DE1057657B - Sequential dialing - Google Patents

Description

The invention relates to a circuit arrangement for selecting the first designated element or the first designated element group within a certain sequence of elements or Element groups.

Selecting in a particular order is a common process in self-connecting telephones, in part to identify certain items that come first in the order, e.g. B. ¹ for selecting a particular remote or connection line, to give preference, and partly in order to avoid a double selection, for example, if two calls occur simultaneously in a identifier. Typically, this type of selection is made using mechanical selectors or relay chains. With mechanical voters, choosing is slow. Relay chains have the disadvantage that they have a number of contacts connected in series, as a result of which the risk of failure as a result of contact errors is very high.

These disadvantages are avoided by the arrangement "according to the invention, which relates to a device around the first element within a predetermined sequence of elements or element groups in the sequence to select which marked by closing a contact belonging to the element and in which each element or each group of elements has a closed core made of magnetic. Material is allocated. The invention is characterized in that the belonging to each element Core is provided with a primary winding, consisting of two identical winding parts with a few turns each, which counteract each other when connected in series in the same circuit, the connection point between the winding parts of each primary winding so arranged is that it can be connected to a pole (minus) of a voltage source via the contact, which belongs to the element represented by the primary winding under consideration, and that the corresponding Primary windings of the various cores are connected in series, the beginning of the said Order corresponding to the end of the row SO 'arranged is that it is connected to a second pole (plus) of the voltage source, and that each Core is provided with at least one secondary winding, which is connected to display devices for the core is connected, and these Bezeichmingsvorrichtungen be actuated by a voltage pulse received across the secondary winding is when a circuit across a winding part of a primary winding of the core across the associated contact is closed if the to-follow-up dialing

Applicant:

Telefonaktiebolaget LM Ericsson,
Stockholm

Representative: Dr.-Ing. H. Ruschke, Berlin-Friedenau,

Lauterstr. 37 and Dipl.-Ing. K. Grentzenberg,

Munich 27, patent attorneys

Claimed priority:
Sweden, September 20, 1956

Nils Herbert Edström, Hagersten (Sweden),
has been named as the inventor

corresponding item is the first in the sequence to appear has been.

The arrangement according to the invention is also suitable for an identification device and for connection test circuits, Choice of other connecting lines etc. is suitable. In the latter case, the most common occupied trunk is assigned to the first core in the sequence, while the other trunk is assigned to the other cores in sequence will.

The invention is described in more detail with reference to the drawing. It shows

1 shows a selection circuit according to the invention,

FIG. 2 shows a modified form of the circuit according to FIG. 1,

3 shows an identification device which contains the selection circuit according to FIG. 1 or 2,

4 shows a further embodiment of an identification device according to the invention and

5 shows a modified embodiment of the arrangement according to Fig. 4.

In Fig. 1, C1, C2, Cn denote a number of ring-shaped cores, one being determined for each circuit to be selected. The cores are made of a suitable magnetic material, preferably with high permeability, e.g. B. made of ferrite. Each core can either consist of a completely closed ring or be composed of two C-shaped parts to facilitate the application of the windings. On the one hand, the cores are each equipped with one of several

90.9 527/106

3 4

Young existing secondary winding Sl, S 2, Sn the fact that a closed, two cores vermd on the other hand with a bifilar primary winding chain winding has been obtained, can be provided on-Pl, P2 ... Pn , which simply come from a single, if this closed turn consists of a Widerjen loop that stood in the center hole of the core in the size of 0.1 to 20 ohms. The greatest has been brought. The primary windings P1, P2, 5 must be part of the resistor in which the Pn are connected in series and the wire connecting the positive pole windings. In an Ausder voltage source in series with a contact 13 guide form, in which each primary winding had a .ind one of the capacitor 12 and the resistor in the size of 10 ohms, 11 existing parallel circuit could be connected. The practically no interference pulse at the secondary windings, center of each primary winding P 1, P2, Pn, is the cores following the core identified first via a contact kl, k2, kn, which can be observed. If the dialing device is individually assigned to the block circuit, so arranged, it would be switched if a remaining call can be closed as a result of it occurring on the negative pole of the voltage source on an erroneously closed contact. Each secondary winding 6 * 1, a contact 18 is provided, the upper 5 * 2, Sn is alternately connected to an individual designation device 15 and the lower end of the chain of behind one another, which has a discharge tube Gl, G2, Gn , connected primary windings with the Capacitor 12 connected to designate the circuit that connects
has been selected for operation. In Fig. 2, a circuit is shown in the

The device works in the following way: Mainly corresponds to the circuit of FIG. If a circuit is to be marked, the 20 is set up to connect the first unoccupied circuit associated with the contact, e.g. B. k2, closed. To select a current within a certain order, the circuit is then from + via the capacitor 12, the z. B. to select long-distance or connecting lines in self-primary winding Pl and the older half of the Wick connection long-distance traffic systems. The closed at lung P 2. The capacitor 12 is most stressed long-distance line is the first in the load, and a strong current pulse is obtained through the very 25 sequence while the other possible long-distance windings are low-resistive. If the power lines are one after the other. The berings around the core C 1 is not closed, there is no flow induced in set contacts of the various circuits, and therefore no isolating contacts, e.g. fell, £ 12, which are induced in parallel between voltage in the secondary winding 5 * 1. In the minus and the center tap of the corresponding winding P2 , the current only flows in the primary winding that is connected. The connecting upper winding half, and therefore a winding line which has at least one free line, that is to say winding turn around the core C 2, is closed. has closed at least one of the contacts, if the capacitor is charged, one is thus selected.

induced voltage pulse across the secondary winding In Fig. 2 the discharge tubes G 1 to Gn

lung 5 * 2 received. This pulse is sent to the igniter 35 by designation devices M1. .. Mn, each-

electrode of the discharge tube G2 applied, so that _W eils from a transistor23 and a relay R is

this is ignited. As a result of the voltage drop in stand, has been replaced. In the unactuated state

the resistor r _k becomes the potential of the conductor L2, the emitter of the transistor keeps a small negative

increased, which indicates that the voltage connected to the battery 29 to the bias

Contact £ 2 belonging circuit has been selected 40 voltage divider 24, 25. The collector of the trans-

that is. sistor is connected to the negative pole of battery 29

When one of the discharge tubes G 1 to Gn is connected to the winding 27 of the relay R. Which has been ignited, a voltage drop across the base electrode of the transistor is finally obtained at the other anode resistor 14, and the potential 17 positive battery pole in series with the winding 26 drops. The potential is thus also reduced at 45 of the relay R and the secondary winding of the associated tap of the voltage divider 15, 16, the core between them. The secondary winding can be seen parallel to point 17 and minus. The bias voltage of the ignition electrodes is switched from this rectifier 22, which is normally blocked. When an unoccupied remote or connector discharges discharge tubes G1 to Gn . As soon as the connection line is to be selected, the contact has ignited a discharge tube, this pre-50 20 sinks closed, whereby the voltage of the capacitor 12 is so low that no further discharge tube can ignite the upper winding section of the core. and thus represents that the first trunk line is free.

When the selection is made, the device will of course also flow through the two processing by interrupting the contact 13 - sections of primary windings that may be separated, as a result, the ignited discharge tube lies earlier in the sequence and is to be extinguished and the capacitor 12 is discharged. connected transmission lines, but does not induce any

If many of the contacts k 1 to kn simultaneously flow in the associated core. In the secondary winding closures, only one discharge, e.g. B. 5 * 1, the charge tube ignited to the first free trunk line. If the contacts kl and k2 belong, an induced voltage will be closed in reverse at the same time, a noticeable 60 flowing downwards of the rectifier 22 will be obtained, the current only through the upper half of the winding Pl. Greater than the negative bias on the emitter of course forming the lower Half of the winding Pl of the transistor 23 is. The transistor becomes conductive, and the upper half of the winding P2 is short-circuited and a voltage in the lower winding becomes closed, which induces the two cores C1 and the relay R in such a direction that C2 is concatenated. Due to the large spread of the inductive 65 a circuit through this winding, the rectifier adorned flux in the core C2, however, the voltage occurring at the 22, the resistor 24 and the emitter circuit of the Tran winding is negligible, so the transistor is closed, so that A further charging tube and the associated discharge tube G2 cannot be used to increase the current in the collector circuit, etc. Another diminution of the is called. A very short introducing current in a following core of induced flux as a result of 7 ° impulse through the winding 6 * 1 thus conducts a preliminary

5 6

input, which causes the relay R , its armature of the relatively large series resistor 31

to attract. The contacts 28 and 30 are small. The ignition path of the discharge tube A2

closed. The relay R is in a circuit, ignites, and if several discharge tubes ignite

which contains the contact 28, kept attracted, and should, their deletion is carried out by the common Designation voltage is on the conductor Ll 5 seed resistor 35. The discharge is on the

received via contact 30. Since only a very short main line is transmitted, which is a result of the large

and small current pulse for starting the working series resistor 33 is only a very limited one

Process is required, the capacitor 12 can conduct electricity. The voltage drop across the

be small, and the likelihood of double resistor 33 being used across capacitor 34 to make calls will be very low. The designation vor- io cathode of the discharge tube GA transferred to the

direction is ignited by opening the contact 21 and in turn the ignition of the discharge

separates, which causes the holding circuit of the relay winding 27 tube GN . The relay IR picks up, however

interrupts, so that the relay drops out. only when other possibly ignited

Fig. 3 shows an identifier that the tubes have been erased. When the discharge selection circuit contains according to the invention, where a 15 tube GiV "ignites, the bias of the ignition

by closing a contact k 11 to kmn connected electrodes of all discharge tubes A 1 to AN so

Call shown by marking two coordinates reduced so that no further tubes were ignited

naten m and η is identified. The circuit can be evacuated.

holds m magnetic cores approx to cm, each of which with. When the relay IR picks up, the anodes η primary windings P 11 to Pin ... PmI to Pmn 20 of the discharge tube A 1 to An is provided with the chip directly. The corresponding primary windings are connected to voltage source + Va , and a strong current-PIl, PYl ... Pin of the various cores are impulse is connected in series through the upper section of the winding opposite. The two co-ordinations P 12 obtained when the capacitor 12 is charged are thus obtained by determining. A voltage pulse is obtained between the ends, to which core and to which row of the 25 secondary winding Sa , and the designation of the consecutive windings the calling circuit ML is actuated and shows the w-coordinate contact. Connect each group one after the other. The relay R2 also picks up and shows the windings is with the cathode of a gas - the «coordinate. The identifier discharge tube Al, A 2. . . An is disconnected by opening the contact 39 via a parallel to where a capacitor 12 connected relays Rl, R 2 ... Rn 30 are extinguished by the discharge tubes A 1 to An. At rest, the cathode receives the and the label circuit is separated, positive potential over a relatively large In the embodiment described above are resistor 31. Each core Ca to Cm is provided with a core of soft magnetic material without ausSekundärwicklung Sm to a designator - Embossed saturation and remanence properties vernier device of the same type as in Fig. 1 35 has been applied, and therefore return the cores in their or 2 is connected. - original magnetic state after termination

The gas discharge tubes A1, ^ i 2 ... are back in the generation of the impulses. However, it is also designed in a possible design that has statistically distributed ignition lending, magnetic cores with pronounced remanence and delays. The anodes of the discharge tubes saturation properties (with rectangular hysteresis - Al to An are partly on a voltage curve) of the same kind to be used in the suction source ¹ + Va in series with a normally open called ferrite storage in electronic computing contact 32 of a relay IR, partially used on the anode machines. A circuit of this kind of a gas discharge tube GA in series with one shown in Fig. 4 which is a Identifiziereinrichgroßen resistor 33 and partially illustrated on denKonden- tion in which a magnetic core each at sator 34 to the cathode of the gas discharge tube GA 45, the identifying means connected element switched. The ignition electrodes from Al to An are assigned. The magnetic cores, which are denoted by FIl, via a resistor 35 to a tap of a P 12 ... Pmn , are connected as a fully voltage divider 36, 37, which is formed between the closed rings. The primary windings anode of the discharge tube GiV and minus are located. The FIl ... Pmn are through the cores in the same anode of the discharge tube Ga is directly and led in and out the way in and out, as in the earlier anode of the discharge tube GN is shown via a counter figure. The series-connected stand 38 is connected to a terminal of a normally closed contact 39, groups of primary windings P 11 to PmI, P12 , whose second contact 39 to Pm 2 ... Pin to Pmn are connected to the voltage source + Va via a corresponding terminal, conductors Al, A 2 ... One is at different taps. The cathode of the discharge tube GA is connected to 55 pulse distributor 45, e.g. B. a Fo-rt-Minus via a rectifier 40 and the winding switching chain of discharge tubes, which are connected by an Imdes relay IR , while the Zündelek- pulse source PG is driven via an electronic contact 44 trode connected to a fixed bias voltage + Vf , so that the taps of the impulse verist. The cathode of the discharge tube GN is directly dividered periodically with pulses, and connected to minus, while the ignition electrode is a wire χ 1 ... xm, which forms a secondary winding connection point between the anode of the det, is threaded through each horizontal row of cores . Rectifier 40 and one end of the relay winding each wire xl. . . xm is via a transformer IR . matoT T1 ... Tm with a designation element

The identifier operates in the following Ii 1 ... Mm, preferably as shown in Fig. 2: When a contact, e.g. £ 12, closed 65 type, is connected to the JF coordinate of a, minus is applied to the center tap of the The winding of the calling element is placed in the core formed by the P 12, which is used to denote the cathode potential of the discharged coordinate pattern. A wire ί charge tube A2 drops sharply. Some considerable- is still passed through all cores F 11 to -F mn , but a licher current pulse is in the secondary winding to indicate when the magnetic state of a Sa is not maintained, since the primary current is changed as a result of the 7c core. This wire ί is through one

Transformer Te to a marking device

43 connected, which is also designed in the type described in FIG. The designation device 43 is with an electronic contact

44 connected. The device operates in the following manner. It is believed that the cores are magnetized in one direction. The pulse generator PG feeds the pulse distributor 45, which is done, for example, by an incremental chain of discharge tubes via the normally closed electronic contact 44. The various outputs α 1, a2 . If one of the contacts k 11 to kmn, e.g. B. k Yl, is closed by a call, a current flows through the upper portion of the winding P Yl as soon as a pulse is received at the output a2 during the cycling. The current direction is such that a flux ao directed against the remanent flux is obtained in the core F 12, and the latter core is therefore magnetized in the other direction. The change in flux induces voltages in the wires xl and ί passing through the core F12 , and these voltages are supplied to the designation device M 1 and 43 after the transformation. The designation device 43 causes the electronic contact to be opened, and the supply of pulses to the pulse distributor 45 ceases. The pulse distributor is thus stopped in the position in which the magnetization of the core F 12 was changed. The element belonging to the core F 12 is now identified partly by the position of the pulse distributor and partly by the display of the designation device Ml . After a complete identification process, the identification device is separated for a new process, the marking device 43 being triggered and the electronic contact 44 being closed, causing the pulse distributor to start up again. The designation device M1 is also enabled. The core F 12 is returned to its original magnetization state by an extinguishing pulse which is pressed onto the conductor t by means of a polarity reversal contact 46.

A blocking function can easily be included in the identifier of FIG. 4 according to FIG. 5, which shows a core Fmn of the core matrix shown in FIG. Each core is provided with an individual quenching winding e , and the winding t running through all cores is only used to interrupt the pulse distribution during the identification process. When the identification is finished, the core remains magnetized in the second state as long as the element under consideration is occupied. Even if the contact Kmn should be closed, no new flux change will be obtained in the core Fmn when the pulse distributor starts up again, since the core is already magnetized in the second state. When the element under consideration is no longer occupied, a reset pulse is applied to the winding e of the associated core, so that the core is returned to the first magnetization state.

It is of course also possible to arrange special designation devices of the same type as ml ... mm for reading the second coordinate in the matrix instead of reading this coordinate in the distributor. This is done by the wire yn in FIG. 5, which corresponds to the wire xm for the second coordinate.

The invention is of course not limited to the embodiment shown, but rather can be modified within the scope of the invention.

Claims (10)

Patent claims: 1. Circuit arrangement for selecting a first element within a predetermined sequence of elements or element groups, which has been marked by closing a contact belonging to the element, in which each element or element group has a closed core (C 1, C 2, Cn) made of magnetic material, characterized in that the core belonging to each element is provided with a primary winding (Pl, P 2, Pn) consisting of two identical winding sections, which when connected in series in the same. Circuit act against each other, the connection point between the winding sections of each primary winding (Pl, P2, Pn) being arranged so that it is connected to a pole (minus) of a voltage source via the contact (k 1, k 2, kn) belonging to each element can be, and that the corresponding primary windings (Pl, P2, Pn; Pll, P21; Pll, P 22) are connected in series on the various cores, the end of the series corresponding to the beginning of this sequence being arranged so that it is connected to the second pole (plus) of the voltage source, and that each core is provided with at least one secondary winding (Sl, S2, Sn) which is attached to display or marking devices (G 1, G2, Gn; Ml, M2, Mn) , and these designating devices are actuated by a voltage pulse obtained at the ends of the secondary winding when a circuit is made through the one winding portion of a primary winding of the core is closed via the associated contact if the associated element is the first in the sequence that has been marked. 2. Circuit arrangement according to claim 1, characterized in that each primary winding (Pl, P2, Pn) and the associated connections have a resistance which is greater than 0.1 ohms. 3. Circuit arrangement according to claim 2, characterized in that each primary winding (Pl, P 2, Pn) and the associated connections have a resistance between I and 20 ohms. 4. Circuit arrangement according to claim 2 or 3, characterized in that the resistor is mainly focused on the connections. 5. Circuit arrangement according to one of the preceding claims, characterized in that the primary windings and their connections are made of resistance wires. 6. Circuit arrangement according to one of the preceding claims, characterized in that the display or designation devices (G 1, G 2, Gn) are arranged for the various cores so that a display device that has been actuated, the actuation of the in the order before Prevents lying display devices. 7. Circuit arrangement according to claim 1, characterized in that one pole (plus) of the Voltage source to the series-connected primary windings only for a short time of the selection process is turned on. 8. Circuit arrangement according to claim 7 with several separate ones. Groups of series-connected primary windings (JPIl, PnI; P12, Pn2; Pin, Pnn), characterized in that only one group is connected to said one pole at a time. 9. Circuit arrangement according to one of the preceding claims, characterized in that the magnetic cores (Cl, C 2, Cn) are made of soft magnetic material without pronounced remanence and saturation properties. 10. Circuit arrangement according to one of claims 1 to 8, characterized in that the Magnetic cores (Cl, C2, Cn) consist of a material with pronounced saturation and remanence properties (rectangular magnetization loop), and the magnetic state of the cores is changed by one saturation point compared to a normal saturation state when a current through a winding section of the primary winding is therefore ¹ closed because the associated element is the first element in the sequence, so that repeated closing of the current egg through this winding section does not cause a new selection as long as this opposite saturation state is present. Legacy Patents Considered:
German Patent No. 1 001 335. 1 sheet of drawings © 909 527/106 5.59