6 Physical Medium Dependent (PMD) sublayer 115.6.1 PMD service interface 115.6.1.1 PMD_COMSIGNAL.request 115.6.1.1.1 Semantics of the primitive 115.6.1.1.2 When generated 115.6.1.1.3 Effect of receipt 115.6.1.2 PMD_COMSIGNAL.indication 115.6.1.2.1 Semantics of the primitive |
| 91 | 115.6.1.2.2 When generated 115.6.1.2.3 Effect of receipt 115.6.1.3 PMD_TXPWR.request 115.6.1.3.1 Semantics of the primitive 115.6.1.3.2 When generated 115.6.1.3.3 Effect of receipt 115.6.1.4 PMD_RXPWR.request 115.6.1.4.1 Semantics of the primitive |
| 92 | 115.6.1.4.2 When generated 115.6.1.4.3 Effect of receipt 115.6.1.5 PMD_RXDETECT.indication 115.6.1.5.1 Semantics of the primitive 115.6.1.5.2 When generated 115.6.1.5.3 Effect of receipt 115.6.1.6 PMD_SDINH.request |
| 93 | 115.6.1.6.1 Semantics of the primitive 115.6.1.6.2 When generated 115.6.1.6.3 Effect of receipt 115.6.2 PMD functional specifications 115.6.2.1 PMD block diagram |
| 94 | 115.6.2.2 PMD transmit function 115.6.2.3 PMD receive function 115.6.2.4 PMD signal detect function |
| 95 | 115.6.3 PMD to MDI optical specifications 115.6.3.1 Transmitter optical specifications |
| 97 | 115.6.3.2 Transmit clock frequency 115.6.3.3 Receiver optical specifications |
| 98 | 115.6.3.4 Receiver boundary condition tests 115.6.3.4.1 Receiver minimum AOP test 115.6.3.4.2 Receiver maximum AOP test |
| 99 | 115.6.4 Optical measurement requirements 115.6.4.1 Center wavelength measurement 115.6.4.2 Spectral width measurement |
| 100 | 115.6.4.3 Average Optical Power (AOP) measurement 115.6.4.4 Transmitter rise and fall time measurements 115.6.4.5 Transmitter extinction ratio (ER) measurement 115.6.4.6 Transmitter overshoot measurements |
| 101 | 115.6.4.7 Transmitter output droop measurements 115.6.4.8 Transmitter distortion measurement |
| 104 | 115.6.4.9 Transmitter timing jitter measurement 115.6.4.10 Transmitter relative intensity noise (RIN) measurement |
| 105 | 115.6.4.11 Transmitter modal power distribution measurement 115.7 Characteristics of the fiber optic cabling (channel) |
| 107 | 115.7.1 Transfer function of fiber optic channel type I |
| 108 | 115.7.2 Transfer function of fiber optic channel type II |
| 109 | 115.7.3 Transfer function of fiber optic channel type III |
| 110 | 115.7.4 Fiber optic channel insertion loss measurement 115.7.5 Fiber optic channel transfer function measurement 115.7.6 Worst-case 1000BASE-RHx link power budget 115.8 Medium Dependent Interface (MDI) 115.8.1 MDI mechanical interface for 1000BASE-RHA |
| 112 | 115.9 1000BASE-H Operations, Administration, and Maintenance (1000BASE-H OAM) channel 115.9.1 1000BASE-H OAM message transmission protocol |
| 113 | 115.9.2 1000BASE-H OAM channel status |
| 114 | 115.9.3 1000BASE-H OAM message reception protocol |
| 115 | 115.9.4 1000BASE-H OAM channel state diagrams descriptions 115.9.4.1 1000BASE-H OAM control state variables |
| 117 | 115.9.4.2 1000BASE-H OAM transmit control state diagram 115.9.4.3 1000BASE-H OAM receive control state diagram |
| 120 | 115.10 Loopback modes 115.11 Management interface 115.12 Environmental specifications 115.12.1 Temperature classes |
| 121 | 115.12.2 General safety 115.12.3 Environmental safety |
| 122 | 115.12.4 Electromagnetic compatibility 115.12.5 Optical safety 115.13 Delay constraints |
| 123 | 115.14 Protocol implementation conformance statement (PICS) proforma for Clause 115, Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer, and Physical Medium Dependent (PMD) sublayer, types 1000BASE-RHA, 1000BASE-RHB, and 1000BA… 115.14.1 Introduction 115.14.2 Identification 115.14.2.1 Implementation identification 115.14.2.2 Protocol summary |
| 124 | 115.14.3 Major capabilities/options |
| 125 | 115.14.4 Physical Coding Sublayer (PCS) |
| 127 | 115.14.5 Physical Medium Attachment (PMA) |
| 129 | 115.14.6 Energy-Efficient Ethernet (EEE) |
| 130 | 115.14.7 Test modes |
| 131 | 115.14.8 Physical Medium Dependent (PMD) |
| 132 | 115.14.9 PMD to MDI optical specifications |
| 133 | 115.14.10 Optical measurement requirements |
| 134 | 115.14.11 Characteristics of the fiber optic cabling (channel) 115.14.12 Medium dependent interface (MDI) |
| 135 | 115.14.13 1000BASE-H Operations, Administration, and Maintenance (1000BASE-H OAM) channel |
| 136 | 115.14.14 Loopback modes 115.14.15 Management Interface 115.14.16 Environmental specifications |
| 137 | 115.14.17 Delay constraints |
| 138 | Annex 115A (informative) BCH codeword examples 115A.1 Output of the BCH(896, 720) encoder 115A.2 Output of the BCH(1976, 1668) encoder |
| 140 | Back Cover |
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