JPH0413805B2 - - Google Patents

Abstract

1. An arrangement for energising relays, in particular in signal arrays in racks of digital signal and carrier frequency systems, characterised in that a relay (1), a parallel arrangement composed of a first resistor (2) and a first switch (3), and a second switch (5) are arranged in a first series circuit which is connected to an operating voltage (UB ), that a comparator (6) is provided which is connected to the operating voltage (UB ) and which emits a logic 0 when an upper value of the operating voltage (UB ) is connected and which emits a logic 1 when a lower value is connected, that a monostable trigger circuit (7) is provided at whose input (8) an energising signal can be connected, that a first OR-gate (9) is provided, whose first input is connected to the output of the comparator (6), whose second input is connected to the output of the monostable trigger circuit (7), and whose output is connected via a first switch drive unit (10) to a control input of the first switch (3), that a second OR-gate (11) is provided, whose first input is connected to the output of the monostable trigger circuit (7) and whose second input is connected to the input (8) thereof and whose output is connected via a second switch drive unit (12) to a control input of the second switch (5), and that the value of the first resistor (2) is such that at an upper value of the operating voltage the holding voltage of the relay (1) is not undershot (Fig. 1).

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a device for excitation of a relay, for example in a signal board in a rack of a communication device of the digital signal type or carrier frequency type.

Prior Art During signaling, an error signal is generated as a notification of equipment failure, and a noise signal is generated as a notification of a communication connection failure (here, an error signal,
The name "noise signal" was used for convenience for the signal having the above role). As a result of these signals, either an emergency alarm (A alarm) or a non-urgent alarm (B alarm) is indicated at the signal board. A received signal is indicated by a warning lamp. Information from the signal board is sent to a series of rack busbars.

A signal panel that operates with an operating voltage of −12V and a −24V
Signal boards that operate at an operating voltage of 1 are known.

OBJECTS OF THE INVENTION It is an object of the invention to provide a relay excitation device for a signal board, which operates, for example, at two different operating voltages. A signal board equipped with the device of the invention can for example be used in place of two known signal boards.

Arrangement of the Invention This object is achieved in a relay excitation device according to the invention as follows: one relay in the first series circuit connected to the operating voltage;
A parallel connection consisting of a first resistor and a first switch and a second switch are provided, which are connected to the operating voltage and deliver a logic 0 when an upper value of the operating voltage is applied; A comparator that outputs a logic 1 when an operating voltage is applied is provided, a monostable multivibrator to which an excitation signal can be applied to the input side is provided, one first OR gate is provided, and the first OR gate is provided.
A first input side of the 1OR gate is connected to the output side of the comparator, a second input side is connected to the output side of the monostable multivibrator, and an output side of the first OR gate is connected to the output side of the first switching control section. is connected to the control input side of the first switch, and a second OR gate is provided, the first input side of the second OR gate is connected to the output side of the monostable multivibrator, and the second input side is connected to the control input side of the monostable multivibrator. The output side of the second OR gate is connected to the input side of the monostable multivibrator, and the output side of the second OR gate is connected to the second switch via a second switching control section, and the voltage applied to the relay maintains the value of the first resistor. This is achieved by setting a value that does not fall below the voltage.

Furthermore, according to the present invention, in order to individually excite a plurality of relays, the apparatus is constructed as follows. That is, a decoupling diode is provided between the first switch and the relay, n further relays are provided, and n further relays are provided without the first switch but with decoupling diodes. 1 series circuit is provided, the terminals opposite the relay of the decoupling diodes are connected to each other, and n further monostable multivibrators each with one input side are provided. , the first OR gate is provided with n further inputs, to which in each case the outputs of the n further monostable multivibrators are connected, and the n further second OR gates are connected. are provided, each input of these second OR gates being connected to one input and one output of the associated monostable multivibrator,
Each output of the second OR gate is in each case connected via one of the n further second switching controls to the control input of the associated n further second switches.

In an advantageous embodiment of the device according to the invention, the first
The switch is turned off by a logic 0 at the output of the comparator at a value above the operating voltage and is turned on only when a logic 1 occurs at the output of the monostable multivibrator, so that the operating voltage is For the lower value, the first switch is turned on by a logic 1 at the output of the comparator, and the second switch is turned on when a logic 1 occurs at the input or output of the monostable multivibrator. Make it.

In an advantageous embodiment of the invention, the switch is constituted by a transistor.

In an advantageous embodiment of the device according to the invention, for each individual element, the comparator is connected to a second series circuit connected to the operating voltage, consisting of a Zener diode and a second resistor, and a second series circuit of this second series circuit. It is advantageous to consist of an inverter connected to the intermediate tap and to use the output of this inverter as the comparator output.

The device according to the invention is advantageously used in the DC operating voltage range of -12V and -24V or -24V and -60V.

Embodiments Next, embodiments of the present invention will be described in detail based on the drawings.

FIG. 1 shows a device according to the invention. The device comprises a relay 1, a resistor 2, switches 3 and 5, a comparator 6, a monostable multivibrator 7, an input terminal 8, an OR gate 9 and 11, and a switch controller 10 and 12. The contact device of the relay 1 is not illustrated because it does not belong to the present invention.

In relays, the holding voltage is partially significantly lower than the response voltage. Therefore, it is sufficient to apply a voltage higher than the minimum response voltage to the relay until it is attracted, and then the voltage can be reduced to the value of the holding voltage. Relay 1 has a rated voltage corresponding to the lower value of operating voltage U _B.

At the lower value of the operating voltage U _B , the switch 3 is closed by the comparator 6 via the OR gate 9 and the switching control 10, and the relay 1 is closed.
is directly applied with the operating voltage _UB . At this time, the other input of OR gate 9 does not act.

At upper values of the operating voltage U _B , the switch 3 is activated by the output signal of the monostable multivibrator 7.
It is closed via the OR gate 9 and the switching control 10 only during the pulse duration. This pulse length is dimensioned to ensure that the relay 1 operates. After this time, the relay is connected via resistor 2 to the operating voltage U _B. The value of this resistance is determined so as not to fall below the minimum holding voltage.

Relay 1 is controlled via switch 5. During the instability period of the monostable multivibrator 7, the switch 5 is closed via the OR gate 11 and the switching control 12, which
This is true even when the excitation pulse is shorter than the instability period. If the excitation pulse is longer than the instability period, the closing of the switch 5 takes place independently of the monostable multivibrator 7.

FIG. 2 shows an embodiment of the device according to the invention for three relays 1, 1', 1''. The reference numbers used correspond to those in FIG. 1. is again designated by a number with one dash, and the element corresponding to relay 1'' is labeled with two dashes. However, the OR gate 9' is different, and the three individual OR gates are integrated into one in this OR gate 9'. Furthermore, decoupling diodes 4, 4', 4'' are added to the circuit of FIG.

At upper values of the operating voltage U _B , switch 3
at least one monostable multivibrator 7,
It is closed only when a logic 1 is applied to the output side of 7', 7''. Since only one switch 3 is provided, when one relay responds, all relays 1, 1', 1'' are closed. An operating voltage U _B is applied. As a result, the operating voltage U _B is again applied to the relays that have already responded for a short time. However, this has no effect on the functionality of relays that were already responding. The other relays and circuit elements operate in the same manner as in FIG.

FIG. 3 shows the detailed configuration of the comparator 6,
This element consists of a Zener diode 13 and a resistor 14.
It is composed of a CMOS inverter 15.

Inverter 15 is operated with an auxiliary operating voltage U _B ' of 10V. A typical switching threshold would therefore be 5V.
If the operating voltage U _B is lower than the sum of the voltage of the Zener diode 13 and the response threshold of the inverter 15,
The output of inverter 15 becomes a logic one. Operating voltage
When U _B is higher than the sum of the voltage of the Zener diode 13 and the response threshold of the inverter 15, the output of the inverter 15 becomes a logic zero.

FIG. 4 is a detailed view of the apparatus of FIG. 2. This device is provided with a comparator 6, in which the inverter 15 of FIG. 3 is constituted by a NOR gate 15' and its first input.

OR gate 9' is diode 16, 17, 18
and the second input side of the NOR gate 15' indicated by the connection line 19.

The switch 3 and its switching control section 10 include resistors 20 to 23 and transistors 24 and 2.
Consists of 5. The switches 5, 5', 5'' and their switching control sections 12, 12', 12'' are composed of transistors 29-31 and resistors 32-34.

The upper value of the operating voltage U _B can range from −20V to −26.4V, and the lower value from −10.5V to +
Can be in the 13.5V range.

The voltage of the Zener diode 13 is chosen to be 13 V so that the corresponding input of the NOR gate 15' lies in the lower value range below the switching threshold.
The output side of NOR gate 15' is at a negative potential in this range, which causes transistors 24 and 25
conducts through the diode 16. This makes the second input of NOR gate 15' ineffective. The relays 1, 1', 1'' are therefore connected to the operating voltage U _B via the diodes 4, 4', 4''.

When the operating voltage U _B is at the upper value, NOR gate 1
One input side of 5' is brought to a negative potential through a resistor 35 until the output side is reliably at ground potential when the other input side is also at a negative potential. transistor 2
4 and 25 are blocked. At this time, the NOR gate 15' is connected to the monostable multivibrators 7, 7',
Controlled only by the output side of 7''.

Diodes 26-28 are erase diodes.

Effects of the Invention As described above, according to the present invention, a relay excitation device for a signal board that operates at different operating voltages can be obtained.

[Brief explanation of drawings]

1 is a block circuit diagram of a device according to the invention with one relay, FIG. 2 is a block diagram of a device according to the invention with three relays, and FIG. 3 is a comparator for a device according to the invention. FIG. 4 is a detailed circuit diagram of the device of FIG. 1, 1', 1"...Relay, 6...Comparator, 7, 7', 7"...Monostable multivibrator, 9, 9', 11, 11', 11"...OR gate, 10, 12 ...Switching control section, 4,
4', 4''...decoupling diode.

Claims (1)

[Claims] 1. A first series circuit connected to the operating voltage U _B ,
One relay 1, a parallel connection consisting of a first resistor 2 and a first switch 3, and a second switch 5 are provided, which are connected to the operating voltage U _B and
A comparator 6 is provided which sends out a theoretical 0 when two upper values of the operating voltage U _B are applied and which sends out a theoretical 1 when one lower value of the operating voltage is applied, and which applies an excitation signal to the input side 8. A monostable multivibrator 7 is provided, with one first
A 1OR gate 9 is provided, a first input side of the first OR gate 9 is connected to the output side of the comparator 6, a second input side is connected to the output side of the monostable multivibrator 7, and the first OR gate 9 is connected to the output side of the monostable multivibrator 7. The output side of the gate 9 is connected to the control input side of the first switch 3 via a first switching control section 10, and a second OR gate 11 is provided.
A first input side of the second OR gate 11 is connected to the output side of the monostable multivibrator 7, and a second input side is connected to the input side 8 of the monostable multivibrator 7, and the output of the second OR gate 11 is connected to the output side of the monostable multivibrator 7. The first resistor 2 has a value such that the voltage applied to the relay 1 does not fall below its holding voltage. A relay excitation device characterized by: 2 The first switch 3 is turned off by a logic 0 at the output of the comparator 6 at a value above the operating voltage U _B and is turned on only when a logic 1 occurs at the output of the monostable multivibrator 7. When the operating voltage U _B is at a lower value, the first switch 3 is turned on by the logic 1 at the output of the comparator 6, and the second switch 5 is turned on by the logic 1 at the input of the monostable multivibrator 7. The relay excitation device according to claim 1, which is turned on when a logic 1 occurs on the output side. 3 Comparator 6 consists of one Zener diode 13 and second resistor 14, operating voltage U _B
and an inverter 15 connected to an intermediate tap of the second series circuit, and the output side of the inverter 15 is used as a comparator output side. The relay excitation device according to item 1 or 2. 4 1 in the first series circuit connected to the operating voltage U _B
a parallel connection consisting of two relays, a first resistor and a first switch, and a second switch, which are connected to the operating voltage and deliver a logic zero when an upper value of the operating voltage is applied. , a comparator is provided which sends out a logic 1 when an operating voltage of one lower value is applied, a monostable multivibrator to which an excitation signal can be applied is provided on the input side, and a first OR gate is provided. and
A first input side of the first OR gate is connected to the output side of the comparator, a second input side is connected to the output side of the monostable multivibrator, and a second input side of the first OR gate is connected to the output side of the monostable multivibrator.
The output side of one OR gate is connected to the control input side of the first switch via a first switching control section, and one second OR gate is provided, and the first input side of the second OR gate is connected to the control input side of the first switch. The output side of the stable multivibrator is connected to the input side of this monostable multivibrator, and the second input side is connected to the input side of this monostable multivibrator, and the output side of the second OR gate is connected to the second input side.
The first resistor is connected to the second switch via a switching control section, and the first resistor is set to a value such that the voltage applied to the relay does not fall below its holding voltage. A decoupling diode is provided between the
n further relays are provided, and n further first series circuits are provided without a first switch and with a decoupling diode, the terminal of the decoupling diode opposite the relay; are connected to each other and are provided with n further monostable multivibrators each with one input side;
One OR gate is provided with n further inputs, each of which is connected to the output of one of said further n monostable multivibrators, and n further second OR gates are provided. each input side of these second OR gates is connected to one input side and one output side of the associated monostable multivibrator, and each output side of the second OR gates is connected to n different second switching circuits. A relay excitation device, characterized in that it is connected via one of the control units to the control input side of another n second switches associated therewith. 5 Switches 3, 5, 5', 5'' are transistor 2
4. The relay excitation device according to claim 4, wherein the relay excitation device is constituted by 4, 29, 30, and 31. 6 The upper value of the operating voltage U _B is approximately -24V,
5. The relay exciter according to claim 4, wherein the lower value is about -12V. 7 The upper value of the operating voltage U _B is approximately -60V,
5. The relay exciter according to claim 4, wherein the lower value is about -24V.