DE1260545B - Circuit arrangement for automatic switching from an operating to a backup alternating current source for telecommunications systems - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H 04 j

German class: 21 a2- 39/10

Number: 1260 545

File number: S 90231 VIII a / 21 a2

Filing date: March 26, 1964

Open date: February 8, 1968

The invention relates to a circuit arrangement for automatic switching from one operating mode to another a backup AC power source for communications equipment, with one operating and one Substitute consumers and using four rectifiers controlled by direct current, in which According to the main patent, each alternating current source is connected to two opposite ones via an input transformer Corner points of two bridges constructed in the same way is laid, the bridge halves of which are each made of the series connection of a rectifier with an impedance of the blocked rectifier simulating resistor - capacitor combination exist, in which the other corner points of the two bridges over two series-connected primary winding halves of two of the consumers assigned output transformers are cross-connected and the between interconnected taps of the secondary windings of the two input transformers and the connection points of the primary winding halves of the two output transformers have two DC bias voltages of different polarity to control the rectifier are placed, their interchanging the Switching causes.

In the circuit arrangement according to the main patent, they were used to switch an operating generator to a replacement generator Relay replaced by an electronic switch. This avoids mechanical in the carrier circuit Changeover contacts, which among other things has the advantage that the changeover time compared to known ones Switching devices is reduced. The polarity reversal of the DC voltage sources that provide the bias voltage for the diodes used as electronic switches deliver, but are still made with relay contacts in the application according to the main patent.

But you can go a step further and also add these relay contacts to an electronic one Replace device. This object is the basis of the invention.

According to the invention, the circuit arrangement according to the main patent is therefore used for further improvement designed so that the operational consumer and the replacement consumer flip-flops are assigned that the toggle switch on the operating consumer on the output side via one of the Toggle switch on the replacement consumer-controlled relay contact, which is used in the event of a low level on the replacement consumer is open, is connected to a bistable counting stage, which is controlled by one of the upstream tilting

Circuit arrangement for automatic
Switching from one operational to one
Backup AC power source for systems
communications engineering

Addendum to the patent: 1185 244

Applicant:

Siemens Aktiengesellschaft,

Berlin and Munich,

8000 Munich 2, Wittelsbacherplatz 2

Named as inventor:

Kurt Theusner, 8000 Munich

stage, if the level at the operating consumer is too low, the impulse given to the operating consumer switches to the other stable state and which only tilts back to its initial state with a further similar impulse, that the counting stage controls two switching transistors in such a way that, depending on the switching state of the counting stage, each of the one of the two switching transistors is open and the other is blocked, that the switching transistors in the open State of a DC voltage that is suitable for controlling diodes at the output terminals switch through and in the blocked state a DC voltage that acts as the blocking voltage for the Diodes are suitable to output at the same output terminals, and that these voltages at the output terminals Replace the batteries with reversible polarity.

In the event of a lower level at the operating or replacement consumer, an alarm can be triggered by means of the flip-flops of controlled relays. The counter circuit can be tilted back by pressing initiate a manual key.

Through these measures it is achieved that only for alarming or for switching on or off relay contacts need to be used by assemblies. The actual switching process takes place in a fully electronic way. This reduces the switching time compared to an arrangement with Relay-controlled polarity reversal of the diode bias voltages is further reduced.

809 507/466

3 4

On the basis of the exemplary embodiment according to the figure, a sudden Ujpkippex * der occurs

the invention is explained in more detail. Arrangement, d. i.e., transistor 12 is opened.

The circuit arrangement Es shown in the figure flows through the transistor 12, collector current, which consists of the monitoring circuit and which is divided up via the relay and the control resistors 18 and 19 lying parallel to it within the dashed line. Simultaneous switching. The monitoring circuit has the up is closed by the B relays the circuit of the alarm signal, the gain reduction at the operating or replacement lamp Bl, whereby the lamp Bl aufverbraucher determine to give alarms and lights up, indicating that the original Betriebsdie control circuit put into operation. The control generator is faulty. The connection to the replacement consumer itself then reverses the polarity of the flip-flop circuit, which is closed as an io, is constructed in the same way as the bias voltage required for the DC voltages. like the one explained above, on the business consumer

The monitoring part consists of two identical, connected toggle switches. A more detailed explanation

flip-flops known per se, as they are unnecessary if their mode of operation is impaired,

gerfrequency systems, e.g. B. to the multiple carrier pilot The control part consists of a counting stage and

monitoring and pilot alarm, a voltage switch is used. The counting level with the

the. The monitoring part is connected to the terminals O transistors 21 and 22 has two stable switching positions

and RB to the business consumer Wl and with the lungs, that is, when the transistor 21 is blocked, is

Terminals O and RE to the replacement consumer W 2 of the transistor 22 conductive, and vice versa. We then

the electronic switching of Fig. 1 of the lying at the input of this control circuit

Main patent application switched in parallel. 20 capacitors 24 and 25 have a negative voltage

The stage 1, the output terminals O and O and Ul and U 2 is applied, tilts by the charging current in the control part, in Fig. The already mentioned about its other stable position. It is then the Tran embodiment instead of the battery terminals sistor 21 is blocked and the transistor 22 is conductive. The Ut and U 2 connected. Between the terminal control voltage is by means of the transistor 20, the men X and Z and the terminals Y and Z of the 25 the output of the flip-flop for the operating control circuit is connected downstream of a positive or negative consumer, to which in its tive DC voltage applied. The positive DC-collector circuit lying resistor 23 connected, voltage must be so large that the pre-established by it and always then and for as long as the trans-voltage diodes work in the pass band. The sistor 12 carries current. However, this is always the negative DC voltage, on the other hand, is so large to 30 case when the carrier voltage at the terminals O select that the diodes to be biased by it in and RB has dropped below the setpoint or z. B. Blocked area can be operated. Fills in completely by rectification. When the voltage at the tion of the consist at the terminals O and O, or RB and RE terminal O and RB, so the switching state girder stresses remains in the Spannungsver- the Zählsruf e. Only when the Doppler circuits 9 and 10 respond again, consisting of the 35 of the relay, a downshift occurs again. These semiconductor diodes 1, 2, 4, 5 as well as the condensate switching back are generated with the help of the manual key T, the sators 3, 6, 7, 8 one of the carrier voltage pro-parallel to the input of the flip-flop for the proportional DC voltage, which is called Kri - Drive consumer is, initiated by the fact that in terium for the response of the flip-flops pressing the button T, the resistors 26 and 27 is used. The 40 assigned to the operational consumer are bridged so that a drop in the Klem toggle switch is a two-stage amplifier switch voltage between O and RB is simulated with the transistors 11 and 12. The operational The manual downshift is for carrier voltages of the transistor 11 are stabilized by the frequency systems for reasons of better Kon-Zener diodes 13 and 14. The operating point is required, since when the transistor 11 is automatically switched back by means of the potentiometer 15, 45, an error that may need to be eliminated is overlooked, which could be parallel to the output of the voltage doubler.

circuit is adjustable. The operating point of the transistor 21 of the counting stage is switched on, transistor 1.2 is in the steep part of the transistor 28 is also conductive due to the characteristic curve, so that collector current flows. The emitters of the transistors 11 and 12 applied to its base-emitter resistor 30 are at a voltage. The transistor 29 is blocked at the same time as the common Po generated by the Zener diode 14, since it is potential because of the transistor which is also blocked. As a result, a steepening of the flip-flop 22 of the counting stage at its emitter resistor 31 is only effected. The base of transistor 12 is at a very low voltage,
Via the resistor 16 at the collector of the Tran- If the transistor 28 is now conductive, it is connected to the transistorll. It is dimensioned so that the transistor 12 55 output terminal Z71 is blocked from the terminal O one when the transistor 11 is carrying current. In the positive voltage, which is sufficient to bias the collector circuit of the transistor 12, the alarm end of the diodes is in the pass band to control relay A. If the potential to earth at the This voltage replaces the DC voltage sources anode of the diode 17 is equal to or higher than the Ul or U 2 for the electronic carrier reversal is the potential at the cathode, the diode is blocked. 60 according to the main patent. This is the case when the entire directional current is applied to terminals O and transistor 28. At the output RB the prescribed carrier voltage amplitude output terminal U 2 is then against the terminal O prevails. Is the carrier voltage and thus that of the negative reverse voltage. Since the reverse current of the DC voltage generated by the diodes 1 and 2 is very low under the semiconductor diodes of the switching, the predetermined 65 that can be set on the potentiometer 15 is generated at the series resistor 32 and the display response wave, the diode 17 becomes a sign resistance 34, both of which are relative highly conductive and thus the potential at the base of the are, no significant voltage drop. If the transistor 11 flips, so that this locked counting stage in the opposite position of the just

As described above, the negative reverse voltage is generated at terminals O and Z71, and the positive forward voltage is generated at terminals O and E / 2.

If the voltage at the terminals O and RB below a predetermined value, the monitor responds to and influences the control part, as already explained above in such a way that it supplies the electronic carrier selection via the terminals Ul and [72 corresponding control DC voltages. These voltages cause a switchover in such a way that the defective carrier generator, which was previously used as an operating generator, is switched to the replacement consumer WI and the faultless carrier generator to the operating consumer Wl . This means that the carrier voltage at the replacement consumer is now low, the toggle switch for the replacement consumer triggers an alarm with the help of the P relay, the alarm lamp B1 lights up, and the control circuit is switched off by the toggle switch for the business consumer by means of relay contact b of the B relay so that as long as the voltage at the replacement consumer is too low, no switching back can take place. If at the same time the carrier voltage drops below the specified target value at the service consumer, the alarm lamp A1 also lights up, but then, as already explained above, a switchover cannot be carried out.

The indicators 34 and 35 in the output of the control section serve as feedback indicators. You have a rest and a work position. In each of the possible circuit states there is only one feedback position indicator in its working position. The resistance of the indicator can also be used as a resistance for feeding the reverse voltage to the respective terminals U1 and U2 . The indicator 35 responds when the transistor 28 is turned on. The indicator 34 responds when the transistor 29 is turned on.

Claims (4)

Patent claims: 1. Circuit arrangement for automatic switching from an operating to a backup AC power source for communications engineering systems, with one operating and one replacement consumer and using four DC controlled rectifiers with each AC source in the 1185,244 patent Via an input transformer at two opposite corner points of two similar built bridges is placed, the bridge halves each from the series connection of a Rectifier with a resistor-capacitor combination that simulates the impedance of the blocked rectifier exist in which the other corner points of the two bridges each have two primary winding halves connected in series of two output transformers assigned to the consumers crosswise with one another are connected and in the case of the interconnected taps of the secondary windings of the two input transformers and the connection points of the primary winding halves of the two output transformer two DC bias voltages of different polarity are placed to control the rectifier, their Interchanging causes the switchover, characterized in that the business consumer and flip-flops are assigned to the replacement consumer that the flip-flop at the operating consumer on the output side via one of the toggle switch on the replacement consumer controlled relay contact, which is open when the level at the substitute consumer is too low, with a bistable counting stage is connected by one of the upstream flip-flop stage at low level The impulse given to the business consumer switches to the other stable state and the only by a further similar impulse flips back into its initial state that the counting stage controls two switching transistors in such a way that depending on the switching state of the counting stage each one of the two switching transistors open and the other is blocked, that the switching transistors in the In the open state, a DC voltage, which is suitable for controlling diodes, is applied to the output terminals switch through and in the blocked state a direct voltage, which is the reverse voltage suitable for the diodes to output at the same output terminals, and that these voltages Replace the polarity reversible batteries at the output terminals. 2. Circuit arrangement according to claim 1, characterized in that at sub-level on Operational or replacement consumers receive an alarm by means of the one controlled by the flip-flop circuits Relay takes place. 3. Circuit arrangement according to claim 1 or 2, characterized in that a manual key is provided, when actuated, the tilting back of the counting circuit can be initiated. 4. Circuit arrangement according to one of the preceding claims, characterized in that that as a resistor for supplying the reverse voltage to the output terminals, the resistor of a flag is used. 1 sheet of drawings 809 507/466 1.68 © Bundesdruckerei Berlin