Recommendation U.1 SIGNALLING CONDITIONS TO BE APPLIED IN THE INTERNATIONAL TELEX SERVICE (former CCIT Recommendation E.1, Arnhem, 1953; amended at Geneva, 1956, New Delhi, 1960, Geneva, 1964, Mar del Plata, 1968, Geneva, 1972, 1976, 1980, Malaga-Torremolinos, 1984 and Melbourne, 1988) The CCITT, considering (a) that signalling conditions in the international telex service require accurate definition of the signals to be used on international telex circuits in putting through, supervising, clearing, and charging for international telex calls; (b) that these signals must be such as to take into account that there are some fairly important differences in make-up between the telex networks of different countries. In some countries, selection is done by dialling, in others by means of start-stop signals. Some networks use direct selection while others use register translators. Between some networks, subscriber automatic selection is used whilst, in relations with other networks, semi- automatic or manual selection is still being used; (c) that hence it has not been possible to lay down uniform signals for all international telex relations. While, for certain signals, it has been possible to lay down rules valid for all relations, for others the choice has been left between two types of signals known as type A and type B, within each type it has sometimes been necessary to provide alternative forms for certain signals. The signals with regard to which there is a choice are described in Tables 1a/U.1, 1b/U.1 and 2/U.1 below; (d) that it is intended that the signalling with which this Recommendation deals should apply as far as possible when telex circuits make use of transmission devices having multiplex and signal regeneration facilities. In the case of operation over error-corrected radio circuits, Recommendaton U.20 lays down the conditions for adapting the signalling defined in Recommendation U.1. In the case of operation over channels using synchronous multiplex equipment in accordance with Recommendation R.44, Recommendation U.24 lays down the conditions for adapting the signalling defined in Recommendation U.1. When the signals defined in Recommendation U.1 are transmitted via code and speed dependent systems in accordance with Recommendation R.101, Recommendation U.25 lays down the permitted variations to the signals defined in Recommendation U.1. When the signals defined in Recommendation U.1 are transmitted via regenerative repeaters the signals received from these transmission devices may lie outside the tolerances stated in this Recommendation, and the permitted variations are shown in Recommendation U.5; (e) that additional signalling standards (types C and D) have been defined for use on international telex networks. Details of these methods of signalling are laid down in Recommendations U.11 and U.12; (f) that it has been necessary to define the rules for interworking Type D signalling with Types A, B and C signalling in Recommendation U.15, unanimously declares the view 1 Signalling types 1.1 In general, as far as signalling over international telex circuits is concerned, the outgoing country should conform to the signalling requirements of the incoming country. Nevertheless, when in the case of fully automatic service this requirement would entail considerable difficulty, alternative arrangements may be adopted by agreement between the two Administrations concerned. Fascicle VII.2 - Rec. U.1 PAGE1 1.2 The signals shown in SS 2 to 10 below shall be employed under the conditions indicated. Note - Both the forward and backward path signals are described at the moment of their emission on the international circuit. 1.3 The characteristics of the signals defined in SS 4, 5, 7 and 10 below can be divided into two basic groups - type A and type B - as given in Tables 1a/U.1, 1b/U.1 and 2/U.1. TABLE 1a/U.1 International telex circuits terminated on distant automatic switching equipment with semi-automatic working to subscribers Signal Type A Type B Call-confirmation Permanent stop polarity 25-ms pulse of stop polarity (see SS 4 and 5.1 of (between 17.5 and 35 ms) the text) Proceed-to-select Teleprinter signal(s) 25-ms pulse of stop polarity (see S 5.1 of the (between 17.5 and 35 ms) text) Selection (see S 6 of Teleprinter signal(s) Dial pulses, or teleprinter the text) signals Call-connected (see S Teleprinter signals Stop polarity for at least 7 of the text) Note - The teleprinter signals two seconds may be preceded by a 150-ms (± 11 ms) pulse of start polarity Busy (see S 10.1 of Teleprinter signals followed i) 165-260-ms pulse of stop the text) by clearing signal polarity followed by start polarity for 1500 ms (tolerance ± 30%) (see Note) ii) 165-260-ms pulse of stop polarity followed by teleprinter signals and start polarity for 1500 ms (tolerance ± 20%) (see Note) Out-of-order, number Clearing signal normally i)Permanent start polarity changed, number preceded by teleprinter ii) 165-260-ms pulse of unobtainable, etc. signals stop polarity followed by (see S 10.1 of the start polarity for 1500 ms text) (tolerance ± 30%) (see Note) iii) 165-260-ms pulse of stop polarity followed by teleprinter signals and start polarity for 1500 ms (tolerance ± 20%) (see Note) Note - This sequence of signals may be repeated until a clearing signal is sent over the forward signalling path. However, with transmission systems having significant propagation delay, e.g. satellite or multiplex systems, it may be preferable to prevent such repetitions. PAGE10 Fascicle VII.2 - Rec. U.1 TABLE 1b/U.1 International telex circuits terminated on distant automatic switching equipment with fully automatic working between subscribers Signal Type A Type B Call-confirmation (see SS 4 Permanent stop polarity 25-ms pulse of stop and 5 of the text) polarity (between 17.5 and 35 ms) Proceed-to-select (see S 40-ms (± 8 ms) pulse of 25-ms pulse of stop 5.1 of the text) start polarity polarity (between 17.5 and 35 ms) Selection (see S 6 of the Teleprinter signals Dial pulses, or teleprinter text) signals Call-connected (see S 7 of 150-ms (± 11 ms) pulse of Stop polarity for at least the text) start polarity followed by 2 seconds stop polarity for at least 2 seconds and possibly by teleprinter signals Call redirection signal Call connected signal as Call connected signal as (see Rec. U.41, S 2) defined above, followed by defined above, followed by the call redirection the call redirection sequence defined in Rec. sequence defined in Rec. U.41, S 2 U.41, S 2 Busy (see S 10.1 of the Teleprinter signals i) 165-260-ms pulse of stop text) followed by clearing signal polarity followed by start polarity for 1500 ms (tolerance ± 30%) (see Note 1) ii) 165-260-ms pulse of stop polarity followed by teleprinter signals and start polarity for 1500 ms (tolerance ± 20%) (see Note 1) Out-of-order, number Clearing signal normally i)Permanent start polarity changed, number preceded by teleprinter (see Note 2) unobtainable, etc. (see S signals ii) 165-260-ms pulse of 10.1 of the text) stop polarity followed by start polarity for 1500 ms (tolerance ± 30%) (see Note 1) iii) 165-260-ms pulse of stop polarity followed by teleprinter signals and start polarity for 1500 ms (tolerance ± 20%) (see Note 1) Changed address interception Call connected signal as Call connected signal as signal (see Rec. U.41, S 1) defined above, followed by defined above, followed by the changed address the changed address interception sequence interception sequence defined in Rec. U.41, S 1 defined in Rec. U.41, S 1 Note 1 - This sequence of signals may be repeated until a clearing signal is sent over the forward signalling path. However, with transmission systems having significant propagation delay, e.g. satellite or multiplex systems, it may be preferable to prevent such repetitions. Note 2 - The use of this signal should be avoided if possible. Fascicle VII.2 - Rec. U.1 PAGE1 TABLE 2/U.1 International telex circuits terminated on distant manual switching equipment Signal Type A Type B Call-confirmation Permanent stop polarity 25-ms pulse stop polarity (see S 4 of the text) (between 17.5 and 35 ms) Proceed-to-transmit Teleprinter signals Stop polarity followed by (see S 5.2 of the teleprinter signals text) Call-connected (see S Teleprinter signals Teleprinter signals 7 of the text) Busy, out-of-order, Teleprinter signals Teleprinter signals number changed and number unobtainable (see S 10.1 of the text) 2 Free line condition 2.1 The e line is characterized by a permanent signal corresponding to the start impulse in accordance with International Telegraph Alphabet No. 2 (ITA2) (see the Recommendation cited in [1]) on the forward and backward signalling paths. 3 Call 3.1 The call is characterized by an inversion to STOP polarity, received on the forward signalling path. Future designs of equipment should not recognize such an inversion as a valid call signal, unless it has existed for a period of greater than 50 milliseconds. 4 Call-confirmation signal 4.1 A call-confirmation signal shall be returned over the backward signalling path following the initiation of a call to prove the continuity of the line and the response of the distant terminal equipment. 4.2 The call-confirmation signal shall be returned by the receiving end as quickly as possible and in any event with a delay not exceeding 150 milliseconds after the arrival of the calling signal at the receiving end. 5 Signals preceding selection 5.1 Proceed-to-select signal 5.1.1 In the case of international telex circuits terminated on distant automatic switching equipment that cannot accept the selection information immediately (either after the reception of the calling signal or after the sending of the call-confirmation signal), a distinct proceed-to-select signal shall be returned over the backward signalling path after the call-confirmation signal, to indicate that the selection information may be transmitted. 5.1.2 For type A signalling, the sending duration of the stop polarity, from the beginning of the call confirmation signal until the moment when the proceed-to-select signal begins to be sent, should be at least 100 milliseconds. 5.1.3 For type B signalling, the time interval between the end of the call-confirmation signal pulse and the moment when the proceed-to-select signal begins to be sent, during which the start polarity is sent, should be at least 100 milliseconds. 5.1.4 During the busy hour, for 99 calls in 100, the delay in the return by the receiving system of the proceed-to-select signal must not exceed 3 seconds after the reception of the calling signal. (In certain existing networks, this time may be 4 seconds.) 5.1.5 If the automatic switching equipment at the receiving end can receive the selection information immediately after the sending of the call-confirmation signal, the call-confirmation signal shall constitute the proceed-to-select signal. 5.1.6 If the automatic switching equipment at the receiving end can receive the selection information at the time of receiving the call signal, there shall be no proceed-to-select signal. 5.2 Proceed-to-transmit signal 5.2.1 In the case of international telex circuits terminated on a distant manual switchboard, a proceed-to-transmit signal shall be returned over t backward signalling path following the initiation of a call, to indicate that the teleprinter of the distant operator has been PAGE10 Fascicle VII.2 - Rec. U.1 connected to the international circuit. 6 Selection signals 6.1 The selection s should be in conformity with International Telegraph Alphabet No. 2 or dial signals in conformity with Recommendation U.2. 6.2 In the case of dial selection into a system employing letters in the national numbering scheme, figures only will be used on international circuits, because of the difficulty in transmitting signals other than figures from dials. 6.3 In the case of selection into a keyboard selection system, the prepare-for-digits signal will be combination No. 30 (figure-shift). 6.4 In those cases where an end-of-selection signal is required, this signal shall be combination No. 26 (+), possibly followed by another combination characterizing the class of traffic in the incoming country. 6.5 In systems that use keyboard selection and that require an end-of-selection signal, it is preferable that the subscriber's number consist of a uniform number of characters. 6.6 To avoid undue occupation of lines and equipment, Administrations should take all reasonable steps to ensure that the transmission of selection signals over international circuits is completed without undue delay. In particular, where excessive delays are encountered, the incoming country may cause the connection to be cleared. When selection signals are sent by a subscriber, or by an operator, from country A towards a register in country B, country B may disconnect itself from the call if the time interval between two successive selection signals (either pulse trains or teleprinter characters) exceeds 5 seconds. 7 Call-connected signal 7.1 A call-connected signal shall be returned over t e backward signalling path to indicate that the call has been extended to the terminal of the called subscriber, which shall normally always be available to receive a call, as stated in Recommendation F.60 [4], SS 3.1.2 and 3.4.2.1, except in the cases mentioned in S 10.1.1 below. In the case of fully automatic switching between subscribers, this signal will start the equipment for determining the charge for the call. For administrative purposes (accounting between Administrations), the conventional start of the chargeable duration is fixed at 6 ± 1 seconds after the start of the call-connected signal (see Recommendation F.61 [2]). For the same purposes, the end of the chargeable duration will be between 300 and 1000 milliseconds after the start of the clearing signal. 7.2 Switching systems not giving an automatic return of answer-back signals over the international telex circuits shall be arranged to be ready to respond to WRU signals (transmitted from the calling country) with a delay not exceeding two seconds from the beginning of the call-connected signal. To meet this requirement in the case of in-local working, the return of the call-connected signal has to be delayed until the moment when the teleprinter of the obtained subscriber has in effect been connected to line (see Recommendation S.9 [3]). Fascicle VII.2 - Rec. U.1 PAGE1 7.3 If the incoming country automatically returns the obtained subscriber's answerback, the interval between the start of the call-connected signal and the start of the answerback signals (or, if applicable, of other signal sequences, such as described in Recommendation U.41) should be at least two seconds to allow satisfactory reception of teleprinter signals by the calling subscriber. In order to restrict charging on unsatisfactory calls, the particular interval should be kept as short as possible and should not exceed 3 seconds for new networks or 6 seconds for existing networks. 7.4 If the call has been routed via a transit centre the two-second minimum period for the call-connected signal, which is transmitted by the destination network, may have been reduced on signalling conversion and the answerback signals may be received at the originating network after a minimum duration of 1050 milliseconds. 7.5 If the incoming country normally returns the obtained subscriber's answerback code automatically, and the answerback transmission fails to appear for some reason, the signal DER followed by the clearing signal should be transmitted to the country of origin within 6 seconds from the start of the call-connected signal. 7.6 In the case of a call to a switchboard or service point the call-connected signal shall be returned as soon as the call reaches the terminal equipment even though it may be required to wait before being switched to the service position. 7.7 If the answerback is preceded by a sequence of signals, such as the RDI sequence defined in Recommendation U.41, this sequence should be limited to not more than 20 characters and it should be followed within 1100 milliseconds by the answerback code. 7.8 If the answerback of the obtained subscriber is followed by a sequence or sequences of signals, the interval between the end of the answerback and the completion of the sequence (excluding the answerback of the calling subscriber if taken automatically) should be as short as possible and should not exceed 4 seconds. 7.9 For future networks the sending of date, time and other signals (excluding however WRU signals to the calling subscriber) that are additional to the obtained subscriber's answerback (either preceding or following it) should be avoided on international calls. In the case of call redirection, the service sequence RDI, as described in Recommendation U.41 shall precede the answerback of the connected subscriber. 8 Idle circuit condition 8.1 On an established connection, the idle circuit is character a permanent signal corresponding to the stop impulse, in accordance with International Telegraph Alphabet No. 2, on the forward and backward signalling paths. 9 Clearing 9.1 Clearing signal 9.1.1 The clearing is characterized by a reversion to the condition specified in S 2.1 above on either signalling path maintained until the complete release of the circuit. 9.1.2 The supervisory equipment of the international connection shall be arranged to interpret a signal of start polarity as a clearing signal within 300 to 1000 milliseconds. 9.2 Clear-confirmation signal 9.2.1 The clear-conf n signal is a reversion to the condition specified in S 2.1 above on the other signalling path in response to the clearing signal. When a clearing signal transmitted on an international circuit has reached the receiving end of that circuit the clear-confirmation signal must be sent back in the other direction within 350 to 1500 milliseconds after the initial start polarity begins. 9.2.2 The minimum period will be increased to 400 milliseconds for future systems. PAGE10 Fascicle VII.2 - Rec. U.1 9.3 Guard delay 9.3.1 Guard arrangements at the ends of an international telex circuit should be such that the circuit cannot be used for a new call until the distant equipment is free to accept another call. 9.3.2 A guard delay of 1 second will be maintained during which incoming calls will not be accepted and a guard delay of 2 seconds will be maintained during which outgoing calls will not be offered, from the moment when start polarity appears on both signalling paths. This start polarity shall be maintained throughout the guard period on both signalling paths of the international circuit. Whilst maintaining the requirements of S 9.3.1, guard delay periods should nevertheless be generally kept to a minimum in order to maximize the use of the circuit. Therefore, where modern electronic switching equipment is used at both ends of a circuit, the above figures for incoming and outgoing guard delay periods may be reduced to 0.5 and 1 second respectively. 10 Service signals 10.1 Signals for ineffective calls 10.1.1 If a busy, out of or , absent subscriber/office closed, number changed, or number unobtainable (i.e. not connected, service ceased or barred access) condition is encountered in the distant network, this shall be indicated by the return of a signal to the calling end. This signal shall cause the connection to be cleared. 10.1.2 In printed service signal sequences the code expressions mentioned in the Recommendation cited in [4] should be used. In this case, the signal should commence with the carriage-return, line feed and letter-shift signals, then the text of the code expression and ending with the carriage return and line-feed signals and immediately followed by the clearing signal in all cases. Where additional information is transmitted, this should consist of four characters (a, ß, g, d) and sent before the standard service signal at automatic speed. Such additional information shall be used to either a) indicate the TNIC of the network which has generated the service signal, or b) indicate the reasons of the not-ready condition of the called terminal, as shown in Table 4/U.1. The composition of the complete service signal train should then be a ß g d ¬ = ¯ code expression ¬ = where a is always letter-shift (). The ability to indicate the international gateway exchange which has generated the service signal is left for further study. It should be noted that some Administrations currently use their own interpretation of these additional information characters, for transmission over international circuits. The objective, however, should be always to ensure that the standard service signal is clearly presented to the calling subscriber or TAED with no reasonable possibility of confusion by the use of these characters and that, consequentially, the provisions of Recommendation U.40 can be unambiguously applied. 10.1.3 Ineffectiv x calls should not be charged for. With this in view printed service signal sequences returned on ineffective calls should never be preceded by the call-connected signal except in the case described in Recommendation U.41, S 1.2. However, under faulty conditions that can be detected only after the call has been put through, it may be impossible to prevent the return of the call-connected signal and subsequent charging of the call. 10.1.4 In new networks, ineffective telex calls to a subscriber whose number has been changed will be signalled by the return of the call connected signal followed, after 2 seconds, by the NCH service sequence described in Recommendation U.41 and the clearing signal. 10.2 Waiting signals 10.2.1 Should a call be routed to a point in the system where it is required to wait before connection can be made to the requested service, a waiting signal (MOM) should be sent back automatically in accordance with Table 3/U.1. Fascicle VII.2 - Rec. U.1 PAGE1 TABLE 3/U.1 Access to switchboards and service points Signal Type A Type B Call-confirmation Permanent stop polarity 25-ms pulse of stop polarity (see SS 4 and 5.1 of (between 17.5 and 35 ms) the text) Proceed-to-select 40-ms (± 8 ms) pulse of start 25-ms pulse of stop polarity (see S 5.1 of the polarity (between 17.5 and 35 ms) text) Selection (see S 6 of Teleprinter signals Dial pulses or teleprinter the text) signals Call-connected (see S 150-ms (± 11 ms) pulse start Stop polarity for a period 7 of the text) polarity followed by stop between 2 and 8 seconds polarity for a period between 2 and 8 seconds Waiting signals (see Teleprinter signals which may Teleprinter signals which may S 10.2 of the text) interrupt the stop polarity interrupt the call-connected period of the call-connected signal, in which case the signal, in which case the initial period of stop initial period of stop polarity should not be less polarity should not be less than 2 seconds than 2 seconds Service-connected Teleprinter signals Teleprinter signals (see S 10.3 of the indicating the identification indicating the identification text) of the switchboard or service of the switchboard or service point point Busy (see S 10.1 of Teleprinter signals followed ii) 165-260-ms pulse of the text) by clearing signal stop polarity followed by start polarity for 1500 ms (tolerance ± 30%) (see Note) ii) 165-260-ms pulse of stop polarity followed by teleprinter signals and then by start polarity for 1500 ms (tolerance ± 20%) (see Note) Note - This sequence of signals may be repeated until a clearing signal is sent over the forward signalling path. 10.2.2 The waiting signal sequence should include the carriage-return, line-feed and letter-shift signals followed by the characters MOM. It may be useful in some instances to include characters to indicate the date and/or time and also characters indicating the identity of the switchboard or service point returning the signals. In some existing systems, however, the waiting signal sequence consists only of a group of characters indicating the date and/or time. 10.2.3 The first character of the waiting signal sequence shall be transmitted within 8 seconds of the commencement of the call-connected signal. 10.2.4 The MOM signal sequence shall be followed by stop polarity until the service-connected signal is returned. 10.2.5 In some systems, however, arrangements are provided so that the transmission by the caller of suitable teleprinter characters causes the return of a further sequence of the MOM signal. Where such a facility is provided attention is drawn to the need for the Administrations returning the signal to make arrangements to ensure that the signal sequence can be correctly received without mutilation in the calling system. For this purpose it is acceptable to include one or two letter-shift signals at the beginning of the MOM signal sequence. 10.2.6 It is desirable that when connection is established to the requested service the service-connected signal should be returned as quickly as possible. 10.2.7 The equipment must be arranged so that a caller in the waiting condition can be released. 10.3 Service-connected signal 10.3.1 A service-connected signal shall be returned over the backward signalling path to indicate that the call has been extended to the teleprinter, or equivalent, of the requested service point. This PAGE10 Fascicle VII.2 - Rec. U.1 signal may comprise the answerback code of the teleprinter or a group of teleprinter characters identifying the service point or switchboard position. The service-connected signal may also include characters indicating date and/or time. 10.3.2 Where waiting signals are not provided the first character of the service-connected signal shall be returned within 8 seconds of the commencement of the call-connected signal. 10.4 Backward busying signal 10.4.1 To facilitate routine tests of the switching equipment connected at the incoming end of an international telex circuit, a backward busying signal might be sent on the return signalling channel to show, at the other end, that the circuit is occupied. 10.4.2 With fully-automatic operation, on one-way circuits as well as on both-way circuits, the signal would take the form of permanent stop polarity for not more than 5 minutes. 10.4.3 In semi-automatic working, the signal would be either permanent start polarity, or permanent stop polarity, lasting not more than 5 minutes; the particular polarity chosen would be that requested by the outgoing country. 10.4.4 If the outgoing equipment is designed to block the outgoing end of the circuit in the busy position after receipt of the permanent stop polarity, stop polarity would be used for preference. In some instances, use of stop polarity could give rise to difficulties. It might, for example, cause a call signal to appear in the outgoing manual switching equipment. In such circumstances, recourse will have to be had to permanent start polarity. 10.4.5 As to tests made at the outgoing end of one-way circuits, there will be no call for a forward busying signal. The blocking of these circuits is locally done, on the outgoing side. 10.5 Retest signal 10.5.1 When the call-confirmation signal is not received over the backward signalling path within 5 to 10 seconds from the start of the calling signal, Administrations may apply a retest signal, which automatically pro for the test of the circuit in such a way that the international circuit is marked unavailable for outgoing traffic and may be restored to service if the fault disappears in the course of this test. 10.5.2 This signal transmitted over the forward signalling path should be composed of: - a stop polarity period of 2 seconds duration; - a start polarity period of 58 (or 70) seconds, 4 minutes 58 seconds (or 5 minutes 58 seconds) or 29 minutes 58 seconds (or 35 minutes 58 seconds) duration. 10.5.3 For the fault to be regarded as cleared, the return of stop polarity should occur during the stop period of a retest. 10.5.4 The circuit should be tested up to five times at nominal intervals of 1.0 minute or 1.2 minutes and a check should be made to confirm the receipt of a call-confirmation signal in response to each test. If a valid call-confirmation signal has not been received at the end of this first group of tests, the retest will continue with a further group of up to five tests at either 5.0/6.0-minute or 30/36-minute intervals. If 5.0- or 6.0-minute intervals are used and a valid call-confirmation signal has not been received at the end of this second group of tests, a further group of up to nominally five retests will be made at 30- or 36-minute intervals. An alarm will be given at an appropriate time. However, this retest procedure may be discontinued at any stage at the discretion of the outgoing Administration. 10.5.5 If, however, during the above sequence of retests, a valid call-confirmation signal is received, a clearing signal shall be transmitted in the place of the retest signal. Following a valid clear-confirmation signal, the incoming and the outgoing sides of the trunk circuit should not be returned to service until after expiry of the appropriate guard delay time. 10.5.6 In order to cater for the possibility that a faulty circuit may be seized at both ends, the automatic retest equipment should be arranged to allow an incoming call to be received during the start polarity period of the automatic retest signals. Administrations may, however, ignore such calls which occur Fascicle VII.2 - Rec. U.1 PAGE1 during the incoming guard delay period. 10.5.7 Where an exchange has knowledge of a transmission system failure, it is desirable that retest signals shall not be applied to the circuits affected. 10.5.8 In order to avoid simultaneous seizure of too many registers at the distant centre, it is advisable that the retest signals, which might be sent simultaneously on various circuits subjected to this test, should be out of phase with one another. 10.5.9 The intervals between the tests at the two ends of the trunk route should be made different to be sure that successive retests do not overlap at both ends. In general, the international/intercontinental transit centre having the higher F.69 [5] telex destination code should take the longer interval (i.e. 1.2, 6 and 36 minutes). The tolerance on all above time intervals is ± 10%. Nevertheless, when this requirement would entail considerable difficulty, alternative arrangements may be adopted by agreement between the two Administrations concerned. 11 Setting-up time 11.1 The setting-up time is defined as the period of time from the initiation of the call on the international circuit until the initiation of the return of either the call-connected signal or a service signal indicating that the call has been unsuccessful, provided the selection signals have been transmitted at the maximum speed. 11.2 For new networks, the objectives are as follows: - an average of 8 seconds; - a maximum of 15 seconds with a probability of 1% exceeding this value. 12 Both-way working 12.1 For both-way cable circuits used in the fully automatic telex service, the following action to minimize the incidence of head-on collision is recommended: a) that inverse order testing, or a close approximation to it by testing the route in small groups of circuits in fixed order, always starting the search from the same initial positions, should be adopted at opposite ends of a group of both-way trunk circuits; b) that calls should be offered in such a way that each circuit is treated once only for the minimum period of time necessary to ascertain whether it is free or busy, and the outgoing selectors should not have facilities for delayed hunting. 12.2 The absence of the proceed-to-select signal in type A signalling or the substitution of call signal for the call-confirmation signal in type B signalling will serve respectively to detect a head-on collision when the group of circuits is totally occupied or very nearly totally occupied. The two calls will then be cleared down unless there are still free circuits in the route. 13 Transit working 13.1 It is noted that a number of Administrations use signalling systems in accordance with Recommendation U.1 to provide international transit facilities. Whilst Recommendations U.11 and U.12 (types C and D) are intended for signalling between telex transit centres, nevertheless transit operation using type A or B signalling is feasible. To provide guidance for this specific application, the following general rules should apply. 13.2 Circuits provided for terminal calls will normally also be used to carry transit calls. 13.3 The signalling conditions for transit calls between the originating centre and the transit centre should, as far as possible, be the same as those used for terminal calls to subscribers in the transit network. 13.4 The signalling conditions for transit calls between the transit centre and the terminating centre should, as far as possible, be the same as those used for terminal calls to subscribers in the terminating network. 13.5 Any signal conversion to meet the requirements of the distant terminal network is the responsibility of the transit centre. 13.6 An appropriate numbering scheme should either: a) include F.69 [5] destination codes on both terminal and transit calls; or b) use 0 as a standard transit prefix. Should 0 be precluded by the national numbering plan in the transit network, another digit might be agreed with the transit Administration. Either way the originating centre should bar irregular routing, by discriminating the digits transmitted by calling subscribers. PAGE10 Fascicle VII.2 - Rec. U.1 13.7 A single stage of selection in which all the selection digits are transmitted as a single block should be employed over the circuit from the outgoing centre to the transit centre. TABLE 4/U.1 Standardization of additional information characters in printed service signals Character Indication of TNIC Indication of (Note) not-ready condition a LS LS ß Z g First letter of TNIC See Recommendation U.45 d Second letter of TNIC (or L/S) Note - TNICs are listed in Annex A to Recommendation F.69. References [1] CCITT Recommendation Operational provisions for the international public telegram service, Rec. F.1, Division C, No. 8. [2] CCITT Recommendation The chargeable duration of a telex call, Rec. F.61. [3] CCITT Recommendation Switching equipment of start-stop apparatus, Rec. S.9. [4] CCITT Recommendation Operational provisions for the international telex service, Rec. F.60, S 4.1. [5] CCITT Recommendation Plan for telex destination codes, Rec. F.69. Fascicle VII.2 - Rec. U.1 PAGE1