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Final draft ETSI ES V1.3.1 ( ) - PDF Free Download
1 Final draft ES V1.3.1 ( ) Standard Access and Terminals (AT); Specification of Dual-Tone Multi-Frequency (DTMF) Transmitters and Receivers; Part 3: Receivers
3 3 Final draft ES V1.3.1 ( ) Contents Intellectual Property Rights...4 Foreword Scope References Definitions, symbols and abbreviations Definitions Symbols Abbreviations DTMF receiver Area of application Operate and non-operate requirements Signal condition requirements Valid signal for an analogue receiver Invalid signal for an analogue receiver Valid signal for a digital receiver Invalid signal for a digital receiver Digit Recognition Condition (DRC) requirements Speech immunity performance Electrical characteristics...10 Annex A (normative): Speech immunity test signal...11 Annex B (informative): Example test signal...13 History...14
4 4 Final draft ES V1.3.1 ( ) Intellectual Property Rights IPRs essential or potentially essential to the present document may have been declared to. The information pertaining to these essential IPRs, if any, is publicly available for members and non-members, and can be found in SR : "Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to in respect of standards", which is available from the Secretariat. Latest updates are available on the Web server ( Pursuant to the IPR Policy, no investigation, including IPR searches, has been carried out by. No guarantee can be given as to the existence of other IPRs not referenced in SR (or the updates on the Web server) which are, or may be, or may become, essential to the present document. Foreword This Standard (ES) has been produced by Technical Committee Access and Terminals (AT), and is now submitted for the standards Membership Approval Procedure. The present document is part 3 of a multi-part deliverable covering the Specification of Dual-tone Multi-Frequency (DTMF) Transmitters and Receivers, as identified below: Part 1: Part 2: Part 3: Part 4: "General"; "Transmitters"; "Receivers"; "Transmitters and Receivers for use in Terminal Equipment for end-to-end signalling".
5 5 Final draft ES V1.3.1 ( ) 1 Scope The present document specifies the Dual-tone Multi-Frequency (DTMF) signalling system. The various parts of ES [1] provide a complete set of requirements for applications intending to use DTMF signalling. The present document is intended to provide the level of detail that will enable manufacturers of telecommunications equipment incorporating DTMF signalling, to design the equipment such that it facilitates highly reliable signalling. This should not be taken to imply that any DTMF signalling system that fails to meet all the criteria described in the present document will not provide reliable signalling. The present document is not intended to be used for the definition of regulated interfaces. The present document covers the requirements for the DTMF receiver for the case of DTMF signalling over the local loop. 2 References The following documents contain provisions which, through reference in this text, constitute provisions of the present document. References are either specific (identified by date of publication and/or edition number or version number) or non-specific. For a specific reference, subsequent revisions do not apply. For a non-specific reference, the latest version applies. Referenced documents which are not found to be publicly available in the expected location might be found at [1] ES (all parts): "Specification of Dual-tone Multi-Frequency (DTMF) Transmitters and Receivers". 3 Definitions, symbols and abbreviations 3.1 Definitions For the purposes of the present document, the following terms and definitions apply: Digit Recognition Condition (DRC): output state of the receiver in response to a valid input signal when the relevant signal condition and time requirements are satisfied high group: signalling frequencies, which have nominal values of Hz, Hz, Hz and Hz low group: signalling frequencies, which have nominal values of 697 Hz, 770 Hz, 852 Hz and 941 Hz Valid Signal Condition (VSC): state of the line at the input of the receiver when: 1) one of the frequency combinations specified in ES is present and; 2) the frequencies are within the tolerances specified in clauses and , item a); and 3) the signalling levels are within the range of acceptable levels specified in clauses and , items b) and c); and
6 6 Final draft ES V1.3.1 ( ) 4) any unwanted frequencies are within the limits as specified in clause and , items i) to iii) of ES Symbols For the purposes of the present document, the following symbols apply: The Star on the standard 3x4 keypad array, also known as the asterisk # The Square on the standard 3x4 keypad array, also known as the hash, sharp, or number sign ("pound" in the USA) dbm0 Power level expressed in decibels relative to 1 mw in a 0 dbr level reference point dbv Absolute voltage level expressed in decibels relative to 1 volt 3.3 Abbreviations For the purposes of the present document, the following abbreviations apply: CLI DRC DTMF HPF LPF PBX R SPF STF TC TE VSC Calling Line Identification Digit Recognition Condition Dual-tone Multi-Frequency High Pass Filter Low Pass Filter Private Branch exchange Rectifiers Single Pole Filter Single Tone Filter Threshold Comparator Terminal Equipment Valid Signal Condition 4 DTMF receiver 4.1 Area of application The present document describes the properties of the DTMF receiver function for terminal and for network equipment. The receiver shall respond to signals received over a line from a distant transmitter conforming to parts 1 and 2 of this multi-part deliverable. The receiver shall be equipped to recognize the sixteen signals designated 0 to 9, *, #, A, B, C and D. The system may be utilized with only, ten discrete signals, in which case the signals designated 0 to 9 should be used; or with twelve discrete signals, in which case the signals 0 to 9, *, # should be used. In the interests of system security, the receiver may be conditioned to recognize only specific digits from the complete set of sixteen digits. NOTE: The principal uses of the receiver as dealt with in the present document are expected to be: a) in a local exchange for receiving DTMF signals from a TE (e.g. for dialling); b) in a local exchange for receiving DTMF signals from a PBX (e.g. for dialling); c) in a PBX for receiving DTMF signals from a TE (e.g. for dialling); d) in a PBX for receiving DTMF signals from a local exchange (e.g. for Direct Dialling -In or CLI); e) in a TE for receiving DTMF signals from a local exchange (e.g. for CLI); f) in a TE for receiving DTMF signals from a PBX (e.g. for CLI); g) in a PBX for receiving DTMF signals from another PBX (e.g. for dialling or CLI).
7 7 Final draft ES V1.3.1 ( ) A DTMF receiver or receiver function can be either analogue, i.e. intended for connection to an analogue point in the network, or digital, i.e. intended for connection to a digital point in the network. Figure 1 shows typical usage in a local exchange or a PBX. Local exchange or PBX A A D A/D R a R d R d A: Analogue transmission path A/D: Analogue to Digital converter D: Digital transmission path D/A: Digital to Analogue converter Ra: Analogue DTMF receiver Rd: Digital DTMF receiver D D/A R a Figure 1: Reference configuration 4.2 Operate and non-operate requirements Signal condition requirements The following clauses define the conditions under which the DTMF function shall decide to indicate or not indicate to the host equipment the digit that is represented by a received signal. There will be some conditions that fall into neither of these two states and the designer of the DTMF function can make their own decision whether such signals are best considered valid or not valid Valid signal for an analogue receiver The received DTMF signal shall be detected as valid when only two of the signalling frequencies are present at the receiver input, one from the high group and one from the low group which meet the conditions described in items a) to c): a) each of these signalling frequencies is within ± (1,5 % + 2 Hz) of the nominal value; b) the level of each of these two signalling frequencies is within the range -28 dbv to -3 dbv; and c) the difference in level of these two signalling frequencies is not more than 6 db. The received DTMF signal shall also be detected as valid even if accompanied by other frequency components not exceeding: i) in the frequency range 15 Hz to 500 Hz; an individual signal level of +21 dbv at 15 Hz to 33 Hz with the limit then falling at 20 db per octave until 300 Hz and from 300 to 500 Hz a level of 5 dbv. The last requirement is aimed to protect the DTMF receiver against dial tone; ii) iii) in the frequency range 500 Hz to Hz; a total voltage level of 20 db below the level of the low group signalling frequency; at frequencies over Hz; an individual signal level of -36 dbv at Hz rising at 6 db per octave to a level of +10 dbv. NOTE 1: Old equipment operating under previous regimes in certain countries was permitted a frequency tolerance of 1,8 %. Where network operators need to continue support for such TE, the frequency tolerance for the receiver will need to be extended to ± (1,8 % + 2 Hz). NOTE 2: In item b), a dynamic range of 25 db is specified to take into account tolerances in the send levels of the DTMF transmitter and also variations in attenuation found in the local lines of the various networks.
8 8 Final draft ES V1.3.1 ( ) NOTE 3: It is pointed out that some networks may require protection to cover interference from specified sources, e.g. meter pulses. This may be in addition to that specified in item iii). NOTE 4: Equipment receiving DTMF signals in a high impedance state, as in the case of CLI, the level of each one of the two tones can be as high as 0 dbv Invalid signal for an analogue receiver The received DTMF signal shall be considered as invalid if any of the conditions given in items a) to c) are satisfied at the receiver input: a) the signal levels are correct for valid signals but more than two of the signalling frequencies are present; or b) the level of the signalling frequency in the low group is less than -36 dbv; or c) the level of the signalling frequency in the high group is less than -36 dbv. As an aid to the understanding of clauses and , table 1 is given. Signal condition Frequency deviation (Hz) Table 1: Signal condition requirements Signal level x (dbv) Signal level difference y (db) Unwanted frequencies z (dbv) Valid ± (1,5 % + 2) -28 x -3 y < 6 z Ψ May be valid > ± (1,5 % + 2) -36 x < -28 or x > -3 Not valid x < -36 y 6 z > Ψ NOTE 1: Ψ see clause items i) to iii). NOTE 2: It is realized that certain electrical signals may exist on the line at the input of the receiver which do not fulfil either the requirements of the "Is valid" row or those of the "Is not valid" row. In these circumstances, the requirements for the existence or non-existence of signal condition are not specified directly, but indirectly, through the speech immunity requirements of clause Valid signal for a digital receiver The received DTMF signal shall be detected as valid when only two of the signalling frequencies are present at the receiver input, one from the high group and one from the low group which meet the conditions described in items a) to c): a) each of these signalling frequencies is within ± (1,5 % + 2 Hz) of the nominal value; and b) the level of each of these two signalling frequencies is within the range -28 dbm0 to -4 dbm0; and c) the difference in level of these two signalling frequencies is not more than 6 db. The received DTMF signal shall also be detected as valid even if accompanied by other frequency components not exceeding: i) in the frequency range 15 Hz to 500 Hz; an individual signal level of 0 dbm0 at 15 Hz to 50 Hz with the limit then falling at 12 db per octave until 300 Hz. and from 300 to 500 Hz a level of 5 dbm0. The last requirement is aimed to protect the DTMF receiver against dial tone; ii) iii) in the frequency range 500 Hz to Hz a total voltage level of 20 db below the level of the low group signalling frequency; at frequencies over Hz, an individual signal level of -36 dbm0 at Hz rising at 6 db per octave to a level of 0 dbm0. NOTE 1: Old equipment operating under previous regimes in certain countries was permitted a frequency tolerance of 1,8 %. Where network operators need to continue support for such TE, the frequency tolerance for the receiver will need to be extended to ± (1,8 % + 2 Hz).
9 9 Final draft ES V1.3.1 ( ) NOTE 2: In item b), a dynamic range of 24 db is specified to take into account tolerances in the send levels of the DTMF transmitter and also variations in attenuation found in the local lines of the various networks. NOTE 3: It is pointed out that some networks may require protection to cover interference from specified sources, e.g. meter pulses. This may be in addition to that specified in item iii) Invalid signal for a digital receiver The received DTMF signal shall be considered as invalid if any of the conditions given in items a) to c) are satisfied at the receiver input: a) the signal levels are correct for valid signals but more than two of the signalling frequencies are present; or b) the level of the signalling frequency in the low group is less than -36 dbm0; or c) the level of the signalling frequency in the high group is less than -36 dbm0. As an aid to the understanding of clauses and , table 2 is given. Signal condition Frequency deviation (Hz) Table 2: Signal condition requirements Signal level x (dbm0) Signal level difference y (db) Unwanted frequencies z (dbm0) Valid ± (1,5 % + 2) -28 x -4 y < 6 z Ψ May be valid > ± (1,5 % + 2) -36 x < -28 or x > -4 Not valid x < -36 y 6 z > Ψ NOTE 1: Ψ see clause items i) to iii). NOTE 2: It is realized that certain electrical signals may exist on the line at the input of the receiver which do not fulfil either the requirements of the "Is valid" row or those of the "Is not valid" row. In these circumstances, the requirements for the existence or non-existence of signal condition are not specified directly, but indirectly, through the speech immunity requirements of clause Digit Recognition Condition (DRC) requirements If a valid signal present at the DTMF receiver input fulfils the conditions set out in items a) and b) then the digit shall be indicated as recognized: a) the signal condition shall be preceded by the continuous absence of valid signal condition for more than 40 ms or (optionally) by a recognized digit that is different to the current digit; and b) the signal condition shall then exist continuously for more than 40 ms. If a valid signal at the receiver input has been present for less than 20 ms, the digit shall not be indicated as recognized. Once the DRC exists, it shall be unaffected by disturbances having a duration of less than 20 ms. Thus a detected digit that subsequently has interruptions that are less than 20 ms, shall be interpreted as a single digit.
10 10 Final draft ES V1.3.1 ( ) As an aid to the understanding of clause 4.2.2, table 3 is given. Character recognition Table 3: Digit recognition condition requirements When not DRC * and then Character recognition When DRC and then Shall exist VSC > 40 ms Shall cease Not VSC > 40 ms May exist 20 ms VSC 40 ms May cease 20 ms Not VSC 40 ms Shall not exist VSC < 20 ms Shall not cease Not VSC < 20 ms * or optionally a different digit recognition condition Legend: VSC The continuous existence of a valid signal condition. Not VSC The continuous non-existence of valid signal condition. DRC The existence of digit recognition condition. Not DRC The non-existence of digit recognition condition. 4.3 Speech immunity performance The receiver should not perform more than 46 false operations per 100 speech hours at a long term active speech level of -13 dbv at analogue receivers and -13 dbm0 at digital receivers. A speech hour is defined as a total duration of one hour when speech (in both directions) may, be present, that is when the circuit is seized and the call established (conversation condition). NOTE 1: In addition to the simulation of signals by speech entering via the microphone, misoperation may also be caused by disturbances preventing detection of valid signals and/or splitting them into double digits. The design of a receiver with very high rejection efficiency against signal imitation might lead to an intolerable increase in the number of blockings. The general design aim should be to limit both types of misoperation (imitation and blocking) to a total level not exceeding one per digits dialled. NOTE 2: The duration of 100 hours has been given as the recommended test duration but sufficient accuracy can be achieved by using 10 speech hours, which can be further reduced by applying the time compression procedure described in annex A. For test of the speech immunity performance or for comparison between different receivers the test specified in annex A can be used. 4.4 Electrical characteristics NOTE: The electrical characteristics of the interface will be determined by the apparatus into which the function of the DTMF Receiver has been incorporated.
12 12 Final draft ES V1.3.1 ( ) STF R SPF f0 LPF TC f1 In HPF f2 f3 f4 f5 D e c i s i o n L o g i c Out f6 f7 LPF = Low Pass Filter HPF = High Pass Filter TC = Threshold Comparator STF = Single Tone Filter R = Rectifiers SPF = Single Pole Filter NOTE 1: The scheme of the reference unprotected exchange receiver is given in figure A.1. The characteristics of the components are: low-pass filter f 960 Hz; high-pass filter f Hz; two threshold comparators; eight channel filters (two pole filters: -1,5 db band pass limits at the nominal frequency ± (1,5%+ 2 Hz)); eight rectifiers; eight single pole (RC) filters, time constant C = 4 ms to 5 ms. NOTE 2: The thresholds and decision logic are regulated in order not to recognize character signals with a level below -30 dbm and to recognize valid character signals with a level in the range of -4 dbm to -30 dbm. NOTE 3: No other protections are to be provided in the receiver. Figure A.1: Reference unprotected exchange receiver (Block diagram)
14 14 Final draft ES V1.3.1 ( ) History Document history V1.1.1 September 2000 Publication V1.2.1 May 2002 Publication V1.3.1 January 2006 Membership Approval Procedure MV : to