SIST ETS 300 010-1 E2:2003

SLOVENSKI STANDARD
SIST ETS 300 010-1 E2:2003
01-december-2003
Prenos in multipleksiranje (TM) – Oprema za sinhrono prespajanje za 64 kbit/s in n
x 64 kbit/s za dostopovne porte s hitrostjo prespajanja 2 048 kbit/s – 1. del: Jedrne
funkcije in karakteristike
Transmission and Multiplexing (TM); Synchronous cross connect equipment; 64 kbit/s
and n x 64 kbit/s cross connection rate 2 048 kbit/s access ports; Part 1: Core functions
and characteristics
Ta slovenski standard je istoveten z: ETS 300 010-1 Edition 2
ICS:
33.040.20 Prenosni sistem Transmission systems
SIST ETS 300 010-1 E2:2003 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST ETS 300 010-1 E2:2003

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SIST ETS 300 010-1 E2:2003
EUROPEAN ETS 300 010-1
TELECOMMUNICATION May 1995
STANDARD Second Edition
Source: ETSI TC-TM Reference: RE/TM-01014-2
ICS: 33.040.40
Transmission, multiplexing
Key words:
Transmission and Multiplexing (TM);
Synchronous cross connect equipment
64 and n x 64 kbit/s cross connection rate
2 048 kbit/s access ports;
Part 1: Core functions and characteristics
ETSI
European Telecommunications Standards Institute
ETSI Secretariat
F-06921 Sophia Antipolis CEDEX - FRANCE
Postal address:
650 Route des Lucioles - Sophia Antipolis - Valbonne - FRANCE
Office address:
c=fr, a=atlas, p=etsi, s=secretariat - secretariat@etsi.fr
X.400: Internet:
Tel.: +33 92 94 42 00 - Fax: +33 93 65 47 16
Copyright Notification: No part may be reproduced except as authorized by written permission. The copyright and the
foregoing restriction extend to reproduction in all media.
© European Telecommunications Standards Institute 1995. All rights reserved.
New presentation - see History box

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Whilst every care has been taken in the preparation and publication of this document, errors in content,
typographical or otherwise, may occur. If you have comments concerning its accuracy, please write to
"ETSI Editing and Committee Support Dept." at the address shown on the title page.

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Contents
Foreword .7
1 Scope .9
2 Normative references.9
3 Definitions.10
4 Symbols and abbreviations .11
5 Network reference configuration .11
6 Reference model.12
7 General characteristics .14
7.1 Size .14
7.2 Timing signal.14
7.2.1 Control of timing signal.14
7.2.2 Timing performance .14
8 Functions.14
8.1 Cross connection .14
8.2 Management.14
9 Interfaces.15
9.1 2 048 kbit/s interface.15
9.1.1 Physical interface .15
9.1.2 Frame structure.15
9.2 Synchronization interface at 2 048 kHz .15
9.3 Interface with the TMN.15
9.4 User interface .15
9.5 Power supply interface.15
10 Frame alignment and CRC procedure .15
10.1 Loss of frame alignment .15
10.2 Recovery of frame alignment.15
10.3 CRC multiframe alignment in TS 0 .15
10.4 CRC bit monitoring.15
11 Defect or failure conditions and performance monitoring .16
11.1 Defect or failure conditions at the G2 (or A2) reference point and consequent actions
at the J2 (or G2) and G1 (or A1) reference points.16
11.1.1 Defect or failure condition.16
11.1.1.1 Failure of power supply.16
11.1.1.2 Loss of incoming signal at 2 048 kbit/s.16
11.1.1.3 Loss of frame alignment .16
-3
11.1.1.4 Error ratio 1:10 .16
11.1.1.5 Reception of Alarm Indication Signal (AIS) .16
11.1.1.6 Defect indication from a remote equipment.16
11.1.2 Consequent actions.17
11.2 Defect or failure conditions and consequent actions for the core of the equipment.18
11.2.1 Defect or failure conditions.18
11.2.1.1 Failure of a connection .18
11.2.1.2 Loss of synchronization signal(s).18
11.2.2 Consequent actions.18
11.3 Performance monitoring .18

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12 Performance . 19
12.1 Blocking factor. 19
12.2 Jitter. 19
12.2.1 Jitter at 2 048 kbit/s output. 19
12.2.2 Jitter tolerance at 2 048 kbit/s input. 19
12.2.3 Jitter transfer function . 19
12.3 Transfer delay . 20
12.4 Slips. 20
12.5 Error characteristics of the equipment . 20
Annex A (normative): Additional requirements for cross connection of channel associated signalling
bits in TS 16. 21
A.1 Network reference configuration (clause 5). 21
A.2 Cross connection (subclause 8.1) . 21
A.3 Frame structure (subclause 9.1.2). 21
A.4 Defect or failure conditions and performance monitoring (clause 11). 22
A.4.1 Defect or failure conditions (subclause 11.1.1). 22
A.4.1.1 Loss of multiframe alignment. 22
A.4.1.2 Reception of AIS in TS 16 . 22
A.4.1.3 Defect indication in TS 16 from a remote equipment . 22
A.4.2 Consequent actions (subclause 11.1.2). 23
A.4.3 Defect or failure conditions and consequent actions for the core of the equipment
(subclause 11.2). 24
A.4.3.1 Failure of a connection (subclause 11.2.1.1). 24
A.4.3.2 Consequent actions (subclause 11.2.2) . 24
A.5 Transfer delay (subclause 12.3) . 24
A.5.1 64 and n x 64 kbit/s signals. 24
A.5.2 Channel associated signalling in TS 16 . 24
Annex B (normative): Additional TS allocation . 25
B.1 Cross connection (subclause 8.1) . 25
B.2 Frame structure (subclause 9.1.2). 25
Annex C (normative): Other timing and slip performance requirements . 26
C.1 More stringent performance . 26
C.1.1 Timing performance (subclause 7.2.2) . 26
C.2 Less stringent performance. 26
C.2.1 Timing performance (subclause 7.2.2) . 26
C.2.2 Slips (subclause 12.4). 26
Annex D (normative): Additional requirements for cross connection. 27
D.1 Additional requirements for cross connection of unstructured signal 2 048 kbit/s signal . 27
D.1.1 Function. 27
D.1.2 Characteristics . 27
D.1.2.1 Type of cross connection. 27
D.1.2.2 Framing structure . 27
D.1.2.3 Bit sequence independence . 27
D.1.3 Performance. 27
D.1.3.1 Blocking . 27
D.1.3.2 Integrity . 27
D.1.3.3 Transfer delay. 27
D.1.3.4 Slips . 27
D.1.4 Defect or failure conditions and consequent actions. 27

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D.1.4.1 Defect or failure conditions at the A2 reference point .27
D.1.4.1.1 Loss of incoming 2 048 kbit/s signal.28
D.1.4.1.2 Line code violation .29
D.1.4.2 Defect or failure conditions in the core equipment .29
D.1.4.2.1 Consequent actions.30
D.2 Additional requirements for cross connection of CCITT Recommendation G.704 framed
2 048 kbit/s signal.30
D.2.1 Function .30
D.2.2 Characteristics .31
D.2.2.1 Type of cross connection .31
D.2.2.2 CRC 4 procedure .31
D.2.2.3 Far end defect or failure indication.31
D.2.2.3.1 TS 0 NFAS.31
D.2.2.3.2 Bit 6 TS 16 fr0.31
D.2.3 Performance .31
D.2.3.1 Blocking.31
D.2.3.2 Integrity.31
D.2.3.3 Transfer delay .31
D.2.4 Defect or failure conditions and consequent actions .32
D.3 Additional requirements for TS 0 cross connection.32
D.3.1 Function .32
D.3.2 Characteristics .32
D.3.2.1 Type of cross connection .32
D.3.2.2 Transformation/substitution of Frame Alignment Signal (FAS).32
D.3.2.3 TS allocation.32
D.3.2.4 CRC 4 procedure .33
D.3.2.5 Far end defect or failure indication.33
D.3.3 Defect or failure conditions and consequent actions .33
D.3.3.1 Access port i.33
D.3.3.2 Access port j.33
D.3.4 Performance .34
D.3.4.1 Blocking.34
D.3.4.2 Transfer delay .34
D.3.4.3 Integrity.34
Annex E (informative): Bibliography.35
History.36

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Foreword
This second edition European Telecommunication Standard (ETS) has been produced by the
Transmission and Multiplexing (TM) Technical Committee of the European Telecommunications
Standards Institute (ETSI).
This ETS has been produced in order to meet the requirements of network operators and equipment
manufacturers for the deployment and design of synchronous cross connect equipment to be used in
synchronous digital leased line networks.
This ETS consists of 2 parts as follows:
Part 1: "Core functions and characteristics".
Part 2: "Management" (DE/TM-01014-3).
NOTE: Part 2 of this ETS (ETS 300 010-2) is under development within ETSI TC-TM.
The corresponding ETS for equipment for cross connection of sub-rate signals is under development.
Proposed transposition dates
Date of latest announcement of this ETS (doa): 31 August 1995
Date of latest publication of new National Standard
or endorsement of this ETS (dop/e): 31 August 1995
Date of withdrawal of any conflicting National Standard (dow): 29 February 1996

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1 Scope
This European Telecommunication Standard (ETS) describes requirements of cross connect equipment
for use in synchronous digital leased line networks. It covers equipment having 2 048 kbit/s access ports
and is limited to the basic functions, external characteristics and performance of the equipment.
Requirements for the management of the equipment are to be covered in ETS 300 010-2 which should be
used in conjunction with this part of the ETS.
NOTE: ETS 300 010-2 is under development within ETSI TC-TM.
Some network operators may have additional requirements and these are provided in normative annexes
A to C.
2 Normative references
This ETS incorporates by dated or undated reference, provisions from other publications. These
normative references are cited at the appropriate places in the text and the publications are listed
hereafter. For dated references, subsequent amendments to or revisions of any of these publications
apply to this ETS only when incorporated in it by amendment or revision. For undated references, the
latest edition of the publication referred to applies.
[1] CCITT Recommendation G.703 (1991): "Physical/electrical characteristics of
hierarchical digital interfaces".
[2] CCITT Recommendation G.704 (1988): "Synchronous frame structures used at
primary and secondary hierarchical levels".
[3] CCITT Recommendation G.706 (1991): "Frame alignment and cyclic
redundancy check (CRC) procedures relating to basic frame structures defined
in CCITT Recommendation G.704".
[4] CCITT Recommendation G.732 (1991): "Characteristics of primary PCM
multiplex equipment operating at 2 048 kbit/s".
[5] CCITT Recommendation G.735 (1988): "Characteristics of primary PCM
multiplex equipment operating at 2 048 kbit/s and offering synchronous digital
access at 384 and/or 64 kbit/s".
[6] CCITT Recommendation G.736 (1988): "Characteristics of a synchronous digital
multiplex equipment operating at 2 048 kbit/s".
[7] CCITT Recommendation G.773 (1988): "Protocol suites for Q interface for
management of transmission systems".
[8] CCITT Recommendation G.811 (1988): "Timing requirements at the outputs of
primary reference clocks suitable for plesiochronous operation of international
digital links".
[9] CCITT Recommendation G.812 (1988): "Timing requirements at the outputs of
slave clocks suitable for plesiochronous operation of international digital links".
[10] CCITT Recommendation G.822 (1988): "Controlled slip rate objectives on an
international digital connection".
[11] CCITT Recommendation G.823 (1988): "The control of jitter and wander within
digital networks which are based on the 2 048 kbit/s hierarchy".
[12] CCITT Recommendation M.20 (1988): "Maintenance philosophy for
telecommunication networks".
[13] CCITT Recommendation M.2100 (1992): "Performance limits for bringing into
service and maintenance of digital paths, sections and line sections".

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[14] CCITT Recommendation M.3010 (1988): "Principles for a telecommunication
management network".
[15] CCITT Recommendation O.162: "Specifications for an instrument to monitor the
frame alignment signal of frame structures (frame alignment signal monitor)".
[16] CEPT Recommendation T/TR 02-02, edition 3 (1987): "Rack/telecommunication
centre power supply interfaces".
NOTE: This CEPT Recommendation is to be replaced by prETS 300 132 ("Equipment
Engineering (EE); Power supply interface at the input to the telecommunications
equipments (DE/EE-2001)") when available.
3 Definitions
For the purposes of this ETS, the following definitions apply.
synchronous cross connect equipment: A device which accepts a number of signals comprising
synchronously multiplexed lower bit rate signals and cross connects the constituent lower bit rate signals.
blocking factor: The existence of cross connections in a cross connect equipment can block the
establishing of any new cross connection. The blocking factor is the probability that a new cross
connection cannot be made, expressed as a decimal fraction of 1.
synchronization signal: A clock control signal obtained from a synchronization network.
access port: Access ports of a cross connect equipment are input and output ports used to terminate
2 048 kbit/s signals transporting synchronous 64 and n x 64 kbit/s signals to be cross connected.
cross connection capacity: This comprises the maximum number of equivalent channels at 64 kbit/s
which can be cross connected as equivalent to a 64 kbit/s channel.
NOTE: Cross connection of Time Slot 0 (TS 0) (or bits 1 to 8) or Time Slot 16 (TS 16)
information according to CCITT Recommendation G.704 [2] should be considered as
equivalent to a 64 kbit/s channel.

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4 Symbols and abbreviations
For the purposes of this ETS, the following symbols and abbreviations apply.
AIS Alarm Indication Signal
CRC Cyclic Redundancy Check
CRC 4 Cyclic Redundancy Check procedure relating to the 2 048 kbit/s basic frame
structure according to CCITT Recommendation G.704 [2]
EFS Error Free Second
FAS Frame Alignment Signal
fr0 frame 0
LOS Loss Of incoming 2 048 kbit/s Signal
SES Severely Errored Second
TMN Telecommunication Management Network
TS Time Slot
TS 0 Time Slot 0
TS 16 Time Slot 16
TS 0 NFAS Time Slot 0 without Frame Alignment Signal
5 Network reference configuration
Figure 1 gives typical representation of the cross connect equipment in its network environment.
Synchronous cross connect equipment
Multiplexer equipment, e.g. according to CCITT Recommendation G.736 [6]
2 048 kbit/s interface
Figure 1: Network reference configuration

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6 Reference model
Figure 2 provides a reference model for the equipment, including the location of reference points.
Definitions of functional blocks are given below:
physical interface (PI): This function terminates and generates the signals at an access port. This
function also detects the Loss Of incoming 2 048 kbit/s Signal (LOS) condition, the line code violations as
appropriate.
plesiochronous path termination (PPT): This function terminates and generates a logical signal at
2 048 kbit/s at an access port. This function provides frame generation and recovery and detection of
defect or failure conditions on the 2 048 kbit/s logical signal.
cross connection function (XC): This function allows the cross connection of 64 and n x 64 kbit/s (n
ranging from 1 to 32) signals from J1 reference point of an access port i to J2 reference point of an other
access port j and from J1 reference point of this access port j to J2 reference point of access port i (see
Note 4 under Figure 2 for the meaning of J1 and J2 reference points).
channel associated signalling cross connection function (CASXC): If channel associated signalling is
used then this function provides the cross connection of the a, b, c and d signalling information from L1 to
L2 reference points in correspondence with the related 64 or n x 64 kbit/s cross connection from J1
reference point of an access port i to J2 reference point of an other access port j and from J1 reference
point of this access port j to J2 reference point of access port i assuming that access ports i and j are
carrying signals containing channel associated signalling (see Note 5 under Figure 2 for the meaning of L1
and L2 reference points).
special function (SF): Example of optional special function are analogue multipoint conference bridge,
data multipoint bridge, broadcasting, digital low bit rate transcoding for voice channel.
timing input physical interface (TIPI): This function terminates an external 2 048 kHz synchronization
signal.
timing output physical interface (TOPI): This function generates an external 2 048 kHz signal.
cross connect timing source (XCTS): This function provides all internal timing signals necessary for the
cross connect equipment.
equipment management function (EMF): This function is connected to all the other functional blocks
and provides for a local user or the Telecommunication Management Network (TMN) a mean to perform
all the management functions of the cross connect equipment.
message communication function (MCF): This function terminates and generates the cross connect
management control channel(s). The control channel may as well be a Q interface. The function is also
able to inter work as a relay function between the local workstation connected via a F interface and the
TMN. It also provides local access to internal management functions via a m interface which is not subject
to standardization.

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A
ETS 300 010-1
PI
S1
G
S2
T2
PPT
TI
TIPI
U1
J
SF XC
CASXC
L
K TO
TOPI
S5
S4
U2
S3
T5 T4
T1
XCTS
1
T2
S6
S7
S8
2
S1
EMF
S5
V
F
U1
MCF
U2
m
Q
ETS 300 010-2
NOTE 1: T1 is distributed to all the others functional blocks.
NOTE 2: Not all functional blocks are always required.
NOTE 3: Not all the necessary functions are shown; e.g. internal code conversion or line
protection.
NOTE 4: Reference points A to J can each be divided into two reference points (e.g. A1 and A2)
which relate to the J to A (direction 2 on the figure) and A to J (direction 1 on the
figure) directions respectively.
NOTE 5: In the same way, reference points K and L can each be divided into two reference
points (K1, K2 and L1, L2 respectively).
NOTE 6: The functional reference model and the defined reference points are only for the
purpose of describing the functions of the cross connect equipment and are n
...