RU2169427C1 - Noise generator - Google Patents

Abstract

FIELD: electrical engineering; man-made noise generation. SUBSTANCE: noise generator has push-pull power amplifier, two pairs of switches interconnected in parallel in each pair, clock generator, pseudorandom train generator, ratio-of-2 n frequency divider, two inverters, transformer, and unwanted-signal detector that functions to detect unauthorized signals connected to communication link of transmitting device and incorporates detector proper, comparator, threshold level shaper, display unit, and pulse generator. EFFECT: enhanced operating efficiency. 2 dwg

Description

 The invention relates to the field of electricity, to means for generating electrical oscillations and creating artificial interference.

 Known noise generating devices containing a clock generator of pseudorandom sequences and two power amplifiers (Shelestov I.P. Radio amateurs useful circuits, Solon-R, Moscow, 2000).

 A disadvantage of the known devices is the use of single-cycle power amplifiers having low efficiency.

 The closest analogue of the claimed and more advanced is a noise generator containing a clock generator, a first inverter connected to its output and a second inverter, a transformer connected through a 2n frequency divider and a pseudorandom sequence generator, and a push-pull power amplifier connected to the outputs of its primary windings, with the first and second input of which are connected, respectively, the first and second pair of keys connected in parallel in each pair, in which the control inputs The first key in each pair is connected to the clock through a pseudo-random sequence generator and a frequency divider by 2n, and the control inputs of the second key of each mentioned pair are connected to the clock through a second inverter, a pseudo-random sequence generator and a frequency divider by 2n, the input of the first key of the first pair and the input of the second key of the second pair is connected directly to the output of the clock generator, and the input of the second key of the first pair and the input of the first key of the second pair are connected to the output of the clock generator through the first inverter. (Fokin E.M. et al. Barrier Generator "Sonata-C1", registration N 4259 in the Russian Open Society, 2000).

 The disadvantage of this device is its low efficiency and the inability to detect signals of unauthorized connection to the communication line of transmitting devices.

 The technical result provided by the invention is to increase operating efficiency by ensuring the detection of signals that are unauthorized connected to the communication line of transmitting devices.

 The technical result is achieved in a noise generator containing a clock generator, a first inverter connected to its output and, through a 2n frequency divider and a pseudorandom sequence generator connected in series, a second inverter, a transformer, and a push-pull power amplifier connected to the outputs of its primary windings, with the first and second the input of which is connected, respectively, the first and second pair of keys connected in parallel in each pair, in which the control inputs of the first key in each pair of soy are dynamically coupled to the clock through a pseudo-random sequence generator and a frequency divider by 2n, and the control inputs of the second key of each mentioned pair are connected to the clock through a second inverter, a pseudorandom sequence generator and a frequency divider by 2n, the input of the first key of the first pair and the input of the second key of the second connected directly to the output of the clock, and the input of the second key of the first pair and the input of the first key of the second pair are connected to the output of the clock through the first inver the torus due to the fact that it is equipped with an unauthorized signal detector containing a detector, a comparator, a threshold level driver, an indication unit and a pulse generator, the comparator being connected by a first input to the detector output, a second input with a threshold level driver, an output with an indication unit and a control input with a pulse generator, which is connected to the control input of the clock generator, and the input of the detector is connected to the taps of the secondary winding of the transformer.

 The invention is illustrated by drawings, where in FIG. 1 is a schematic block diagram of a noise generator, and FIG. 2 - the shape of the voltage pulses at the points indicated on the block diagrams (A, B, C, D, E, F, G, H, J, K, L, M, N, O, P).

 The noise generator contains a clock 1 connected to its output 2, a first inverter 3. A second inverter 4 is connected to the output of a clock 1 through a series-connected frequency divider 5 by 2n and a pseudorandom sequence generator 6.

 The noise generator contains a push-pull power amplifier 7 having a first input 8 connected to a first pair of keys connected in parallel: the first 9 and second 10 and a second input 11 connected to a second pair of keys connected in parallel: the first 12 and second 13. Control input 14 of the first key 9 of the first pair is connected to the clock generator 1 through the pseudo-random sequence generator 6 and the frequency divider 5 by 2n, and the control input 15 of the second key 10 of the first pair is connected to the clock generator 1 through the inverter 4, the pseudo-random generator 6 sequences and frequency divider 5 2n.

 The control input 16 of the first key 12 of the second pair is connected to the clock generator 1 through the pseudo-random sequence generator 6 and the frequency divider 5 by 2n, and the control input 17 of the second key 13 of the second pair is connected to the clock generator 1 through the inverter 4, the pseudo-random sequence generator 6 and divider 5 frequencies at 2n.

 The inputs of the first key 9 and the second key 13, respectively, of the first and second key pairs are connected directly to the output of the clock generator 1, and the inputs of the second key 10 and the first key 12, respectively, of the first and second key pairs are connected to the clock output through the first inverter 3.

 The noise generator comprises a transformer 18 with taps 19 and 20 of the primary winding connected to the outputs 21 and 22 of a push-pull power amplifier 7.

 The noise generator contains an unauthorized signal detector, including a detector 23, the output of which 24 is connected to the comparator 25 through its first input 26. The comparator 25 has a threshold level driver 28 at the second input 27, a pulse generator 30 at the control input 29, and an indication unit at the output 31 32. The detector 23 inputs 33 and 34 is connected to the taps 35 and 36 of the secondary winding of the transformer 7, and the pulse generator 30 is connected to the control input 37 of the clock generator 1.

 The noise generator is connected by taps 35 and 36 of the secondary winding of the transformer 18 to the communication line (not shown in Fig.). The input 27 of the comparator 25 is supplied with voltage (form 0 in Fig. 2) from the threshold level driver 28. A mixture of noise and signal from an unauthorized connected transmitter (for example, in the form of a K-sequence of pulses) present in the communication line is detected in the detector 23, and the detection result in the form of an N-sequence of pulses is compared with the threshold level of form 0 in the comparator 25. If the threshold is exceeded of form 0, a signal in the form of P appears at the output of the comparator by the signal of an unauthorized connected transmitter, which initiates the display unit 32. The pulse generator 30 issues a blocking signal to the clock generator 1 ue in the form of pulses M, a comparator 25 to allow the pulses in the form of L, and allowing pulses delayed with respect to pulse blocking time provides damping of the transient, occurring after the blocking (off) of the noise generator.

Claims (1)

 A noise generator containing a clock generator, a first inverter connected to its output and, through a 2n frequency divider and a pseudorandom sequence generator connected in series, a second inverter, a transformer and a push-pull power amplifier connected to the outputs of its primary windings, the first and second inputs of which are connected respectively to the first and a second pair of keys connected in parallel in each pair, in which the control inputs of the first keys in each pair are connected to the clock through a pseudo-random sequence generator and a 2n frequency divider, the control inputs of the second keys of each pair mentioned are connected to the clock generator through a second inverter, a pseudo-random sequence generator and a 2n frequency divider, the input of the first key of the first pair and the input of the second key of the second pair are connected directly to the output of the clock generator and the input of the second key of the first pair and the input of the first key of the second pair are connected to the output of the clock generator through the first inverter, characterized in that it is equipped with an unauthorized signal expander comprising a detector, a comparator, a threshold level driver, an indication unit and a pulse generator, the comparator being connected by a first input to a detector output, a second input with a threshold level driver, an output with an indication unit and a control input with a pulse generator, which is connected to the control input of the clock generator, and the input of the detector is connected to the taps of the secondary winding of the transformer.

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