CH586493A5 - Telephone subscribers appts. with push:button set - has converter for dialling code pulses energised by charged capacitor - Google Patents

Abstract

When not in use the capacitor (C3) of the subscriber's appts. is charged via the high value resistor (R2). This ensures that, when the handset is lifted, a working voltage is available for the converter (US). The latter (US) is coupled to the capacitor (C3) via the cradle contacts (GU2). This connecting of the working voltage also operates the dial pulse relay (US1) which closes its contact (USi). As soon as the subscriber begins to top out the called party's number on the push-button set (T) the click suppressor relay (USA) operates to close its contact (usa). The converter (US) is switched to the external line without high resistance for the sending of normal d.c. dialling code to the exchange.

Description

  

  
 



   The invention relates to a circuit arrangement for a telephone set with a set of dialing keys, with a converter for converting the keyed-in Wählzif- fern into associated dialing pulse rows and with a series connection between the line connection terminals of a hook switch contact, a dialing pulse contact controlled by the converter and a listening and speaking circuit that uses a hearing protection contact of a hearing protection relay controlled accordingly by the converter can be short-circuited only for the duration of the transmission of each dial pulse series.



   Such a circuit arrangement has already been proposed. It allows subscribers, whose telephone connections are set up for dialing a number switch, without the number switch and the annoying opening of this number switch. You want to give these subscribers the opportunity to use a keyboard. For this purpose, a device is required, called converter in the following, which receives the characters entered with keys, stores them and sends them to the exchange in the form of dialing pulse series. The converter has relays, the contacts of which simulate the NSI and NSA contacts known from the number switch. The corresponding contacts of the relays are referred to below as dial pulse contact and hearing protection contact.



   A problem for such a telephone set is the direct current supply of the converter and these relays. It is possible to obtain the operating voltage required for this from the public network. However, the connection with this public network is usually cumbersome, and the components required to obtain the operating voltage make the telephone heavy and unwieldy. Another deficiency is that the telephone set is no longer ready to dial in the event of a power failure.



   It is also possible to provide a battery for the direct current supply, which is buffered either from the public network or from the telephone exchange via the subscriber line. However, using a battery has the disadvantage that maintenance is required. Furthermore, the service life of a battery is not long, so that it has to be replaced at certain intervals. This makes this type of power supply relatively expensive.



   It is already known to use a capacitor as a local energy source for the direct current supply of amplifiers in telephone sets, which capacitor is charged via the subscriber line. The invention is concerned with such a type of DC power supply.



  There are basically two ways of supplying the converter with power from the subscriber line. One way is to connect the listening and speaking circuit of the telephone set with the converter in series to the telephone connection line, the local energy source being parallel to the converter. This species is known. However, it has the serious disadvantage that in addition to the voltage drop at the hearing and speaking circuit, there is also the voltage drop at the converter, which results in a considerable reduction in range. This reduction in range can be avoided by using the fundamental second type of direct current supply, in which the hearing and speech circuit and the converter are operated via the subscriber line.



   The invention has set itself the task of specifying a circuit arrangement for a telephone set of the type mentioned, in which this parallel operation with respect to the direct current supply is possible with simple means and with optimal adaptation to the given operating conditions.

  This is achieved according to the invention in that a) the idle side of a changeover contact bridged by a capacitor is inserted into the connection between the dial pulse contact and the hearing and speech circuit, the movable spring of which is connected to the pulse contact and which is controlled by a changeover relay controlled by the converter is controlled, b) an inductance and a further capacitor can be connected in series to the connection line via the working side of the changeover contact, c) the series connection of the working side of the changeover contact and inductance is bridged by a first resistor of such a dimension that it controls the hearing and speaking circuit practically not attenuated, d) the series connection of hook switch contact, dialing pulse contact, changeover contact and inductance is bridged by a second resistor of the same rating,

   that the connection line current flowing through it remains below the limit admissible for the discharge current of the connection line, e) the converter is connected to the further capacitor via another hook switch contact and fl the switching relay depending on the control of the hearing protection relay in its operating state characterized by the closed state of the hearing protection contact in the first operating state characterized by the closed state of the working side of his changeover contact and after exceeding a duration of at least the transmission time for the longest dial pulse series and the longest intermediate dialing time between two dial pulse series in the second operating state characterized by the closed state of the idle side of his changeover contact is controllable.



   In order to avoid a back discharge of the further capacitor over parts of the charging path and the hearing and speaking circuit, it is proposed according to a further embodiment to separate the common connection of the two resistors, the inductance, the further capacitor and the further hook switch contact in such a way that on the two resistors and the inductance are connected to a first point and the capacitor and the hook switch contact are connected to a second point, and a diode to be inserted between these points in such a way that it is permeable to the charging current of this capacitor.



   According to a further embodiment of the invention, a zener diode is inserted between the first point and the connection of the further capacitor facing away from the second point in such a way that it can be operated in the zener range. This limits the charging voltage of the additional capacitor and protects the converter against voltages on the connection line.

 

   Another embodiment of the invention is characterized in that a further Zener diode is arranged in series with the hearing and speaking circuit in such a way that it can be operated in the Zener area. Even with long connecting cables, this ensures that there is sufficient voltage on the additional capacitor to supply the converter with direct current.



   The invention will now be explained using an exemplary embodiment. Show it:
Fig. 1 shows a circuit arrangement for a telephone set with a dial set and a converter and
2 shows a flowchart for the processes from lifting the handset to the start of the conversation.



   In Fig. 1, a series circuit of the idle side of a hook switch contact GUl, an alarm clock W and a capacitor C2 is connected between a line connection terminal a and a line connection terminal b, the movable spring of the hook switch contact GUl being connected to the line connection terminal a. A series circuit comprising the working side of the hook switch contact GU1, a dial pulse contact usi, the quiescent side of a switchover contact usu, a listening and speaking circuit HS and a Zener diode D3 is also arranged between these line connection terminals.



  A capacitor C1 is connected in parallel to the rest side of the changeover contact usu. Furthermore, the series connection of the hearing and speaking circuit HS and the Zener diode D3 has a hearing protection contact usa designed as a working contact in parallel. The listening and speaking circuit HS contains, in a manner not shown, the microphone, the receiver, the speech transmitter and the simulation. The zener diode D3 is connected in such a way that it can be operated in the zener range and has a low zener voltage, for example 2.7 V.



   The working spring of the changeover contact usu is connected to a point P1 via an inductance L without any significant ohmic resistance. The series circuit consisting of the working side of the changeover contact usu and the inductance L is bridged by a resistor R1, which is dimensioned such that it only slightly attenuates the hearing and speaking circuit HS, as will be explained later. Between the line connection terminal a and the point P1 there is also a second resistor R2, which thus bridges the series connection of the hook switch contact GUl, the dial pulse contact usi, the switchover contact usu and the inductance L.

  This resistor R2 is dimensioned in such a way that the connection line current flowing through it remains below the limit permissible for the discharge current of the connection line.



   A Zener diode D2 on the one hand and a series circuit of a diode D1 and a capacitor C3 on the other hand are connected between point P1 and line connection terminal b. The zener diode D2 is directed so that it can be operated in the zener range and has, for example, a zener voltage of 6.5 V. The diode D1 is directed such that it is permeable to the charging current of the capacitor C3. A converter US is connected to the connection points P2, b of the capacitor C3 via a further hook switch contact GU2. This further fork switch contact is designed as a working contact. The telephone set also has a keypad T which is in communication with the converter US.

  By means of this keypad, the individual dialing code characters are sent to the converter US, in which they are stored in a manner not shown and converted into successive series of dialing pulses. Three relays are controlled in the converter US, which are preferably designed as bistable relays. A dial pulse relay USI controls the dial pulse contact usi, while a hearing protection relay USA controls the hearing protection contact usa. Furthermore, a changeover relay USU is provided which controls the changeover contact usu.



   The operation of the circuit arrangement described above is explained below.



   When the telephone set is idle, the capacitor C3 is charged via the relatively high-resistance resistor R2 (about 100 kΩ), so that the operating voltage for the converter US is available when the handset is picked up. When the handset is picked up, the hook switch contact GU2 is also closed and the converter US is thus connected to the charged capacitor C3. When the operating voltage is applied to the converter US, the dial pulse relay USI is put into the operating state in which its dial pulse contact usi is closed, in a manner not shown.



   It must be expected that the participant will not start dialing immediately. In this phase t-to (Fig. 2) the converter US requires a quiescent current (of about 3 mA), which can be provided by the telephone exchange via the connecting line and the relatively low resistance R1 (about 1 kΩ). The converter US is also supplied with direct current via the resistor R1 if longer key-in pauses occur between two dialing digits. In the phase mentioned, the telephone set is ready to listen through the following current branch: a, GU1, usi, usu, HS, D3, b.



   As soon as the dialing process, i. H. when keying is started, the hearing protection relay USA is controlled in such a way that its hearing protection contact usa is closed. At this point in time, the capacitor C3 cannot discharge via the path R1, usu, usa because of the reverse-biased diode D1. The dialing information entered via the keypad T is converted into direct current dialing pulse series starting at time ti. Depending on the control of the hearing protection relay USA in the operating state characterized by the closed state of the hearing protection contact usa, the changeover relay USU is controlled in such a way that the working side of its changeover contact usu is closed. As a result, the converter US is connected to the connection line without the interposition of significant ohmic resistors.

  A relatively high direct current is thus available from the telephone exchange, so that the buffering function of the capacitor C3 can be limited to the time segments in which the pulse contact usi is open. When the converter US is supplied with direct current via the inductance L, the operating voltage for the converter is limited by the Zener diode D2, so that the range is no longer fully restricted. After the transmission of the first series of dialing pulses, in which the dialing pulse contact usi alternately opens and closes, it must be ensured that the partially discharged capacitor C3 is fully charged again in order to provide the converter US with enough energy to send out the next series of dialing pulses (in the worst case a 0) to be able to supply.

  For this purpose, the switchover relay USU has a drop-out delay, which can be done with an electronic delay device. The duration of the delay includes at least the transmission time for the longest dial pulse series (0) and the longest intermediate dialing time between two dial pulse series. For example, a transmission time for dialing pulse series 0 of about one second is required, while the intermediate dialing time is also about one second, so that the duration of the delay can be about two seconds. It should be remembered that the changeover relay is always controlled in the first operating state identified by the closed state of the working side of its changeover contact usu when the hearing protection relay USA is controlled in its operational state identified by the closed state of the hearing protection contact usa.

  If dialing is made quickly, only the intermediate dialing time is available for charging the capacitor C3, and the USU changeover relay only switches to the closed state of the idle side after the last series of dialing pulses have been transmitted and after the intermediate dialing time (one second) has elapsed Changeover contact usu marked, controlled second operating state.



   The hearing protection relay USA is only controlled in its operating state, which is indicated by the closed state of the hearing protection contact usa, when a series of dialing pulses is being transmitted.



   The hearing protection contact usa is therefore after the transmission of each dial pulse series, i. H. opens again at time t2. From this point onwards, the telephone set is constantly ready to listen because the listening and speaking circuit HS is coupled to the connection line via the capacitor C1. At this point in time t2, the inductance L also prevents the hearing currents from being diverted via the circuit located between the points P1, b. The readiness to speak is only established at time t3 after the free selection time has ended, and thus the idle side of the changeover contact usu is closed again.

  The existing alternating current shunt to the hearing and speech circuit HS, which is formed by the resistor Rl and the circuit located between the points Pl, b, is portable in terms of transmission technology.

 

Claims (1)

PATENT CLAIM Circuit arrangement for a telephone set with a dial set, with a converter for converting the keyed-in dialing digits into assigned dialing pulse rows and with a series connection between the line connection terminals consisting of a hook switch contact, a dialing pulse contact controlled by the converter and a listening and speaking circuit that is only used for the Duration of the transmission of each dial pulse series, closed hearing protection contact of a hearing protection relay appropriately controlled by the converter, can be short-circuited, characterized in that a) the connection between the dialing pulse contact (usi) and the hearing and speaking circuit (HS) is the idle side of a changeover contact bridged by a capacitor (Cl) (usu) is inserted, whose movable spring is connected to the dial pulse contact and which is controlled by a changeover relay (USU) controlled by the converter (US), b) an inductance (L) and another capacitor (C3) in series via the working side of the changeover contact (usu) the connection line (a, b) can be switched, c) the series connection of the working side of the changeover contact and the inductance can be bridged by a first resistor (Rl) such that it practically does not attenuate the hearing and speech circuit, d) the series connection of the hook switch contact, Selector pulse contact, changeover contact and inductance is bridged by a second resistor (R2) such that the connection line current flowing through it remains below the limit permissible for the discharge current of the connection line, e) the converter (US) is connected to the further capacitor (C3) via a further fork changeover switch (GU2) and f) the changeover relay (USU) is dependent on the control of the hearing protection relay (USA) in its operating state characterized by the closed state of the hearing protection contact in the first operating state characterized by the closed state of the working side of its changeover contact and after exceeding a duration of at least the transmission time for the longest dial pulse series and the longest intermediate dialing time between two dial pulse series in the second operating state characterized by the closed state of the idle side of its changeover contact is controllable. SUBCLAIMS 1. Arrangement according to claim, characterized in that the common connection of the two resistors, the inductance, the further capacitor and the further hook switch contact is separated in such a way that at a first point (P1) the two resistors and the inductance and at one second point (P2) the capacitor and the hook switch contact are connected, and that a diode (D1) is inserted between these points in such a way that it is permeable to the charging current of this capacitor. 2. Arrangement according to FZatentansprucn or dependent claim 1, characterized in that a Zener diode (D2) is inserted between the first point (P1) and the terminal (b) of the further capacitor (C3) facing away from the second point in such a way that it works in the Zener range . 3. Arrangement according to claim, characterized in that a further Zener diode (D3) is arranged in series with the hearing and speaking circuit (HS) in such a way that it works in the Zener range.