DE3528260A1 - DEVICE FOR SUPPLYING AN AUXILIARY DEVICE CONNECTED IN AUTOMATIC TELEPHONE SYSTEMS TO A TELEPHONE CIRCUIT PARALLEL - Google Patents

Description

The invention relates to a device for dining a in automatic telephone systems to a telephone circuit parallel connected additional device according to the preamble of Claim 1.

Such a device is known from CH-PS 5 37 679. There for automatic telephone systems with prepayment of the long distance talks about a subscriber line to feed additional available energy is very limited the known device this electrical energy during the Breaks and during times of low power consumption in one Capacitor stored. The energy accumulated in this way is used for storage solution and thus the operation of a number of electromagnets are arranged in the additional device for the evaluation of prepaid Coins that usually consume a lot of electricity. The capacitor used requires one for such applications very large capacity in the order of 10,000 µF and is accordingly expensive, bulky and, because electrolytic, little reliable casual. In addition, its discharge time is limited, so that the Operating time of the electromagnet is limited. The additional device the telephone system is therefore subject to construction and work wise very strong restrictions. Also the replacement of the capacitor by an accumulator brings no improvement, because this one if expensive, unreliable and also constantly maintenance is in need.

The invention has for its object a device according to to implement the preamble of claim 1, which neither Accumulator still a large, expensive and unreliable Kon capacitor needed.

According to the invention, the stated object is achieved by means of of the specified features solved.  

An embodiment of the invention is shown in the drawing represents and is described in more detail below.

Show it:

Fig. 1 is a basic block diagram of a subscriber-side automatic telephone system and

Fig. 2 is a circuit diagram of a voltage multiplier.

The same reference numbers designate the same in all the figures of the drawing che parts.

The device illustrated in Fig. 1 consists of an auxiliary device 1, a Telephonschaltkreis 2 with an associated micro phon 3 and an associated receiver 4, a constant current source 5, a filter 6, a DC-DC converter 7, a memory means 8, a voltage regulator 9, a non-linear circuit element 10 , a control device 11 and a bridge rectifier 12 . The control device 11 is such. B. a microcomputer and the filter 6 z. B. an In ductor. The inductor is in turn z. B. a two-pole induction coil or built up with the help of active components, for. B. according to the circuit shown in Electronic components and materials, page R 15, Report No ETT 8303 from Philips. The DC converter 7 is z. B. a voltage multiplier.

A subscriber line a; b is connected to the AC connections of the bridge rectifier 12 . One of the two direct current connections of the bridge rectifier 12 is grounded, while its other direct current connection is connected to a line connection of the telephone circuit 2 , the second line connection of which is connected to ground. The telephone circuit 2 is a conventional telephone circuit known per se, the microphone input of which is connected to the output of the microphone 3 and the receiver output of which is connected to the input of the receiver 4 . The additional device 1 is connected in parallel in the automatic telephone system to the telephone circuit 2 , specifically via the filter 6 which is cascaded in the supply line to the additional device 1 and which is loaded with the non-linear circuit element 10 . If the filter 6 consists only of a two-pole induction coil, then the induction coil and the non-linear circuit element 10 are connected in series. In this case, the third pole of the filter 6 shown in FIG. 1 is missing. The constant current source 5 is connected in series with the telephone circuit 2 . The input of the filter 6 is connected via the constant current source 5 to the line connection of the telephone circuit 2 which is not connected to ground, so that the series circuit 5 ; 2 the additional device 1 is connected in parallel. The constant current source 5 is a capacitor 5 'connected in parallel. The loaded with the non-linear circuit element 10 output of the filter 6 is guided to the input of the DC-DC converter 7 , the output of which in turn is guided to a pole of the storage element 8 and to a separate first feed input c of the additional device 1 . The memory organ 8 is connected via the DC-DC converter 7 to the non-linear circuit element 10 in parallel, since one pole of the non-linear circuit element 10 and the second pole of the memory element 8 are connected to ground and the reference potential of the DC-DC converter 7 is also if the ground. The non-linear circuit element 10 is, for. B. a Zener diode and the storage element 8 z. B. a capacitor with a relatively small capacitance. The output of the filter 6 is also led to the input of the voltage regulator 9 , the output of which is in turn connected to a second feed input d of the additional device 1 and to the feed input of the control device 11 . The reference potential of the filter 6 , the voltage regulator 9 , the control device 11 and the additional device 1 is the mass.

As already mentioned, the additional device 1 in automatic telephone systems with prepayment contains at least one electromagnetic element and thus also at least one solenoid A ₁ , A ₂ ,. . . or A _n , whose first pole via a switch B ₁ , B _2,. . . or B _n with the first feed input c of the additional device 1 and its second pole via a further switch E ₁ , E _2,. . . or E _{n are} connected to the reference potential of the additional device 1 . The control outputs of the Steuerge device 11 are z. B. connected via a wire connection to the control inputs gene of the switches B ₁ to B _n and E ₁ to E _n . The switches B ₁ to B _n have e.g. B. one make contact and the other scarf ter E ₁ to E _n z. B. one opening contact each. All these contacts are simply drawn as relay contacts in FIG. 1. In practice, however, semiconductor switches are generally used. The first poles of the magnetic coils A ₁ to A _n are also each via a diode D ₁ , D ₂ ,. . . or D _n connected to the second feed input d of the additional device 1 . If the voltage regulator 9 has a positive output voltage, e.g. B. + 5 V, then all anodes of the diodes D ₁ to D _n are to be fed to the second feed input d of the additional device 1 .

In Fig. 1 is not located in mass DC-to-circuit of the bridge rectifier 12 is directly connected to the input of the filter 6 and the constant current source 5 is connected to the ungrounded line connecting the Telephonschaltkreises 2 so that the bridge rectifier 12 of the device 1 ; 2 ; 3 ; 4 ; 5 ; 6 ; 7 ; 8 ; 9 ; 10 ; 11 , ie the parallel connection of the telephone circuit 2 and the additional device 1 , is electrically connected upstream.

The voltage multiplier 7 shown in Fig. 2 consists of at least one oscillator 13 and a diode series connection of m equipotent diodes D ' ₁ to D' _m , the anode and cathode of two successive diodes not directly connected to each other by a capacitor C. ' ₁, C' ₂,. . . or C ' _{m -1} are connected to each other. A feed pole of the oscillator 13 forms the input pole and a pole of the diode series connection forms the output pole of the voltage multiplier 7 . The other feed pole of the oscillator 13 and the other pole of the diode series connection are at the reference potential of the voltage multiplier 7 . A Zener diode ZD is optionally connected in parallel with the diode series circuit. The output of the oscillator 13 is connected in the shortest way via a single diode D ' ₁ to the reference potential of the voltage multiplier 7 .

The telephone system shown in Fig. 1 is on the subscriber line a; b and the bridge rectifier 12 fed by a DC voltage. The use of the bridge rectifier 12 makes the telephone system independent of the polarity of this direct voltage since the output voltage of a bridge rectifier always has the same polarity. The presence of the filter 6 , which has a high AC input impedance, prevents the telephone AC currents from penetrating into the auxiliary device 1 and its assemblies 7 to 11 . The telephone alternating currents flow via the capacitor 5 'to the telephone circuit 2 . The polarity-independent, from the subscriber line a; b supplied at the output of the bridge rectifier 12 supply direct current I _L is divided into a direct current I ₁ , which feeds the telephone circuit 2 via the constant current source 5 , and a direct current I ₂ , the device 6 via the filter 6, the add-on 1 and its modules 7 to 11 feeds. The value of the direct current I _L is z. B. 16 mA and the values of the direct currents I ₁ and I ₂ are z. B. 8 mA each. The Zener diode used as the non-linear circuit element 10 takes on the additional current in the case of fluctuating load currents of the direct voltage converter 7 and the voltage regulator 9 , so that the value of the direct current I ₂ remains constant. The Zusatzge advises 1 has a power supply, which consists of the DC voltage ler 7 and the voltage regulator 9 , both of which are connected on the input side to the output of the filter 6 . A relatively high first DC voltage of e.g. B. 30 V is generated in the DC converter 7 and feeds the additional device 1 via its first feed input c . It represents the pull-in voltage of the electromagnets of the additional device 1. A low second DC voltage of, for. B. 5 V is generated in the voltage regulator 9 and feeds the additional device 1 via its second feed input d . It forms the holding voltage of the electromagnet of the additional device 1 . The DC-DC converter 7 and the voltage regulator 9 are in turn through the filter 6 through the line from the participant a; b fed DC voltage energy. The voltage regulator 9 also feeds the control unit 11 , which controls the additional device 1 and generally requires little energy. The switches B ₁ to B _{n of} the auxiliary device 1 are used to tighten and the switches E ₁ to E _{n are used} to drop the electromagnets contained in the auxiliary device 1 . The switches B ₁ to B _n are operated with short switch-on pulses. If a control output of the control unit 11 briefly applies a voltage to the control input of a switch B ₁ to B _n , the associated electromagnet picks up since one of the solenoids A ₁ to A _{n is} thereby briefly fed by the output voltage of the DC / DC converter 7 . After the end of the switch-on pulse, all switches B ₁ to B _{n are} opened again; despite this, the attracted electromagnets remain energized, since the output voltage of the voltage regulator 9 now supplies the holding currents of these electromagnets and via associated diodes D ₁ , D ₂ ,. . ., D _n the associated coils A ₁ , A ₂ ,. . ., A _n feeds this electromagnet. The diodes D ₁ , D ₂ ,. . ., D _n prevent a current flow from the output of the DC converter 7 to the output of the voltage regulator 9 when one or more switches B ₁ , B ₂ ,. . ., B _{n are} closed. The sum of the supply current of the control device 11 and the holding currents of the attracted electromagnets, that is, the output current of the voltage regulator 9 , is very low, so that this sum without further teres over the voltage regulator 9 from the subscriber line a; b can be delivered. A storage of the associated electrical power, z. B. in a very large and unreliable electrolytic capacitor at the output of the voltage regulator 9 is therefore not necessary. The tightening time of the electromagnets therefore no longer has a major influence on that of the subscriber line a; b delivered energy, so that the additional device 1 can be dimensioned relatively independently of the available feed power. The capacitor present as a storage element 8 at the output of the DC / DC converter 7 , on the other hand, can be kept very small and thus very inexpensive and very reliable, since it only has to supply relatively little energy in the form of short current peaks for a short time only when the electromagnets are being energized. The falling of the drawn electromagnets takes place with the help of the associated switch E ₁ , E ₂ ,. . ., E _n , which are also controlled by the control unit 11 .

The mode of operation of the circuit shown in FIG. 2 is known per se and is therefore not described in more detail.

Claims (11)

1. Device for feeding an additional device connected in parallel in an automatic telephone system to a telephone circuit by the subscriber line, with a filter in the supply line to the additional device in cascade and a storage device, characterized in that a supply device of the additional device ( 1 ) is present and contains a DC-DC converter ( 7 ) which is connected on the input side to the output of the filter ( 6 ) and the output of which is connected to a separate feed input (c) of the additional device ( 1 ) and to the storage device ( 8 ). 2. Device according to claim 1, characterized in that the supply device of the additional device ( 1 ) contains a voltage regulator ( 9 ), the input side with the output of the filter ( 6 ) and its output with a further feed input (d) of the additional device ( 1 ) and is connected to the feed input of a control device ( 11 ) controlling the additional device ( 1 ). 3. Device according to claim 2, characterized in that the control device ( 11 ) is a microcomputer. 4. Device according to one of claims 1 to 3, characterized in that the filter ( 6 ) is an inductor. 5. Device according to one of claims 1 to 4, characterized in that a constant current source ( 5 ) with the telephone circuit ( 2 ) is connected in series and that this series connection to the additional device ( 1 ) is connected in parallel. 6. Device according to one of claims 1 to 5, characterized in that the storage element ( 8 ) is a capacitor. 7. Device according to one of claims 1 to 6, characterized in that the DC-DC converter ( 7 ) is a voltage multiplier. 8. Device according to claim 7, characterized in that the voltage multiplier contains at least one oscillator ( 13 ) and a diode series circuit of the same polarity diodes (D ' ₁, D' ₂,..., D ' _m ) , which are not directly with each other connected anode and cathode of two successive diodes are connected to each other by a capacitor (C ' ₁, C' ₂,..., C ' _{m- 1} ). 9. Device according to one of claims 1 to 8, characterized in that the additional device ( 1 ) contains at least one magnetic coil ( A ₁ , A ₂ ,..., A _n ) , the first pole of which with the two feed inputs (c, d) and their second pole are connected to the reference potential of each of the additional devices ( 1 ). 10. The device according to claim 9, characterized in that the first pole of the magnetic coil ( A ₁ , A ₂ ,..., A _n ) via a switch ( B ₁ , B ₂ ,..., B _n ) with one Feed input (c) and via a diode ( D ₁ , D ₂ ,..., D _n ) with the other feed input (d) and that the second pole of the solenoid ( A ₁ , A ₂ ,..., A _n ) are connected to the reference potential of each additional device ( 1 ) via a further switch ( E ₁ , E ₂ ,..., E _n ) . 11. Device according to one of claims 1 to 10, characterized in that the parallel connection of the telephone circuit ( 2 ) and the additional device ( 1 ) a bridge rectifier ( 12 ) is switched on.