DE1762011B2 - Circuit arrangement for telecommunications, in particular telephone systems, for actuating switching means with the aid of the electrical energy stored in a capacitor - Google Patents

Description

The invention relates to a circuit arrangement for telecommunications, in particular telephone systems for actuation of switching means through the electrical energy that can be drawn from a charged capacitor. There are Arrangements known in which the discharge circuits in question under the switching influence of a Switching device are available, the control input of which is inserted into the charging circuit, preferably designed as a resistor that is permeable to the direction of the charging current connected is. Due to the potential difference occurring in the charging circuit at this resistor the switching device is blocked, after charging has taken place, this blocking and the potential difference do not occur, that occurs at this resistor and thus at the control path of the switching device, you change Sign. As a result, the switching device is controlled with low resistance and switches the actual one Discharge circuit in which the switching means to be operated is arranged.

Such an arrangement is always required, for example, when switching means is effectively influenced whose power requirement is greater than the power available at the point of use. This is for example in the operation of billing meters at subscriber stations of telephone systems or in the Influence of connection relays or connection selectors in selector star switches and company lines the case.

By DE-AS 12 49 94! is a circuit arrangement known, through which a switching means via the input impedance with a considerable Capacitance-affected line by a voltage source arranged at the location of this switching means as a function of effective from the switching state of a switch arranged at the output of the connecting line can be influenced. The respective switching means is connected to the discharge circuit via an electronic switch of a charged capacitor effectively switched on The discharge always starts when the Voltage compared to a charging voltage source

to the capacitor voltage reached is lowered or switched off. As an electronic switching device a transistor is used, in whose emitter circuit a threshold value diode is inserted. Between the one Connection point of this threshold value diode and the base of the transistor, a diode is switched on, which is from Charging current for said capacitor is claimed in the forward direction. Through the threshold value diode the described discharge process is only possible when the specified threshold is reached, d. H. if the said capacitor is due to the actuation of the at the line output arranged switch has charged to a correspondingly high voltage. A delayed response the switching means after switching off the supply voltage is not intended.

The invention has the object of providing a delayed activation of a switching means of the To allow initially mentioned type, this delay regardless of the type of switching means

should be achieved in. This is achieved in that the Time of sign change due to the discharge or charge reversal process of another capacitor it is determined that this capacitor is parallel to that of the one inserted in the charging circuit

j5 rectifier and one directional dependent Threshold value diode with a voltage threshold that is effective for the direction of the charging current is connected that the control input of said switching device at the connection point

4 (i of these two switching elements is connected and the both input terminals are connected to one another via an ohmic resistor.

According to the invention, the discharging or recharging process of the capacitor initially causes the controlling switching device blocked and the control voltage only when the sign change occurs Approved. In this way, a delayed switching on of switching means can then also be achieved, at which one with the usual means, e.g. B. Charging a capacitance in parallel with the control winding, tried Response delay causes difficulties.

In the drawing, an embodiment of the invention is shown, which is described in more detail below will:

5> The two capacitors CX and C2, of which CX has the larger capacity, are connected in series between the two input terminals a and b . Parallel to the capacitor C2 is the series connection of a Zener diode Z with the Zener

w) voltage Uz and the diode D. The connection point of these two switching elements leads to the base electrode of the npn transistor T, its emitter with the connection point of the two capacitors C1 and C2 and its collector via the one to be operated

h) switching means ReI is connected to the other assignment of the capacitor CX . Furthermore, an ohmic resistor R leads from the input terminal a to the input terminal b. When switch 5 is closed

the two capacitors Cl and C2 are charged in the following circuit:

The charging voltage of the capacitor C2 is limited by the Zener diode Z to its Zener voltage Uz , so that the capacitor C 1 is charged to the voltage U-Uz. As soon as the switch s is opened again after charging, a charge takes place between the two capacitors C 1 and C 2. The equalizing current

V R

CI

Cl \ Cl)

causes the voltage on the capacitor C 2 to change its value also in an exponentially running time function:

Uc 2 = Uz - U

Cl

Cl + Cl

(i -e

As long as this voltage, which is at the same time the potential difference across the blocking resistance of the Zener diode Z at the diode D and thus at the control path of the transistor Tan, has a positive sign, the transistor 7 "is spun after the time

t = ⁷ -

RClCl

In

Cl + Cl Cl - (Cl + Cl) UzIU

however, changes the sign of the potential difference, so that the control path of the transistor T in the circuit

+ C 1, R, Z base-emitter path (T), - C 1

Control current can flow. This creates the circuit

+ Cl, ReI, collector-emitter path (T) -CX
effective in that the switching means ReI is energized.

1 sheet of drawings

Claims (1)

Claim: Circuit arrangement for telecommunications, in particular telephone systems, for actuating switching means by the discharge current of an energy store designed as a capacitor and chargeable via two input terminals, the discharge circuit in question being able to be switched on by an electronic switching device, the control input of which is inserted into the charging circuit and for the direction of the Autladestrornes permeable rectifier is connected and which is blocked by the potential difference occurring on it during the charging process and is controlled in its conductive state when this potential difference changes its sign after the disconnection of the charging circuit, characterized in that the time of this sign change by the discharge or Charging process of a further capacitor (C2) is determined that this capacitor is parallel to that of the rectifier (D) inserted in the charging circuit and a direction-dependent rectifier n threshold value diode (Z) is connected with the voltage threshold that is effective for the direction of the charging current, that the control input of said switching device (T) is connected to the connection point of these two switching elements (D, Z) and the two input terminals (a, b) are connected via an ohmic resistance ^ are connected to each other.