Show metadata Hide metadata

(19)

(11)

2 732 005

(13)

(51)

IPC

H04B1/10(2006-01-01)

(21) (22)

Application

2019111490, 2019-04-17

(24)

Start date

2019-04-17

(22)

Actual filing date

2019-04-17

(45)

Published

2020-09-09

(72)

Inventor

Vilner Valerij GrigorevichZemlyanov Mikhail MikhajlovichKuznetsov Evgenij ViktorovichSafutin Aleksandr Efremovich

(73)

Holder

Aktsionernoe Obshchestvo Institut Im. M.F. Stelmakha"

PULSE SIGNAL RECEPTION METHOD Russian patent published in 2020 - IPC H04B1/10

Abstract RU 2732005 C1

FIELD: physics.

SUBSTANCE: invention relates to the reception of signals, in particular to the technique of signal extraction from noise, and can be used in any area where it is required to provide maximum signal-to-noise ratio. For this purpose, in the method of receiving pulse signals by adjusting the threshold level depending on the frequency of its excess noise, frequency f₀ of the threshold device triggering from the noise action at zero threshold value is pre-determined, setting threshold at level 0 < U₁ < U₂, then increasing threshold to level U₂, simultaneously determining frequency f of noise operations, and at frequency f = f₂ = kf₀, where k is a predetermined coefficient from the range of k = 0.01…0.9, increasing threshold by m times to level U₃ = mU₂ and receiving pulse signals.

EFFECT: technical result consists in considerable reduction of time for entering the mode.

1 cl, 2 dwg

Similar patents RU2732005C1

Title	Year	Author	Number
METHOD FOR AUTOMATIC STABILIZATION OF THRESHOLD FREQUENCY CROSSING FREQUENCY BY NOISE PROCESS EMISSIONS	2019	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich	RU2718856C1
SIGNAL RECEIVING METHOD	2020	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich	RU2750443C1
METHOD FOR DETECTING OPTICAL SIGNALS USING AVALANCHE PHOTODIODE	2023	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich Sedova Nadezhda Valentinovna Turikova Galina Vladimirovna	RU2815330C1
NOISE DISPERSION METHOD	2023	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich Sedova Nadezhda Valentinovna	RU2797829C1
PULSE THRESHOLD DEVICE WITH NOISE THRESHOLD STABILIZATION	2019	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich	RU2732004C1
METHOD FOR PULSE LOCATION RANGING	2022	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Koronnov Aleksej Alekseevich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich Sedova Nadezhda Valentinovna Shishkina Irina Aleksandrovna	RU2792086C1
THRESHOLD DEVICE WITH THRESHOLD NOISE STABILIZATION	2019	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich	RU2721174C1
METHOD FOR THRESHOLD DETECTION OF OPTICAL SIGNALS	2021	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich Sedova Nadezhda Valentinovna	RU2778629C1
THRESHOLD DEVICE WITH AUTOMATIC NOISE STABILIZATION OF THRESHOLD	2019	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich	RU2732003C1
METHOD FOR RECEIVING PULSED OPTICAL SIGNALS	2021	Vilner Valerij Grigorevich Zemlyanov Mikhail Mikhajlovich Kuznetsov Evgenij Viktorovich Safutin Aleksandr Efremovich Sedova Nadezhda Valentinovna	RU2778048C1

RU 2 732 005 C1

Authors

Vilner Valerij Grigorevich

Zemlyanov Mikhail Mikhajlovich

Kuznetsov Evgenij Viktorovich

Safutin Aleksandr Efremovich

Dates

2020-09-09—Published

2019-04-17—Filed