DE2952053A1 - CIRCUIT ARRANGEMENT FOR A WARNING INDICATOR - Google Patents

Description

L.Miskin-15 Fl 1030

Dr.Rl / bk December 21, 1979

Circuit arrangement for a warning display device

The invention relates to a circuit arrangement for a warning display device according to the preamble of claim 1,

DE-OS 21 48 747 discloses a circuit arrangement for an electronic threshold switch of a warning display device known with a bridge circuit formed from four impedances, in which the one bridge diagonal the gate of a working on a load via a subcircuit consisting of two transistors and a resistor Thyristor controls.

Such a threshold switch is capable of changing the one bridge resistor in both directions respond, i.e. in the event of a short circuit as well as an interruption a supply line is guaranteed to respond reliably.

The invention is based on the object of a circuit arrangement for which the tripping hysteresis of the arrangement can also be set. The task is achieved by the invention specified in claim 1.

An embodiment of the invention is explained with reference to the single figure of the drawing.

The figure shows the circuit diagram of this embodiment. The bridge circuit consists of the four bridge branches Z1, Z2, Z3, Z4. One pole of the tension

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L.Miskin-15 Fl 1030

Source serving square wave generator Q is located at the connection point 1 of the existing ohmic resistor R1 the first and the second bridge arm Z1, Z2, which consists of the ohmic resistor R2 and which are adjacent to one another. The resistor R2 is adjustable. The second pole of the square wave generator Q is at the connection point 2 of the two other neighboring bridge branches Z3 and Z4, i.e. the third and fourth bridge branches. The connection points 1, 2 are thus at the same time the corner points of the Food diagonal.

In the third bridge branch Z3, the anti-parallel connection of the two is in series with the ohmic resistor R5 Diodes D1, D2. The resistor R5 is the actual measuring resistor, the changes in the resistance value recorded depending on the application, it reacts to changes from outside, E.g. a change in the level of liquids or an interruption in the electrical circuit as well as Short circuit. In a burglar alarm, for example, the resistor R5 can represent a whole range of resistances, or with a level meter for the measuring probe.

The first and the third bridge branch Z1, Z3 are on Connection point 3 and at the non-inverting input of the operational amplifier A, whose output has an optical or acoustic signal device 5 leads to the circuit zero point. The inverting input of the operational amplifier A lies at connection point 4 of the second and fourth bridge branches Z2, Z4. The connection points 3 and 4 are the corner points of the display diagonal. The antiparallel connection of the two is located in the fourth bridging branch Z4 Diodes D3, D4, the cathode of the Diode D3 and the anode of diode D4 is connected. At connection point 4 is the resistor connected in series with diode D3 R3 and the resistor connected in series to the diode D4

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Stand R4 connected. Both resistances are adjustable.

The resistors R1, R2 are balanced for equality and for the resistors R3, R4 it applies that their resistance value is above or below that of the resistor R5, i.e. the of resistor R5 lies between those of resistors R3, R4.

The circuit works as follows:

Assume that the square wave generator Q is just one Supplies voltage that is positive at connection point 1 and at connection point 2 the potential of the circuit zero point, thus has zero potential, a current flows through the resistor R3 and the diode D3 and the Voltage compared to the circuit zero point is more positive at connection point 4 than at the connection point 3. The output voltage of the operational amplifier A is then near zero potential. On the other hand, flows with positive Potential at connection point 2 and zero potential at connection point 1 is the current through resistor R4 and the diode D4.

Since the resistance value R4 is less than R5, the voltage is at connection point 4 more positive than at connection point and thus the output voltage of the operational amplifier is A again near the zero point. The signal device 5 remains out of operation in both cases.

If the resistance of R5 leaves the range determined by the resistance values R3, R4, the voltage at connection point 3 becomes more positive than that at connection point 4 and the output voltage of operational amplifier A is close to its operating voltage. It ensures that the signaling device ⁵ i ⁿ operation.

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L.Miskin-15 Fl 1030

The triggering hysteresis of the arrangement can thus be determined by the resistors R3 *, R4. The garinger the difference the resistance value, the more sensitive the circuit arrangement is.

The diodes D1, D2 serve as temperature and voltage compensation for the diodes D3, D4. The circuit arrangement according to the invention can be used wherever the variable to be monitored influences the resistance of the Resistance 5 takes. In ±> special it is used Suitable in a warning system that monitors the level in a liquid container or that of the burglar alarm serves. Since the circuit arrangement also responds if the circuit is interrupted or short-circuited, In the case of a burglar alarm, the wiring can be laid outside the building in a simple, cost-saving manner will. The circuit arrangement according to the invention is also distinguished from the prior art that its triggering hysteresis can be adjusted by the resistors R3, R4 and thus the response sensitivity can be set.

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L e r s e i t e

Claims (1)

L.Miskin-15 Fl 1030 Dr.Rl / bk December 21, 1979 Claim Circuit arrangement for a warning display device with a bridge circuit, the supply diagonal of which is connected to a voltage source and the display diagonal of which controls an operational amplifier, at least one bridge branch being dependent on a variable to be monitored and two adjacent bridge branches consisting only of ohmic resistances and the two other branches of the bridge contain ohmic resistances, characterized by the following features; - The voltage source is a square-wave generator (Q), one pole of which is at the connection point (1) of the adjacent first and second bridge branches (Z1, Z2) consisting only of ohmic resistors (R1, R2), - the other pole of the square wave generator (Q) is at the connection point (2) of the neighboring third and fourth bridge branches (Z3, Z4), - im with the non-inverting input of the operational amplifier (A) connected third bridge branch (Z3) is in series with the ohmic resistor (R5) the anti-parallel connection a first and a second diode (D1, D2) and - in the fourth bridge branch (Z4) connected to the inverting input of the operational amplifier (A) the antiparallel connection of a third and one in each case via an adjustable resistor (R3, R4) fourth diode (D3, D4), - the resistance value of the ohmic resistor (R5) of the third bridge branch (Z3) lies between the resistance values of the resistors (R3, R4) of the fourth bridge branch (Z4). 130026/0 264 ORIGINAL INSPECTED