DE2845394C2 - Remote feed switch - Google Patents

Description

The invention relates to a remote feed switch as used in telephony can if a battery has a signal line that is used at both high and low frequencies should be charged. This case lies}, for example before when in telephony an LF subscriber device and an HF subscriber device to a common Signal line are connected because the central office battery is just a device with power can supply.

In the article “Local-Battery Charging over Subscribers 'Lines "from Post Office Electrical Engineers' Journal, July 1973, Volume 66, No. 2, pages 73-76 describes how the power supply of a device by a local battery, which over the signal line from the exchange battery is charged, is ensured.

Fig. 3 on page 75 shows how the local battery of the subscriber device is connected to the office battery via the signal line. In the subscriber device, the local battery is connected to the signal line via a circuit arrangement which is essentially composed of a thyristor serving as a switch, a trigger circuit, a time delay element and a bridge rectifier. A switch each connects the terminals of the office battery to the two wires of the signal line, which is continuously checked by a monitoring device for its occupied status. As long as the signal line is free, the office battery and local battery are connected to the signal line via the two switches 6 ^r > in the exchange and the thyristor of the circuit arrangement in the subscriber unit, so that the charging current can flow from the office battery to the local battery via this line. If the signal line is to be used for speaking, the local and office batteries must be disconnected from it. If the monitoring device detects that the subscriber is calling or being called, the office battery is first disconnected from the signal line non-conductive state passes, as a result of which the local battery is now separated from the signal line.

At the end of the call, the monitoring device takes action again switching on the office battery to the signal line, via which initially the trigger circuit the circuit arrangement is connected to the office battery. The trigger circuit then gives a Voltage pulse to the control electrode of the thyristor, so that the thyristor ignites and the local battery can be recharged from the office battery via the signal line.

In addition, the circuit arrangement must have a sufficiently high impedance in the closed state so that alternating current signals, ζ. Β. the ringing signal, not by the local battery connected in parallel be short-circuited. Ais measure to increase the impedance is on page 76 of the cited document specified, an ohmic resistance and, if necessary, an inductance to the thyristor in series shuffle.

However, the circuit arrangement constructed in this way has two major disadvantages: The charging current depends on the loop resistance of the signal line and at low signal frequencies large and so that bulky and expensive inductors are used.

The object of the invention is therefore without a complex series connection of thyristor and inductance get along.

In the case of a remote feed switch of the type mentioned at the outset, this task is carried out in the identification section of claim 1 specified features solved.

The invention will now be explained in more detail using an exemplary embodiment which is shown in the figure. In the case of two mutually complementary transistors Ti and Γ2, the base of one transistor is connected to the collector of the other transistor. Two series-connected resistors R 1 and R 2 are between the emitter and the base of one transistor Ti. The collector of a third transistor TX, which is of the same conductivity as transistor T2 , leads to the base of this transistor Γ2, while the base of the third transistor 7 "3 is connected on the one hand via a resistor /? 4 to its emitter and on the other hand via a resistor A3 to the emitter of transistor T2 . From connection A of the remote feed switch, two parallel branches 1 and 2 lead to connection B. The resistor /? 2, the collector-emitter path of the transistor Γ2, the resistors R 3 and R 4 form one branch, the other branch consists of the resistor R 1, the emitter-collector path of the transistor Ti and the collector-emitter path of the transistor T3.

In the conductive state of the remote feed switch, the part of the entire circuit formed from resistors R 3 and R 4, transistors 72 and Γ3 keeps the current in branch 1 constant. This constant current forms a voltage standard for the resistor R 2

Constant current circuit, which consists of the resistor Ri and the transistor Ti and keeps the current in branch 2 constant. As a result, the remote feed switch behaves in the conductive state like a cor ^ tant current source of high impedance. The remote feed switch automatically switches from the conductive to the non-conductive state when the current flowing from terminal A to terminal B falls below a threshold value which is specified by the quotient of the base-emitter threshold voltage of transistor Ti and resistor R 2.

If the remote feed switch is to be turned on again, a current or voltage pulse at the base of the transistor TX turns the complementary one

Transistors TX and T2 reproduced Thyristortetrode ignited Now the FernspeiseschaJter again acts as a constant current source of high impedance by the one hand holding the resistors R 3 and R 4 together with the transistors Γ2 and TC the current in branch 1 is constant and the other by the Wide Scores R 1 and R 2 and through the transistor Ti for constant current in branch 2 is ensured.

The remote feed switch thus combines the typical properties of a switch with those of a switch Constant current source.

Because the remote feed switch works without inductances, it can easily be used as an integrated circuit realize.

1 sheet of drawings

Claims (3)

Patent claims: 1. Remote feed switch in series between one Local battery and a subscriber-side local battery connected via a signal line, which is closed at the office on the one hand by a voltage pulse on the signal line and on the other hand is opened by disconnecting the signal line, characterized in that the When closed, the remote feed switch controls the charging current flowing through it for the local battery regulates to a constant value. 2. Remote feed switch according to claim 1, characterized in that a first transistor (TX) and a transistor (T2) complementary to this is provided and in each case the base of one transistor is connected to the collector of the other transistor, that two resistors connected in series (R 1 and R 2) lie between the emitter and the base of the first transistor (Ti) and that the collector of a third transistor (T3), which has the same conductivity as the second transistor (Tl) , to the base of this transistor ( TI) , while the base of the third transistor (TZ) is connected to its emitter via a resistor (R 4) on the one hand and to the emitter of the second transistor (T2) via a resistor (R 3) on the other hand. 3. Remote feed switch according to claim 2, characterized in that the circuit in a jo integrated circuit is realized.