IEEE 802.3cs-2022

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IEEE Standard for Ethernet Amendment 2: Physical Layers and Management Parameters for Increased-Reach Point-to-Multipoint Ethernet Optical Subscriber Access (Super-PON)

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IEEE	2022

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Description

Amendment Standard – Active. Super-PON optical subscriber access networks, which are in the family of Ethernet passive optical networks (EPONs), are defined in this amendment to IEEE Std 802.3-2022. Super-PON has a reach of up to 50 km and up to 1024 ONUs over a point-to-multipoint passive optical distribution network (ODN) through wavelength division multiplexing (WDM). A Super-PON ODN contains a passive wavelength router that determines the channels used by the ODN. This standard specifies the Super-PON Reconciliation Sublayer (RS), Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer, and Physical Medium Dependent (PMD) sublayer at a MAC data rate of 10 Gb/s in the downstream direction and of 10 Gb/s or 2.5 Gb/s in the upstream direction.

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PDF Pages	PDF Title
1	Front cover
2	Title page
4	Important Notices and Disclaimers Concerning IEEE Standards Documents
8	Participants
11	Introduction
14	Contents
21	1. Introduction 1.3 Normative references 1.4 Definitions
22	1.5 Abbreviations
23	30. Management 30.3 Layer management for DTEs 30.3.2 PHY device managed object class 30.3.2.1 PHY device attributes 30.3.2.1.2 aPhyType 30.3.2.1.3 aPhyTypeList 30.3.5 MPCP managed object class 30.3.5.1 MPCP Attributes 30.3.5.1.2 aMPCPAdminState 30.3.5.1.3 aMPCPMode
24	30.5 Layer management for medium attachment units (MAUs) 30.5.1 MAU managed object class 30.5.1.1 MAU attributes 30.5.1.1.2 aMAUType
25	45. Management Data Input/Output (MDIO) Interface 45.2 MDIO Interface registers 45.2.1 PMA/PMD registers 45.2.1.27 PMA/PMD control 3 register (Register 1.29) 45.2.1.27.1 Downstream differential encoding (1.29.15) 45.2.1.27.1a Super-PON PMA/PMD transmit channel (1.29.14:11) 45.2.1.27.2 PMA/PMD type selection (1.29.5:0)
27	45.2.1.159a Super-PON PMA/PMD extended ability register (Register 1.1003) 45.2.1.159a.1 10GBASE-SP1-D (1.1003.15) 45.2.1.159a.2 10GBASE-SP1-U (1.1003.14) 45.2.1.159a.3 10/2.5GBASE-SP1-D (1.1003.13)
28	45.2.1.159a.4 10/2.5GBASE-SP1-U (1.1003.12) 45.2.1.159a.5 Super-PON channel y (1.1003.7:4) 45.2.1.159a.6 Super-PON channel x (1.1003.3:0) 45.2.3 PCS registers 45.2.3.1 PCS control 1 register (Register 3.0)
29	45.2.3.6 PCS control 2 register (Register 3.7)
30	45.2.3.6.1 PCS type selection (3.7.4:0) 45.2.3.8 PCS status 3 register (Register 3.9) 45.2.3.8.a 10GBASE-SP capable (3.9.9)
31	45.2.3.8.b 10/2.5GBASE-SP capable (3.9.8) 45.2.3.41 10G-EPON, and Nx25G-EPON, and Super-PON corrected FEC codewords counter (Register 3.76, 3.77) 45.2.3.42 10G-EPON, and Nx25G-EPON, and Super-PON uncorrected FEC codewords counter (Register 3.78, 3.79)
32	45.2.3.43 10GBASE-PR, 10/1GBASE-PRX, and Nx25G EPON, and Super-PON BER monitor interval control register (Register 3.80)
33	45.2.3.44 10GBASE-PR, 10/1GBASE-PRX, and Nx25G EPON, and Super-PON BER monitor status (register 3.81) 45.2.3.44.1 10GBASE-PR, 10/1GBASE-PRX, and Nx25G EPON, and Super-PON PCS high BER (3.81.0) 45.2.3.44.2 10GBASE-PR, 10/1GBASE-PRX, and Nx25G EPON, and Super-PON PCS latched high BER (3.81.1) 45.2.3.45 10GBASE-PR, 10/1GBASE-PRX, and Nx25G EPON, and Super-PON BER monitor threshold control (register 3.82)
34	45.2.3.46 Nx25G-EPON and Super-PON synchronization pattern registers (Registers 3.83 through 3.134) 45.2.3.46.1 SP3 bit 257 (3.83.5) 45.2.3.46.2 SP3 balanced (3.83.4) 45.2.3.46.3 SP2 bit 257 (3.83.3) 45.2.3.46.4 SP2 balanced (3.83.2)
35	45.2.3.46.5 SP1 bit 257 (3.83.1) 45.2.3.46.6 SP1 balanced (3.83.0) 45.2.3.46.7 SP1 pattern (3.84.0 through 3.99.15) 45.2.3.46.8 SP1 length (3.100.15:0) 45.2.3.46.9 SP2 pattern (3.101.0 through 3.116.15) 45.2.3.46.10 SP2 length (3.117.15:0) 45.2.3.46.11 SP3 pattern (3.118.0 through 3.133.15) 45.2.3.46.12 SP3 length (3.134.15:0)
36	56. Introduction to Ethernet for subscriber access networks 56.1 Overview 56.1.2 Summary of P2MP sublayers 56.1.2.1 Multipoint MAC Control Protocol (MPCP)
38	56.1.2.2 Reconciliation Sublayer (RS) and media independent interfaces 56.1.3 Physical Layer signaling systems
40	67. System considerations for Ethernet subscriber access networks 67.1 Overview 67.2 Discussion and examples of EFM P2MP topologies 67.2.5 Super-PON topology and architecture
41	164. Physical Layers, Multipoint MAC Control, and management parameters for increased-reach point-to-multipoint Ethernet optical subscriber access (Super-PON) 164.1 Super-PON overview
42	164.2 Super-PON Physical Medium Dependent (PMD) Sublayer and Medium 164.2.1 Overview 164.2.1.1 Positioning of the PMD sublayer within the IEEE 802.3 architecture 164.2.2 PMD naming
44	164.2.3 Supported combinations of OLT and ONU PMDs 164.2.4 PMD functional specifications 164.2.4.1 PMD service interface 164.2.4.1.1 PMD_UNITDATA.request
45	164.2.4.1.2 PMD_UNITDATA.indication 164.2.4.1.3 PMD_SIGNAL.request 164.2.4.1.4 PMD_SIGNAL.indication 164.2.4.2 PMD block diagram
46	164.2.4.3 PMD transmit function 164.2.4.4 PMD receive function
47	164.2.4.5 PMD signal detect function 164.2.4.5.1 ONU PMD signal detect 164.2.4.5.2 OLT PMD signal detect 164.2.4.5.3 Super-PON signal detect functions 164.2.4.6 PMD transmit enable function for ONU 164.2.4.7 PMD delay constraints 164.2.5 Wavelength channel allocation
48	164.2.6 PMD to MDI optical specifications for OLT PMDs 164.2.6.1 OLT transmitter optical specifications
49	164.2.6.2 OLT receiver optical specifications 164.2.7 PMD to MDI optical specifications for ONU PMDs
50	164.2.7.1 ONU transmitter optical specifications 164.2.7.2 ONU receiver optical specifications 164.2.8 Super-PON Black Link specification
51	164.2.9 Definitions of optical parameters and measurement methods
52	164.2.9.1 Insertion loss 164.2.9.2 Test patterns 164.2.9.3 Wavelength and side mode suppression ratio (SMSR) 164.2.9.4 Optical power measurements
53	164.2.9.5 Extinction ratio measurements 164.2.9.6 Relative intensity noise optical modulation amplitude (RIN15OMA) measuring procedure 164.2.9.7 Transmit optical waveform (transmit eye) 164.2.9.8 Transmitter dispersion penalty (TDP) 164.2.9.8.1 Reference transmitter requirements 164.2.9.8.2 Reference receiver requirements 164.2.9.8.3 Test procedure 164.2.9.9 Receiver OSNR tolerance 164.2.9.10 Laser on/off timing measurement
54	164.2.9.10.1 Definitions 164.2.9.10.2 Test method 164.2.9.11 Receiver settling timing measurement 164.2.9.11.1 Definitions 164.2.9.11.2 Test method
55	164.2.9.12 Maximum ripple 164.2.9.13 Clear link passband 164.2.9.14 Maximum and minimum residual chromatic dispersion 164.2.9.15 Maximum inter-channel crosstalk
56	164.2.9.16 Maximum differential group delay 164.2.9.17 Maximum optical path OSNR penalty 164.2.9.18 Minimum optical return loss 164.2.9.19 Maximum spectral excursion 164.2.9.20 Maximum loss excursion 164.2.9.21 Burst-mode gain excursion 164.2.10 Environmental, safety, and labeling 164.2.10.1 General safety 164.2.10.2 Laser safety
57	164.2.10.3 Installation 164.2.10.4 Environment 164.2.10.5 PMD labeling 164.2.11 Characteristics of the fiber optic cabling 164.2.11.1 Fiber optic cabling model 164.2.11.2 Medium Dependent Interface (MDI)
58	164.2.12 Protocol implementation conformance statement (PICS) proforma for 164.2, Physical Medium Dependent (PMD) sublayer and medium for Super-PON passive optical networks 164.2.12.1 Introduction 164.2.12.2 Identification 164.2.12.2.1 Implementation identification 164.2.12.2.2 Protocol summary
59	164.2.12.3 Major capabilities/options 164.2.12.4 PMD functional specifications
60	164.2.12.5 PMD to MDI optical specifications for 10GBASE-SP1-D 164.2.12.6 PMD to MDI optical specifications for 10GBASE-SP1-U 164.2.12.7 PMD to MDI optical specifications for 10/2.5GBASE-SP1-D 164.2.12.8 PMD to MDI optical specifications for 10/2.5GBASE-SP1-U
61	164.2.12.9 Definitions of optical parameters and measurement methods
62	164.2.12.10 Characteristics of the fiber optic cabling and MDI
63	164.2.12.11 Environmental specifications
64	164.3 Super-PON Physical Coding Sublayer and Physical Media Attachment 164.3.1 Overview 164.3.1.1 Conventions 164.3.1.2 Delay constraints 164.3.1.3 Burst transmission 164.3.2 PCS transmit data path
66	164.3.3 PCS receive data path
67	164.3.4 Super-PON PMA 164.3.4.1 Service Interface 164.3.4.1.1 PMA_UNITDATA[i].request 164.3.4.1.2 PMA_UNITDATA[i]. indication 164.3.4.1.3 PMA_SIGNAL[i].request
68	164.3.4.2 Differential encoder 164.3.4.3 PMA transmit clock 164.3.4.3.1 Loop-timing specifications for ONUs 164.3.4.4 TCDR measurement
69	164.3.5 Protocol implementation conformance statement (PICS) proforma for 164.3, Super-PON Physical Coding Sublayer and Physical Media Attachment 164.3.5.1 Identification 164.3.5.1.1 Implementation identification 164.3.5.1.2 Protocol summary
70	164.3.5.2 PCS capabilities/options 164.3.5.3 PCS Processes
71	164.3.5.4 PMA Processes
72	164.4 Super-PON Reconciliation Sublayer 164.4.1 Overview 164.4.2 Summary of major concepts 164.4.3 RS functional specifications
73	164.4.4 Super-PON RS requirements 164.4.4.1 Super-PON architecture 164.4.4.2 RS channels 164.4.4.3 Symmetric and asymmetric data rates 164.4.4.4 Super-PON application-specific parameters 164.4.4.4.1 Constants 164.4.4.4.2 Transmit variables 164.4.4.5 RS time synchronization 164.4.4.6 Delay variability constraints
75	164.4.4.7 Asymmetric rate operation
77	164.4.5 Protocol implementation conformance statement (PICS) proforma for 164.4, Super-PON Reconciliation Sublayer 164.4.5.1 Identification 164.4.5.1.1 Implementation identification 164.4.5.1.2 Protocol summary
78	164.4.5.2 Generic MCRS 164.4.5.3 RS in Super-PON 164.4.5.3.1 Major capabilities/option 164.4.5.3.2 RS implementation in Super-PON
79	164.5 Super-PON Multipoint MAC Control Sublayer 164.5.1 Overview 164.5.1.1 Principles of point-to-multipoint operation 164.5.1.2 Position of Multipoint MAC Control (MPMC) within the IEEE 802.3 hierarchy 164.5.1.3 Functional block diagram 164.5.1.4 Service interfaces 164.5.1.5 Conventions 164.5.2 Protocol-independent operation 164.5.2.1 Control Parser and Control Multiplexer
81	164.5.2.1.1 Constants 164.5.2.1.2 Counters 164.5.2.1.3 Variables 164.5.2.1.4 Functions 164.5.2.1.5 Control Parser state diagram 164.5.2.1.6 Control Multiplexer state diagram 164.5.3 Multipoint Control Protocol (MPCP) 164.5.3.1 Principles of Multipoint Control Protocol (MPCP) 164.5.3.1.1 Ranging measurement and time synchronization
82	164.5.3.1.2 Granting access to the PON media by the OLT 164.5.3.2 MPCP block diagram 164.5.3.3 Delay variability requirements 164.5.3.4 Logical link identifier (LLID) types 164.5.3.5 Allocation of LLID values 164.5.3.6 MPCPDU structure and encoding 164.5.3.6.1 GATE description 164.5.3.6.2 REPORT description 164.5.3.6.3 REGISTER_REQ description
83	164.5.3.6.4 REGISTER description 164.5.3.6.5 REGISTER_ACK description 164.5.3.6.6 DISCOVERY description
84	164.5.3.6.7 SYNC_PATTERN description 164.5.3.7 Discovery process 164.5.3.7.1 Constants 164.5.3.7.2 Counters 164.5.3.7.3 Variables
86	164.5.3.7.4 Functions 164.5.3.7.5 Messages 164.5.3.7.6 Discovery Initiation state diagram 164.5.3.7.7 Registration Completion state diagram 164.5.3.7.8 ONU Registration state diagram 164.5.3.8 Granting process 164.5.3.9 Discovery process in dual-rate systems
87	164.5.3.9.1 OLT rate-specific discovery 164.5.3.9.2 ONU rate-specific registration
89	164.5.4 Protocol implementation conformance statement (PICS) proforma for 164.5, Super-PON Multipoint MAC Control Sublayer 164.5.4.1 Identification 164.5.4.1.1 Implementation identification 164.5.4.1.2 Protocol summary
90	164.5.4.2 Major capabilities/options 164.5.4.3 PICS proforma tables for Multipoint MAC Control 164.5.4.3.1 Clock tracking
91	164.5.4.3.2 LLID 164.5.4.3.3 Protocol-independent state diagrams
92	164.5.4.3.4 MPCP
95	Annex 164A (informative) Super-PON Black Link implementation 164A.1 Example of Super-PON Black Link implementation
96	164A.2 MUX/Amp 164A.2.1 MUX/DEMUX characteristics
97	164A.2.2 Booster optical amplifier characteristics 164A.2.3 Band MUX characteristics
98	164A.2.4 Preamp characteristics
99	164A.2.5 DCM characteristics 164A.3 Wavelength Router
100	164A.4 Power splitter 164A.5 Link budget analysis 164A.5.1 Downstream for a 50-km link
101	164A.5.2 Upstream for a 50-km link
102	164A.5.3 Raman Effect Penalty
103	164A.5.4 Dispersion compensation
105	Annex 164B (informative) Cabled fiber link attributes used for system design 164B.1 Overview 164B.2 Attenuation
107	164B.3 Chromatic dispersion
108	Annex 164C (informative) Super-PON spectral excursion measurement 164C.1 Methodology
110	Back cover

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Standard Title	IEEE Standard for Ethernet Amendment 2: Physical Layers and Management Parameters for Increased-Reach Point-to-Multipoint Ethernet Optical Subscriber Access (Super-PON)
Published Code	IEEE
Publication Date	2022

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