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`Property of Technical Rcpcrts Section
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`
`for Telecommunications -
`
`Network and Customer
`
`Installation Interfaces —
`Asymmetric Digital Subscriber
`Line (ADSL) Metallic Interface
`
`@133, American National Standards Institute
`11 West 42nd Street
`
`New York, New York
`10036
`
`Dish
`Exhibit 1008, Page 1
`
`
`
`ANS|®
`71.413-1995
`
`American National Standard
`for Telecommunications -
`
`Network and Customer Installation Interfaces —
`Asymmetric Digital Subscriber Line (ADSL) Metallic Interface
`
`Secretariat
`
`Alliance for Telecommunications Industry Solutions
`
`Approved August 18, 1995
`
`American National Standards Institute, Inc.
`
`Abstract
`
`This standard presents the electrical characteristics of the Asymmetric Digital Subscriber Line
`(ADSL) signals appearing at the network interface. The physical interface between the network
`and the customer installation is also described. The transport medium for the signals is a single
`twisted-wire pair that supports both Message Telecommunications Service (POTS) and full-duplex
`(simultaneous two-way) and simplex (from the network to the customer installation} digital ser-
`vices.
`
`This interface standard provides the minimal set of requirements for satisfactory transmission
`between the network and the customer instailation. Equipment may be implemented with addition-
`al functions and procedures.
`
`Dish
`Exhibit 1008, Page 2
`
`
`
`Arnerc-an Approval of an American National Standard requires verification by ANSI that the
`N afion a]
`requirements for due process, consensus, and other criteria for approval have
`been met by the standards developer.
`Standard
`
`Consensus is established when, in the judgment of the ANSI Board of Standards
`Review, substantial agreement has been reached by directly and materially
`affected interests. Substantial agreement means much more than a simple
`majority, but not necessarity unanimity. Consensus requires that all views and
`obiections be considered, and that a concerted effort be made toward their
`resolution.
`
`The use of American National Standards is completely voluntary; their existence
`does not
`in any respect preclude anyone. whether he has approved the
`standards or not, from manufacturing. marketing, purchasing, or using products,
`processes. or procedures not conforming to the standards.
`
`The American National Standards Institute does not develop standards and will in
`no circumstances give an interpretation of any American National Standard.
`Moreover, no person shall have the right or authority to issue an interpretation of
`an American National Standard in the name of the American National Standards
`Institute. Requests for interpretations should be addressed to the secretariat or
`sponsor whose name appears on the title page of this standard.
`CAUTION NOTICE: This American National Standard may be revised or
`withdrawn at anytime. The procedures of the American National Standards
`Institute require that action be taken periodically to reaffirm, revise. or withdraw
`this standard. Purchasers of American National Standards may receive current
`information on all standards by calling or writing the American National Standards
`Institute.
`
`NOTE ~ The user's attention is called to the possibility that compliance with this standard may require use of
`an invention covered by patent rights.
`By pubtication oi this standard, no position is taken with respect to the validity of this ctaim or of any patent
`rights in connection therewith. The patent holder has, however, filed a statement of willingness to grant a
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`to obtain such a license. Details may be obtained from the publisher.
`
`Published by
`
`American National Standards Institute
`11 West 42nd Street, New York, New York 10036
`
`No part of this publication may be reproduced in any
`form, in an electronic retrieval system or otherwise.
`without prior written permission of the publisher.
`
`Printed in the United States of America
`
`APS3Ct295i'135
`
`Dish
`Exhibit 1008, Page 3
`
`
`
`Contents
`
`Foreword
`
`1
`
`Scope andpurpose
`
`1.1 Scope
`1.2 Purpose
`2
`Normative references
`
`<ooo-qin:mm'o:ao>I\>-n-
`
`3
`
`3.1
`3.2
`4
`
`4.1
`4.2
`4.3
`
`5
`
`5.1
`5.2
`5.3
`5.4
`5.5
`
`6
`
`Definitions, abbreviations, acronyms and
`
`Abbreviations. acronyms and
`Reference modeis
`
`System reference
`ATU-C transmitter reference
`ATU-R transmitter reference
`
`Transport
`
`.. ..
`
`Simplex
`Duplex bearers
`Combined
`ADSL system overheads and aggregate data
`Classification by ATM options
`
`ATU-C functional characteristics ........................................................ ..
`
`ATU-C input and output V
`6.1
`6.2 Framing
`6.3
`Scramblers
`6.4
`Fonlvard error
`
`6.5
`6.8
`6.7
`6.8
`6 9
`
`Toneordering
`Constellation encoder — with trellis coding
`Constellation encoder — without trellis coding
`Gain
`Modulation
`
`Cyclicprefix
`Transmitterdynamic
`Transmitter spectral
`Transmit power spectral density and aggregate power level
`ATU-Ft functional characteristics
`
`ATU-F! input and output data interfaces
`Framing
`Scrarnblers
`Fonvvarderror
`
`Toneordering
`Constellation encoder — with trellis coding
`Constellation encoder— without trellis coding
`Gain
`
`Transmitter dynamic
`Transmitter spectral
`Transmit power spectral density and aggregate power level
`
`Dish
`Exhibit 1008, Page 4
`
`
`
`ADSL — POTS splitter functional characteristics
`ATU-R to service module (TSM) interface requirements
`
`TA interiace
`TB interface
`
`Electrical characteristics.......................................................................67
`dc characteristics..................................................................................67
`Voice-band characteristics
`ADSL band
`ADSL noise the interference into circuit
`Operations and maintenance
`Embedded operations channel {eoc) requirements..............................71
`In-service perfonnance monitoring and surveillance............................78
`Metallic
`Out-of-service testing
`Requirements to support OAM of the segment between
`ATU—Ft andSM ....B4
`initialization ........
`Overview....................
`Activation and acknowledgment -
`Activation and acknowledgment -
`Transceiver training —
`Transceiver training —
`Channel analysis ~ ATU-C
`Channel analysis — ATU-Fl
`Exchange —
`Exchange —
`12
`On-line adaptation and reconfiguration
`12
`The ADSL overhead control (aoc) channel
`High-level on-line adaptation - Bit swapping......................................1 12
`Changes to data rates and reconfiguration
`15
`Signaling
`15
`Loop plant, impairments.and
`Test
`17
`Impairments and their simulation in testing
`19
`Test
`Physical characteristics
`Wiring polarity integrity
`127
`C0nnector.........
`.
`Wiring requaremeiiigii;}';"£eii5't'.;'i}'i5é£é{i.;£i'i36i§;i;ii££.;}}}i'fiJ1‘ii'IIIII128
`Maximum distance fora remotely located
`Environmental conditions
`Protection
`Electromagnetic compatibility.............................................................129
`
`05
`
`Dish
`Exhibit 1008, Page 5
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`
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`Page
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`ADSL sub—channel rate restrictions for default bearer rates.................10
`
`ADSL sub-channel rate restrictions 2.048 Mbitls (optional)
`
`Downstream ATM data cell bit
`
`1
`
`2
`
`Maximum optional duplex bearer channels supported by
`transportclass
`
`Optional duplex ATM data cell bit rates for LS2
`
`Bearer channel options by transport class for bearer rates based on
`downstream multiples of 1.536 Mbitls
`
`Bearer channel options by transport class — Optional bearer rates
`based on downstream multiples of 2.048 Mbitfs
`
`Bearer channel options by transport class for optional ATM
`bearerrates
`
`Internal overhead channel functions and
`
`Determination of aggregate downstream bit rate.
`
`Determination of aggregate upstream bit rate ......................................20
`
`Determination of aggregate bit rate for ATM transport.........................21
`
`Interface data rates for duplex channels (default configurations) .........23
`
`Definition of indicator bits, ATU-C transmitter
`
`eoc frame
`
`Default fast and interleaved data buffer allocations for ATU-C
`transmitter — Configurations for bearers based on multiples
`of 1.536
`
`Default fast and interleaved data buffer allocations for ATU-C
`transmitter — Optional configurations for bearers based on
`multiples of 2.048
`
`Default FEC coding parameters and interleave depth for ATU-C
`transmitter - Default configurations for bearers based on multiples
`of 1.536
`
`Default FEC coding parameters and interleave depth for ATU-C
`transmitter — Optional configurations for bearers based on
`multiples of 2.048
`
`Fast byte
`
`Synch byte format. interleaved data
`
`Convolutional interleaving example for N = 5, D =2
`
`Forming the binary word
`
`Relation between 4—dimensiona| and 2-dimensional cosets.................
`
`Determining the top 2 bits of Xand
`
`Default FEC coding parameters and interleave depth — ATU-Ft
`
`Dish
`Exhibit 1008, Page 6
`
`
`
`Page
`Fast byte format for synchronization - Fast data buffer.......................56
`
`Synch byte format for synchronization — interleaved data buffer
`
`Minimum voice-band return losses at PTSN and POTS intedaces......68
`
`eocbit
`
`eoc opcode
`
`ATU-Ft
`
`Sync and no sync interpretation (downstream)
`
`Sync and no sync interpretation for singleSM
`
`Sync and no sync interpretation for multiple Stvls
`
`Assignment of 48 bits of C-MSGS1
`
`Assignment oi 48 bits of R-MSGS1
`Assignment of 48 bitsof
`Bit pattern for C-RATES2
`Assignment of 32 bitsof
`Bit pattern for R-FIATES2
`10
`aoc message headers
`12
`Bit swap request commands
`13
`Extended bit swap
`14
`ATU classification by category
`1?
`Loop sets and maximum rates for category I and category ll testing....117
`Crosstalk tests forcategory
`Crosstalk tests forcategory
`124
`Test loops, interterers, and data rates for impulse tests for category l|....124
`Test loops, interferers, and data rates for POTS tests for category I ....125
`Test loops, interferers, and data rates for POTS tests for category It ...125
`Minimum test time for
`Pin assignments for 8-position jack and plug (Ft.J 31X) at U-F{...........127
`Pin assignments for 8-position jack and plug at remote iocation........128
`
`ADSL functional reference
`ATU-C transmitter reference diagram
`ATU-Fl transmitter reference diagram
`ATU-C V interfaces (rates for defauit configuration).............................
`ADSL superframe structure — ATU-C transmitter.............................
`
`Dish
`Exhibit 1008, Page 7
`
`
`
`Page
`
`"Fast" byte format — ATU-C transmitter — fast data buffer
`
`"Synch" byte format — ATU-C transmitter — interleaved data butter .....26
`
`Fast data bufier — ATU-C transmitter
`
`Interleaved data buffer — ATU~C transmitter.........................................29
`
`Conversion of u to vand
`
`Finite state machine for Wei's encoder
`
`Trellis
`
`Constituent 2-dimensional cosets for Wei’s
`
`Constellation labels for b = 2 and 1:3:4
`
`Constellation labels for b =3
`
`Constellation labels for b =5
`
`ATU-C transmitter PSD
`
`ATU-C transmitter PSD mask: pass band detail
`
`ATU-Ftdata
`
`Fast data butter — ATU-Ft transmitter
`
`lnterieaved data butter — ATU-Ft transrnitter.........................................54
`
`ATU-R transmitter PSD
`
`ADSL entrance unit block
`
`Test setup tortransmission and impedance measurements................57
`
`Measurement method for longitudinal output vo|tage...........................69
`
`Measurement method for longitudinal balance above 25
`
`In-service surveillance of the ADSL link shown from the standpoint
`of the
`
`OAM capabilities for the segment between ATU-Ft and the service
`
`Overviewof
`
`Timing diagram of activation and acknowledgment (12.2-12.3)...........
`
`Timing diagram of transceiver training
`
`Timing diagram of channel analysis
`
`C-RATES1 and Ft-RATES1 (12.62 and
`
`Timing diagram of exchange
`
`Format of the bit swap request message
`
`Format of the bit swap acknowledge..........................................
`
`Overview of test
`
`Test
`
`Test impulse #1
`
`Dish
`Exhibit 1008, Page 8
`
`
`
`Test impulse #2
`40
`Laboratory test setup for measuring performance margins................
`41
`High impedance crosstalk injection
`42
`Interface on the customer premises side of the U-R
`43
`Wiring fora remotely located POTS splitter!ATU-Fl
`44
`Annexes
`
`ATU-C and ATU-Fl state diagrams
`Power spectral density of crosstalk disturbers
`Characteristics of test impulse waveforms
`Vendor identification numbers
`Resistance and insertion loss characteristics of typical telephone
`cables
`Overvoltage, surge protection, and EMC
`Examples of ADSL services and applications
`Aspects of ADSL systems based 2048 Mkbit/s
`Items for further
`Biblfography........................................
`
`Dish
`Exhibit 1008, Page 9
`
`A
`
`B C D
`
`E