IEEE 802.3-2015

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IEEE Standard for Ethernet

Published By	Publication Date	Number of Pages
IEEE	2015	346

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Description

Revision Standard – Superseded. Ethernet local area network operation is specified for selected speeds of operation from 1 Mb/s to 100 Gb/s using a common media access control (MAC) specification and management information base (MIB). The Carrier Sense Multiple Access with Collision Detection (CSMA/CD) MAC protocol specifies shared medium (half duplex) operation, as well as full duplex operation. Speed specific Media Independent Interfaces (MIIs) allow use of selected Physical Layer devices (PHY) for operation over coaxial, twisted pair or fiber optic cables, or electrical backplanes. System considerations for multisegment shared access networks describe the use of Repeaters which are defined for operational speeds up to 1000 Mb/s. Local Area Network (LAN) operation is supported at all speeds. Other specified capabilities include: various PHY types for access networks, PHYs suitable for metropolitan area network applications, and the provision of power over selected twisted pair PHY types.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Standard for Ethernet SECTION THREE Contents
16	34. Introduction to 1000 Mb/s baseband network 34.1 Overview 34.1.1 Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII)
17	34.1.2 Physical Layer signaling systems 34.1.3 Repeater 34.1.4 Auto-Negotiation, type 1000BASE-X 34.1.5 Auto-Negotiation, type 1000BASE-T 34.1.6 Management 34.2 State diagrams
18	34.3 Protocol implementation conformance statement (PICS) proforma
19	35. Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII) 35.1 Overview
20	35.1.1 Summary of major concepts 35.1.2 Application 35.1.3 Rate of operation 35.1.4 Allocation of functions
21	35.2 Functional specifications 35.2.1 Mapping of GMII signals to PLS service primitives and Station Management 35.2.1.1 Mapping of PLS_DATA.request 35.2.1.1.1 Function 35.2.1.1.2 Semantics of the service primitive
22	35.2.1.1.3 When generated 35.2.1.2 Mapping of PLS_DATA.indication 35.2.1.2.1 Function 35.2.1.2.2 Semantics of the service primitive 35.2.1.2.3 When generated 35.2.1.3 Mapping of PLS_CARRIER.indication 35.2.1.3.1 Function 35.2.1.3.2 Semantics of the service primitive
23	35.2.1.3.3 When generated 35.2.1.4 Mapping of PLS_SIGNAL.indication 35.2.1.4.1 Function 35.2.1.4.2 Semantics of the service primitive 35.2.1.4.3 When generated 35.2.1.5 Response to error indications from GMII 35.2.1.6 Conditions for generation of TX_ER
24	35.2.1.7 Mapping of PLS_DATA_VALID.indication 35.2.1.7.1 Function 35.2.1.7.2 Semantics of the service primitive 35.2.1.7.3 When generated 35.2.2 GMII signal functional specifications 35.2.2.1 GTX_CLK (1000 Mb/s transmit clock) 35.2.2.2 RX_CLK (receive clock)
25	35.2.2.3 TX_EN (transmit enable) 35.2.2.4 TXD (transmit data)
26	35.2.2.5 TX_ER (transmit coding error)
28	35.2.2.6 Transmit direction LPI transition
29	35.2.2.7 RX_DV (receive data valid) 35.2.2.8 RXD (receive data)
31	35.2.2.9 RX_ER (receive error)
32	35.2.2.10 Receive direction LPI transition
33	35.2.2.11 CRS (carrier sense) 35.2.2.12 COL (collision detected)
34	35.2.2.13 MDC (management data clock) 35.2.2.14 MDIO (management data input/output) 35.2.3 GMII data stream 35.2.3.1 Inter-frame
35	35.2.3.2 Preamble and start of frame delimiter 35.2.3.2.1 Transmit case 35.2.3.2.2 Receive case
36	35.2.3.3 Data 35.2.3.4 End-of-Frame delimiter 35.2.3.5 Carrier extension 35.2.3.6 Definition of Start of Packet and End of Packet Delimiters
37	35.2.4 MAC delay constraints (with GMII) 35.2.5 Management functions 35.3 Signal mapping
38	35.4 LPI Assertion and Detection
39	35.4.1 LPI messages 35.4.2 Transmit LPI state diagram 35.4.2.1 Conventions 35.4.2.2 Variables and counters
40	35.4.2.3 State diagram 35.4.3 Considerations for transmit system behavior 35.4.3.1 Considerations for receive system behavior 35.5 Electrical characteristics
41	35.5.1 DC characteristics 35.5.2 AC characteristics 35.5.2.1 Signal Timing measurements
42	35.5.2.2 GMII test circuit topology
44	35.5.2.3 GMII ac specifications
46	35.6 Protocol implementation conformance statement (PICS) proforma for Clause 35, Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII) 35.6.1 Introduction 35.6.2 Identification 35.6.2.1 Implementation identification 35.6.2.2 Protocol summary
47	35.6.2.3 Major capabilities/options 35.6.3 PICS proforma tables for reconciliation sublayer and Gigabit Media Independent Interface 35.6.3.1 Mapping of PLS service primitives 35.6.3.2 GMII signal functional specifications
49	35.6.3.3 Data stream structure
50	35.6.3.4 LPI functions 35.6.3.5 Delay constraints 35.6.3.6 Management functions 35.6.3.7 Electrical characteristics
51	36. Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 1000BASE-X 36.1 Overview 36.1.1 Scope 36.1.2 Objectives 36.1.3 Relationship of 1000BASE-X to other standards
52	36.1.4 Summary of 1000BASE-X sublayers 36.1.4.1 Physical Coding Sublayer (PCS) 36.1.4.2 Physical Medium Attachment (PMA) sublayer 36.1.4.3 Physical Medium Dependent (PMD) sublayer 36.1.5 Inter-sublayer interfaces
53	36.1.6 Functional block diagram 36.1.7 State diagram conventions
54	36.2 Physical Coding Sublayer (PCS) 36.2.1 PCS Interface (GMII)
55	36.2.2 Functions within the PCS 36.2.3 Use of code-groups 36.2.4 8B/10B transmission code
56	36.2.4.1 Notation conventions 36.2.4.2 Transmission order
57	36.2.4.3 Valid and invalid code-groups 36.2.4.4 Running disparity rules
58	36.2.4.5 Generating code-groups 36.2.4.6 Checking the validity of received code-groups 36.2.4.7 Ordered sets
63	36.2.4.7.1 Ordered set rules
64	36.2.4.8 /K28.5/ code-group considerations 36.2.4.9 Comma considerations
65	36.2.4.10 Configuration (/C/) 36.2.4.11 Data (/D/) 36.2.4.12 IDLE (/I/) 36.2.4.13 Low Power Idle (LPI)
66	36.2.4.14 Start_of_Packet (SPD) delimiter 36.2.4.15 End_of_Packet delimiter (EPD) 36.2.4.15.1 EPD rules 36.2.4.16 Carrier_Extend (/R/)
67	36.2.4.16.1 Carrier_Extend rules 36.2.4.17 Error_Propagation (/V/) 36.2.4.18 Encapsulation 36.2.4.19 Mapping between GMII, PCS and PMA
68	36.2.5 Detailed functions and state diagrams 36.2.5.1 State variables 36.2.5.1.1 Notation conventions
69	36.2.5.1.2 Constants 36.2.5.1.3 Variables
73	36.2.5.1.4 Functions
74	36.2.5.1.5 Counters 36.2.5.1.6 Messages
76	36.2.5.1.7 Timers
77	36.2.5.2 State diagrams 36.2.5.2.1 Transmit 36.2.5.2.2 Receive 36.2.5.2.3 State variable function carrier_detect(x)
83	36.2.5.2.4 Code-group stream decoding 36.2.5.2.5 Carrier sense 36.2.5.2.6 Synchronization
85	36.2.5.2.7 Auto-Negotiation process
86	36.2.5.2.8 LPI state diagram
87	36.2.5.2.9 LPI status and management 36.3 Physical Medium Attachment (PMA) sublayer 36.3.1 Service Interface 36.3.1.1 PMA_UNITDATA.request 36.3.1.1.1 Semantics of the service primitive
88	36.3.1.1.2 When generated 36.3.1.1.3 Effect of receipt 36.3.1.2 PMA_UNITDATA.indication 36.3.1.2.1 Semantics of the service primitive 36.3.1.2.2 When generated 36.3.1.2.3 Effect of receipt 36.3.2 Functions within the PMA
89	36.3.2.1 Data delay 36.3.2.2 PMA transmit function 36.3.2.3 PMA receive function 36.3.2.4 Code-group alignment 36.3.3 A physical instantiation of the PMA Service Interface
91	36.3.3.1 Required signals
92	36.3.3.2 Summary of control signal usage 36.3.4 General electrical characteristics of the TBI 36.3.4.1 DC characteristics
93	36.3.4.2 Valid signal levels 36.3.4.3 Rise and fall time definition 36.3.4.4 Output load
94	36.3.5 TBI transmit interface electrical characteristics 36.3.5.1 Transmit data (tx_code-group) 36.3.5.2 TBI transmit interface timing
95	36.3.6 TBI receive interface electrical characteristics 36.3.6.1 Receive data (rx_code-group) 36.3.6.2 Receive clock (PMA_RX_CLK, PMA_RX_CLK) 36.3.7 Loopback mode
96	36.3.7.1 Receiver considerations 36.3.7.2 Transmitter considerations 36.3.8 Test functions 36.4 Compatibility considerations
97	36.5 Delay constraints 36.5.1 MDI to GMII delay constraints
98	36.5.2 DTE delay constraints (half duplex mode) 36.5.3 Carrier deassertion/assertion constraint (half duplex mode) 36.6 Environmental specifications
99	36.7 Protocol implementation conformance statement (PICS) proforma for Clause 36, Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 1000BASE-X 36.7.1 Introduction 36.7.2 Identification 36.7.2.1 Implementation identification 36.7.2.2 Protocol summary
100	36.7.3 Major capabilities/options 36.7.4 PICS proforma tables for the PCS and PMA sublayer, type 1000BASE-X 36.7.4.1 Compatibility considerations
101	36.7.4.2 Code-group functions 36.7.4.3 State diagrams
102	36.7.4.4 PMA functions
103	36.7.4.5 PMA transmit function 36.7.4.6 PMA code-group alignment function 36.7.4.7 TBI 36.7.4.8 Delay constraints
104	36.7.4.9 LPI functions
105	37. Auto-Negotiation function, type 1000BASE-X 37.1 Overview 37.1.1 Scope 37.1.2 Application perspective/objectives
106	37.1.3 Relationship to architectural layering 37.1.4 Compatibility considerations 37.1.4.1 Auto-Negotiation
107	37.1.4.2 Management interface 37.1.4.2.1 GMII management interface 37.1.4.3 Interoperability between Auto-Negotiation compatible devices 37.1.4.4 User Configuration with Auto-Negotiation 37.2 Functional specifications 37.2.1 Config_Reg encoding 37.2.1.1 Base Page to management register mapping
108	37.2.1.2 Full duplex 37.2.1.3 Half duplex 37.2.1.4 Pause
109	37.2.1.5 Remote fault 37.2.1.5.1 No error, link OK 37.2.1.5.2 Offline
110	37.2.1.5.3 Link_Failure 37.2.1.5.4 Auto-Negotiation_Error 37.2.1.6 Acknowledge 37.2.1.7 Next Page 37.2.2 Transmit function requirements 37.2.2.1 Transmit function to Auto-Negotiation process interface requirements
111	37.2.3 Receive function requirements 37.2.3.1 Receive function to Auto-Negotiation process interface requirements 37.2.4 Arbitration process requirements 37.2.4.1 Renegotiation function 37.2.4.2 Priority resolution function
112	37.2.4.3 Next Page function
113	37.2.4.3.1 Next Page encodings 37.2.4.3.2 Next Page
114	37.2.4.3.3 Acknowledge 37.2.4.3.4 Message page 37.2.4.3.5 Acknowledge 2 37.2.4.3.6 Toggle 37.2.4.3.7 Message page encoding 37.2.4.3.8 Message Code Field 37.2.4.3.9 Unformatted page encoding 37.2.4.3.10 Unformatted Code Field
115	37.2.4.3.11 Use of Next Pages 37.2.4.3.12 Management register requirements 37.2.5 Management function requirements 37.2.5.1 Management registers 37.2.5.1.1 Control register (Register 0)
116	37.2.5.1.2 Status register (Register 1) 37.2.5.1.3 AN advertisement register (Register 4) (R/W) 37.2.5.1.4 AN link partner ability Base Page register (Register 5) (RO) 37.2.5.1.5 AN expansion register (Register 6) (RO)
117	37.2.5.1.6 AN Next Page transmit register (Register 7) 37.2.5.1.7 AN link partner ability Next Page register (Register 8) 37.2.5.1.8 Extended status register (Register 15)
118	37.2.5.1.9 State diagram variable to management register mapping 37.2.5.2 Auto-Negotiation managed object class 37.2.6 Absence of management function 37.3 Detailed functions and state diagrams
119	37.3.1 State diagram variables 37.3.1.1 Variables
122	37.3.1.2 Functions
123	37.3.1.3 Messages 37.3.1.4 Timers 37.3.1.5 State diagrams
124	37.4 Environmental specifications
125	37.5 Protocol implementation conformance statement (PICS) proforma for Clause 37, Auto-Negotiation function, type 1000BASE-X 37.5.1 Introduction 37.5.2 Identification 37.5.2.1 Implementation identification 37.5.2.2 Protocol summary
126	37.5.3 Major capabilities/options 37.5.4 PICS proforma tables for the Auto-Negotiation function, type 1000BASE-X 37.5.4.1 Compatibility considerations 37.5.4.2 Auto-Negotiation functions 37.5.4.2.1 Config_Reg
127	37.5.4.2.2 Remote Fault functions 37.5.4.2.3 AN transmit functions 37.5.4.2.4 AN receive functions 37.5.4.2.5 Priority resolution functions
128	37.5.4.2.6 Next Page functions 37.5.4.2.7 Management registers
129	38. Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-LX (long wavelength laser) and 1000BASE-SX (short wavelength laser) 38.1 Overview 38.1.1 Physical Medium Dependent (PMD) sublayer service interface 38.1.1.1 PMD_UNITDATA.request 38.1.1.1.1 Semantics of the service primitive 38.1.1.1.2 When generated 38.1.1.1.3 Effect of receipt
130	38.1.1.2 PMD_UNITDATA.indication 38.1.1.2.1 Semantics of the service primitive 38.1.1.2.2 When generated 38.1.1.2.3 Effect of receipt 38.1.1.3 PMD_SIGNAL.indication 38.1.1.3.1 Semantics of the service primitive 38.1.1.3.2 When generated 38.1.1.3.3 Effect of receipt 38.1.2 Medium Dependent Interface (MDI)
131	38.2 PMD functional specifications 38.2.1 PMD block diagram 38.2.2 PMD transmit function 38.2.3 PMD receive function
132	38.2.4 PMD signal detect function 38.3 PMD to MDI optical specifications for 1000BASE-SX
133	38.3.1 Transmitter optical specifications
134	38.3.2 Receive optical specifications 38.3.3 Worst-case 1000BASE-SX link power budget and penalties (informative)
135	38.4 PMD to MDI optical specifications for 1000BASE-LX 38.4.1 Transmitter optical specifications
136	38.4.2 Receive optical specifications
137	38.4.3 Worst-case 1000BASE-LX link power budget and penalties (informative) 38.5 Jitter specifications for 1000BASE-SX and 1000BASE-LX
138	38.6 Optical measurement requirements 38.6.1 Center wavelength and spectral width measurements 38.6.2 Optical power measurements 38.6.3 Extinction ratio measurements 38.6.4 Relative Intensity Noise (RIN)
139	38.6.5 Transmitter optical waveform (transmit eye) 38.6.6 Transmit rise/fall characteristics
140	38.6.7 Receive sensitivity measurements 38.6.8 Total jitter measurements
141	38.6.9 Deterministic jitter measurement (informative) 38.6.10 Coupled Power Ratio (CPR) measurements 38.6.11 Conformance test signal at TP3 for receiver testing
143	38.6.12 Measurement of the receiver 3 dB electrical upper cutoff frequency
144	38.7 Environmental specifications 38.7.1 General safety 38.7.2 Laser safety 38.7.3 Installation 38.8 Environment 38.8.1 Electromagnetic emission
145	38.8.2 Temperature, humidity, and handling 38.9 PMD labeling requirements 38.10 Fiber optic cabling model 38.11 Characteristics of the fiber optic cabling
146	38.11.1 Optical fiber and cable 38.11.2 Optical fiber connection 38.11.2.1 Connection insertion loss
147	38.11.2.2 Connection return loss 38.11.3 Medium Dependent Interface (MDI)
148	38.11.4 Single-mode fiber offset-launch mode-conditioning patch cord for MMF operation of 1000BASE-LX
150	38.12 Protocol implementation conformance statement (PICS) proforma for Clause 38, Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-LX (Long Wavelength Laser) and 1000BASE-SX (Short Wavelength Laser) 38.12.1 Introduction 38.12.2 Identification 38.12.2.1 Implementation identification 38.12.2.2 Protocol summary
151	38.12.3 Major capabilities/options
152	38.12.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-LX (Long Wavelength Laser) and 1000BASE-SX (Short Wavelength Laser) 38.12.4.1 PMD functional specifications 38.12.4.2 PMD to MDI optical specifications for 1000BASE-SX
153	38.12.4.3 PMD to MDI optical specifications for 1000BASE-LX 38.12.4.4 Jitter specifications 38.12.4.5 Optical measurement requirements
156	38.12.4.6 Characteristics of the fiber optic cabling
157	39. Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-CX (short-haul copper) 39.1 Overview 39.2 Functional specifications 39.2.1 PMD transmit function 39.2.2 PMD receive function 39.2.3 PMD signal detect function
158	39.3 PMD to MDI electrical specifications
159	39.3.1 Transmitter electrical specifications
161	39.3.2 Receiver electrical specifications
162	39.3.3 Jitter specifications for 1000BASE-CX
163	39.4 Jumper cable assembly characteristics 39.4.1 Compensation networks 39.4.2 Shielding 39.5 MDI specification
164	39.5.1 MDI connectors 39.5.1.1 Style-1 connector specification
165	39.5.1.2 Style-2 connector specification
166	39.5.1.3 Style-2 connector example drawing (informative) 39.5.2 Crossover function
167	39.6 Electrical measurement requirements 39.6.1 Transmit rise/fall time 39.6.2 Transmit skew measurement 39.6.3 Transmit eye (normalized and absolute) 39.6.4 Through_connection impedance 39.6.5 Jumper cable intra-pair differential skew
168	39.6.6 Receiver link signal 39.6.7 Near-End Cross Talk (NEXT) 39.6.8 Differential time-domain reflectometry (TDR) measurement procedure 39.6.8.1 Driving waveform
169	39.6.8.2 Calibration of the test setup 39.7 Environmental specifications
170	39.8 Protocol implementation conformance statement (PICS) proforma for Clause 39, Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-CX 39.8.1 Introduction 39.8.2 Identification 39.8.2.1 Implementation identification 39.8.2.2 Protocol summary
171	39.8.3 Major capabilities/options 39.8.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-CX (short-haul copper) 39.8.4.1 PMD functional specifications
172	39.8.4.2 PMD to MDI electrical specifications
173	39.8.4.3 Jumper cable assembly characteristics
174	39.8.4.4 Other requirements
175	40. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 1000BASE-T 40.1 Overview 40.1.1 Objectives 40.1.2 Relationship of 1000BASE-T to other standards
176	40.1.3 Operation of 1000BASE-T
179	40.1.3.1 Physical Coding Sublayer (PCS) 40.1.3.2 Physical Medium Attachment (PMA) sublayer
180	40.1.4 Signaling
181	40.1.5 Inter-sublayer interfaces 40.1.6 Conventions in this clause 40.2 1000BASE-T Service Primitives and Interfaces 40.2.1 Technology-Dependent Interface 40.2.1.1 PMA_LINK.request 40.2.1.1.1 Semantics of the primitive
182	40.2.1.1.2 When generated 40.2.1.1.3 Effect of receipt 40.2.1.2 PMA_LINK.indication 40.2.1.2.1 Semantics of the primitive 40.2.1.2.2 When generated 40.2.1.2.3 Effect of receipt 40.2.2 PMA Service Interface
184	40.2.3 PMA_TXMODE.indication 40.2.3.1 Semantics of the primitive
185	40.2.3.2 When generated 40.2.3.3 Effect of receipt 40.2.4 PMA_CONFIG.indication 40.2.4.1 Semantics of the primitive 40.2.4.2 When generated 40.2.4.3 Effect of receipt 40.2.5 PMA_UNITDATA.request 40.2.5.1 Semantics of the primitive
186	40.2.5.2 When generated 40.2.5.3 Effect of receipt 40.2.6 PMA_UNITDATA.indication 40.2.6.1 Semantics of the primitive 40.2.6.2 When generated 40.2.6.3 Effect of receipt
187	40.2.7 PMA_SCRSTATUS.request 40.2.7.1 Semantics of the primitive 40.2.7.2 When generated 40.2.7.3 Effect of receipt 40.2.8 PMA_RXSTATUS.indication 40.2.8.1 Semantics of the primitive 40.2.8.2 When generated 40.2.8.3 Effect of receipt
188	40.2.9 PMA_REMRXSTATUS.request 40.2.9.1 Semantics of the primitive 40.2.9.2 When generated 40.2.9.3 Effect of receipt 40.2.10 PMA_RESET.indication 40.2.10.1 When generated 40.2.10.2 Effect of receipt 40.2.11 PMA_LPIMODE.indication 40.2.11.1 Semantics of the primitive
189	40.2.11.2 When generated 40.2.11.3 Effect of receipt 40.2.12 PMA_LPIREQ.request 40.2.12.1 Semantics of the primitive 40.2.12.2 When generated 40.2.12.3 Effect of receipt 40.2.13 PMA_REMLPIREQ.request 40.2.13.1 Semantics of the primitive
190	40.2.13.2 When generated 40.2.13.3 Effect of receipt 40.2.14 PMA_UPDATE.indication 40.2.14.1 Semantics of the primitive 40.2.14.2 When generated 40.2.14.3 Effect of receipt 40.2.15 PMA_REMUPDATE.request 40.2.15.1 Semantics of the primitive
191	40.2.15.2 When generated 40.2.15.3 Effect of receipt 40.3 Physical Coding Sublayer (PCS)
192	40.3.1 PCS functions 40.3.1.1 PCS Reset function
193	40.3.1.2 PCS Data Transmission Enable 40.3.1.3 PCS Transmit function
194	40.3.1.3.1 Side-stream scrambler polynomials
195	40.3.1.3.2 Generation of bits Sxn[3:0], Syn[3:0], and Sgn[3:0]
196	40.3.1.3.3 Generation of bits Scn[7:0]
197	40.3.1.3.4 Generation of bits Sdn[8:0]
198	40.3.1.3.5 Generation of quinary symbols TAn, TBn, TCn, TDn
205	40.3.1.3.6 Generation of An, Bn, Cn, Dn
206	40.3.1.4 PCS Receive function 40.3.1.4.1 Decoding of code-groups
207	40.3.1.4.2 Receiver descrambler polynomials 40.3.1.5 PCS Carrier Sense function 40.3.1.6 PCS Local LPI Request function
208	40.3.2 Stream structure 40.3.3 State variables 40.3.3.1 Variables
211	40.3.3.2 Functions
212	40.3.3.3 Timer 40.3.3.4 Messages
213	40.3.4 State diagrams
218	40.3.4.1 Supplement to state diagram
219	40.4 Physical Medium Attachment (PMA) sublayer 40.4.1 PMA functional specifications
220	40.4.2 PMA functions 40.4.2.1 PMA Reset function 40.4.2.2 PMA Transmit function 40.4.2.3 PMA Receive function
221	40.4.2.4 PHY Control function
222	40.4.2.5 Link Monitor function
223	40.4.2.6 Clock Recovery function 40.4.3 MDI 40.4.3.1 MDI signals transmitted by the PHY 40.4.3.2 Signals received at the MDI 40.4.4 Automatic MDI/MDI-X Configuration 40.4.4.1 Description of Automatic MDI/MDI-X state diagram
224	40.4.4.2 Pseudo-random sequence generator 40.4.5 State variables 40.4.5.1 State diagram variables
227	40.4.5.2 Timers
229	40.4.6 State Diagrams 40.4.6.1 PHY Control state diagram
231	40.4.6.2 Link Monitor state diagram
232	40.4.6.2.1 Auto Crossover state diagram 40.5 Management interface 40.5.1 Support for Auto-Negotiation
233	40.5.1.1 1000BASE-T use of registers during Auto-Negotiation
235	40.5.1.2 1000BASE-T Auto-Negotiation page use 40.5.1.3 Sending Next Pages
237	40.5.2 MASTER-SLAVE configuration resolution
239	40.6 PMA electrical specifications 40.6.1 PMA-to-MDI interface tests 40.6.1.1 Isolation requirement 40.6.1.1.1 Test channel
240	40.6.1.1.2 Test modes
244	40.6.1.1.3 Test Fixtures
247	40.6.1.2 Transmitter electrical specifications 40.6.1.2.1 Peak differential output voltage and level accuracy 40.6.1.2.2 Maximum output droop 40.6.1.2.3 Differential output templates
255	40.6.1.2.4 Transmitter distortion
257	40.6.1.2.5 Transmitter timing jitter
258	40.6.1.2.6 Transmit clock frequency 40.6.1.2.7 Transmitter operation following a transition from the QUIET to the WAKE state 40.6.1.3 Receiver electrical specifications 40.6.1.3.1 Receiver differential input signals 40.6.1.3.2 Receiver frequency tolerance
259	40.6.1.3.3 Common-mode noise rejection 40.6.1.3.4 Alien Crosstalk noise rejection
260	40.6.1.3.5 Signal_detect 40.7 Link segment characteristics 40.7.1 Cabling system characteristics
261	40.7.2 Link transmission parameters 40.7.2.1 Insertion loss 40.7.2.2 Differential characteristic impedance 40.7.2.3 Return loss 40.7.3 Coupling parameters
262	40.7.3.1 Near-End Crosstalk (NEXT) 40.7.3.1.1 Differential Near-End Crosstalk 40.7.3.2 Far-End Crosstalk (FEXT) 40.7.3.2.1 Equal Level Far-End Crosstalk (ELFEXT) loss 40.7.3.2.2 Multiple Disturber Equal Level Far-End Crosstalk (MDELFEXT) loss
263	40.7.3.2.3 Multiple-Disturber Power Sum Equal Level Far-End Crosstalk (PSELFEXT) loss 40.7.4 Delay 40.7.4.1 Maximum link delay 40.7.4.2 Link delay skew 40.7.5 Noise environment
264	40.7.6 External coupled noise 40.8 MDI specification 40.8.1 MDI connectors
265	40.8.2 Crossover function
266	40.8.3 MDI electrical specifications 40.8.3.1 MDI return loss 40.8.3.2 MDI impedance balance
267	40.8.3.3 MDI common-mode output voltage 40.8.3.4 MDI fault tolerance
268	40.9 Environmental specifications 40.9.1 General safety 40.9.2 Network safety 40.9.2.1 Installation
269	40.9.2.2 Installation and maintenance guidelines 40.9.2.3 Telephony voltages 40.9.3 Environment 40.9.3.1 Electromagnetic emission 40.9.3.2 Temperature and humidity 40.10 PHY labeling
270	40.11 Delay constraints 40.11.1 MDI to GMII delay constraints
271	40.11.2 DTE delay constraints (half duplex only) 40.11.3 Carrier de-assertion/assertion constraint (half duplex mode)
272	40.12 Protocol implementation conformance statement (PICS) proforma for Clause 40—Physical coding sublayer (PCS), physical medium attachment (PMA) sublayer and baseband medium, type 1000BASE-T 40.12.1 Identification 40.12.1.1 Implementation identification 40.12.1.2 Protocol summary 40.12.2 Major capabilities/options
273	40.12.3 Clause conventions 40.12.4 Physical Coding Sublayer (PCS)
276	40.12.4.1 PCS receive functions 40.12.4.2 Other PCS functions
277	40.12.5 Physical Medium Attachment (PMA)
279	40.12.6 Management interface
280	40.12.6.1 1000BASE-T Specific Auto-Negotiation Requirements
281	40.12.7 PMA Electrical Specifications
288	40.12.8 Characteristics of the link segment
289	40.12.9 MDI requirements
291	40.12.10 General safety and environmental requirements 40.12.11 Timing requirements
292	41. Repeater for 1000 Mb/s baseband networks 41.1 Overview 41.1.1 Scope 41.1.1.1 Repeater set
293	41.1.1.2 Repeater unit 41.1.2 Application perspective 41.1.2.1 Objectives 41.1.2.2 Compatibility considerations 41.1.2.2.1 Internal segment compatibility 41.1.3 Relationship to PHY 41.2 Repeater functional specifications
294	41.2.1 Repeater functions 41.2.1.1 Signal restoration functional requirements 41.2.1.1.1 Signal amplification 41.2.1.1.2 Signal wave-shape restoration
295	41.2.1.1.3 Signal retiming 41.2.1.2 Data-handling functional requirements 41.2.1.2.1 Data frame forwarding 41.2.1.2.2 Received code violations 41.2.1.3 Received event-handling functional requirements 41.2.1.3.1 Received event handling 41.2.1.3.2 Preamble regeneration 41.2.1.3.3 Start-of-packet propagation delay
296	41.2.1.3.4 Start-of-packet variability 41.2.1.4 Collision-handling functional requirements 41.2.1.4.1 Collision detection 41.2.1.4.2 Jam generation 41.2.1.4.3 Start-of-collision-jam propagation delay 41.2.1.4.4 Cessation-of-collision Jam propagation delay 41.2.1.5 Error-handling functional requirements 41.2.1.5.1 Carrier integrity functional requirements
297	41.2.1.5.2 Speed handling 41.2.1.6 Partition functional requirements
298	41.2.1.7 Receive jabber functional requirements 41.2.2 Detailed repeater functions and state diagrams
299	41.2.2.1 State diagram variables 41.2.2.1.1 Constants 41.2.2.1.2 Variables
300	41.2.2.1.3 Functions 41.2.2.1.4 Timers
301	41.2.2.1.5 Counters 41.2.2.1.6 Port designation
302	41.2.2.2 State diagrams
306	41.3 Repeater electrical specifications 41.3.1 Electrical isolation 41.4 Environmental specifications 41.4.1 General safety 41.4.2 Network safety 41.4.2.1 Installation 41.4.2.2 Grounding
307	41.4.2.3 Installation and maintenance guidelines 41.4.3 Electrical isolation 41.4.3.1 Environment A requirements 41.4.3.2 Environment B requirements 41.4.4 Reliability
308	41.4.5 Environment 41.4.5.1 Electromagnetic emission 41.4.5.2 Temperature and humidity 41.5 Repeater labeling 41.6 Protocol implementation conformance statement (PICS) proforma for Clause 41, Repeater for 1000 Mb/s baseband networks 41.6.1 Introduction
309	41.6.2 Identification 41.6.2.1 Implementation identification 41.6.2.2 Protocol summary 41.6.3 Major capabilities/options
310	41.6.4 PICS proforma tables for the Repeater for 1000 Mb/s baseband networks 41.6.4.1 Compatibility considerations 41.6.4.2 Repeater functions
311	41.6.4.3 Signal restoration function 41.6.4.4 Data-Handling function
312	41.6.4.5 Receive Event-Handling function 41.6.4.6 Collision-Handling function
313	41.6.4.7 Error-Handling function
314	41.6.4.8 Partition function 41.6.4.9 Receive Jabber function
315	41.6.4.10 Repeater state diagrams 41.6.4.11 Repeater electrical
316	41.6.4.12 Repeater labeling
317	42. System considerations for multisegment 1000 Mb/s networks 42.1 Overview
318	42.1.1 Single collision domain multisegment networks
319	42.1.2 Repeater usage 42.2 Transmission System Model 1 42.3 Transmission System Model 2
320	42.3.1 Round-trip collision delay
321	42.3.1.1 Worst-case path delay value (PDV) selection 42.3.1.2 Worst-case PDV calculation
323	42.4 Full duplex 1000 Mb/s topology limitations
324	43. Content moved to IEEE Std 802.1AX-2008
325	Annex 36A (informative) Jitter test patterns 36A.1 High-frequency test pattern 36A.2 Low-frequency test pattern 36A.3 Mixed frequency test pattern 36A.4 Long continuous random test pattern
326	36A.5 Short continuous random test pattern
328	Annex 36B (informative) 8B/10B transmission code running disparity calculation examples
330	Annex 38A (informative) Fiber launch conditions 38A.1 Overfilled Launch 38A.2 Radial Overfilled Launch (ROFL)
331	Annex 40A (informative) Additional cabling design guidelines 40A.1 Alien crosstalk 40A.1.1 Multipair cabling (i.e., greater than 4-pair) 40A.1.2 Bundled or hybrid cable configurations 40A.2 Cabling configurations
333	Annex 40B (informative) Description of cable clamp
335	40B.1 Cable clamp validation
337	Annex 40C (informative) Add-on interface for additional Next Pages
339	40C.1 State variables 40C.2 State diagrams 40C.2.1 Auto-Negotiation Transmit state diagram add-on for 1000BASE-T
342	40C.2.2 Auto-Negotiation Receive state diagram add-on for 1000BASE-T
344	Annex 43A Annex 43A is no longer in use.
345	Annex 43B Annex 43B is no longer in use.
346	Annex 43C Annex 43C is no longer in use.