DE3042555C2 - Circuit arrangement for occupying and blocking switching devices for telephone switching systems - Google Patents

Description

55

The invention relates to a circuit arrangement of the type mentioned in the above / term of claim 1.

Such a circuit arrangement is known from DE-AS 25 12 661. There the Control device Switching indicator for switching from the low-resistance branch to the high-resistance one Branch released after either the occupancy of the selector output of the control device has been communicated and the test time has elapsed or the control device without an occupancy of a Voter exit has taken place, has received a blocking order from another party. The downshift is also from the high-resistance branch aijf the low-resistance branch is directly controlled by the control device.

This known circuit arrangement has the disadvantage that if a certain control device fails Unlocked voter outputs and the lines connected to them with their switching devices remain unspoken so that voters keep coming back to the Check unlocked lines even though their associated switching devices are inoperable; as a result, traffic directions may have been blocked.

On the other hand, it is known to automatically lock switching devices when the relevant one Control device have not emitted control signals within a predetermined long time. These The longest time specification is generated by clock counting or a monostable multivibrator based on this principle but have the following disadvantages:

Precautions must be taken to monitor the longest time specification functions, dif! a require increased effort. Furthermore, in those cases in which the control devices with microcomputers work and this the data exchange cycle with the switching devices as a result of prioritized computer tasks interrupt, all switching devices of the microcomputer control area are automatically blocked; one ongoing interrogation of the status of the automatic lock should be applied if one should not Accept traffic restrictions in an uncontrolled manner.

The object of the invention is therefore to provide a circuit arrangement as described in the preamble of claim 1 specified, in which the failure of a group-specific control device Caused blocking of traffic directions is prevented without having to set a long-term time limit associated disadvantages to have to accept.

This object is achieved by the features characterized in claim 1

As a result, the lock is effective on the one hand independently of the control device, and on the other hand remains the Maintain lock until a command to cancel the lock is received from the control device comes. It is therefore no longer possible to block traffic directions. If an error of a central nature occurs at the time when a switching device is in the idle state, the associated line Automatically locked after the first occupancy Another advantage is that it is occupied and immediately lines that have been triggered again in the absence of a control device command to cancel the block are not immediately are verifiable.

Expedient developments of the invention are specified in claims 2 and 3.

The invention will now be explained in more detail using an exemplary embodiment.

The circuit arrangement shown in the figure is a replica of the usual occupancy relay C with electronic means, which are supplemented by the switching means according to the invention. A switching device (not shown) is assigned to this circuit arrangement. In these switching devices it can be, for. B. to handein connection sets that can be internal connection sets, trunk transfers or line termination circuits of trunk lines. These connection sets belong to the switching devices required for each connection, i.e. devices which are individually assigned to a connection for the duration of its existence. the

Switching devices are several to one each Group summarized, which is assigned a common control device. In this embodiment the group-specific, not shown control device works with a microcomputer,

The circuit arrangement shown has its input connected to a test output of a selector, not shown. A test relay and an auxiliary test relay are connected in the usual way to the test unit of this selector. The oAder is divided into a low-resistance branch cn and a high-resistance branch ch

The low-resistance branch cn runs through an optocoupler OK, the collector-emitter path of an npn transistor 7 * 1 and a low-resistance resistor Wl, this resistor leading to a negative potential - i / of the operating voltage source

The high-resistance branch is routed via the collector-emitter path of a pnp transistor 7 * 3 and a high-resistance resistor W2 , this resistor being connected to the common connection point of the transistor 7 * 1 with the resistor Wl Way an overvoltage protection device can be connected upstream.

A pnp transistor 7 * 2 is cascaded with the transistor 7 * 1, while an npn transistor 7 * 4 is cascaded with the transistor 7 * 3. The transistors Ti to TA form an electronic changeover switch, the control input of this changeover switch being denoted by P.

The output of an operational amplifier OP is connected to the base of the transistor 7 * 2, that is to say to the input of the changeover switch part 7 * 1, T2. This has the task of limiting the current in the low-resistance branch to around 100 mA. A current detection circuit D is connected to the emitter of transistor 7 * 1, the output side of which is connected to a register B-REG and which is followed by a delay circuit VZ. The delay circuit. VZ is connected on the output side to control input P of the switch. The delay of the delay circuit VZ is 50 ms. The control input P is also connected via a decoupling diode D 1 to the base of the transistor 7 * 2 and to the set input S of a flip-flop circuit FF , the output Q of which is also connected to this base via a further decoupling diode D2. Furthermore, a register A-REG is connected to the reset input R of this flip-flop circuit and via a further decoupling diode D 3 to the base of the transistor T2 .

The registers A-REG and B-REG are assigned to the connection set and serve as a buffer memory for the Sigrialverkehr with the microcomputer. Register A-REG receives commands from the microcomputer, while register B-REG sends status messages to the microcomputer. Via the register B-REG the messages run so that, determined by means of the optocoupler OK, current flows through the low-resistance branch cn , that the switchover to the high-resistance branch ch has taken place and that, determined by the current detection circuit D, current flows over the c-core.

The following is the operation of the circuit arrangement described. The assignment is made via the c-core by the voter of the upstream exchange by applying earth potential. This ground potential arrives there via the two windings of the usual test relay to the c-wire As soon as a current of about 50 mA during a Duration of about 50 ms flows, the test relay responds, which then causes the selector to stop. The high-resistance winding of the test relay is then short-circuited in order to reduce the power loss and to block the electoral exit from being used by other voters.

When the circuit arrangement according to the invention can be occupied, the transistors 7 * 1 and 7 * 2 are conductive. However, a current does not flow in the low-resistance branch cn. The transistors 7 "3 and 7 * 4 are blocked, so that the high-resistance circuit ch is not switched through. so that a current through the optocoupler OK, the emitter-collector path of the transistor Ti and the resistor W \ flowing This S'r-om can address the selector silent releasing test relay, the optocoupler OK, and the current detection circuit D. After a delay time of 50 ms the occupancy ground signal reaches the control input P, on the one hand blocks the transistor Ti via the diode Dl and the transistor 7 * 2 and on the other hand controls the transistor 7 * 3 via the transistor 7 * 4 conductive taken place on the high-impedance circuit for blocking support. at the same time, the flip-flop circuit F F is set via the set input 5, so that the output Q of this flip-flop circuit also applies blocking potential to the base of the transistor T2 via the diode D 2. The light emission of the optocoupler OK also stops. As already mentioned, the output of the optocoupler OK is used for monitoring via the automatic switchover from the low-resistance to the high-resistance circuit. The current detection circuit D remains due to the voltage drop across the resistor Wl in the state indicating a current flow.

If the communication path caused by the upstream exchange (forward triggering), the ground potential of the c-wire off the current detection circuit Dnimmt again iiiren Anrangszustand is a, and the transistors T3, 7 "4 are again locked. The low impedance circuit cn remains on the Output Q of the flip-flop circuit FF is still blocked so that it cannot be assigned again.This command does not block transistor T2 and subsequently transistor 7 * 1 via diode D 3 until a command from the control device runs through register A-REG "Reverse lock on" is already available on the microcomputer to block free voter outputs against occupancy. If this command is omitted, transistors 7 * 1 and 7-2 are again conductive and the voter output can be occupied again .

By means of the switching elements D and VZ, the switching of the electronic switch to the locked state is controlled autonomously, i.e. independently of external devices, while the flip-flop circuit FF maintains this locked state after the connection path has been triggered until a lock release command has been received from the fire device.

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit arrangement for occupying and blocking switching devices connected to voter outputs such as connection sets or the like, which are combined into groups and controlled by group-specific control devices, with a low-resistance branch being applied to the voter test output and for blocking support after a specified test ι ο time Instead of the low-resistance .Stromzweigs a high-resistance branch is switched on and this switchover is carried out by means of an electronic switch and the cancellation of the lock is made dependent on the control device notified of the voter release, for telephone exchanges, characterized in that switching means (D, VZ) are provided which control the switchover to the blocking state autonomously and that a memory means (FF) connected to the electronic switch (TX to 7 "4) is provided, which after the switching device has been occupied by the switchover switch hold the changeover switch caused lock initially maintained independently of the voter release and only allows the cancellation of this lock on a command from the control device. 2. Circuit arrangement according to claim 1, wherein the low-resistance branch has a low-resistance, characterized in that the high-resistance branch (T3, W2) is passed through the resistor (W 1) that a current detection circuit (D) with its to the resistor Input is connected, the output state of the control device (B-REG / is reported, and that the current detection circuit is followed by a *. Delay circuit (VZ) with a delay period corresponding to the test phase, which is connected on the output side to the control input (P) of the electronic changeover switch (Ti to Γ4) is connected. 3. Circuit arrangement according to claim 1 or 2, characterized in that the storage means is designed as a flip-flop circuit (FF) which with its set input (S) to the control input (P) of the electronic switch, with its output when setting blocking potential to the input of the changeover switch part (Ti, Tl) in the low-resistance branch and with its reset input (R) to the control device (A-REG).