HU189056B - Subset with push button selection - Google Patents

Abstract

In a subscriber set for push-button dialling in which a first electronic switch (15) is connected upstream of the speech circuit (3) and a second electronic switch (16) is connected upstream of the dialling circuit (4) and in which, by means of a bridge rectifier (2), a switchover from dialling mode to speech mode which is independent of the respective polarity of the subscriber line (1) is enabled by a dialling circuit (4), the speech circuit is disposed upstream of the bridge rectifier rather than downstream as it had been previously to prevent a reduction in the power available for the speech mode and an inverting switching stage (7) is inserted between the dialling circuit (4) and the first electronic switch (15) which supplies the first electronic switch with each control voltage with both polarities. <IMAGE>

Description

In particular, the present invention relates to a multi-frequency subscriber device having push-button switching, wherein the switch is connected to the subscriber line during switching by means of an electronic switch such that the polarity-independent operation of the switching circuit and the switch is independent of the polarity. ensure.

Unlike older push-to-talk subscriber devices, where the dial circuit is connected in series with the speech circuit to the subscriber line, wherein the common key contacts of each of the dial buttons press the dial to lock the dial and lock the dial to the dial. it has the significant advantage that the common key contact of all push buttons of the selection circuit is switched off to switch the operation mode, which makes it possible to use a much cheaper and less susceptible so-called rubber or foil keypad.

A disadvantage of the previously described known subscriber devices, where the speech and switching circuits, together with their respective electronic switches, are behind the Grátz bridge, is that the Griitz bridge causes a significant voltage drop in the speech circuit, for example at 5 V supply voltage per bridge. It is of the order of 7 V and therefore the available speech power is significantly reduced.

The invention therefore seeks to solve the problem of providing the subscriber device described in the introduction such that the speech power is not reduced by the Grátz bridge, but additionally an electronic switch is provided to switch the operating states independently of the polarity of the subscriber line.

According to the invention, this object can be solved by connecting the speech circuit and the electronic switch, which can be made in series with the selection circuit, which can be made very selective by the selection circuit, irrespective of the polarity of the subscriber line. and a second electronic switch controlling said high resistance in said speech position, further comprising an inverter switching step between said selection circuit and said first electronic switch which directly or invertly select the control circuit voltage of said first electronic switch.

There are various ways of providing a first electronic switch which can be converted to a high resistance irrespective of the polarity of the subscriber line by direct and inverting control voltage, a preferred embodiment of which will be described in more detail in the following embodiment.

The invention will now be described with reference to the drawings.

These are the following;

Fig. 1 is a schematic diagram of a known subscriber device with push-button selection from which the invention begins;

Figure 2 is a schematic diagram of a subscriber device according to the invention;

Figures 3 and 4: The speech circuit! two preferred embodiments of a first electronic switch in series.

The embodiment of the push-to-talk subscriber device illustrated in Figure 1, which serves as a starting point for the present invention, is connected via the a and b-conductor lines of the subscriber line 1 to the Grid Bridge 2 which alternately supplies the speech circuit 3 or selector circuit 4. In the normal or speech state, the selection circuit 4 supplies control voltage to the electrical switch 5, which is in series with the speech circuit 3 and which is conductive in speech mode, while simultaneously providing a second electrical switch 6 connected in series with the selection circuit. In such a switching arrangement, the function of the Grátz bridge 2 is to ensure the correct operation of the selection circuit 4 and the electronic switches 5 and 6 it controls, independently of the polarity of the a and b wires of the subscriber line 1. As can be seen, however, in this connection, the speech stream flows through the Grátz bridge 2 to the speech circuit 3, which results in a significant reduction in the available speech power.

This disadvantage can be overcome by the switching arrangement according to the invention shown in Fig. 2, in which the speech circuit 3 and the associated first electronic switch 15 are connected to the subscriber line before the Grátz bridge, so that after the Grátz bridge 2 a selection circuit and a second electronic switch 6 associated therewith. As long as the selection circuit 4 and the associated second electronic switch 6 are provided with a polarity independent operation of the subscriber line 1 by means of the Grátz bridge, such switching units may have the same design as in FIG. The first electrical switch 15 connected in series with the speech circuit 3 must be modified and its control circuit must be supplemented by the inclusion of an inverter switching stage 7 which can directly and invert the control voltage of the selection circuit 4 to the first electrical switch 15. to perform its switching function independently of the polarity of the subscriber line.

Preferred embodiments of this electronic switch 15 and inverter switching stage 7 are shown in Figures 3 and 4. 3, the electronic switch 15 has two parallel branches 15A and 15B, preferably comprising a diode 16A and 16B, preferably a Schottky diode, and a transistor 17A and 17B, preferably a field-controlled transistor, such that: the two diodes 16A and 16B are oppositely polarized and the two transistors 17A and 17B are of opposite type. In the polarity depiction of diodes 16A and 166, transistor 17A is n-type and transistor 17B is p-type.

The inverter switching stage 7, for example, comprises, for example, a field-effect transistor 18, the input of which is connected to the control wire of the transistor 17A and the inverter output of the transistor 17B of the electronic switch 15.

For the sake of simplicity, the operation of the electronic switch 15 will be described with reference to control levels "0" and "1". In speech position, the control input "1" is located at the control input of the inverter switching stage 7. If subscriber line 1 is simultaneously

There is a negative voltage at -2189,056 b, so that the diode 16A and the transistor 17A are conducting, so the speech circuit 3 is connected to the subscriber line I, regardless of the operating state of the switch 15B. However, if there is a negative voltage at the a-terminal, then diode 16B and transistor 17B are conducting, and the speech circuit 3 is also connected to the subscriber line 1 at control level "1".

In the selection mode, the control level "0" is applied to the input of the inverter switching stage 7, whereby the electronic switch 15 becomes closed due to the application of a reverse control voltage to both branches 15A and 15B from the inverting switching stage 7 of the electronic switch 15. the speech circuits are disconnected.

The circuit of FIG. 4 differs from that of FIG. 3 only in the configuration of the electronic switch 15. As shown in Figure 4, two opposed conductor type field-effect transistors 19A and 19B are connected in series such that, as in Figure 3, the control wires are connected to the input or output of inverter switching stage 7.

In speech mode, the input level of the inverter switching stage 7 has a control level "1". If there is a negative voltage at the b-end of the subscriber line, space transistor 19B is conducting, and space transistor 19A, which would be closed for switching reasons, is short-circuited due to its intermittent labeled parasitic diode such that subscriber circuit 1 connected to a wire. In the event of a polarity change in the subscriber line, the space transistor 19A becomes a controlled conductor switch, while the space transistor 19B is short-circuited by its own parasitic diode so that the speech circuit 3 is reconnected to the subscriber line.

In selection mode, the inverter switching stage 7 receives the control level "0", which causes the field-effect transistors I0A and 19B to be closed and therefore the speech circuit 3 is disconnected from the subscriber line 1.

Preferably, Schottky diodes are used in the circuit of Figures 3 and 4 because of their low voltage drop, and field-effect transistors are advantageously used due to their low measurement power and high switching threshold.

Claims (3)

Claims I. A subscriber device with push-button selection, particularly in a multi-frequency method, wherein the switching circuit is connected to the subscriber unit instead of the speech circuit by means of an electronic switch such that the selection circuit and the electronic switch depend on the polarity of the subscriber line. Griitz circuit, characterized in that the speech circuit (3) and the first electronic switch (I5), which can be made high-resistance to the subscriber line (1), can be made in series with the selection circuit (4) independently of the polarity of the subscriber line. ) is connected in front of the Griitz bridge (2), and after the Griitz bridge (2) there is a selection circuit (4) in series and a second electronic switch (4) controlling it in the speech position, and table Between circuit 20 (4) and the first electronic switch (15), there is an inverting switching stage (7) which directly or inversely supplies the control voltage of the selection circuit (4) to the first electronic switch (15). The subscriber device according to claim 1, characterized in that the electronic switch (15) connected in series with the speech circuit (3) has a parallel branch (15A, 15B) of the hand in which a diode (Ι6Λ, I6B) is preferred. a cgy-cgy Scholtky diode gg and a transistor (17A, 17B), preferably one field-effect transistor, such that the two diodes (16A, 16B) are polarized and the two transistors (17A, 17B) are one p-type and the other n-type, furthermore, the control wire of one transistor (17A) is connected to the input of the inverting switching stage (7) and the control line of the other transistor (17B) is connected to the output of the inverting switching stage (7). The subscriber device of claim 1, further comprising 40, characterized in that the electronic switch (15) connected in series with the speech circuit (3) has two series-connected field-effect transistors (I9A, I9B) belonging to the opposite conductor type, and that the control line of one transistor (19B) is ), and the control wire of the other transistor (19A) is connected to the output of the inverting switching stage (7).