ETSI I-ETS 300 762 ed.1 (1997-07)

SLOVENSKI STANDARD
SIST I-ETS 300 762 E1:2003
01-december-2003
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Terminal Equipment (TE); Videotelephone reference terminal - data communication
using in-band signalling principles
Ta slovenski standard je istoveten z: I-ETS 300 762 Edition 1
ICS:
33.160.60 9HþSUHGVWDYQLPXOWLPHGLMVNL Multimedia systems and
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periferna oprema IT peripheral equipment
SIST I-ETS 300 762 E1:2003 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST I-ETS 300 762 E1:2003

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SIST I-ETS 300 762 E1:2003
INTERIM
EUROPEAN I-ETS 300 762
TELECOMMUNICATION July 1997
STANDARD
Source: ETSI TC-TE Reference: DI/MTA-004114
(Formerly: DI/TE-04114)
ICS: 33.020
Key words: Audio, data, in-band, terminal, video, telephony
Terminal Equipment (TE);
Videotelephone reference terminal - data communication
using in-band signalling principles
ETSI
European Telecommunications Standards Institute
ETSI Secretariat
Postal address: F-06921 Sophia Antipolis CEDEX - FRANCE
Office address: 650 Route des Lucioles - Sophia Antipolis - Valbonne - FRANCE
X.400: c=fr, a=atlas, p=etsi, s=secretariat - Internet: secretariat@etsi.fr
Tel.: +33 4 92 94 42 00 - Fax: +33 4 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 1997. All rights reserved.

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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 .5
1 Scope .7
2 Normative references.7
3 Definitions and abbreviations .8
3.1 Definitions .8
3.2 Abbreviations .8
4 General.9
4.1 Overview .9
4.2 Physical link between videotelephone and computer .9
5 Data communication using T.120 protocol in the MLP channel.10
5.1 General description.10
5.2 Selection of transmission mode.12
5.3 Communication between videophone and PC.13
5.3.1 Control primitives.13
5.3.2 Data transfer primitives .15
5.3.3 Interleaving of control and data packets.16
5.4 Opening, using and closing the end-to-end data channel.16
6 Data communication without using T.120 protocol .19
6.1 Format .19
6.2 Asynchronous to synchronous conversion .19
Annex A (informative): An example of implementation and procedures.20
A.1 Mapping of ITU-T Recommendation V.24 signals .20
A.2 Open/close procedure.21
History.22

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Foreword
This Interim European Telecommunication Standard (I-ETS) has been produced by the Terminal
Equipment (TE) Technical Committee of the European Telecommunications Standards Institute (ETSI).
An ETSI standard may be given I-ETS status either because it is regarded as a provisional solution ahead
of a more advanced standard, or because it is immature and requires a "trial period". The life of an I-ETS
is limited to three years after which it can be converted into an ETS, have it's life extended for a further
two years, be replaced by a new version, or be withdrawn.
Proposed announcement date
Date of adoption: 20 June 1997
Date of latest announcement of this I-ETS (doa): 31 October 1997

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1 Scope
This Interim European Telecommunication Standard (I-ETS) specifies the necessary signalling
procedures and interfaces of a data port of ITU-T Recommendation V.24 [2] type on an audiovisual
terminal using framed communication as described in ETS 300 144 [1], to which a Personal
Computer (PC) or similar Data Terminal Equipment (DTE) may be attached.
The data communication facility is intended to provide an independent data channel which may be used
for general data communication between two terminals. The data channel may support transmission in
either or both directions.
This I-ETS describes two optional schemes:
- a fully standardized data-transmission and applications-sharing scheme capable of multipoint
operation; this requires conformant software to be present on both DTEs, and the link can be
controlled from the DTEs themselves. The scheme could be extended to higher bit-rates, as may
be required in the future;
- a simplified scheme which does not require standardized software but which gives point-to-point
communication between PCs having a common application; in this case the link must be controlled
by the user from the videophones.
Terminals supporting teleservices using in-band signalling (e.g. telephony 7 kHz or videotelephony) may
offer data communication facilities as described in this specification as an option, but the facility is not a
part of the defined teleservice.
This interim standard is applicable to terminals which are intended for connection to the pan-European
Integrated Services Digital Network (ISDN) as provided by European public telecommunication operators
at the T reference point or coincident S and T reference point, and which support in-band signalling and
frame communication as described in ETS 300 144 [1].
2 Normative references
This I-ETS incorporates by dated and 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 I-ETS only when incorporated in it by amendment or revision. For undated references the
latest edition of the publication referred to applies.
[1] ETS 300 144 (1996): "Integrated Services Digital Network (ISDN): Audiovisual
services; Frame structure for a 64 kbit/s to 1 920 kbit/s channel and associated
syntax for inband signalling".
[2] ITU-T Recommendation V.24 (1994): "List of definitions for interchange circuits
between Data Terminal Equipment (DTE) and Data Circuit-terminating
Equipment (DCE)".
[3] ITU-T Recommendation V.28 (1994): "Electrical characteristics for unbalanced
doubled-current interchange circuits".
[4] ISO 2110 (1989): "Information technology- Data communication - 25-pole
DTE/DCE interface connector and contact number assignments".
[5] ITU-T Recommendation T.122 (1995): "Multipoint communication service for
audiographic and audiovisual conferencing service definition".
[6] ITU-T Recommendation T.123 (1995): "Protocol stacks for audiographic and
audiovisual teleconference applications".
[7] ITU-T Recommendation T.124 (1995): "Generic Conference Control".

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[8] ITU-T Recommendation T.125 (1994): "Multipoint communication service
protocol specification".
[9] CCITT Recommendation Q.922 (1992): "ISDN data link layer specification for
frame mode bearer services".
[10] ETS 300 145 (1996): "Integrated Services Digital Network (ISDN); Audiovisual
services; Videotelephone systems and terminal equipment operating on one or
two 64 kbit/s channels".
[11] ITU-T Recommendation H.320 (1994): "Narrow-band visual telephone systems
and terminal equipment".
[12] ETS 300 143 (1994): "Integrated Services Digital Network (ISDN); Audiovisual
services Inband signalling procedures for audiovisual terminals using digital
channels up to 2 048 kbit/s".
[13] ISO/IEC 3309 (1993): "Information technology - Telecommunications and
information exchange between systems - High-layer Data Link Control (HDLC)
procedures - Frame structure".
[14] ITU-T Recommendation V.14 (1994): "Transmission of start-stop characters
over synchronous bearer channels".
3 Definitions and abbreviations
3.1 Definitions
For the purposes of this I-ETS, the following definitions apply:
H.221 framing: Framing as specified in ETS 300 144 [1].
terminal: Audiovisual terminal and attached personal computer or similar.
T.120 protocol: Protocols conforming to the specifications given in ITU-T Recommendations T.122 [5],
T.123 [6], T.124 [7] and T.125 [8].
MLP: A logical data channel defined in ETS 300 144 [1].
asynchronous: Transmission where start-stop characters are used to control the data flow.
synchronous: Transmission where no start-stop characters are used to control the data flow.
3.2 Abbreviations
For the purposes of this I-ETS, the following abbreviations apply:
API Application Program Interface
DCE Data Communication Equipment
DSR Data Set Ready
DTE Data Terminal Equipment
DTR Data Terminal Ready
FCS Frame Check Sequence, see ITU-T Recommendation Q.922 [9]
HDLC High-layer Data Link Control
ISDN Integrated Services Digital Network
MLP See subclause 3.1
MCU Multipoint Control Unit
PC Personal Computer

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4 General
4.1 Overview
start-stop
ITU-T Recommendations V.14/V.24
DTE videophone ISDN videophone DTE
Figure 1: System configuration
Figure 1 shows the general arrangement to which the provisions of this I-ETS apply: two terminals using
in-band signalling as specified in ETS 300 144 [1] are in communication via the ISDN. To each terminal a
DTE (such as a PC) is attached, the DTEs are able to communicate across the telecommunication link
between the videophones.
This I-ETS describes two schemes:
- a fully standardized data-transmission and applications-sharing scheme (see clause 5), capable of
multipoint operation; this requires conformant software to be present on both DTEs, and the link
can be controlled from the DTEs themselves. The scheme could be extended to higher bitrates, as
may be required in the future (see figure 2);
PC-based
Videophone DTE
videophone
DTE Videophone
ISDN
Multipoint
PC-based
Control
videophone
Unit (MCU)
Figure 2: Multipoint communication using T.120 protocol
- a simplified scheme (see clause 6) which does not require standardized software but which gives
point-to-point communication between PCs having a common application; the link must be
controlled by the user from the videophones.
NOTE: If the videophone is programmed to carry out the procedures of clause 5 then a PC
may be attached and either of these schemes activated.
4.2 Physical link between videotelephone and computer
The signalling link between the videotelephone and the computer shall meet the requirements of ITU-T
Recommendation V.24 [2]. The electrical interface shall meet the requirements of ITU-T
Recommendation V.28 [3]. The physical connector used on the videophone shall conform to the
requirements set out in ISO 2110 [4] (see note).
NOTE: This interface is often referred to as RS-232.

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5 Data communication using T.120 protocol in the MLP channel
In this clause, a PC is used as a typical example of a suitable DTE.
5.1 General description
The T.120 protocol is described in ITU-T Recommendations T.122 [5], T.123 [6], T.124 [7] and T.125 [8].
It provides a wide range of functionalities which can be exercised in multipoint as well as point-to-point
communications. Its implementation involves a small amount of hardware and simple software within the
videophone, dealing with the synchronous multiplexing of the single data stream into the ITU-T
Recommendation H.221 frame structure, and software (several hundred kilobytes in all) which, in the
scheme described here, resides in the PC (see note).
NOTE: Other videotelephone and videoconference terminals, notably those which are
themselves PC based, are able to contain this amount of software without depending
on an attached PC.
In this subclause, the description is made in terms of the intercommunication between two videophones,
as in figure 1; however, the operation is equally valid when the remote end-point is of a different type
(providing that it is conformant with ETS 300 145 [10] or ITU-T Recommendation H.320 [11]), such as a
PC-based videophone/videoconference terminal or a Multipoint Control Unit.
The cable link between the PC and the videophone is that commonly available on PCs, namely a
start-stop link. Since the transmission within the ITU-T Recommendation H.221 frame is synchronous, the
videophone must contain an asynchronous-to-synchronous High-layer Data Link Control (HDLC)
conversion (see figure 3).

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PC
T.120 ISDN
Conformant
Transport
Applications ISDN
Connection
APP Protocols
GCC
T.120
MCS
ISDN
PSTN
X.224
Videophone
Protocol
SCF
Stack
HDLC
LAP F
Asynchronous to
synchronous HDLC
HDLC
conversion
Serial port and control
Serial port and Control
message handler
message handler
V.24 [2]
Standard
Comm. Comm.
Port Port
ITU-T Recommendation V.24 [2]
asynchronous communications link
Maximum data rate determined by serial capability
Local protocol to support call control
Local
Two types of datapacket
control
and bandwidth management
are defined:
1. Local C & I
2. T.120 data
HDLC frames
Figure 3: Data communication using the T.120 protocol stack
Two types of data packet pass across the ITU-T Recommendation V.24 [2] interface:
- applications data for transmission to the remote terminal, contained within the T.120 protocol. In
particular, the PSTN option defined in ITU-T Recommendation T.123 [6] is selected for the lower
layers;

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- local control and indication messages supporting bandwidth control and flow management defined
in subclause 5.3. The establishment of communication between the PCs takes place in several
stages:
a) communication between the videophones, according to ETS 300 145 [10];
b) the exchange of capability information between the terminals, taking into account the
communicating applications which it is intended to run in the PCs;
c) opening of the data path between the PCs;
d) initialisation of the T.120 protocol;
e) start-up of the application itself.
5.2 Selection of transmission mode
The establishment of communication between the videotelephones shall follow the procedures set out in
ETS 300 145 [10].
Prior to invoking an application which involves communication between the PCs, a capability exchange
according to ETS 300 143 [12] and including appropriate data capability values (see below) must take
place between the videotelephones. This may occur within the initialisation sequence if the PC is already
active, or by means of a new capability exchange if the PC is activated later in the videotelephony session.
A terminal which is able to communicate using the T.120 protocol (see ITU-T Recommendations T.122 [5]
to T.125 [8]) shall, according to the specific rates it can operate at, include in its capability set the values
shown in table 1; these are defined in ETS 300 144 [1], tables 8, 10 and 12.
Table 1: Capability values required for communication using T.120 protocol
Baud rate on Mandatory Optional
ITU-T Recommendation capability capability
V.24 [2] interface values values
9 600 Baud MLP-6.4k, T.120-cap none
19 200 Baud MLP-6.4k, MLP-14.4k, T.120-cap MLP-8k, MLP-16k
38 400 Baud MLP-6.4k, MLP-14.4k, MLP-32k, MLP-8k, MLP-16k, MLP-22.4k,
T.120-cap MLP-24k, MLP-30.4k
Optional values may be advantageous, in that they extend the range of compatibility with remote terminals
which may be other than videophone + DTE. Other MLP rate values than those in table 1 shall not be
sent, since the terminal is not able to cope with incoming transmissions at higher rates than these.
If the received capability set from the remote end-point includes values conforming to the same rule as in
table 1 and the MCC command has not been received, either terminal may initiate data communication by
mode switching according to ETS 300 143 [12] to open an MLP channel at a mutually acceptable rate.
NOTE: MCC is transmitted by a Multipoint Control Unit to cause a terminal to send exactly the
same audio, data and video bit-rates as it receives.
If MCC has been received, the terminal shall not initiate data transmission but shall await an incoming
MLP command. Subsequent action shall be according to the procedure defined in ETS 300 145 [10].
In general, the ITU-T Recommendation V.24 [2] interface must run at a higher rate than the MLP channel.
The required MLP channel rate to support commonly available rates on the ITU-T Recommendation
V.24 [2] interface are as shown in table 2. The reason for providing a lower synchronous bit-rate is to
prevent t
...