RU2284578C1 - Capacity transformer for intruder alarm systems - Google Patents

Abstract

FIELD: intruder alarm systems engineering, possible use for building systems for guarding extended portions of local area, perimeters of objects.

SUBSTANCE: device contains rectangular signal generator, two standard capacitors, resistors, selection-storage device, input amplifier, working capacitor and comparison block.

EFFECT: increased reliability and extended functional capabilities.

1 cl, 1 dwg

Description

The invention relates to burglar alarms and can be used to build security systems for long sections of the terrain, perimeters of objects, as well as window and doorways of buildings using any conductive body of arbitrary geometric shape as a working capacity.

A device for alarming, comprising a capacitive sensing element, a square-wave pulse generator containing an operational amplifier, resistors, a voltage divider and zener diodes, a transducer of a sensor signal into unipolar voltage, is made on an operational amplifier, diodes, capacitors and resistors, a reference signal source containing an alternating a resistor, a differential amplifier made on an operational amplifier and resistors, a comparator containing resistors and an operational amplifier, warning signal generation unit. A capacitive sensing element is connected to the inverting input of the operational amplifier of the generator. The generator output is connected to the input of the sensor signal to a unipolar voltage converter. The output of the converter is connected to the non-inverting input of the differential amplifier, the inverting input of which is connected to the reference signal source, and the output through the comparator is connected to the warning signal generating unit (see patent RU 2025781, IPC ⁵ G 08 B 13/26).

The disadvantages of this device are low tactical reliability, that is, the possibility of false alarms associated with the dependence of the operation of the device on external factors - humidity and temperature, and the possibility of false alarms in case of violation of the integrity of the circuit of the capacitive sensitive element or grounding of an ungrounded electrode of the capacitive sensitive element, as well as narrow functionality due to providing only alarm when an object approaches a capacitive sensing to the element.

A device with a capacitive sensor is known, which contains a quartz oscillator of rectangular duty cycle pulses, which additionally has an output that is out of phase with the main output, a first capacitive sensor connected by the first electrode to the generator output, a second capacitive sensor connected by the first electrode to the antiphase output of the generator, an adder connected by inputs to the second electrodes of capacitive sensors, and the output connected to the registration unit (see patent RU 2126173, IPC ⁶ G 08 B 13/26).

The disadvantages of this device are low tactical reliability, that is, the possibility of false alarms in case of violation of the integrity of the circuits of capacitive sensors or grounding of their electrodes, as well as the difficulty of operation due to the need to use two capacitive sensors in close proximity to each other to exclude the influence of destabilizing factors, which is not always convenient and affordable.

Closest to the proposed invention in technical essence is a capacitive converter used to create alarm systems, containing a rectangular signal generator, the first output of which is connected through a resistor to one output of the reference capacitance, the second output - through a resistor to an ungrounded electrode of the working capacitance and to one output additional reference capacity, the third output is to the control input of the sample-storage device, an input amplifier, the input of which is connected to other output reference and additional reference capacities, and the output is connected to the input of the sampling-storage device, while the other output of the working capacitance is grounded (see patent RU 2168729, IPC ⁷ G 01 R 27/26).

The main disadvantage of the described device when used in burglar alarm systems is its low tactical reliability, that is, the possibility of false alarms or malfunctions in the event of an accidental or deliberate wire break connecting the non-grounded electrode of the working capacitance to one output of an additional reference capacitance and through a resistor to the second output of the generator a rectangular signal, or shorting an ungrounded electrode of a working capacitance to a common wire. In addition, the capacitive transducer does not have wide functional capabilities, since it can provide only an alarm when an object approaches an ungrounded electrode of a working capacity and cannot provide an alarm about the occurrence of tamper conditions.

The present invention solves the problem of increasing tactical reliability by signaling the occurrence of abnormal situations caused by accidental or deliberate breakage of a wire connecting an ungrounded electrode of a working capacitance with one output of an additional reference capacitance and through a resistor with the second output of a rectangular pulse generator, or by shorting an ungrounded grounded electrode of a working capacitance to a common the wire; expanding the functionality of the device by introducing additional control of sabotage states of the security alarm.

To achieve this technical result, a capacitive converter for burglar alarm systems containing a rectangular signal generator, the first output of which is connected through a resistor to one output of the reference capacitance, the second output through a resistor to an ungrounded electrode of the working capacitance and to one output of an additional reference capacitance, the third output - to the control input of the sample-storage device, an input amplifier, the input of which is connected to other terminals of the reference and additional reference capacities, and the output d is connected to the input of the sample-storage device, while the other output of the working capacity is grounded, according to the invention, a comparison unit is introduced, the input of which is connected to the output of the sample-storage device, the first output is used to generate a tamper signal, and the second output is used to generate a signal "alarm" arriving at the actuator.

In a capacitive converter, the comparison unit may contain first, second and third comparators, the inputs of which are the input of the comparison unit, an inverter, the first and second logical elements OR, the outputs of which are the first and second outputs of the comparison unit, respectively, while the output of the first comparator is connected to the first input the first OR gate and with the first input of the second OR gate, the output of the second comparator is connected to the second input of the second OR gate, the output of the third comparator nvertor connected to the second input of the first OR gate, and also through an inverter - the third input of the second OR gate.

Signaling of a broken wire connecting an ungrounded electrode of a working capacitance with one output of an additional reference capacitance and through a resistor with a second output of a rectangular signal generator, or of shorting a non-grounded electrode of a working capacitance is provided by analyzing the voltage level of the output signal of the sample-storage device from the comparison unit, from the outputs of which control signals are sent to the actuator.

The invention is illustrated in the drawing, which shows a functional diagram of a capacitive converter for alarm systems.

The proposed capacitive converter for alarm systems contains a square-wave signal generator 1, reference capacities 2 and 3, a working capacitance 4 with a non-grounded electrode, resistors 5 and 6, an input amplifier 7, a sampling-storage device 8, a comparison unit 9, containing the first, second and third comparators 10, 11 and 12, inverter 13, first and second logic gates OR 14 and 15.

The first output of the square-wave generator 1 is connected to the output of the resistor 5, the second output of the square-wave generator 1 is connected to the output of the resistor 6, the third output of the square-wave generator 1 is connected to the control input of the sampling-storage device 8, the other output of the resistor 5 is connected to the output of the reference capacitance 2 , the other terminal of the resistor 6 is connected to one terminal of the additional reference capacitance 3 and the working capacitance 4, the other conclusions of the reference capacitances 2 and 3 are connected and connected to the input of the input amplifier 7, the other d working capacitance 4 is connected to ground, the output of the input amplifier 7 is connected to the input of the sampling-storage device 8, the output of which is connected to the comparison unit 9. The first output of the comparison unit 9 is used to generate the signal "sabotage", and the second output - to form the signal " anxiety "arriving at the executive device.

The input of the comparison unit 9 is the inputs of the comparators 10, 11, 12. The output of the first comparator 10 is connected to the first input of the OR gates 14 and 15. The output of the second comparator 11 is connected to the second input of the second logical gates OR 15. The output of the third comparator 12 is connected via an inverter 13 with the second input of the first OR gate 14 and also through the inverter 13 with the third input of the second OR gate 15. The output of the first OR gate 14 and the output of the second OR gate 15 are outputs of the comparison unit 9.

The square wave generator 1 is assembled according to the standard multivibrator scheme on inverters.

The input amplifier 7 is assembled according to the scheme of the current to voltage converter with zero input resistance.

The sample-storage device 8 is a capacitor memory cell, which is recorded using an electronic key connected to the output of the input amplifier 7, controlled by a single-shot, generating a 1-μs square pulse, connected to a square-wave generator 1.

A capacitive converter for alarm systems works as follows. The voltage from the output of the square-wave generator 1 is supplied through a resistor 5 to a reference capacitance 2 and the inverted voltage through a resistor 6 to an additional reference capacitance 3 with a branch of the current to the working capacitance 4. The total signal is supplied to the input amplifier 7, where the current is converted to voltage. At the time when voltage fronts appear at the output of the square-wave signal generator 1, on RC circuits — resistors 5, 6, capacitors 2, 3, 4 — a transient process of capacitor recharging occurs. At the initial stage of the transition process, the current at the input of the input amplifier 7, and hence the voltage at its output, is proportional to the capacitance of an ungrounded electrode of working capacitance 4. This voltage is written to the sampling-storage device 8, from the output of which it goes to the comparison unit 9.

When the object approaches the non-grounded electrode of the working capacitance 4, its electric capacitance changes relative to the ground, which leads to a proportional change in the voltage at the output of the sample-storage device 8. This voltage is compared with three reference voltage levels in the comparison unit 9, after which, if the voltage level, coming from the output of the sample-storage device 8, above the threshold of the comparators 11, 12 and below the threshold of the comparator 10, an alarm signal appears at the second output of the comparison unit 9. In case of accidental or deliberate shorting of the non-grounded electrode of working capacity 4 to the common wire at the output of the sample-storage device 8, a signal appears above the threshold level of operation of the comparators 10, 11 and 12, as a result of which an alarm signal appears on the second output of the comparison unit 9 and on the first - "sabotage." When the non-grounded electrode of the working capacitance 4 breaks, the output voltage level of the sample-storage device 8 will be lower than the threshold of the comparators 10, 11, 12, as a result of which the signal from the comparator 12 inverted by the inverter 13 will go to the OR gates 14 and 15, which causes the second the output of the comparison block 9 of the alarm signal and at the first - "sabotage".

The reference voltages of the comparators 10, 11, 12 are set empirically in accordance with the following. When operating in standby mode, the capacitance of the non-grounded electrode of the working capacitance 4 has a certain value, depending on the geometric dimensions, the shape of the electrode and other bodies located nearby. When approaching the non-grounded electrode of the working capacitance 4, its capacity increases, which causes an increase in the voltage at the output of the sample-storage device 8. The reference voltage of the comparator 11 is selected from the need to provide a signal about the proximity of the object to the non-grounded electrode of the working capacitance 4 by a certain distance, which can vary. When the electrode breaks, the capacitance takes on a value significantly lower than the value of the electrode capacitance in standby mode, which causes a decrease in the voltage at the output of the sample-storage device 8. The comparator 12 is adjusted to this voltage. When a non-grounded electrode of working capacitance 4 is shorted to a common wire, the electrode capacitance becomes much larger electrode capacities in standby mode and in alarm mode. Therefore, the voltage at the output of the sample-storage device 8 will be higher. The comparator 10 is configured for this voltage.

The use of a comparator 10 in the comparison unit 9 makes it possible to control the absence of shorting of the non-grounded electrode on the common wire, the comparator 12 - the absence of wire breakage, and the comparator 11 serves to signal the proximity of the working capacitance to the non-grounded electrode. In this case, the alarm signal at the second output of the comparison unit 9 appears every time an emergency occurs, and the signal “sabotage” at the first output of the comparison unit 9 - only in case of short-circuiting of the non-grounded electrode of working capacity 4 or of a broken wire connecting the non-grounded electrode of working capacitance 4 with one output of an additional reference capacitance 3 and through a resistor with the second output of the square-wave signal generator 1, caused, as a rule, by deliberate actions. The presence of this signal in intelligent security systems allows the actuator to further identify events that occur during operation of the capacitive converter, which extends the functionality of the security system.

Thus, the claimed invention allows you to control the proximity of unauthorized persons to the guarded object with increased tactical reliability.

Claims (2)

1. A capacitive converter for burglar alarm systems, containing a rectangular signal generator, the first output of which is connected through a resistor to one output of the reference capacitance, the second output - through a resistor to one output of the working capacitance and to one output of an additional reference capacitance, the third output - to the control input a sampling-storage device, an input amplifier, the input of which is connected to other terminals of the reference and additional reference capacities, and the output is connected to the input of the sampling-storage device, while The output terminal of the working capacity is grounded, characterized in that a comparison unit is inserted into it, the input of which is connected to the output of the sampling-storage device, the first output of the comparison unit is used to generate a tamper signal, and the second output is used to generate an alarm signal to the actuator. 2. The capacitive converter according to claim 1, characterized in that the comparison unit contains the first, second and third comparators, the inputs of which are the input of the comparison unit, an inverter, the first and second logical elements OR, the outputs of which are the first and second outputs of the comparison unit, respectively, wherein the output of the first comparator is connected to the first input of the first OR gate and to the first input of the second OR gate, the output of the second comparator is connected to the second input of the second OR gate, the third output about the comparator through the inverter is connected to the second input of the first OR gate and also through the inverter to the third input of the second OR gate.