SU843256A2 - Impulse noise protection device - Google Patents

Description

The invention relates to radio engineering and can be used to combat impulse noise and radio receiving devices for various purposes, while simultaneously affecting impulse and concentrated noise. According to the main auth. No. 536601 is known a device for protection against impulse noise, containing a series-connected delay element and a key, as well as serially connected adjustable amplifier connected to the input of the delay element, instantaneous value detector, subtraction element and control voltage driver, with the second element input the subtraction is connected to the output of the adjustable amplifier via the average values detector; the driver of the control voltage is connected to the control input of the key through the driver unit and the control th e voltage, the second input of which is via time switch connected to the output unit vscheleni impulse noise, connected to the outputs of element BE and gchitani detector averages P. However, the known device locks the reception path when exposed to a concentrated range of interference that reduces its noise immunity. The purpose of the invention is to improve noise immunity. This goal is achieved by the fact that in a device for protection against impulse noise containing a series-connected delay element and a key, as well as podklyuchny to the input of the delay element sequentially connected adjustable amplifier, instantaneous value detector, subtraction element and driver control voltage, at In this case, the second input of the subtraction element is connected to the output of the regulator (Luscier) through the average detector, the driver of the control voltage is connected to the control input of the switch A control voltage selection block, the second input of which through a time relay is connected to the output of the impulse interference block connected to the Binary inputs of the subtraction element and the average values detector, between the output of the adjustable amplifier and the auxiliary input of the control voltage selection block in series with the peak detector and amplifier direct current.The control voltage isolation unit is implemented in the form of a connected first element And, to another input of which a generator is connected pulse, pulse counter, memory element and key control unit, the first differential circuit is connected between the first input of the control voltage selection block and the connection point of the installation inputs of the counter and the memory element, between the second input of the control voltage selection block and the advancing the input of the counter includes in series the second element I, the other inputs of which are connected to the auxiliary and the first inputs of the selection block of the control voltage, respectively, and the second differentiating circuit. The drawing shows the function and electrical circuit of the device. The device for protection against impulse noise contains a path of 1 radio channel, delay element 2, adjustable amplifier 3, instantaneous detector 4, average detector 5, peak detector 6, subtractive element 7, direct current amplifier 8, control driver 9 unit 10, the allocation of pulse interference, time relay P, the second element I 12, the first differential circuit 13, the second differentiating circuit 14, the first Element And 15 a generator of 16 pulses, a counter of 17 pulses, a memory element 18, the block 19 of control key, key 20, block 21 out control voltage laziness The device operates as follows; in a way. 64 The received signal, struck by pulsed and concentrated noise,;. enters the element 2 delay and adjustable amplifier 3. The element 2 delay delays. signal for the time required for the formation of a control voltage. Adjustable amplifier 3 compresses the dynamic range of the received signal without distorting the magnitude of the ratio of signal amplitudes and interference. From the output of the adjustable amplifier 3, the received signal is fed to the detector 4 instantaneous values, the detector 5 averages and the peak detector 6. The signal from the output of the detector 4 instantaneous values is applied to one input of element 7, and to its second input a signal comes from the output of the detector 5 average values. At the output of element 7, we only have interference that comes simultaneously to the input of the shaper 9, where they are amplified and limited, as well as to the first input of the impulse noise extraction unit 10, the second input of which is connected to the detector output 3 average values. Block 10 selects only impulse noise that exceeds the specified signal-to-noise ratio, and its output signal triggers time relay 1, which generates a voltage with a duration that allows you to subsequently determine the type of interference. The output voltage of the peak detector 6 through the DC amplifier 8 is fed to the first input of the second element 12, to the second input of which voltage is supplied from the time relay 11, and to the third input to the output voltage from the control voltage generator 9 arrives at the input of the first element 15, to the other input of which pulses are received from the generator of 16 pulses, which are counted in the counter 17. When exposed to impulse noise at the output of the second element 12, an advance signal is generated, which. The second one is differentiated along the trailing edge by the second differentiating circuit 14, the pulse of which rewrites from the counter 17 into the memory element 18 a signal corresponding to the duration of the interference pulse at the output of the control voltage generator 9. 584 After a certain time has elapsed, the output of the first differentiating circuit 13 is an impulse formed from the falling edge of the output signal of time relay 11. This pulse is erasing for counter 17: pulses and promoting for memory element 18. As a result, the calculated voltage information from memory element 18 is rewritten.

In block 19, which forms the control voltage, closing the key 20, as well as the radio signal receiving path during the action of the pulse interference.

The proposed device, when subjected to concentrated interference, is characterized in that from the output of the second element I 12 to the counter 17 there is no advancing pulse.

As a result, after some time from the output of the differentiating circuit 13, an optical pulse arrives that will erase the information in the pulse counter 17, therefore the pulse interference information does not arrive in the memory element 18, the key control unit 19 does not generate a signal to close the key 20 and the path reception of radio signals when exposed to concentrated interference is not closed.

The proposed device makes it possible to eliminate the disconnection of the signal receiving path by the device for protection against impulse noise when exposed to powerful concentrated noise falling in the common path band of the receiver.

and a DC amplifier.

2. The device according to claim 1, characterized in that the control voltage extraction unit is made in the form of a first And element connected in series, to another input of which an impulse generator, a pulse counter, a memory element and a key control unit are connected, between the first input of the unit In the control voltage and the connection point of the installation inputs of the counter and the memory element, the first differentiating circuit is connected, and between the second input of the allocation block of the control voltage and the advancing input of the counter are connected Consequently, the second And element, the other inputs of which are connected to the auxiliary and the first inputs of the control voltage selection unit: respectively, and the second differentiating circuit.

Sources of information taken into account in the examination

Claims (1)

1, USSR Author's Certificate 536601, cl. H 04 B 1/10, 1975 (prototype). 6 The claims 1. Device for protection against impulse noise by author: sv. No. 536601, characterized in that, in order to increase the noise immunity, a peak detector is connected in series between the output of the adjustable amplifier and the auxiliary flea input of the control voltage of the control voltage.