HU186315B - Method and connection arrangement for increasing the sensitivity of light barrier - Google Patents

Abstract

The present invention relates to a method and a switching arrangement for increasing the sensitivity of a barrier against intrusion. In order to increase the sensitivity of the barrier beam of intrusion, the light beam is modulated by two frequencies, converted to an electrical signal, and the two-frequency electrical signal is selectively amplified. The method according to the invention is that the higher frequency electrical signal is amplified and demodulated, the lower frequency demodulated signal is amplified, the amplified electric signal is inverted and the inverse signal received by the signal is truncated. The switching arrangement according to the present invention provides oscillators and light 5 diodes and diodes for light beam barriers. refers to a phototransistor, a broad and narrow band selective amplifier, and a receiver comprising a demodulator. The essence of this is that a selective narrowband amplifier (7) tuned to the frequency of the second oscillator (2) is connected to the selective broadband amplifier (5) tuned to the frequency of one oscillator (1) via a demodulator tower (6). The output of this is an inverter (8) and an actuator (9), preferably an alarm. (Figure 1) 186315

Description

The present invention relates to a method and a circuit arrangement for increasing the sensitivity of an intrusion light barrier.

In order to increase the sensitivity of the light barrier against intrusion, the light beam is modulated with two frequencies, converted to an electrical signal and selectively amplified with an electric signal of two frequencies. The method of the present invention comprises amplifying and demodulating the higher frequency electric signal, amplifying the lower frequency demodulated signal, inverting the amplified electrical signal, and controlling an inverse signal obtained in the event of signal loss.

The circuit arrangement according to the invention comprises oscillators and light-emitting diodes or light-emitting diodes for the light barrier. refers to a receiver containing a phototransistor, a wideband and a narrowband selective amplifier, and a demodulator. Essentially, a selective wideband amplifier (5) tuned to the frequency of one oscillator (1) is coupled via a demodulator (6) to a selective narrowband amplifier (7) tuned to the frequency of the second oscillator (2). An inverter (8) and an actuator (9), preferably an alarm, are connected to its output. (Figure 1)

í.óöro

-1186315

The present invention relates to a method and a circuit arrangement for increasing the sensitivity of an intrusion light barrier.

The light barrier consists of a light source as a transmitter and a photosensitive element as a receiver. If the transmitted light is missed, the voltage signal to the receiver due to the light changes. The change in the amplified electrical signal through an actuator is suitable for controlling a relay or logic circuit.

The light barrier has a very wide range of applications; It can be used in life and property protection, safety equipment, work safety equipment, conveyor control, vehicle detection, counting, counting and more.

The light barrier, which usually operates in the infrared radiation range around 920 nm, is emitted by a light emitting diode and a photodiode. is detected by a phototransistor. The aperture of known beam barriers is between 1.5 mm and 35 m. The transmitter and receiver may be located at two endpoints of the aperture or may form a single unit when the other endpoint of the aperture has a radiation reflecting surface; in this case, the opening shall be no more than 15 m.

The operation of a known beam barrier (eg, Leuze Electronic, Owen-Teck, FRG) is to modulate the radiation emitted by the transmitter by sound frequency excitation and amplify the output signal in the receiver by converting it to a sound frequency modulated voltage signal. This eliminates the effects of external interfering radiation.

It is not widespread, but an arrangement in which the frequency excitation is periodically interrupted and pulsed is known, whereby the thermal load of the radiation emitting element is reduced and the transmitter has an order of magnitude higher excitation. This increased the sensitivity, i.e. the bridging opening. However, selective amplification has limitations due to increased excitability; because of the instability, the path of the light beam cannot be increased beyond the said 30-35 m.

No. 3,045,217. The disclosure document of the Federal Republic of Germany discloses an optical device for the surveillance of interiors, which consists of a transmitter for building a luminous energy field in the controlled space sector; this gives the receiver synchronous impulses. The receiver selects light energy frequency-selectively, converts it into an electrical signal, amplifies and rectifies it, determines the basic optical level during pauses between two light pulses, and subtracts a square root from the resulting signal.

The transmitter of the equipment consists of a light emitting diode, a pulse generator, a sine oscillator and a synchronous pulse output. The receiver includes a photodiode, a demodulator consisting of a bandpass filter, a preamplifier and a rectifier, an amplifier and a parallel sample-and-hold circuit for synchronous pulses emitted by the transmitter, a differential amplifier for performing the subtraction and a root train.

In fact, this solution is not a beam control barrier for spacing, it is not capable of bridging longer distances, and requires complex and costly equipment.

No. 1,566,733. The locking and locking arrangement known from the disclosure document of the Federal Republic of Germany is based on the known solution in which the light emitted by the transmitter light source and introduced into the receiver is interrupted by at least one frequency. Devices that detect coincidence of the interrupt frequency are connected to the receiver.

According to the invention, the light emitted by the transmitter in the transmitter is interrupted at two frequencies, one of which is a multiple of the other. The transmitter is the key to the lock. The receiver's photodiode is connected to the input of a broadband selective amplifier whose bandwidth covers the sum and difference of the two frequencies. The output of this selective amplifier is the demodulator input. The demodulator is connected to an AND gate via a narrowband amplifier selective for the lower frequency and a smoothing member. The coincidence of the signals entering the AND gate inputs, i.e., if the transmitter trained as the key is correct on one of the gate outputs, the signal on the other output if the gate is false and the other output is unlocked. used to control the alarm.

This solution thus performs the function of optical inspection of the shutter and non-intrusion light barrier. Accordingly, it is complicated and costly because after a demodulator following a broadband amplifier, the signal must pass through a narrowband selective amplifier as well as a smoothing member and the two output signals must be compared at AND gate.

It is an object of the present invention to provide a method for multiplying the sensitivity of a light barrier against intrusion by simplifying the circuit layout.

According to the invention, in the transmitter, the luminous intensity of the light beam is modulated by excitation at a higher frequency, and then a second modulation is performed by interrupting this modulated oscillation periodically. Both modulated oscillations can be selectively amplified in the receiver after converting the luminous intensity into an electrical signal, resulting in a very high gain.

The present invention is based on the recognition that a demodulator connected to a higher frequency selective broadband amplifier output has a response threshold at which it cannot process a signal with a smaller amplitude. Thus, if a signal exits the demodulator, this will prove that the higher frequency signal has been received by the receiver. The signal output from the demodulator is modulated by the second lower frequency, which is evaluated by the narrowband selective amplifier. If a signal exits this amplifier, it will prove that the beam path is uninterrupted. The output signal is in3

Evaluating -2186315 will trigger an alarm in the event of a signal failure.

In our experiments, we found that the best sensitivity was achieved when the periodic interruption of the modulated vibration was 5-10 times the duration of the excitation period, and the time constant of the modulated vibration was 50 times the duration of the modulated vibration. -hex. Thus, the second oscillator has a period time of 30 to 110 times the first oscillator and a voltage signal duration of 9-15% within a pulse.

In order to increase the sensitivity of the light barrier against intrusion, the light beam is modulated with two frequencies, converted to an electrical signal and selectively amplified with an electric signal of two frequencies. The method of the present invention comprises amplifying and demodulating a higher frequency electric signal and amplifying a lower frequency demodulated signal. The amplified electrical signal is inverted and the actuator of the inverse signal obtained in the event of a signal failure is controlled.

The circuit arrangement according to the invention is connected to a photodiode or a photodiode connected to a light barrier receiver comprising oscillators and a light-emitting diode. refers to a receiver containing a phototransistor, a wideband and a narrowband selective amplifier, and a demodulator. In essence, a selective narrowband amplifier tuned to the frequency of one oscillator is connected via a demodulator to a selective narrowband amplifier tuned to the frequency of another oscillator. An inverter and an actuator, preferably an alarm, are connected to its output.

An exemplary embodiment of the method of the invention is described in connection with the operation of an exemplary embodiment of the circuit arrangement of the invention.

Fig. 1 is a block diagram of a circuit arrangement for a light barrier according to the invention.

The beam transducer known per se consists of oscillators 1 and 2 and light emitting diodes 3. The receiver according to the invention consists of a photodiode 4 or a phototransistor, a frequency selective broadband amplifier 5, a demodulator 6, a narrow selective frequency amplifier 7 produced by an oscillator 2, an inverter 9 and an actuator 9.

The frequency fi generated by the oscillator 1 is amplified by the broadband amplifier 5 and supplied to the input of the demodulator 6. When the amplitude of this oscillation reaches the response threshold of the demodulator 6, it will result in oscillator-modulated oscillation ΐ-> amplified by the narrowband amplifier 7. The signal exiting the amplifier 7 is fed by the inverter 8 ver. If the light barrier light is uninterrupted, the output signal of the inverter 8 is 0. However, if the light beam is interrupted, the signal from the inverter 8 to the actuator 9 is L, which causes the actuator 9 to sound.

In this example, fi = 10 kHz, f ₂ = 333.3 Hz, i.e., the quotient of the two frequencies is 30. The oscillation period of fi is 0.1 ms, and the pulse of f ₂ is 3 ms, within which the duration of the fi signal is 0. , 5 ms, interrupt duration 2.5 ms and demodulator 6 constant 3 ms.

The advantages of the anti-penetration light barrier according to the invention can be summarized by the fact that by amplifying two electrical signals of different frequencies the resulting gain can be greatly increased and thus the size of the controlled aperture can be increased to 100-200 m. By inverting the output signal from the amplifier, the actuator can be directly controlled without the use of a smoothing member, gate circuits or other elements, thus providing simple and inexpensive equipment. In addition, the two different frequencies virtually eliminate the influence of external interferences.

Claims (6)

Patent claims CLAIMS 1. A method of increasing the sensitivity of an intrusion light barrier, wherein the light beam is modulated by two frequencies, converted into an electrical signal and selectively amplified by an electric signal of two frequencies, characterized by amplifying and demodulating the higher frequency electrical signal, demodulating, inverting the amplified electrical signal and controlling the actuator of the inverse signal obtained in the event of a signal failure. 2. The method of claim 1, wherein the light of the beam is maintained for a period of 5 to 10 times the period of the higher frequency modulation, and is interrupted for a period of 5 to 10 times this period and repeated periodically. 3. A method according to claim 1 or 2, wherein the modulated and selectively amplified higher frequency electrical signal is demodulated with a time constant of 20 to 50 times its period. 4. Circuit arrangement according to Figs. A method according to any one of claims 1 to 6, wherein the transmitter comprises oscillators and a light emitting diode, and a receiver comprising a photodiode or a photodiode. a photorransformer, a wideband and narrowband selective amplifier, and a demodulator, characterized in that a selective wideband amplifier (5) tuned to the frequency of one oscillator (1) is coupled via a demodulator (6) to the center frequency of a second oscillator (2) amplifier (7), an output of which is an inverter (8) and an actuator (9), preferably an alarm signal. The circuit arrangement according to claim 4, characterized in that the second oscillator (2) has a period time of 30 to 11 times the period of one of the oscillators (1) and a signal duration within a period of 9 to 15%. The circuit arrangement according to claim 4 or 5, characterized in that the demo dulator (6) has a time constant of 20-50 times that of one of the oscillators (1). 1 drawing Figure 1 Responsible for publishing: Director of Economic and Legal Publishing House 87.2494.66-4 Alföldi Nyomda, Debrecen Chief Executive Officer: István Benkő Chief Executive Officer