DE1284474B - Circuit arrangement for telecommunications, in particular telephone switching systems, for checking the switching status of a signaling device - Google Patents

Description

The invention relates to a circuit arrangement for telecommunications, in particular telephone switching systems for checking the switching status of a push-button signaling device connected to a transmission line, in which by means of switching contacts activated by pushbuttons between the cores of the transmission line, Different switching states can be identified by the resistances that are dependent on the current direction.

Such devices are used in automatic telephone systems, where subscribers with Push buttons provided on the telephone set can dial the numbers of other participants.

In the DC push-button selection process, occurs during each push-button actuation and also on reversal the polarity of the test potential applied in the switching system is a transitional phenomenon between the line state prevailing before the push-button was pressed or the polarity reversal and the new line state prevailing after the pushbutton has been actuated or ao the polarity reversal on. This transition phenomenon should be bridged in the switching system in a suitable manner so that the evaluation of the line status does not lead to error results. Afterward to the (first) interval, in which transitional phenomena a clear determination of the conduction state can enable the line status with certainty in a second interval to be determined. The test time required after each push-button operation or polarity reversal is made up of the sum of the first and the second interval. So that the evaluation the push-button signals is as fast as possible, it is the object of the invention, the second Reduce the interval to a large extent.

The invention is characterized in that the circuit arrangement has one for each current direction Contains a capacitor from the terminals of a resistor connected in series with a line core can be switched to the input circuit of a voltage measuring network.

It is useful to design the circuit arrangement so that the input circuit of the Voltage measuring network contains the series connection of a number of resistors through which the capacitor is discharged, and that the connection points between each two consecutive Resistors are each connected to one input of a flip-flop circuit.

The invention and its advantages are illustrated below with reference to the in the drawing Embodiment explained in more detail.

The drawing shows a telephone set A and a push-button signaling device accommodated therein, the output terminals 1, 2 of which are connected to the input terminals 3, 4 of a test device B via the wires of a transmission line L labeled L 1 and L 2. The telephone set contains the usual speech circuit with an earpiece 5, a transformer 6, a microphone 7 and a line simulation 8, and this speech circuit is, when the receiver has been lifted from the fork 9, via the fork contact 10, which is then closed, to the output terminals 1, 2 connected. In the rest position, the fork contact 11 connects an alternating current alarm clock 12 in series with a separating capacitor 13 with the output terminals 1 and 2, which connection is interrupted when the receiver is lifted from the cradle. On the telephone set, pushbuttons, not shown in the drawing, are attached, through which the oppositely polarized diodes 14 and 15 via a resistor 16 or 17 or a resistor 18, 19 or 20 and a switch contact 21 or 22 or 23 which can be switched on by pressing a button or 24 or 25 can be switched on between output terminals 1 and 2. When any key is pressed, one of the contacts 21, 22 and / or one of the contacts 23 to 25 is switched on, so that a total of eleven different combinations of closed contacts are possible, which can be used to identify the ten digits 0 to 9 and an additional criterion. The resistors 16 and 18 have, for. B. a value of 2200 ohms, and the resistors 17 and 19 have z. B. has a value of 7500 ohms, while the resistor 20 has the value zero and forms a short circuit via the switching contact 25 in the forward direction of the diode 15. Furthermore, when any pushbutton is pressed, the normally closed contact 26, which is mechanically connected to all pushbuttons, is opened, which interrupts the connection between the speech circuit and the output terminals 1 and 2 as long as the button is pressed.

As long as the subscriber does not wish to interrupt the connection with the test device B , the receiver is not placed on the fork 9 and the fork contact 10 remains closed. Before a pushbutton is pressed, there is a DC loop between the input terminals 3 and 4 of the test device B via the wires Ll and L2 and the speech circuit in the telephone, in which DC circuit the central battery connected between the input terminals 3 and 4 maintains a certain quiescent current. This current flows from earth through the resistors 27 and 28, the diode 29 and a winding 30 of a transformer 31 after the terminal 3 and after passing through the DC loop from the terminal 4 through the winding 32 of the transformer 31, the diode 33 and the Resistor 34 after the negative pole of the battery, the positive pole of which is grounded. In the following, the transformer 31 will be left out of consideration for the time being. The diodes 29 and 33 form a short circuit for the indicated current direction for the resistors 35 and 36 placed in parallel, and the telephone line is symmetrically loaded by the resistors 27 and 28 on the one hand and the resistor 34 on the other. The junction of the resistors 27 and 28 is connected to the base of a transistor 37 which has a common emitter resistor 38 with a transistor 39, the base voltage of the latter transistor being connected by the resistors connected between the junction of the collector resistors 41 and 40 of the transistor 37 and earth 43 and 44 is set. The transistor 39 also has a collector resistor 45, and both transistors 37 and 39 have a common collector resistor 42.

A practically constant current is fed to the transistors 37 and 39 via the emitter resistor 38. This current is distributed among the two transistors depending on the potential difference between the bases. The value of the po-

potential at the base to earth with a potential difference equal to zero is referred to below as the threshold value potential. The effect of the circuit formed by the transistors 37 and 39 is such that even with a small potential difference between the bases, the entire current flows through one transistor and no current flows through the other. In the rest position of the test device, the resistor 27 is traversed by such a quiescent current that the potential at the base of the transistor 37 is lower than the threshold value potential. In the rest position, the transistor 37 is conductive and the transistor 39 is blocked. Via the resistors 46 and 47, the collector of the transistor 39 controls the base of a driver transistor 48, the emitter voltage of which is set by means of the resistors 49 and 50, whereby the transistor 48 conducts current when the transistor 39 is not conductive, while it is blocked when the transistor 39 carries current. The collector current of the transistor 48 is partly fed via a diode 51 as reverse current to the base of the transistor 52, the collector circuit of which contains the winding of a relay U. The emitter voltage is set by means of resistors 53 and 54 and the base voltage is set by means of resistors 55 and 56 in such a way that the transistor is conductive when the reverse current is not present. Furthermore, part of the collector current of the transistor 48 is fed via a diode 57 as reverse current to the base of a transistor 58, the collector circuit of which contains the winding of a relay V. The emitter voltage is set by means of resistors 59 and 60 and the base voltage is set by means of resistors 61 and 62 in such a way that in the absence of the reverse current the transistor is current-carrying when the normally open contact w4 of the relay U included in the collector circuit is closed at the same time. Damping diodes 63 and 64 are connected in parallel to the windings of the relays U and V in order to avoid voltage peaks occurring during switch-off.

When one of the dialing keys of the telephone set A is pressed, the normally closed contact 26 opens, and a certain combination of the contacts 21 and 25 is closed. As long as the polarity of the voltage supplied to the wire Ll is not reversed, so that the voltage of the wire Ll is positive compared to that of the wire L2, the line current can only flow through the diode 14, since the diode 15 is blocked at this polarity of the line voltage. If the polarity of the line voltage is reversed, the line current can flow through the diode 15 while the diode 14 is blocked. The resistors 16 and 17 of 2200 and 7500 ohms respectively are greater than the resistance of the microphone circuit, and the line current decreases immediately after a key is pressed. As a result, the potential at the base of the transistor 37 exceeds the aforementioned threshold value potential, as a result of which the transistor 37 is blocked and the transistor 39 becomes conductive. Transistor 39 blocks transistor 48, and the blocking effect of transistor 48 on transistors 52 and 58 is then canceled. Of these transistors, only transistor 52 is temporarily conductive, and its collector current excites relay U. After pressing a button and before pulling on relay U , the value of the line current depends on the value of the resistor connected in series with diode 14 is. The line current through the input circuit of the test device B between the input terminals 3 and 4 can thus assume three different values, ie a minimum value equal to the leakage current when none of the contacts 21 and 22 is closed and when the resistance between the terminals 1 and 2 is infinite , a maximum value if the terminating resistance is equal to 2200 ohms (contact 21 is closed) and a

ίο Intermediate value if the terminating resistance is 7500 Ohm (contact 22 is closed). The line current flowing through the series connection of the resistors 27 and 28 charges the capacitor 65 connected in parallel with this series connection via the normally closed contacts u \ and vl, and the charge depends on the value of the line current. At the moment when the relay U picks up, the normally closed contact i / l interrupts the connection between the capacitor 65 and the series connection of the resistors 27 and 28. The capacitor is then isolated from the charging circuit and retains its charge until a later point in time. The time constant of the parallel circuit of capacitor 65 and resistors 27 and 28 is so small that the charge on capacitor 65 is practically proportional to the line current. At a later point in time, this charge is used to determine the value of the line current. At the same time, the relay V reverses the polarity of the line current, whereby the diode 4 is blocked and a line current can flow through the diode 15. In the input circuit of the test device B , the line current flows from earth via working contact u2, resistor 36 and winding 32 to terminal 4 and from terminal 3 via winding 30, resistor 35 and working contact wl to the negative pole of the central battery. After the polarity change, the diodes 29 and 33 are blocked and the telephone line is loaded symmetrically on one side by the resistor 35 and on the other side by the resistor 36. The normally open contact w3 connects the base of the transistor 37 to earth, so that the transistor 37 remains blocked during the time during which the relay U is picked up. The normally open contact 4 closes the collector circuit of the transistor 58, as a result of which the transistor 58, which is already unlocked when a key is pressed, carries a collector current which excites the relay V. The value of the line current after the polarity change depends on the value of the resistor connected in series with the diode 15. The line current flowing through the input circuit of the test device B can thus assume four different values, ie a minimum value which is equal to the leakage current, a maximum value when terminals 1 and 2 are short-circuited and two intermediate values when the terminating resistance is 7500 or 2200 ohms. The line current flowing through resistor 36 charges the capacitor 66 connected in parallel with this resistor via normally open contact h2 and normally closed contact v2. whose charge depends on the value of the line current. At the point in time when the relay V is picked up, the normally closed contact v2 interrupts the connection between the capacitor 66 and the resistor

36. The time constant of the parallel connection of the capacitor 66 and the resistor 36 is so small that that the voltage of the capacitor is practically proportional to the line current.

The test of the line current is terminated at the point at which the earthed side of the series connection is closer when the relay V is picked up, which is to switch the flip-flop circuit from during the result of the test in the condensate stable to the astable state required capacitors 65 and 66 is stored. The total test voltage of the capacitors 65, 66 is greater. On time is thus equal to the pick-up time U plus FIG. 5, such a discrimination between pick-up time V and thus becomes minimal. In practice, with the three or four different possible frames, this test time is 20 msec. After pressing a voltage value of the capacitors 65, 66 received that the selector keys and after the polarity change at the minimum value none of the flip-flops show the line is switched while pressing a key, while with the further, higher line current and the line voltage transition io Values of one, two or three flip-flops, phenomena that start at the moment of attraction with the flip-flops 79 and 81, and the relay U or the relay V for the most part must be terminated at the maximum value of the capacitor voltages, which can be achieved by a suitable choice of the pull-in voltage. all flip-flops are toggled. The chip times of the relays U and V can be effected. voltage of the capacitors 65, 66, the time constant of the charging circuit of the Kon- 15 agreed telephone line depending on the capacitors 65, 66 compared to the pick-up time between terminals 1 and 2 of the telephone relay U, V is small selected so that at the point in time ratest activated by a selector button resistance to the pulling of the relay U or V can assume three or four different values independent of the protrusion and thus the test result is still reliable from the length of the telephone drive is obtained. After the 20 line and the size of their branch resistance pulling the relay V , the capacitors 65 are dependent. Each of these voltage values is crossed and 66 is separated from the telephone line, so that depending on the connected Leidas behavior of the line current after the service a certain voltage interval, so that for pulling the relay V no more influence on the capacitors 65, 66 three or has four such chip test results. Before it is examined in which voltage intervals can be differentiated. The way the test result can be brought into a more processable discharge circuit of the capacitors 65, 66, it is first measured that, when the capacitor voltage determines which switching processes are after a certain voltage interval after tightening, that of the relay V is always continue to be carried out. The same flip-flops can be switched. The make contact v3 interrupts the collector circuit of the outputs 79 to 83 of the flip-flops 74 to 78 transistor 52, whereby the collector current stops flowing via connecting lines (not shown) and relay U can drop out, while the corresponding make contact v3 with the same reference numbers Inputs of the driver stages 84 to 88 drawn for relay V a hold circuit closes via a resistor 100 and the winding-connected. Includes a driving stage, as in development of the relay V in the collector circuit of the transit 35 84 is indicated, a transistor 89, whose base sistors 58. As already stated, disables the Arbeitskon- via the resistors 90 and 91 cyclically to the input üb the transistor 37, so that the transistor 39 of the stage is connected, and its collector remains switched on as long as the relay U is attracted, the diode 92 is common to all driver stages. As a result, the relay V remains while the output line 93 is connected, during the fall time of the relay U because of the collector current 40 collector also energized via a diode 94 with one of the transistor 58, regardless of whether the individual output 95 to 99 is connected. In pushbutton is already resolved or not. At the time of the astable state of a flip-flop circuit, the point at which the relay U drops, the output interrupts a negative potential, and the corresponding normally open contact «3, the connection between the basic driver stage, carries current. The outputs 95 of the transistor 37 and ground, and the line 45 to 99 of the driver stages are connected to inputs of a state of the transistor 37 is connected through the register not shown on the circuit, in which the connection point of the resistors 27 and 28 prevails through the Pushbuttons dialed digits saved seeing potential conditionally. When releasing the pressure will be.

button, this potential is lower than the threshold If at least one of the levels 84 to 88 current

value potential. As a result, the transistor 37 50 is conducting, the one between line 93 and earth is connected in front and the transistor 39 is blocked, where the series connection of the capacitor 101 and through the transistor 48 becomes conductive and the transistor 58 supplies a blocking current to the transistor 58 of a current limiting resistor and the Re-earth received in the line 93 and the current-carrying driver stage after the collector circuit of this transistor short-circuited. The capacitor 101 becomes as long as V drops. After the fall of the relay V remains ₅₅ long the relay V has not attracted the tester B in the rest position until it by resistance 103 and the normally closed contact is v5 negative again operated on-press a key on the. loaded. At the point in time when the relay V

The stored in the capacitors 65 and 66 pulls, the normally closed contact v5 interrupts the charging circuit, the result of the current test is processed as follows. and the normally open contact v5 closes a discharge circuit At the point in time when the relay V 60 for the capacitor 101 is picked up via the winding of a, the normally open contact v1 or v2 closes a discharge pulse relay /. If, however, a push button is selected for the capacitors 65, 66 on the series, then at the time the circuit of the resistors 67 to 69 and 70 to 73 relay V is at least one of the flip-flops 74 to earth. The connection points of two are switched on, since at least one of the consecutive resistances of each series switching clocks 21 to 25 is always connected to the input of a monostable toggle button while the printing is being pressed. As a result, at least one circuit 74 to 78 of a known type of driver stages 84 to 88 connected to it will conduct current, and the sen. To the extent that the input of the toggle switch capacitor 101 is via line 93 and the

7 8

The current-carrying driver stage is discharged so that the appearance cannot attract the receiving device and lais /. When using a dial, the register is only released after 6 seconds instead of a dial that is not shown, the interrupts after about 100 msec. In practice, this dial contact results in a direct current loop between the extension of the claimed time of the receiving the terminals 1 and 2 of the telephone set 5 device and the register as a disadvantage. One in a certain rhythm. At the beginning of each further disadvantage is that a subscriber who picks up the interruption, the test device B is made effective again within this period of 6 seconds, in the same way as when pressing up or releasing the fork, does not select a push button. During such an under-tone hears and with the same test device, the line current in the two currents remains tied, so that if the subscriber dials the minimum value despite directions, whereby at the time of the absence of a dial tone, the point when relay V is picked up, none of the toggle digits dialed again after 79 to 83 have already been switched. The relay / in dialed digits are recorded in the register, so the described discharge circuit of the capacitor that finally a wrong connection is established 101 picks up and closes via the normally open contact 15.

11 and the working contact v5 a holding circle for In practice the endeavor goes to the face itself. The relay V remains to be reduced as much as possible in the tightened total test time, while the DC loop still maintains a high level of operational reliability until the end of the interruption and then drops, which is also the case. In the described receiving device, the relay / drops out. The impulse relay / currency is thus 20, the operating times of the relays U and V a rend each interruption of the DC loop certain minimum subjected. After being attracted and by pressing a button (not shown) and after changing the polarity of the contact, the series of dialing pulses continues after a transition that is not shown in the register. The duration of the interruption current, which when the relay U or V of the DC loop is pulled in, will have to be largely ended by an excess of 25. The pick-up time of the bridging relay W is monitored, the function of the relay can therefore not be selected for a shorter period of time than the duration of the register and energized in a circuit.
in which the normally closed contact 12 of the pulse relay / the reception shown in the drawing is provided. The relay W drops by means of a par direction is provided with a blocking device, allel capacitor 104 with 30 connected to the winding, which eliminates the mentioned disadvantages of the delay described, and only when the receiving device remedies and which makes it possible to make break contact / 2 longer as a certain maximum in the receiving device quickly acting relay interruption time of z. B. 100 msec is open. to be used with very short tightening times under AufWif z. B. a subscriber during the electoral reservation a high operational reliability of the gang puts the receiver on the hook, 100 msec 35 receiving device falls. This blocking device later contains the relay W from, and this then releases a transformer 31 with the windings 30 and cooperating with the register, the receiving device 32, which in relation to the direction of the direction. Usually the register still contains windings of flowing line current in the same time circuit, which are wound the time between two senses. The magnetic effect monitors successively dialed digits. When 40 of the conduction current flowing through the winding 30. B. a participant after the choice of a digit with mes thus increases the magnetic effect of the choice of the next digit longer than z. B. through the winding 32 line current flowing. 6 see hesitates, responds to a timer which enables the receiving device and the register during a change in the line current. After the interruption of the connection on the part of 45, a voltage is induced in an output winding 105 provided on the transformer, which a subscriber who puts the receiver on the cradle, voltage on both sides through a rectifier switch results in the line current and in the line 106 is rectified , whose output equilibrium voltage of the test device B is a transient phenomenon lasting a long current as reverse current of the base of a transistor 107, which is partially supplied to it. This transistor has an emitter that is due to the fact that in the telephone set 50 resistance 108 is common with a transistor 109, which consists of the alternating current bell 12 and the isolating whose base voltage by means of the resistors 110 capacitor 13 between the and 111 between a connection point of the KoI output terminals 1 and 2 is switched. At lektoristores 113 with the collector of the Traneiner in practice examined test device of the sistor 107 and earth is set. Furthermore, the type in question has shown that due to 55 transistor 109 a collector resistor 114 and the closing of the fork contact 11, the Kippschal- a collector resistor 115 is switched together with the device 74, since at the time of the transistor 107. The transistors 107 and 109 when the relay U is picked up, the line current also has a common circuit that is the same as the transistor value, which is approximately equal to the value of the conductors 37 and 39. At the base 60, the transistor 107 is conductive, which consequently creates the situation that apparently base resistance 116, while the transistor 109 is a digit selected by means of a pushbutton, is sensibly blocked. Once at the base of the will catch. The pulse relay / thus does not pick up, transistor 107 a reverse current of sufficient strength and the bridging relay W does not drop out. occurs, it is switched to the blocking state, while the test device and the register become as a result, the transistor 109 becomes conductive. The base of this is only released after the timing circuit transistor 107 responds to an excessively high blocking potential to monitor the time interval between the selection by the series connection of a diode 117 and two digits. As a result of this transition a diode 118 is protected to earth. After this

Pressing a key after changing the polarity of the line voltage and after releasing a key and when a connection is interrupted by pressing the fork, a transition phenomenon occurs in the line current between the value of the line current at the relevant point in time and a new end value. During this change in current, the rectifier circuit 106 supplies a reverse current for the transistor 107, which is thus blocked while the transistor 109 is switched on. The collector current of transistor 109 partially flows through collector resistors 114 and 115, is fed to another part via diode 119 and the normally closed contact uS as reverse current to the base of transistor 52 and is further supplied via diode 120 as reverse current to the base of transistor 58 is supplied. This reverse current has the same effect as the reverse current which is supplied by the transistor 48 in the current-carrying state. Upon pressing a key, transistor 48 is turned off and transistor 52 is held in the blocked state by the collector current of transistor 109 until the transient phenomenon in the conduction current has largely disappeared. After the transition phenomenon has ended, the relay U is energized so that it can pick up. After being picked up, the relay U reverses the polarity of the line voltage and the normally open contact 4 closes the collector circuit of transistor 58, which is blocked by the collector current of transistor 109 until the transition phenomenon in the line current has ended. As a result of the opening of the contact uS in series with the diode 119 , it is prevented that the transistor 52 is blocked during the transition phenomenon and the relay U drops out again. Upon completion of the transient phenomenon, transistor 58 will conduct current while relay V is energized. After releasing the button, the relay V drops out again. As a result of the effect of the vl contact, the capacitor 65, which is charged when the vl contact is closed, can be discharged via the normally open contact vl and the series connection of the resistors 67 to 69 at a point in time at which the received digit is via the outputs 95 to 99 of the driver stages 84 to 88 is transferred to the register. To prevent this, after the button is released, the transistor 109 then conducts a holding current to the relay V via a diode 121 and the normally open contact v4. During the transition phenomenon the relay V remains in the attracted state, whereby the time of the release of the relay V is pushed out so far that the transmission of the received digit to the register is ended at this time.

After the connection is broken when the fork is depressed, a long transition phenomenon occurs in the conduction current, and transistor 52 is blocked by the collector current of transistor 109 during the transition phenomenon. As a result, the time at which the relay U is picked up is pushed out so far that the charge on the capacitor 65 has the minimum value at this time, so that after the relay V has picked up, none of the flip-flops can be switched.

This has the consequence that the relay I can pick up, similar to an interruption of the direct current loop by a dial contact. After the relay / has picked up for more than 100 msec, the bridging relay W drops out and the register and the test device are released, so that the time required by the register and the test device is minimal under these conditions, i.e. the subscriber receives a dial tone again, when he picks up the receiver again after 100 msec.

When using the locking device described, it is no longer necessary to select the response times of the relays U and V as a function of the expected duration of the transition phenomena, which depends on the connected transmission line. For the relays U and V , it is thus possible to select relays that act quickly and that have very short pick-up times, while still maintaining a high level of operational reliability when determining the value of the line current.

Claims (2)

Patent claims: 1. Circuit arrangement for telecommunications, in particular telephone switching systems for Checking the switching status of a push-button signaling device connected to a transmission line, in which by means of switching contacts activated by pushbuttons between the cores of the transmission line, different switching states are identified by the resistances depending on the current direction are, characterized in that the circuit arrangement for each current direction includes a capacitor connected by the terminals of one in series with a lead wire switched resistor can be switched to the input circuit of a voltage measuring network. 2. Circuit arrangement according to claim 1, characterized in that the input circuit of the Voltage measuring network contains the series connection of a number of resistors through which the capacitor is discharged, and that the connection points between each two consecutive Resistors are each connected to one input of a flip-flop circuit. 1 sheet of drawings