DE1010572B - Damping tester for common use for several transmission lines - Google Patents

Description

GERMAN

The invention relates to a loss tester which is used in common for a plurality of transmission lines whose attenuation it automatically monitors and in the event of deviations from the setpoint of the attenuation gives audible or visible signs.

Checking the nominal attenuation of transmission lines was previously required at the two end points of the transmission lines one person each to connect the measuring transmitter to the input of the relevant Make the connection and the connection of the measuring receiver (attenuation pointer) at the output of the connection. Via a special telephone connection, including the switch to be measured or closed by means of a switch test connection can be used temporarily, the two people agree on the details the measurement, d. That is, the power and the frequency of the test transmitter are determined so that the second Person at the measuring receiver can precisely determine the value of the incoming power read. the Measurement or testing of a transmission line is typically done as follows:

A measuring tone, ζ. B. 800 or 1000 Hz, is with a certain power, in most cases with normal level 0 = 1 mW, sent in the relevant transmission line and the derating caused by the Damping, d. H. caused by losses in the line, at the other end (receiving location) with a calibrated Measuring receiver (attenuation pointer) measured. The calibrated scale in Neper indicates the degree of damping for the relevant Transmission line on.

A considerable amount of time is always required to connect the line for measurement, and for the measurement itself always requires two people. The work and time required for a regular, e.g. B. only daily, control of transmission lines therefore requires very high costs. Deviations of the Attenuation of a transmission line from the setpoint will not always be timely without such controls recognized and cause complete or partial failure of the relevant line for the corresponding Transmission type. The level recorder devices known in addition to this measuring method, which have a frequency band send, can work partially independently and for the monitoring of high-quality radio lines are used, require a considerable technical effort on the sending and receiving side. she are not used everywhere because of the relatively high costs and would be used to monitor a z. B. Star-shaped network group of transmission lines from the center at all corresponding counter offices require expensive transmission devices and thus mean an uneconomical effort.

It is known for the technology of level control of telephone lines, on the one hand when over or Attenuation tester for common

Use for several

Transmission lines

Applicant:
Siemens Sd Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 4

Johann Horwedel, Cologne-Ehrenfeld,
has been named as the inventor

Switch on optical and acoustic signals if the level falls below a normal level (Swiss patent specification 169871), on the other hand compensation losses by voters to gradually switch the line to be monitored on or off (German patent specification 671 500) or by two consecutive voters, the equalization attenuation of a main and of a secondary regulator (German patent specification 857 070).

The invention also makes use of selectors for switching attenuators, but for a device for the automatic testing of the attenuation of a large number of lines by means of a remote control End of the lines of the transmitted measurement level. The invention aims at a central device, which compared to the known Arrangements require much less effort and, above all, only a single voter and as few monitoring relays as possible are required.

According to the invention, this is achieved by combining the following measures, some of which are known:

a) The transmission lines to be tested are successively connected to the Input of a common amplifier.

b) The measuring levels arriving from the individual transmission lines are converted into the amplifier a fixed amount that remains the same for all lines.

c) The increased output levels are assigned individually via the individual transmission lines Attenuators Uberwachungsrelais supplied in such a way that that of the respective connected transmission line associated attenuator via further switching elements of the selector that connects the transmission lines connected on the one hand to the common amplifier, on the other hand to the common monitoring relays

709 549/283

is, and the attenuations of the attenuators are in such a relationship to the set attenuations of the Transmission lines to be tested, that the preferably via a rectifier circuit to the monitoring relay Occurring output power for line states corresponding to the nominal attenuation always has the same value and the relay every time the line attenuation deviates from the setpoint trigger an audible or visible signal.

the current results. The attenuators 5 and 6 etc. must therefore have such an attenuation value that the level -0.3 Neper is always present on the rectifier circuit 7 and on the relay windings 8 ¹ and 9 for the desired attenuation of their associated transmission line. Via the selector arms I and II, the various transmission lines are switched on and, via the selector arms III and IV, at the same time the one assigned to each transmission line, according to the target

Fig. 1 shows the basic circuit of the invention io value of their attenuation dimensioned attenuator 5, 6, etc. Device, FIGS. 2, 3 and 4 show the evaluation device from three examples listed below in FIG

in different switch positions. From the counterpart table it can be seen that the currents in the relay with a certain power and frequency sent windings 8 ¹ and 9 for all transmission lines always arrive and via the transmission line to be tested remain the same when the value of the attenuators 5, 6 de measurement level which is determined by the electrical properties 15, etc. accordingly. this transmission line has been attenuated accordingly, passes via the contacts l ^a and V> and further via the selector arms I and II to the input of an amplifier 4. This amplifier 4, the attenuated measurement levels is assumed again by a certain amount of + raised 1 neper and from the output of the amplifier via the selector arms III and IV and the ^{attenuator 6 connected between the terminals l c} and l ^{d to} a rectifier circuit 7 and the relay windings 8 ¹ and 9 connected therein from two polarized relays Pr and PrI. These two polarized relays with a non-contact center position of the armature are dimensioned so that the windings 8 ¹ and 9 do not take effect, ie their armatures remain in the center position, when the current in the rectifier circuit 7 is greater than the nominal attenuation. When the current is increased to a value corresponding to the nominal damping, the winding 8 ¹ becomes effective and the armature 11 of the relay Pr picks up. With a further increase in the current, which then corresponds to a lower damping than the nominal damping, both windings 8 ^r and 9 become effective, and the armature 14 of the relay PrI also picks up. In connection with the winding 8 ^{11 of} the relay Pr, which can take effect via a special circuit, the various layers of the armature 11 and 14 close circuits which, as explained below, trigger a corresponding signaling.

The basic principle of this test device and the evaluation for displaying a changed nominal attenuation are based on the following conditions and processes: Any incoming measurement level of a nominal attenuation that is set any higher or lower must trigger the same effects in the relay windings 8 ¹ and 9 and indirectly also in the winding 8 ¹¹ . So it does not matter whether the transmission line to be tested has a nominal attenuation of z. B. - 0.5 N or - 0.8 N or 1.0 N etc., the correspondingly dimensioned relay windings must have the

Attenuation of the
Transmission Level at
entry
of the Ver Level at
exit
of the Ver Damp
f-
worth of
Damp Level at
Same
judge 7
or on 20 line stronger i stronger 4 f-
limb
5.6, ... relay
circle Target damping ... -l, 0N ± 0.0 N 0.3 N -0.3 N Attenuation greater ⁵ by 0.1 N -1.1 N -0.1 N 0.3 N -0.4 N Attenuation smaller by 0.1 N . - 0.9 N + 0.1N 0.3 N -0.2 N Target damping ... -0.8 N + 0.2N 0.5 N -0.3 N 30 attenuation greater by 0.1 N -0.9 N + 0.1N 0.5 N -0.4 N Attenuation smaller by 0.1 N -0.7 N + 0.3N 0.5 N -0.2 N Target damping ... -0.5 N + 0.5N 0.8 N -0.3 N ³⁵ Attenuation greater by 0.1 N -0.6 N + 0.4N 0.8 N -0.4 N Attenuation smaller by 0.1 N -0.4 N + 0.6N 0.8 N -0.2 N

same currents flow. Likewise, in the case of larger or smaller deviations from the nominal value of the attenuation of the individual transmission lines, the correspondingly larger or smaller current values must ^{flow in the relay windings 8 1} and 9 and become effective. This is achieved by the measurement level arriving at the contacts 1 "and 1" or 2 " and 2" etc. at different heights in the amplifier 4 in FIG. 1 by a certain amount, e.g. B. by +1 Neper, raised and then by means of an attenuator 6 or 5, which is assigned to each individual transmission line to be tested according to their nominal attenuation, are attenuated so that the level then still present z. B. always - 0.3 neper and in the rectifier circuit 7 and in the relay windings 8 ¹ and 9 It can be seen that the level at the relay windings at nominal attenuation - 0.3 neper, with 0.1 neper greater attenuation than the target value is - 0.4 neper and with damping 0.1 neper less than the target value - 0.2 neper. With all occurring nominal attenuation of transmission lines, the same level values can always be achieved at the relay windings.

The following describes the effects of the matched relays and the signaling achieved with them in the event of deviations explained by the nominal value of the attenuation of a transmission line. There must be three states in the Measuring device be possible, namely: 1. The attenuation of the line is equal to the nominal attenuation, in this case there is no signal; 2. The attenuation of the line is greater than the nominal attenuation, then the symbol »Attenuation larger * appear; 3. The attenuation of the line is less than the nominal attenuation, then appears the sign »attenuation smaller *.

These states 1 to 3 of the circuit with the position of the relay armature at the corresponding level values - 0.3 Neper, ^ - 0.4 Neper and> - 0.2 Neper am Relay circuits are shown in particular for state 1 in FIG. 2, for state 2 in FIG. 3 and for state 3 in Fig. 4.

The following is effective:

In Fig. 2 (nominal damping): Relay Pr with winding 8 ¹ .

In Fig. 3 (damping greater than nominal damping): Relay Pr with winding 8 ⁿ .

In Fig. 4 (damping less than nominal damping):

on the state. »Set attenuation available ff correspond to 70 relays Pr and PrI with winding 8 ¹ and 9.

The relay Pr and PrI are so dimensioned that in Example 1, the relay Pr with its winding 8 ¹ at a level value of - flips 0.3 Neper its armature 11, the contact 11 includes "and thus the winding 8 ⁿ of the relay Pr shorts (Fig. 2) In this case, no signal is triggered.

In case 2, the windings 8 ¹ and 9 of the relays Pr and PrI are not effective because the windings have a level of only -0.4 neper or less. This is the case when the attenuation of the line has become greater than the nominal attenuation. In this case, since the armature 11 remains in the central position, the winding 8 ^{11 is} not short-circuited and can now take effect via the closed contact f ¹ , as shown in FIG. 3. As a result, the armature 11 is placed on the right side against the contact 11 * and a circuit for the signal lamp 12 is closed. This gives the sign for "greater attenuation".

In case 3, the windings 8 ^r and 9 of the relays Pr and PrI both become effective at a level of -0.2 Neper or higher. This value of - 0.2 Neper or higher is available when the attenuation of the transmission line has become less than the nominal attenuation. When both relays Pr and PrI with their windings 8 ¹ and 9 are effective and their armature 11 and 14 to the left (Fig. 4) to contact 11 ^a or 14 °, two circuits are closed. The circuit for the signal lamp 13 is closed by armature 14 with contact 14 ^a and the sign "attenuation smaller" is given. The armature 11 short-circuits the winding 8 ⁿ via contact 11 ″, which consequently cannot take effect.

The level for triggering the signals with »Attenuation of the line equals nominal attenuation. < correspondingly - 0.3 neper, "attenuation of the line is greater" correspondingly <; - 0.4 Neper and »Attenuation of the line is smaller.? accordingly 5> - 0.2 neper must be used for all transmission lines with any desired attenuation and deviation in the same amount on the relay windings be.

The relay to the drawn contact f ¹ for the auxiliary circuit via winding 8 ¹¹ is not drawn in FIG. 1 and is located in a special automatic test device for the temporary connections of the individual transmission lines. This contact Z " ¹ closes shortly after the measurement level has arrived in order ^{to keep the winding 8 11} ready for switching, and remains closed until the measurement or checking of a transmission line is complete ^The armature 11 that is folded over ^{1 shorts the winding 8 11 of the Pr relay via contact 11 a} (as already described above), which consequently cannot take effect.

The gain value of +1.0 Neper assumed in the description for the amplifier 4 can also be set larger or smaller. Likewise, the currents in the relay windings 8 ¹ and 9 can be set correspondingly larger or smaller, depending on the type of relay and the most favorable resistances. The only decisive factor is to dimension the attenuators 5, 6 etc. in relation to the nominal attenuation of the transmission lines and to switch them on so that the same currents are always effective in the relay windings with the nominal attenuation or deviations therefrom.

Instead of optical display means, the monitoring relay can also be used with a display instrument Central position can be controlled. For the transmission of the measurement level (measurement tone) from the opposite office, the There existing call and signal machine with its frequency of 450 Hz or with frequency doubling used on 900 Hz.

This is described for the regular checking of a certain number of transmission lines Test device expediently built into a special automatic test device with a selector, which has a running Connection of the individual transmission lines makes at certain time intervals and through a Pulse device causes the automatic transmission of a certain measurement level from the opposite office.

Claims (3)

Patent claims: 1. Attenuation tester, which is used jointly for several transmission lines, characterized by the combination of the following features: a) The transmission lines to be tested are connected one after the other to the input of a common amplifier (4) via switching elements (I, II) of a selector; b) the measuring levels arriving from the individual transmission lines are raised in the amplifier by a fixed amount that remains the same for all lines; c) the raised output levels are fed to monitoring relays (Pr, PrI) via attenuators (5, 6) individually assigned to the individual transmission lines in such a way that the attenuator assigned to the respective transmission line connected via further switching elements (III, IV) of the selector connecting the transmission lines on the one hand the common amplifier (4), on the other hand to the common monitoring relays (Pr, PrI) , and the attenuation of the attenuators (5, 6) are in such a relationship to the nominal attenuation of the transmission lines to be tested that the preferably via a rectifier circuit ( 7) The output power occurring at the monitoring relays for line conditions corresponding to the nominal attenuation always has the same value and the relays trigger an audible or visible signal for every deviation of the line attenuation from the nominal value. 2. Damping tester according to claim I _1, characterized in that a display instrument with a central position or optical display means are controlled by the monitoring relay. 3. Damping tester according to claim 1 and 2, characterized in that for the broadcast of the Measurement level (measurement tone) from the opposite office the existing call and signal machine with its frequency of 450 Hz or by doubling the frequency to 900 Hz. Considered publications:
German Patent Nos. 671 500, 857 070;
Swiss Patent No. 169 871. 1 sheet of drawings © 709 549 / 2S3 6.57