DE1227070B - Circuit arrangement for almost uninterrupted switching between two mutually interchangeable devices in electrical communications engineering - Google Patents

Description

Circuit arrangement for almost uninterrupted switching between two interchangeable devices in electrical communications engineering For reasons operational safety is ensured in telecommunications systems, in particular in the case of carrier frequency devices, A replacement device of the same type is provided for each operating device, which in the event of failure of the operating device can take its place almost without interruption. It is known, such almost uninterrupted switchovers by means of particularly fast working switch, d. H. fast-working relays or electronic switching devices to effect.

In the previously known circuit arrangements of this type, the actual switching device represents an additional device unit which is connected via the rack wiring to the two mutually interchangeable device units (carrier current amplifiers V 1 and V2). With this known type of division of the devices, it is possible to replace the device units with one another almost without interruption, but it is not easily possible to replace a possibly disturbed or inoperable switching device with another without interrupting operation ( Fig. B. 1).

So far, the switching devices were for this purpose by means of plug connections Bypassed via loose cables or additional auxiliary relays in the rack wiring, so that the switching device could be replaced. These procedures mentioned but have the disadvantage of increased effort and the possibility of operating errors, Defective cable at the plug connections or the non-replaceability of the auxiliary relay.

The above-mentioned object is achieved by means of a circuit arrangement achieved in which the switching device does not consist of an independent unit exists, but is divided into two similar assemblies, which are in opposition to each other exchangeable device units (carrier current amplifiers V 1 or V2) arranged are.

F i g. 1 shows the block diagram of a known switchover device in which the carrier amplifiers V 1 or V 2 and the substitute switchover U are each accommodated in separate plug-in units which are connected to one another via the rack wiring; F i g. 2 shows the block diagram of such a switchover device, in which it is ensured by electronic circuit measures in a known manner that only one of the two switches S1 or S2 is closed; F i g. 3 shows the circuit diagram of an exemplary embodiment of the inventive concept.

The transistors T 1 and T 2 form with the relays Rs 1 and Rs 2 and the resistors R 1, R2, R3, R4, R 5 and R 6 a flip-flop circuit, which is controlled by the control lines SL 1 and SL 2 from the amplifiers V 1 and V 2 is controlled. EL 1 and EL2 represent the respective equivalent load. E1 and E2 are the inputs of the amplifiers, and A is the common output.

The flip-flop circuit causes either Rsl or Rs2 to respond in a known manner. One or the other amplifier is switched on as an "operating device" by means of switches S1 and S2, and positive potential is brought to the base of the respective transistor via R9 or R10. For example If, for example, amplifier 2 fails, the operationally positive voltage applied to control line SL 2 fails, and the associated transistor T2 blocks, relay Rs2 drops out, and the output of amplifier V 2 is applied to substitute load EL2. At the same time, the other transistor goes into the conductive state via one of the two auxiliary lines h 1 or h 2 , and the associated amplifier is connected to the output.

If you now pull out the insert 2, the auxiliary connections h 1, h 2 and h 3 are separated, T 1 now forms a direct current amplifier with the components present in insert 1, the base of the transistor T1 receives a positive potential via the resistor R7, so that current flows through Rs 1, ie the changeover switch rs 1 is in the working position and the amplifier V 1 is connected to the output.

If, on the other hand, the insert 1 is pulled out and the auxiliary connections h 1, h 2 and h 3 are thereby separated, then T2 forms a direct current amplifier with the components present in the insert 2, and the base of the transistor T2 receives a positive potential via the resistor R 8 so that current flows through Rs2, that is, the changeover switch rs2 is in the working position and the amplifier V 2 is connected to the output.

Claims (3)

Claims: 1. Circuit arrangement for almost uninterrupted Switching of two interchangeable electrical communications equipment, in particular of carrier current amplifiers in carrier frequency devices, thereby characterized in that the switching device and its control circuit in two similar Assemblies is divided into the interchangeable device units (Carrier current amplifiers V 1 and V2) are arranged. 2. Circuit arrangement according to Claim 1, characterized in that as a control circuit for the switching device a symmetrically divisible flip-flop circuit is used; at which the required Changeover relays are arranged in the collector circuits of the transistors. 3. Circuit arrangement according to claims 1 and 2, characterized in that the connecting lines between the two similar assemblies of the switching device and their Control circuit are arranged so that when pulling out one of the two interchangeable Device units (amplifier plug-in units) the amplifier plug-in unit remaining in the frame connected to the consumer via the associated changeover relay as an operating device will.