ОПТОЭЛЕКТРОННОЕ УСТРОЙСТВО ИЗМЕРЕНИЯ ВЫСОКОЧАСТОТНОГО НАПРЯЖЕНИЯ НА ВЫСОКОВОЛЬТНЫХ ВВОДАХ

Предлагаемое изобретение относится к области электротехники, а именно к непрерывному контролю состояния электрооборудования высокого напряжения, и предназначено для регистрации случайных высокочастотных перенапряжений. Оптоэлектронное устройство содержит измерительный оптический тракт, состоящий из последовательно соединенных источника и приемника оптического излучения, двух волоконно-оптических кабелей, электрооптической ячейки. Ячейка подключена к емкостному делителю напряжения, выполненному в виде последовательно соединенных высоковольтной и заземленной низковольтной емкостей, в источник оптического излучения введен калибратор, высоковольтная емкость образована собственной емкостью высоковольтного ввода. Параллельно низковольтной емкости подключены электрооптическая ячейка и дополнительно введенные разрядник с варистором, расположенные в герметичном корпусе устройства присоединения. С другой стороны к устройству присоединения подключены волоконно-оптические кабели. Техническим результатом ...

Способ демодуляции сигнала волоконно-оптического датчика тока

FIELD: measurement technology.SUBSTANCE: invention relates to the field of optical methods for measuring physical quantities using phase fiber optic sensors, including fiber-optical interferometers used to measure electromagnetic fields. Method for demodulating a fiber optic current sensor signal includes an auxiliary modulation of the phase difference in a phase fiber optic sensor by a harmonic signal, extracting from the signal received from a photodetector installed at an output of the phase fiber optic sensor, voltages of the first and second harmonics of the auxiliary modulation frequency, synchronous detection of the voltages of the first and second harmonics of the auxiliary modulation frequency, and the calculation of the desired phase difference. In this case, emit the voltage of the fourth harmonic of the auxiliary phase modulation frequency, detect synchronously and calculate the value of the sought voltage phase difference from the outputs of the first, second and fourth harmonic detectors using the proposed formula.EFFECT: improving the demodulation accuracy of the fiber optic current sensor signal when the amplitude of the auxiliary modulation of the phase difference varies with the phase fiberoptic sensor in the harmonic signal.1 cl, 3 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 682 981 C1 (51) МПК G01R 15/22 (2006.01) G01R 15/24 (2006.01) G01R 19/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК G01R 15/22 (2018.08); G01R 15/24 (2018.08); G01R 19/00 (2018.08); G01B 9/02 (2018.08) (21)(22) Заявка: 2018138506, 31.10.2018 (24) Дата начала отсчета срока действия патента: Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 31.10.2018 (45) Опубликовано: 25.03.2019 Бюл. № 9 2 6 8 2 9 8 1 R U (56) Список документов, цитированных в отчете о поиске: RU 2470477 C1, 20.12.2012. RU 2595320 C1, 27.08.2016. RU 2408996 C2, 10.01.2011. RU 2099892 C1, 20.12.1997. US 0006556509 B1, 29.04.2003. US ...

ВОЛОКОННО-ОПТИЧЕСКИЙ ИЗМЕРИТЕЛЬ НАПРЯЖЕНИЯ

... 1. Оптический измеритель напряжения, содержащий чувствительный элемент в виде, по меньшей мере, одной пары идентичных пьезокристаллических цилиндров, соединенных торцами так, что электрические оси их пьезокристаллов соосны и направлены встречно, при этом каждый цилиндр обмотан одномодовым оптоволокном, на свободном торце которого установлено зеркало Фарадея, оптоволокна введены в плечи интерферометра Майкельсона с помощью оптического ответвителя три на три, к портам которого оптически подключены первый и второй фотоприемники излучений, отраженных зеркалами Фарадея, источник лазерного излучения с циркулятором, отвод которого подведен к третьему фотоприемнику, при этом фотоприемники подключены через блок аналого-цифрового преобразования к программируемому блоку цифровой обработки, выполненному с возможностью вычисления интерференционного сдвига фазы, пропорционального измеряемому напряжению, по величинам интенсивности излучения на выходах фотоприемников и значениям вносимых оптическим ответвителем ...

Дистанционный указатель высокого напряжения

Photoelectric detector utilising charge separation - has photo diode connected to differential amplifier bridged by temp. dependent resistor compensating for hysteresis

The photo-electric detector uses charge separation in photo-sensitive, charge-separating components, caused by photon irradiation. The detector is not sensitive to resistance changes caused by heating of the photos-sensitive component. It reacts quickly, and relation between optical and electrical signals is unambiguous. The photosensitive, charge separating and/or generating component is directly connected to the input of an amplifier (3). A photo-diode (4) is placed at the input (1, 2) of a differential amplifier (3). Upon illumination, a signal arises at the output (5). To compensate for hysteresis changes caused by variations in the internal resistance of the diode (4), a temp.-dependent resistor (7) is inserted in the bridging path (6).

ANORDNUNG ZUR MESSUNG EINES WECHSELSTROMS IN EINER HOCHSPANNUNGSLEITUNG

FLÜSSIGKRISTALLANZEIGEVORRICHTUNG.

Limit-value detector for detecting leakage currents at high-voltage insulators which are under voltage or of stray currents in surfaces of metal bodies

To detect the conductivity of the contamination layer of a high-voltage insulator (1) under voltage or stray currents in metal bodies (17), for example in a pipeline run parallel to a high-voltage line, a measurement value pick-up is used which consists of two electrodes (3, 4 and 15, 16, respectively) attached at a predetermined distance to the surface of the high-voltage insulator (1) or of the metal body (17), respectively, which are connected to light-emitting diodes (7, 8). The light-emitting diodes (7, 8) are associated with the end (9a) of an optical waveguide (9) which is extended to a receiving device (11). The other end (9b) of the optical waveguide (9) is associated with a photodiode (12) which feeds a display or recording device (14) via an amplifier (13). At a particular level of the leakage current occurring at the insulator (1) or at the metal body (17), the light-emitting diode (7 or 8) transmits a light signal which is transmitted via the optical waveguide (9) to the receiving ...

SYSTEM FOR SENSING CURRENT IN HIGH VOLTAGE TRANSMISSION LINES UTILIZING THE TRANSMISSION OF DIGITAL INFORMATION BY OPTICAL FIBERS

Verfahren und Vorrichtung zur Überwachung einer Zustandsgröße eines Leistungsschalters

Verfahren zur Erfassung und Überwachung wenigstens einer Zustandsgröße eines Leistungsschalters, der einen Federenergieantrieb mit einer Ausschaltfeder und einer Einschaltfeder enthält, die durch Entspannung beim Einschalten des Leistungsschalters eine auf einer Welle drehbar gelagerten Kurvenscheibe antreibt, die durch einen Hebelmechanismus auf eine Antriebswelle einwirkt, mit der ein beweglicher Schaltkontakt des Leistungsschalters über ein Gestänge verbunden ist, wobei die Einschaltfeder im Anschluß an den Einschaltvorgang wieder gespannt wird, dadurch gekennzeichnet, daß beim Einschaltvorgang der von der Welle der Kurvenscheibe ab dem Einschalten des beweglichen Kontakts bis zum Beginn eines, von einem Motor bewirkten Spannarbeitsgangs zurückgelegte Drehwinkel gemessen wird, der anschließend zur Überprüfung der Zustandsgröße des Leistungsschalters ausgewertet wird.

CURRENT TRANSFORMER

Remote transmission process and device

... 1,125,676. Photo-electric measurement of high voltage systems. BROWN BOVERI & CO. Ltd. Feb.1, 1967 [Feb.3, 1966], No.4909/67. Headings G1A and G1U. [Also in Division G2| Measured values are transmitted from a region of high potential to a region of low potential by causing the measured value to modulate the position of a mirror which modulates interferometrically a monochromatic light beam emitted from and received at the region of low potential. Light from a gas laser is transmitted by an optical fibre 10 to an interferometer 7 in the vicinity of a high voltage conductor the current wherein is to be measured. The light beam is split by a Koesters prism 19 to provide beams which are reflected by mirrors 16 and 17 on to a fixed mirror 21, which causes the beam to retrace its path. The portion of the output of a transducer measuring the conductor current is picked off by a temperature variable potentiometer, integrated and applied to electrostrictive converters 14, 15 to modulate the position ...

ELECTRICAL CURRENT MEASUREMENT

SIMILAR SIGNAL TRANSMISSION FLOATING WITH CALIBRATION FUNCTION

MEASURING INSTRUMENT IN HIGH-VOLTAGE EQUIPMENTS

DISTANCE-NEUTRAL OPTICAL TENSION SENSOR

APPARATUS FOR THE COLLECTION AND MEASUREMENT OF A RIVER ON A POWER TRANSMISSION LINE.

LIQUID CRYSTAL DISPLAY DEVICE.

Switching configuration for the measurement of rivers at high potential

AN ARRANGEMENT FOR USE WITH HIGH VOLTAGE EQUIPMENT

SYSTEM AND METHOD FOR MEASURING CURRENT IN A HIGH TENSION LINE USING DIGITAL INFORMATION TRANSMITTED BY OPTICAL FIBERS

L'invention est relative à un système et une méthode permettant de capter et mesurer l'intensité d'un courant électrique circulant dans une ligne haute tension. Un ensemble shunt d'entrée capte le courant à mesurer. Un circuit émetteur, localisé à l'intérieur du shunt, transmet une valeur échantillon du courant traversant cet ensemble shunt, cet émetteur étant constitué de circuits convertisseurs capables de créer un signal de sortie numérique, codé, correspondant à la valeur échantillon du courant. Ce signal codé est ensuite transformé en un signal lumineux qui est transmis à un circuit récepteur au moyen d'une fibre optique. Le circuit récepteur possède les circuits nécessaires au décodage et à la reconstitution du signal codé afin de déterminer la valeur du courant échantillonné.

METHOD AND APPARATUS FOR SIGNAL TRANSMISSION

INVENTOR: JIRI MASTNER INVENTION: METHOD AND APPARATUS FOR SIGNAL TRANSMISSION By configuring conventional delta modulation with a neutral zone there is obtained improved transmission of the modulating input signal. Additionally, the neutral zone prevents rapid running away of the reconstructed integrated output signal in the event of faulty dropout of signal transmission. Furthermore, periodic resetting of the receiver side integrator during null thorughpass or crossover of the input signal, possibly artificially produced, enables maintaining a small drift error between the input signal and the output signal.

CIRCUIT TESTERS

The present invention relates to improvements in test equipment for electronic circuits already mounted and assembled, notably printed circuit boards. The invention provides observation means based on the use of the electro-optical principles of certain materials. A functional tester in accordance with the invention has easy effective diagnostic processes.

OPTICAL ASSEMBLAGE FOR DETECTING AND READING THE CURRENT IN INDOOR AND OUTDOOR LOW, MEDIUM AND HIGH VOLTAGE SYSTEMS

La présente invention permet d'effectuer la lecture de l'intensité du courant et du champ électrique d'un conducteur sous tension (20) en utilisant seulement un lien optique (4&5) de longueur variable entre le conducteur sous tension (20) et l'appareil de lecture. Pour se faire le conducteur sous tension (20) doit être muni d'un transformateur de courant (2). Le signal de sortie du transformateur de courant (2) est convertie électroniquement en un onde lumineuse qui est transmit via un lien en fibre optique (5) jusqu'à un récepteur optique (10) qui la reconvertie soit en signal analogique ou numérique selon l'utilisation requise. L'alimentation en énergie pour faire fonctionner le convertisseur électronique (1) qui est localisé à proximité du transformateur de courant (2) est aussi fourni par un lien optique (4) se qui a pour conséquence qu'aucun lien électrique et galvanique n'existe entre le conducteur sous tension (20) et l'appareil de lecture et ainsi élimine les besoins habituels d'isolation ...

Appareil de mesure électrique

Verfahren und Einrichtung zur Fernmessung mit Hilfe modulierter Lichtbündel

Anordnung zur Modulation von Gleichspannungs- und Gleichstromsignalen

Schaltungsanordnung zur Messung von Strömen auf Hochspannungspotential

Messeinrichtung für Ströme in Hochspannungsleitern

Messeinrichtung für Ströme in Hochspannungsleitern mit Übertragung der Messwerte in Form von Impulsen von einer hochspannungsseitigen Sendeeinrichtung zu einer niederspannungsseitigen Empfangseinrichtung

Freiluftbeständige Isoliereinrichtung

Current measuring device

Two-pole high-voltage phase tester

PROCEDURE AND MECHANISM FOR THE PRODUCTION AND TRANSMISSION OF SIGNALS, TO SUPERVISION PHYSICAL CHARACTERISTIC OF A MATERIAL REFLECTING.

SWITCHING CONFIGURATION FOR THE MEASUREMENT OF RIVERS AT HIGH POTENTIAL.

PROCEDURE AND MECHANISM FOR THE SIGNAL TRANSMISSION.

Current measuring arrangement

In this current measuring arrangement, the conductor (1) carrying the current to be measured exhibits a constriction (2). A magnetic-field-dependent element (3) such as, for example, a Rogovski coil or a semiconductor, is attached around the constriction where a relatively high current-proportional magnetic field prevails. The measurement-value converter (10) converting the measurement values occurring at the connections of the magnetic-field-dependent element into an optical signal is accommodated in a hollow space (8) which is free of electromagnet fields and is arranged directly adjacently to the constriction. In the same hollow space, the batteries (11) used for supplying the measurement-value converter with current are inserted. An optical waveguide (13) connects the measurement-value converter (10) to an output unit which generates electrical output signals from the optical signals. ...

A=D circuit for analogue measuring voltages - has opto-electronic coupling between switched storage capacitor circuit and output

The circuit allows analogue measuring voltages to be converted into potentially separated digital signals, using successive charging and discharging of a storage capacitor (2), under control of a switch stage (5). The discharge resistance (6) is connected in series with an LED (7) forming part of an opto-electronic coupling (9) the other part of which is provided by a phototransistor connected across a pair of outputs (A1,A2) providing the digital signal. Pref. the switch stage (5) has a comparator allowing the period of the digital signal to exhibit a defined ratio relative to the received measuring voltage. ADVANTAGE - Applicable to wide measuring range.

Circuit for measuring isolation voltage

Optoelectronic isolation circuit

Ground disconnecting alarm

The invention discloses a ground disconnecting alarm, which is designed for preventing static hazard with site alarm display and switch signals to be outputted to a computer control system during loading and unloading of liquid petroleum products in an oil depot area. The alarm is mainly suitable for inflammable and explosive places of petrochemical industry, oil depot goods delivery stations, gas stations, tank trucks loading and unloading and the like for static grounding to control monitoring alarm, which ensures that static conduction in oil delivery operation is reliably ensured. The alarm comprises an alarm circuit, a control signal circuit, an alarm circuit box, a control signal circuit box and connection cables, wherein the alarm circuit box is connected with the control signal circuit box by the connection cables and is internally provided with a printed circuit board and an electronic element; the control signal circuit box is internally provided with a relay, an indicator light ...

Long time non-zero floation photoelectric isolator

SECURITY PACKAGE FOR HIGH VOLTAGE SIGN.

Measurement of AC in HV line - has coil supplying full wave rectifier producing signal for transmission via fibre optic cable to remote control

PROCESS AND DEVICE OF TRANSMISSION OF SIGNALS

DISPOSITIF INTERFEROMETRIQUE DE MESURE DE COURANT ELECTRIQUE A FIBRE OPTIQUE

L'INVENTION CONCERNE UN DISPOSITIF INTERFEROMETRIQUE A FIBRE OPTIQUE 1 DESTINE A LA MESURE DU COURANT VEHICULE PAR UNE LIGNE HAUTE TENSION 2 DU TYPE COMPRENANT UN ENROULEMENT 8 PARCOURU PAR UN COURANT DE CONTRE-REACTION. LE DISPOSITIF COMPREND AU MOINS UNE EMBASE AU POTENTIEL DE LA TERRE COMPRENANT DANS UNE VARIANTE PREFEREE LE COEUR 4 DE L'INTERFEROMETRE ET L'ENROULEMENT DE CONTRE-REACTION 8, UN SUPPORT ISOLANT ET UNE TETE DE MESURE ENFILEE SUR UN CONDUCTEUR PARCOURU PAR LE COURANT A MESURER. DANS UNE VARIANTE PREFEREE, LE CABLAGE DE LA FIBRE OPTIQUE 1 EST M FOIS LA REPETITION DU TRAJET: EMBASE-TETE DE MESURE, UNE SPIRE AUTOUR DU CONDUCTEUR 2, TETE DE MESURE-EMBASE ET N SPIRES AUTOUR DE L'ENROULEMENT DE REFERENCE 8.

Boîtier de sécurité pour enseigne haute tension.

Il s'agit d'un boîtier de sécurité (18) du genre propre à recevoir, sur une borne d'entrée (E), un signal délivré par un circuit de détection sensible à un éventuel amorçage à la terre de la partie haute tension de l'enseigne concernée, et à piloter, en conséquence, par une borne de sortie (T), l'alimentation du transformateur desservant cette enseigne. Suivant une disposition de l'invention, ce boîtier de sécurité (18) porte, en évidence, un voyant lumineux (28), qui se trouve sous tension, et donc allumé, lorsqu'un tel défaut d'amorçage à la terre a été détecté. Application aux enseignes haute tension.

AMMETER

Measurement of AC in HV line - has coil supplying full wave rectifier producing signal for transmission via fibre optic cable to remote control

DEVICE FOR MEASURING AN ELECTRIC FIELD AND/OR MAGNETIC ESPECIALLY IN AN OVERHEAD POWER CONDUCTOR

Current detector for relay control from electronic processor - has opto-electronic coupler using LED supplied by voltage drop across silicon diodes connected in series within relay circuit

OPTICAL RECEIVER CORRECTING THE EFFECTS OF DISPERSION ON THE IMPULSES

PROCEDE ET APPAREIL POUR LA MESURE A DISTANCE DE L'INTENSITE D'UN COURANT ELECTRIQUE

Procédé et installation pour la mesure à un poste de l'intensité d'un courant électrique circulant dans un circuit distant dudit poste et susceptible d'être à un potentiel très différent de ce dernier. On adjoint audit circuit un tube à décharge lumineuse et un circuit associé dont les caractéristiques sont choisies pour que le tube fournisse des impulsions lumineuses par relaxation à partir du courant à mesurer, un conducteur de lumière étant interposé entre ledit tube et une photodiode ou analogue que comporte le poste de mesure. Application à la mesure du courant d'ionisation résultant d'un effet de pointe ou effet corona.

PORTABLE CHARGER FOR VEHICLE

Provided is a portable charger for a vehicle, comprising: a plurality of LEDs displaying a current amount; a signal output part outputting a pulse corresponding to an input of a current setting button; and an operation control part sequentially lighting the plurality of LEDs so that the current amount corresponding to the number of inputs of the pulse is displayed. The operation control part performs self-diagnosis whether or not an internal error occurs if a pulse holding time exceeds a predetermined reference time when the pulse is inputted, and controls error information to be displayed in at least one of a color pattern among the plurality of LEDs when the internal error occurs. COPYRIGHT KIPO 2017 ...

SYSTEM FOR DETECTING BREAKDOWN POINT OF DISTRIBUTION LINE

The present invention relates to a system for detecting a breakdown point of a distribution line. More specifically, the system for detecting a breakdown point of a distribution line is installed on a distribution line to display, to the outside, whether or not the distribution line breaks down and allows a check on a broken-down distribution line to be easily implemented. The system for detecting a breakdown point of a distribution line includes: a control unit; a detection unit detecting at least one among a current, a voltage, and a temperature on the distribution line and outputting detection data; a breakdown determination unit determining a breakdown on the distribution line by using the detection data; a lamp unit turned on according to the control of the control unit; a first communications unit transmitting breakdown information to the outside; and a second communications unit receiving distribution line wide area breakdown information from a power distribution center. COPYRIGHT ...

APPARATUS FOR MEASURING ELECTRICAL ENERGY TRANSMITTED TO RAIL TRACTION UNIT BY HIGH VOLTAGE LINE, CAPABLE OF BEING MINIATURIZED TO BE RECEIVED IN AN INSULATOR FOR A HIGH VOLTAGE LOOP CABLE OF THE RAIL TRACTION UNIT

PURPOSE: An apparatus for measuring the electrical energy transmitted to a rail traction unit by a high voltage line is provided to achieve the high level electrical insulation between a high voltage step and a low voltage step of the measuring apparatus. CONSTITUTION: An apparatus for measuring the electrical energy transmitted to a rail traction unit by a high voltage line(1) includes a measuring device(5) for measuring extraction current, and a measuring device(12) for measuring the voltage of power. The measuring devices have low voltage powers(23,24) required for the operation thereof. The low voltage powers are obtained from optical energy converted into the electrical energy. Output signals from the measuring devices are converted into optical signals. The measuring devices are received in an insulator of a loop high voltage cable(L). © KIPO 2008 ...

광섬유 기반 패러데이 회전거울 및 이를 이용한 광섬유 전류 센싱 시스템

... 광섬유 기반 패러데이 회전거울 및 이를 이용한 광섬유 전류 센싱 시스템을 제공한다. 본 발명의 일 실시예에 따르면, 입사되는 광의 편광 방향을 기 설정된 각도만큼 회전시키는 패러데이 회전부와 상기 패러데이 회전부의 외곽에 배치되며, 자력을 발생시키는 자성부와 상기 패러데이 회전부로 광이 입사하는 위치로 먼 끝단에 형성되어, 입사되는 광을 반사시키는 미러부 및 센싱용 광섬유와 융착되어, 상기 센싱용 광섬유로부터 입사되는 광을 분산시켜 상기 패러데이 회전부로 전달하거나, 상기 미러부로부터 반사되어 상기 패러데이 회전부를 거친 광을 입사받아 상기 센싱용 광섬유로 전달하는 언덕형 광섬유를 포함하는 것을 특징으로 하는 패러데이 회전거울을 제공한다.

OPTICAL FIBER FOR SENSOR AND POWER DEVICE MONITORING SYSTEM

Provided is an optical fiber that is for a sensor and that can highly precisely measure current and voltage. The optical fiber (10) for a sensor is provided with: an FBG (12) of which the core refractive index changes cyclically; a metal layer (13) covering the FBG (12); and a pair of electrodes (14, 15) provided to the metal layer (13). The electrodes (14, 15) are connected to a desired position of a measurement subject, and on the basis of the change in the Bragg wavelength of the FBG (12), the current flowing through the metal layer (13) is calculated.

GALVANICALLY SOLATED VOLTAGE MEASUREMENT

In a, voltage measurement apparatus high - i.e. un-attenuated - voltages are connected to an attenuator (12), which then feeds attenuated voltage waveforms to a microprocessor-based analogue-digital converter/voltage measurement circuit (14). A representative signal voltage signal (16) and: a synchronising signal (18) are then sent across an optical isolation barrier (20), and are then output to metering circuits (22). The metering circuits (22) receive analogue current inputs (24) which are sampled in synchronism with the digital voltage signals for an accurate measurement of power. Safe outputs (26) are provided which are isolated, from any dangerous voltage.

ACTIVE OPTICAL CURRENT MEASURING SYSTEM

The invention relates to an active optical current measuring system (2). According to the invention, said current measuring system (2) consists of a sensor (4) fitted with current busbars (12, 14) and a light-guide terminal and consisting of two parts (8, 10) which when put together have a hollow space (16), and a sensor electronics system (6) fitted in said hollow space (16) and connected on the output side to the light guide terminal, in which the sensor (4) is a measuring resistor. This provides a current measuring system (2) by means of which d.c. currents can also be detected, and this sensor electronics system (6) is mechanically protected and electromagnetically screened.

SWITCHING VALUE ACQUISITION CIRCUIT AND METHOD

A switching value acquisition circuit. The circuit comprises a control power supply state detection loop, an MCU signal acquisition control loop, and at least one switching value acquisition loop; the switching value acquisition loop comprises a primary acquisition optocoupler (U3) and a secondary acquisition optocoupler (U2); and the MCU signal acquisition control loop is used for controlling, in response to level signals detected by the control power supply state detection loop, to disconnect the secondary acquisition optocoupler (U2) to acquire switching value signals only by the primary acquisition optocoupler (U3), or to enable both the secondary acquisition optocoupler (U2) and the primary acquisition optocoupler (U3) to acquire switching value signals. The switching value acquisition circuit can choose to output using one optocoupler or two optocouplers in parallel and acquire the control power supply voltage to dynamically change the transmission gain of the acquisition loop, such ...

Voltage presence indication device and electrical apparatus comprising such an indicator

The voltage presence indication device comprises a collector electrode (2) designed to have at least one capacitive connection (5) with an electrical ground (6) or a capacitive connection (3) with an electrical conductor (4) to be monitored, and display means (7) connected to said collector electrode (2) to indicate the presence of an electrical voltage in said electrical conductor to be monitored. The display means comprise at least one multilayer device (11). The multilayer device comprises a light-emitting layer (12) arranged between a first insulating layer (13) and a second insulating layer (14), a first conducting layer (15) arranged on the first insulating layer (13) and connected to said conducting electrode (2), and a second conducting layer (16) arranged on the second insulating layer (14). An electrical apparatus comprises such a device.

Galvanic isolation device

L'invention concerne un dispositif d'isolation analogique (100) comprenant des parties primaire (102) et secondaire (104) séparées par une barrière d'isolation galvanique, ces parties comportant une voie haute fréquence configurée pour restituer dans la partie secondaire une composante haute fréquence, et une voie basse fréquence configurée pour restituer dans la partie secondaire une composante basse fréquence, afin de former le signal de sortie à partir des composantes haute fréquence et basse fréquence, le dispositif comprenant en outre un circuit d'asservissement (D1, 132) pour recevoir, dans la partie primaire, un signal de consigne (Sic) et un signal dit image (Soim) représentatif du signal de sortie (So) et pour appliquer, sur au moins l'une des voies haute fréquence et basse fréquence, un signal de correction (VCOR) fonction de la différence entre le signal image et le signal de consigne afin de faire tendre cette différence vers zéro.

CHARGED PARTICLE BEAM EXPOSURE SYSTEM

PURPOSE: To quicken the time of setting an amplification circuit and to enable high-speed drawing by inserting a sample and hold circuit between a signal processing circuit and the amplification circuit. CONSTITUTION: A sample-and-hold circuit 20 samples and holds output signal S0 of sample-and-hold signal SH supplied from a control circuit 12 to output it to an amplification circuit 18. The signal SH samples a signal value of the output signal S0 during a stable period and holds it for a suitable time. Hold signal SOUT is amplified in the amplification circuit 18 and outputted as deflection drive signal DDEF; however, setting time in this case is determined only by the setting times of the sample-and-hold circuit 20 and the amplification circuit 18 themselves. As the result, it is unnecessary to take much of the blanking period of blanking signal BK, so that wasteful time other than a time necessary for exposure can be saved. COPYRIGHT: (C)1992,JPO&Japio ...

СВЕТОИЗЛУЧАЮЩИЙ МАТЕРИАЛ, СВЕТОИЗЛУЧАЮЩЕЕ ТЕЛО И СПОСОБ ИЗЛУЧЕНИЯ СВЕТА

Изобретение относится к оптике. Светоизлучающий материал обеспечивает получение светоизлучающего тела, имеющего низкую характеристику возбуждения и высокую яркость, за счет использования светоизлучающего основного материала с добавленными в него и распределенными в нем наночастицами. Технический результат - расширение диапазона светоизлучающих тел с высоким качеством излучения и с простой структурой. Также предложено светоизлучающее тело, содержащее светоизлучающий материал, и способ излучения света. 6 н. и 35 з.п. ф-лы, 7 ил.

ВОЛОКОННО-ОПТИЧЕСКИЙ ДАТЧИК ЭЛЕКТРИЧЕСКОГО ТОКА

FIELD: measuring equipment. SUBSTANCE: invention relates to measuring electric currents and concerns a fibre-optic electric current sensor. Sensor has a radiation source, an inlet and an outlet connectors, an inlet and an outlet collimators, a polarizer, an optically active crystal, an analyzer, a photodetector. Polarizer and the analyzer have a coefficient of extinction of not less than 100 and their optical axes are turned relative to each other at an angle, which is selected from the condition of maximum temperature compensation at maximum sensitivity. EFFECT: technical result is the improvement of accuracy of measurements. 1 cl, 2 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 606 935 C1 (51) МПК G01R 15/22 (2006.01) G01R 19/32 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2015138315, 08.09.2015 (24) Дата начала отсчета срока действия патента: 08.09.2015 Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 08.09.2015 "Волоконно-оптический датчик электрического тока на основе магнитооптических кристаллов Bi 12 SiO 20 и Bi 12 GeO 20 с чувствительным элементом однопроходного типа", ИЗМЕРЕНИЕ МОНИТОРИНГ УПРАВЛЕНИЕ КОНТРОЛЬ, No3(9), 2014 г., стр.41-46. RU 2213356 C2, 27.09.2003. WO 1989000701 A1, 26.01.1989. US 2015097551 A1, 09.04.2015. (54) ВОЛОКОННО-ОПТИЧЕСКИЙ ДАТЧИК ЭЛЕКТРИЧЕСКОГО ТОКА R U (57) Формула изобретения Волоконно-оптический датчик электрического тока, содержащий источник излучения, входной и выходной коннекторы, входной и выходной коллиматоры, поляризатор, оптически активный кристалл, анализатор, фотоприемник, причем оптические оси поляризатора и анализатора повернуты относительно друг друга на угол α0, который выбирается из условий максимальной температурной компенсации при максимуме чувствительности при длине оптически активного кристалла L0, отличающийся тем, что поляризатор и анализатор имеют коэффициенты экстинкции не менее 100. Стр.: 1 C 1 C 1 Адрес для ...

VERFAHREN UND ANORDNUNG ZUR FERNMESSUNG MIT HILFE VON INTENSITAETSMODULIERTEM LICHT

Gleichstrommessgerät mit passivem Eingang und mit galvanischer Isolierung, insbesondere für Hochspannung

ANORDNUNG ZUR MESSUNG EINES STROMES IN EINEM HOCHSPANNUNGSKREIS

Anordnung zur UEbertragung einer aus einem auf der Hochspannungsseite fliessenden Strom abgeleiteten Spannung von der Hochspannungs- auf die Niederspannungsseite

SPANNUNGSANZEIGER UND DAMIT VERSEHENES ELEKTRISCHES GERÄT

Method for disconnecting an electrical power source

In the case of sporadic current and voltage measurements in a measurement head (1) at high-voltage potential or in rooms where the electromagnetic interference is severe, the electrical power supply for the apparatuses (4-7) which are required for the measurement is effected by means of a local electrical power source (2), for example by means of an accumulator (rechargeable battery). The electrical power source (2) can be disconnected from (by) an electronic signal processing apparatus or amplifier (4) and an electrooptical transducer (7), by means of an electronic switch (3), in order to avoid unnecessary discharging, since the electrical power source can frequently be replaced only with great difficulty or in a time-consuming manner, for operational reasons. A signal evaluation device (10), which is at earth potential, is connected via fibre optic cables (8, 9) to the measurement head (1). The switch (3) can be closed by a switching-on signal (connection signal) (E) which can be preset ...

Improvements relating to electric-current-responsive apparatus

... 1,023,153. Photo-electric current measurement. ENGLISH ELECTRIC CO Ltd. Jan. 18, 1963 [Jan. 22, 1962], No. 2286/62. Headings G1A and G1U. Apparatus for the measurement of current in a high voltage A.C. transmission line 2 includes in combination an electric light source 6, means to supply the source with an A.C. component proportional to the current in the transmission line and a D.C. component larger than the largest normal A.C. component and means 12 responsive to the source 6. As shown, current from the line 2 is supplied to two current transformers 4, 5 by a current transformer 1, and a neon or other discharge tube 6 is supplied with D.C. from secondary cells 8 which are continuously charged by the transformer 4 through a rectifier 9 and with A.C. from the transformer 5. The resultant signal from a silicon junction photo-cell 12 which receives light from the tube 6 by means of a light guide 11 therefore consists of a sine wave reproduction of the line current in addition to a D.C. component ...

ELECTRONIC METHOD AND CIRCUIT FOR ANALYSING ANALOG SIGNALS;COIN TESTING

The method comprises establishing, in an analog signal 5A, different measurement areas TA, TB, TC, based upon the said signal's gradient changes, to establish a digital signal SD according to such changes. An electronic circuit is used comprising an operational amplifier (1), with a time delay (2) that compares the analog signal SA with the same signal, insignificantly delayed with regard to the signal duration. When measuring a property of a coin the circuit may include two pairs of photodiodes - phototransistors (8 - 8') for detecting the coin diameter in addition to an electromagnetic sensor 4 connected via an oscillator (5) with the amplifier. A microprocessor 3 measures the duration aid frequency ratios between each of the areas TA, TB, TC and adjacent areas. The oscillator (5) sends a signal straight to the microprocessor (3) and another through the basic circuit. ...

Improvements in and relating to electric measuring instruments

... 419,397. Current and pressure meters. BRITISH THOMSON-HOUSTON CO., Ltd., Crown House, Aldwych, London.- (Assignees of Allgemeine Elektricitats-Ges. ; 2, Friedrich Karl-Ufer, Berlin.) Aug. 23, 1933, No. 23478. Convention date, Aug. 23, 1932. [Class 37.] Apparatus for measuring currents or voltages comprises an energyradiating device such as an incandescent electric lamp 12 mounted at one end of an insulating tube 13, a ray-sensitive device such as a photo-electric cell 15 being located at the other end and being connected to an indicating instrument 17 through an amplifier 16. A reflector 14 may be provided. The insulator 13 may support the high tension conductor. The Specification as open to inspection under Sect. 91 describes the energization of the lamp 12 from a separate source, and the substitution of a relay for the measuring instrument 17. This subject-matter does not appear in the Specification as accepted.

MAGNETOOPTICAL HIGH VOLTAGE CURRENT MEASURING TRANSDUCERS

Improvements in and relating to high voltage measuring apparatus

... 485,172. Protective cut-out arrangements. BRITISH THOMSON-HOUSTON CO., Ltd. Nov. 12, 1936, No. 30924. Convention date, Nov. 13, 1935. [Class 38 (v)] [Also in Groups XXXVI and XL] The indication on a lowvoltage circuit of the conditions on a high-voltage line by producing lightrays responsive to the high - voltage conditions and energizing a lightsensitive cell is effected by means of a current transformer 11 having its core 12 and secondary winding 13 connected to the highvoltage conductor, the light-rays being produced by an incandescent lamp or gas-discharge tube 21. An impedance 15 which may have a decreasing resistance with increasing applied voltage characteristic is connected across the device 21. An iris diaphragm 19 is employed to modify the light-rays falling on the cell 17 connected to relay 22. The Specification as open to inspection under Sect. 91 comprises, Fig. 6 (Cancelled), a voltageresponsive mercury vapour tube 24 connected to a " metal radiant ring " 25 supported by insulator ...

EINRICHTUNG ZUR ERFASSUNG VON ÜBERSTRÖMEN

MESSEINRICHTUNG IN HOCHSPANNUNGSANLAGEN

MECHANISM FOR PRODUCTION AND TRANSMISSION OF MEASURING SIGNALS FOR PHASE ANGLE MEASUREMENTS IN HIGH - AND MOST ALTERNATING VOLTAGE PLANTS

DIRECT CURRENT MEASURING INSTRUMENT WITH PASSIVE ENTRANCE AND WITH GALVANIC ISOLATION, IN PARTICULAR FOR HIGH VOLTAGE

TEMPERATURE COMPENSATED FARADAY EFFECT CURRENT SENSOR

LINE MOUNTED APPARATUS FOR MEASURING LINE POTENTIAL

LINE MOUNTED APPARATUS FOR MEASURING LINE POTENTIAL A self contained hot stick mounted radio transmitting module may be permanently mounted on or temporarily pushed against the power conductor of electrical transmission line. The module is capable of measuring the potential difference between the conductor and ground. The module digitizes and transmits the value of the potential difference to a ground receiver. The module is donut shaped and opens like a pair of jaws. The contact with the power line is accomplished via a resilient conductive elastomer that covers the surfaces in contact with the power conductor. The potential difference between ground and the power conductor is measured with an operational amplifier in an integrating configuration to convert the leakage current from the module to ground into a proportional voltage from a low impedance source. The integrator outputs a voltage proportional to the current flowing into the equivalent capacitance formed by the outer surface ...

Power battery pack single voltage monitoring circuit

Optical fiber current transformer

High-voltage detection circuit for battery management system of electric automobile

High -precision sampling circuit

Dual-power-supply voltage detection circuit

ASSEMBLY FOR THE MEASUREMENT OF CURRENTS, UNDER A HIGH POTENTIAL

Measuring device for high-voltage conductors rivers in

Apparatus successively to measure weak tensions by commutation

Measuring device for high-voltage conductors rivers in

Measuring device, in particular usable in a high-tension installation

WEATHER?RESISTANT LIGHT TRANSMITTING ISOLATING DEVICE

Fiber current sensor with reduced temperature sensitivity

A sensor head assembly is provided, comprising a quarter wave device having shape-induced-birefringence and a sensing coil coupled to the quarter wave device and operable to wind around a current conductor. The quarter wave device converts linearly polarized light from a polarization maintaining fiber to circularly polarized light.

Conductor to which current detection head is fixed, and current detection head used in manufacture of same

Provided is a technique for mass-producing a conductor to which is fixed a current detection head that detects the value of current flowing in the conductor, and in which the relationship between the detection value and the current value is stabilized. The head comprises a lens, a magneto-optical element, a conductor, and a fixing member, and the lens, the magneto-optical element, and the conductor are respectively fixed to the fixing member. An optical system is formed using the current detection head such that light is guided through the lens to the magneto-optical element, and light affected by a magneto-optical effect due to the magneto-optical element is guided to the lens. All of the members contributing to current detection are fixed to the fixing member, and therefore the relative positional relationships of all the members contributing to current detection are uniquely determined, enabling conductors with little variation in current detection characteristics to be mass-produced. A shape for determining the positional relationship between the fixing member and the conductor may be formed therebetween in advance, and the positioned current detection head and conductor may be fixed to obtain the conductor.

DISPLAY APPARATUS

A display apparatus is disclosed, which includes a display unit, an opening member, a light source, a light transmission member, and a buffer having a buffer main portion and a light block portion. The buffer main portion is held between the display unit and the light transmission member. The light block portion protrudes from the buffer main portion along an opposing surface of the light transmission member opposing the display unit, and covers a reached region of the opposing surface to which a direct light from the light source toward an opening of the opening member reaches. 1. A display apparatus comprising:a display unit that has a display screen for displaying information;an opening member that is located in a displaying direction of the display unit and defines a display opening in a region that overlaps the display screen in the displaying direction;a light source that is located at a place other than a region that overlaps the display opening in the displaying direction, wherein the light source radiates a light for illuminating the display screen; an emission main body portion that is located on an opposite side of the display unit from the opening member so that the display unit is located between the emission main body portion and the opening member and the emission main body portion emits the light from the light source toward the display screen in the displaying direction, and', 'a light guide portion that protrudes from the emission main body portion toward the light source to guide the light from the light source to the emission main body portion;, 'a light transmission member that is made of a light transmission material and includes'} a support portion that supports the light transmission member, and', 'a holding portion that opposes the support portion, wherein the light transmission member and the display unit are held between the support portion and the holding portion; and, 'a holder that holds the light transmission member and the display ...

Integrated optical circuit and method for measuring current as well as sensor module and measuring device

In an integrated optical circuit, light from a light source is polarized and coupled to a first and second strip waveguide. A waveguide coupling element couples the two optical signals from the two strip waveguides to different polarization modes of an optical fiber line. The optical fiber line is connected to a measuring head, which reflects the optical signal and in which a phase difference between the two optical partial signals is modulated in a magnetic field. In the waveguide coupling element, the reflected signal is split into two optical partial signals having the same polarization and the phase difference between the two partial signals is determined. A phase modulator device provides for closed-loop operation. Compared to fiber-optical concepts, the number of splices is reduced. 2. The integrated optical circuit according to claim 1 , characterized by a controllable phase modulator device claim 1 , which is suitable to impact a phase between the same polarization modes of the first and of the second optical signal.3. The integrated optical circuit according to claim 2 , characterized in that the phase modulator device comprises exactly one modulator unit claim 2 , which is assigned to one of the two strip waveguides.4. The integrated optical circuit according to claim 2 , characterized in that the phase modulator device comprises a modulator unit claim 2 , which acts on the first optical signals claim 2 , and a second modular unit claim 2 , which acts on the second optical signal.5. The integrated optical circuit according to claim 1 , characterized bya directional coupling element, which is suitable to couple an optical input signal at an input gate to the first and the second strip waveguide and to couple optical signals from the first and second strip waveguide to an output gate;a first optical signal path between the directional coupling element and the waveguide coupling element, comprising the first strip waveguide; anda second optical signal path ...

OPTICAL SENSOR FOR NON-CONTACT VOLTAGE MEASUREMENT

A voltage sensor for obtaining a light signal representative of an AC voltage in a live electrical wire having a surrounding electrical field, comprising: a conducting device adapted to be placed in the surrounding electrical field and in galvanic isolation to the live electrical wire for causing a movement of charges and extracting a current from the movement of charges; a micro-light source for emitting a light signal, the micro-light source being operatively connected to the conducting device for receiving the extracted current and being directly powered by the extracted current, an intensity of the light signal being related to a value of the AC voltage in the electrical wire; a light guide, operatively coupled to the micro-light source, for receiving and propagating the light signal over a distance. 1. A voltage sensor for obtaining a light signal representative of an AC voltage in a live electrical wire having a surrounding electrical field , comprising:a conducting device adapted to be placed in said surrounding electrical field and in galvanic isolation to said live electrical wire for causing a movement of charges and extracting a current from said movement of charges;a micro-light source for emitting a light signal, said micro-light source being operatively connected to said conducting device for receiving said extracted current and being directly powered by said extracted current, an intensity of said light signal being related to a value of said AC voltage in said electrical wire;a light guide, operatively coupled to said micro-light source, for receiving and propagating said light signal over a distance.2. The voltage sensor as claimed in claim 1 , wherein said conducting device is a conductive plate and wherein said conductive plate is operatively connected to an earth ground through said micro-light source.3. The voltage sensor as claimed in claim 1 , wherein said conducting device is two conductive plates and wherein said conductive plates are in ...

MEASURING SYSTEM HAVING SEVERAL SENSORS AND HAVING A CENTRAL EVALUATING UNIT

The invention relates to a measuring system for measuring electrical measurement variables (I I I U U U) in an electrical installation, in particular in a medium voltage installation or in a high voltage installation, including a plurality of sensors (--) which each measure at least one electrical measurement variable (I I I U U U) and output a measurement signal corresponding to the measurement variable (I I I U U U), and including a central evaluating unit () which receives the measurement signals from the sensors (--). 117-. (canceled)18. A measuring system for measuring electrical measurement variables in an electrical installation , comprising:a) a plurality of sensors each of which measures at least one electrical measurement variable and outputs a measurement signal corresponding to the at least one electrical measurement variable, andb) a central evaluating unit which receives measurement signals from the sensors.191. The measuring system as claimed in claim , whereina) at least one sensor of the plurality of sensors is at a potential close to high voltage,b) the central evaluating unit is at a potential close to earth, andc) the at least one sensor at the potential close to high voltage is galvanically separated from the central evaluating unit at the potential close to earth.20. The measuring system as claimed in claim 19 , wherein the central evaluating unit is connected via a light conductor to the at least one sensor at the potential close to high voltage claim 19 , in order to read out the measurement signal and to separate the central evaluating unit galvanically from the at least one sensor.21. The measuring system as claimed in claim 19 , whereina) a current supply unit is provided for supplying current to the at least one sensor at the potential close to high voltage, wherein the current supply unit is connected to the at least one sensor and is at a potential close to earth, andb) the current supply unit at the potential close to earth is ...

SMART METER VOLTAGE SENSING USING OPTICALLY COUPLED ISOLATORS

A transformer-less method and system for voltage and current sensing using voltage drops across resistors is disclosed. Using optically coupled isolators, the sensed voltages in the high voltage power lines are optically coupled and electrically isolated to the low voltage circuits. The circuit designs for voltage and current sensing's and electrical isolation are disclosed. 2. The method of claim 1 , wherein the IR emitting diode is biased in a forward conduction region to maximize a change in current with respect to a change of the applied forward voltage.3. The method of claim 1 , wherein the IR emitting diode operates at a forward conduction region of a current-voltage characteristic of the IR emitting diode with large gain to maximize sensitivity of the optically coupled isolator while minimizing current consumption.4. The method of claim 1 , wherein the optical transistor is in an emitter follower configuration.5. The method of claim 4 , wherein a load resistor is coupled to an emitter of the optical transistor to develop a voltage that is proportional and in phase to a sensed current.6. The method of claim 1 , whereas the optical transistor is in an open collector configuration.98. The system of claim claim 1 , wherein the IR emitting diode is biased in a forward conduction region to maximize a change in current with respect to a change of the applied forward voltage.108. The system of claim claim 1 , wherein the IR emitting diode operates at a forward conduction region of a current-voltage characteristic of the IR emitting diode with large gain to maximize sensitivity of the optically coupled isolator while minimizing current consumption.11. The system of claim 10 , wherein the optical transistor is in an emitter follower configuration.12. The system of claim 11 , wherein a load resistor is coupled to an emitter of the optical transistor to develop a voltage that is proportional and in phase to a sensed current.138. The system of claim claim 11 , whereas the ...

Methods and Apparatus for Measuring a Current

A method for measuring the current circulating through at least one conductor with the use of optical fiber-based measuring equipment is provided. According to one implementation the measuring equipment includes a first emitter that emits a first signal which reaches a sensing branch through a first branch, runs through the sensing branch, and is modified depending on the current circulating through the conductor. A modified first signal is received by a second receiver from a second branch. A second emitter emits a second signal which reaches the sensing branch through the second branch, runs through the sensing branch, and is modified depending on the current circulating through the conductor. A modified second signal is received by a first receiver from the first branch. The current circulating through the conductor is determined by combining the modified first signal and the modified second signal. 2. The method according to claim 1 , further comprising determining the first current circulating through the first conductor by combining the first modified first light pulse received in the second receiver with the first modified second light pulse received in the first receiver.3. The method according to claim 1 , wherein the first and second receivers respectively comprise first and second photodiodes that respectively convert the first modified second light pulse received in the first receiver and the first modified first light pulse received in the second receiver into respective first and second light intensities claim 1 , the method of determining the current circulating through the first conductor comprising combining the first and second light intensities.4. The method according to claim 1 , wherein the first sensing section comprises a first optical fiber winding arranged around the first conductor.5. The method according to claim 1 , further comprising a method for measuring a second current circulating through a second conductor located close to a second ...

Fiber-optic current sensor with spun fiber and temperature compensation

A fiber-optic current sensor uses a highly-birefringent spun fiber as sensing fiber. The light is fed through a retarder, which is a detuned quarter-wave or half-wave retarder. It is shown that such detuning can be used to compensate for temperature dependencies of the sensing head. 1. A fiber-optic current sensor comprisinga light source generating light in a wavelength range,a first linear polarizer receiving light from the light source and generating polarized light,a retarder receiving light from the first linear polarizer and having a retardation ρ=n·90°+ε, with n being an integer number,{'o': {'@ostyle': 'single', 'sub': 'LB', 'L'}, 'a spun sensing fiber being wound N times into a loop to be placed around a current conductor carrying a current I, having a Verdet-constant V, a spin pitch p≦100 mm, and, in said wavelength range, an average linear beat length ≦200 mm, wherein an input end of the spun sensing fiber receives light from the retarder, wherein a slow axis of the retarder is under an angle θ to a slow axis of the input end,'}a detector assembly adapted to determine a phase shift Δφ between two polarization modes of light returning from said sensing fiber and to generate a signal indicative of said current,{'o': {'@ostyle': 'single', 'sub': 'LB', 'L'}, 'sub': 'b', 'wherein the retarder is dimensioned such that it introduces a temperature dependence that counteracts the combined contributions to the scale factor temperature dependence of the Verdet constant V, the linear beat length , the spin pitch p, and the bend-induced birefringence Δ.'}3. The current sensor of claim 2 , wherein 4NVI is in a given nominal phase shift range [Δφ claim 2 , Δφ] with |Δφ−Δφ|≧10°.4. The current sensor of claim 3 , wherein said nominal phase shift range [Δφ claim 3 , Δφ] is [0° claim 3 , 30°].5. The current sensor of claim 3 , wherein said nominal phase shift range [Δφ claim 3 , Δφ] extends over a range of [30° claim 3 , 90°] and/or [90° claim 3 , 180°] and/or [180° claim 3 ...

BATTERY SYSTEM

A battery system includes a battery module having a plurality of assembled batteries. Battery monitoring circuits are provided to correspond to each of the assembled batteries of the battery module. A control circuit controls operation of the battery monitoring circuits. A first signal transmission path transmits signals that are input and output between the battery monitoring circuits and the control circuit. A first isolation element is connected to the control circuit, and a second isolation element is connected to the battery monitoring circuit. The first signal transmission path is isolated from the control circuit by the second isolation element. The electrical potential of the first signal transmission path is a floating potential in relation to the electrical potentials of the control circuit and battery monitoring circuits. 1. A battery monitoring device , comprising:a plurality of battery monitoring circuits that are each provided so as to correspond to each of assembled batteries each having a plurality of battery cells and are connected in series; anda microprocessor that performs transmission and reception of signals with the battery monitoring circuits, wherein:the battery monitoring circuits and the microprocessor are provided on boards different from each other;one end side of the battery monitoring circuits connected in series is connected to the microprocessor via a first signal transmission path;another end side of the battery monitoring circuits connected in series is connected to the microprocessor via a second signal transmission path;on each of the first signal transmission path and the second signal transmission path, a first isolation element is disposed on a board at a side where the battery monitoring circuits are provided and a second isolation element is disposed on a board at a side where the microprocessor is provided.2. A battery monitoring device , comprising:a plurality of battery monitoring circuits that are each provided so as to ...

Battery system

A battery system includes a battery module having a plurality of assembled batteries. Battery monitoring circuits are provided to correspond to each of the assembled batteries of the battery module. A control circuit controls operation of the battery monitoring circuits. A first signal transmission path transmits signals that are input and output between the battery monitoring circuits and the control circuit. A first isolation element is connected to the control circuit, and a second isolation element is connected to the battery monitoring circuit. The first signal transmission path is isolated from the control circuit by the first isolation element and is isolated from the battery monitoring circuit by the second isolation element. The electrical potential of the first signal transmission path is a floating potential in relation to the electrical potentials of the control circuit and battery monitoring circuits.

PARTIAL DISCHARGE TRANSDUCER

A partial discharge (PD) transducer that includes a PD sensor configured to sense a PD event of an electrical system. At least one light emitting device (LED) is arranged in series with the PD sensor. The LED is configured to receive the electrical sensor signal from the PD sensor and to generate a light signal in response to the electrical sensor signal. 1a partial discharge (PD) sensor configured to sense a partial discharge event of an electrical system; and receive the electrical sensor signal from the PD sensor; and', 'generate a light signal in response to the electrical sensor signal., 'at least one light emitting device (LED) in series with the PD sensor, the LED configured to. A partial discharge transducer, comprising: This application is a continuation of U.S. Ser. No. 16/235,747, filed Dec. 28, 2018, which is incorporated herein by reference in its entirety.This invention is based on work supported by the U.S. Department of Energy (DOE)/Office of Electricity through the DOE National Energy Technology Laboratory under award agreement #DE-OE0000872. The Government has certain rights to this invention.Partial discharge (PD) is a small electrical spark occurring in the insulation or near an electrode of an electrical device. Partial discharge is distinct from arcing because the path of the discharge does not reach from one conductor to another or to ground. Partial discharge monitoring can be an important tool to detect degradation of electrical devices. The presence of PD can signify insulation degradation, loose connections, moisture ingress, high voltage in unintended locations, or other issues.Some embodiments are directed to a partial discharge (PD) transducer that includes a PD sensor configured to sense a PD event of an electrical system. At least one light emitting device (LED) is arranged in series with the PD sensor. The LED is configured to receive the electrical sensor signal from the PD sensor and to generate a light signal in response to the ...

OPTIMIZED WAVELENGTH PHOTON EMISSION MICROSCOPE FOR VLSI DEVICES

A method for emission testing of a semiconductor device (DUT), by mounting the DUT onto an test bench of an emission tester, the emission tester having an optical detector; electrically connecting the DUT to an electrical tester; applying electrical test signals to the DUT while keeping test parameters constant; serially inserting one of a plurality of shortpass filters into an optical path of the emission tester and collecting emission test signal from the optical detector until all available shortpass filters have been inserted into the optical path; determining appropriate shortpass filter providing highest signal to noise ratio of the emission signal; inserting the appropriate shortpass filter into the optical path; and, performing emission testing on the DUT. 1. An optical system for imaging a semiconductor device , said system comprising:a bench for mounting the semiconductor device;an optical arrangement defining optical path;a detector sensitive to electromagnetic radiation having wavelengths of at least from 1000 nm to 2200 nm;a plurality of shortpass optical filters with high blocking capabilities beyond their cut-off wavelength;a selector for selectively placing one of said filters within said optical path; and, during calibration mode the controller operates the selector to successively insert one of said filters within said optical path as the controller records emission signal received by the detector, and once all of said filters have been placed within said optical path the controller operates to compare the signal-to-noise ratio of the output of said detector for each of said filter; and,', 'during test mode the controller operates said selector to insert one of the filter having the best signal-to-noise ratio for a selected test voltage, Vdd, into the optical path while the controller records emission signal received by the detector., 'a controller connected to said detector and to said selector, the controller configured to selectively operate in ...

POLARIZATION OPTICAL DETECTION WITH ENHANCED ACCURACY IN THE HIGH-SIGNAL REGIME

In order to carry out the polarimetric detection of a measurand, light of two polarization states is passed through a sensing element, where the two states suffer a differential phase shift depending on the value of the measurand. In order to compensate for only imperfections of the device, a method is proposed that is based on calibration values obtained in a low-value regime of the measurand only. Yet the method can still be used for accurately determining higher values of the measurand. 1. A method for measuring a value Z of an alternating measurand by means of a sensing device , said method comprising:sending two different polarization states of a light beam through a sensing element, where the two different polarization states experience a measurand-dependent differential phase shift Δφ,{'sub': 1,raw', '2,raw, 'claim-text': [{'br': None, 'i': S', 'S', 'K, 'sub': 1,raw', 'o1', '1', '1, '=(/2)·[1+sin(Δφ+θ)],'}, {'br': None, 'i': S', 'S', 'K, 'sub': 2,raw', 'o2', '2', '2, '=(/2)·[1+sin(Δφ+θ)],'}], 'splitting light having passed at least once through said sensing element into at least two channels and carrying out different polarimetric measurements in the two channels, thereby generating two raw signals S, Sdepending on the phase shift Δφ as follows'} [{'sub': o1', 'o2, 'S, Sare parameters depending at least on a light source power and optical losses in the sensing device,'}, {'sub': 1', '2, 'K, Kare parameters of the sensing device,'}, {'sub': 1', '2, 'claim-text': {'sub': 1,raw', '2,raw', '1', '2', 'o, 'claim-text': [{'br': None, 'i': S', 'Y', 'K, 'sub': 1', 'o', '1', '1, '=(/2)·[1+sin(Δφ+θ)],'}, {'br': None, 'i': S', 'Y', 'K, 'sub': 2', 'o', '2', '2, '=(/2)·[1+sin(Δφ+θ)],'}], 'normalizing the two raw signals S, S, to two sensor signals S, Sof equal amplitudes Y/2'}, 'θ, θare parameters depending at least on the sensing device and having absolute values much smaller than π/2,'}], 'wherein'} {'br': None, 'i': S', 'S', '−S', 'C, 'sub': 1', '2, '=()/'}, ' ...

METHOD OF MEASURING CURRENT DISTRIBUTION IN HIGH AND MEDIUM VOLTAGE CABLES

A method for detecting an electrical current longitudinal variation in a power transmission system including a power cable. Electric losses and their location along the cable length can be detected. Current variation in a grounded metallic layer of a power cable is measured from Faraday rotation of polarised light travelling in a single-mode optical fibre wound in a radially external position with respect to the grounded metallic layer. Measurements of the Faraday rotation are carried out by means of polarization-sensitive optical time domain reflectometry (POTDR) or by polarization-sensitive optical frequency domain reflectometry (POFDR) while a direct current is injected in the metallic layer. 113-. (canceled)14. A method for detecting an electrical current longitudinal variation in a power transmission system comprising a power cable , comprising:providing a grounded power cable having a longitudinal axis, extending between first and second cable ends for a cable length, and comprising an insulated conductor, a metallic layer radially external to the insulated conductor, and an optical fibre sensor longitudinally extending at least between the cable ends, said sensor comprising a single-mode optical fibre wound about the longitudinal axis in a radial external position with respect to the metallic layer;circulating an electric current in the metallic layer along the cable length to induce a magnetic field;injecting into a first end of the single-mode optical fibre a probe optical signal polarised in an input polarisation state;detecting a backscattered optical signal corresponding to the injected probe optical signal by polarisation-sensitive optical reflectometry;analysing the backscattered optical signal to determine a longitudinal evolution of a rotation angle of the polarisation state;calculating, from the longitudinal evolution of the rotation angle, a longitudinal variation in a magnetic field in the cable so as to determine a trace of electric current ...

ELECTRO-OPTIC CURRENT SENSOR WITH HIGH DYNAMIC RANGE AND ACCURACY

An optical sensor that senses current by directing polarized light across an airgap that is orthogonal to a direction of current running through a conductor. The sensor includes a prism having a high Verdet constant for high sensitivity to magnetic fields, which cause an angle of polarization of the polarized light to be rotated as an indication of the magnitude of current. A polarizing beamsplitter having a low Verdet constant is mounted to the prism so that incoming light that is traveling in a direction orthogonal to the magnetic field being sensed across the airgap is insensitive to unwanted magnetic fields produced by nearby conductors. The distance the light travels in this orthogonal direction is minimized, reducing the overall volume of the sensor, making a compact sensor highly sensitive to magnetic fields of interest, largely insensitive to unwanted magnetic fields, and having a very high dynamic range for sensing current. 119-. (canceled)20. An optical sensor assembly for measuring electrical current in a current carrying cable , comprising:a base unit adapted to be hung from the current carrying cable;a magnetic concentrator having an airgap and mounted such that the magnetic concentrator at least partially surrounds the current carrying cable such that a magnetic field in the airgap is induced which is indicative of the current in the current carrying cable;an input light polarizing element having a low Verdet constant and configured to receive an incoming light beam and produce a polarized light;a prism mounted to the input light polarizing element and within the airgap, the prism receiving the polarized light and having a reflective surface positioned immediately adjacent to the input light polarizing element, the reflective surface changing a direction of the polarized light passing through an intermediate portion of the prism; andan output polarizing beamsplitter coupled to the prism, wherein the prism has a high Verdet constant relative to the ...

LIGHT-EMITTING DEVICE AND DISTANCE MEASUREMENT DEVICE

Provided is a technology for suppressing variations in the waveform of a light emission pulse caused by various factors in a light-emitting device. A light-emitting device is provided with: a light source in which relaxation oscillation occurs immediately after energization; a light source drive circuit which includes a differentiation circuit having a resistor and a capacitor connected in parallel, and in which a switching element for voltage application is connected in series with the differentiation circuit; a power supply circuit ; a light-reception element which detects pulsed light emitted from the light source ; and a voltage control unit which controls an output voltage from the power supply circuit in correspondence with the waveform of the detected pulsed light. 1. A light emitting device comprising:a light source that emits pulsed light having relaxation oscillation immediately after being supplied with electric current;a light source driving circuit that includes a differentiation circuit having a resistor and a capacitor in parallel connection and that includes a switching element for applying voltage in serial connection to the differentiation circuit, and the light source driving circuit being serially connected to the light source;a power supply that applies voltage to the serial circuit of the light source and the light source driving circuit;a pulsed light measuring part that measures the pulsed light emitted from the light source; anda voltage controlling part that controls the voltage to be applied to the light source in response to the waveform of the pulsed light measured by the pulsed light measuring part.2. The light emitting device according to claim 1 , further comprising:a temperature measuring part,wherein the voltage controlling part controls the voltage to be applied to the light source on the basis of the temperature measured by the temperature measuring part.3. The light emitting device according to claim 1 , wherein the voltage ...

METHOD AND APPARATUS FOR MEASURING THE CURRENT CIRCULATING THROUGH A CONDUCTOR

Optical fiber-based measuring equipment for measuring the current circulating through at least one conductor. The measuring equipment includes an interrogator and a sensing portion connected to the interrogator and configured for being arranged in the proximity of the conductor. The sensing portion includes a first input branch and a second input branch coupled by means of a splitter to a first sensing branch and to a second sensing branch. The first sensing branch includes a first optical fiber winding arranged in the proximity of the conductor, and the second sensing branch includes a second optical fiber winding arranged in the proximity of the conductor, the first optical fiber winding and the second optical fiber winding having the same number of turns that are, however, wound in opposite directions. 1. An optical fiber-based measuring system for measuring a current circulating through a conductor , the optical fiber-based measuring system comprising:an interrogator including a first emitter, a second emitter, a first receiver, and a second receiver, the first and second emitters respectively configured to emit a first light pulse and a second light pulse; a first input branch configured to be optically coupled to the first emitter, the first input branch including a first polarizer and a first fiber twist after the first polarizer;', 'a second input branch configured to be optically coupled to the second emitter, the second input branch including a second polarizer;', 'a splitter including first and second inputs and first and second outputs, the first and second input branches being respectively optically coupled to the first and second inputs;', 'a first sensing branch optically coupled to the first output of the splitter and including a first optical fiber winding and a first Faraday mirror located after the first optical fiber winding, the first optical fiber winding configured to be positioned adjacent the conductor and having a first number of turns, and ...

INTERFERENCE TYPE OPTICAL MAGNETIC FIELD SENSOR DEVICE

A magnetic field sensor element includes a light emitter emitting a first linearly polarized light, a first optical element emitting a first linearly polarized wave and the second linearly polarized wave in response to a first linearly polarized light incident, and emitting a second linearly polarized light in response to a third linearly polarized wave and the a linearly polarized wave incident, at least one pair of magnetic field sensor elements capable of disposing in a predetermined magnetic field across the measured conductor, having a light transmissive, changing the phase of transmitted light in accordance with the magnetic field, and fixing a relative position therebetween, an optical path including a first optical path propagating the first linearly polarized wave and the fourth linearly polarized wave, and a second optical path propagating the second linearly polarized wave and the third linearly polarized wave, and connected to the first optical element and the magnetic field sensor element, a detected signal generator outputting a detected signal corresponding to the magnetic field, by receiving two components of the second linearly polarized light, and converting to the electrical signal, and an optical branching element transmitting the first linearly polarized light to the first optical element and branching the second linearly polarized light to the detected signal generator. 1. An interference type optical magnetic field sensor device , comprising:a light emitter emitting a first linearly polarized light;a first optical element emitting a first linearly polarized wave and a second linearly polarized wave in response to the first linearly polarized light incident, and emitting a second linearly polarized light in response to a third linearly polarized wave and the a linearly polarized wave incident;at least one pair of magnetic field sensor elements capable of disposing in a predetermined magnetic field across the measured conductor, having a light ...

MOTHERBOARD VOLTAGE TESTING DEVICE

Motherboard voltage testing device includes a power supply module for supplying a DC voltage, an illuminating module, and a switching module for detecting a DC voltage of a motherboard. A first terminal of the switching module is coupled to the power supply module, and a second opposite terminal of the switching module is coupled to the illuminating module. When the switching module detects the DC voltage of the motherboard is in the motherboard, the illuminating module is configured to receive the DC voltage of the power supply module to emit light, and when the switching module detects there is no remaining DC voltage on the motherboard, the illuminating module cannot receive the DC voltage from the motherboard and the illuminating module is power off and does not emit light. 1. A motherboard voltage testing device comprising:a power supply module configured to supply a DC voltage;an illuminating module; anda switching module configured to detect a DC voltage of a motherboard; a first terminal of the switching module coupled to the power supply module, and a second opposite terminal of the switching module coupled to the illuminating module;wherein when the switching module detects the DC voltage of the motherboard is on the motherboard, the illuminating module is configured to receive the DC voltage of the power supply module to emit light, and when the switching module detects there is not rest DC voltage on the motherboard, the illuminating module cannot receive the DC voltage from the power supply module and the illuminating module is power off and does not emit light.2. The motherboard voltage testing device of claim 1 , wherein the power supply module comprises a schottky diode claim 1 , a first input terminal of the schottky diode is coupled to a battery claim 1 , a second input terminal of the schottky diode is coupled to the motherboard claim 1 , and a output terminal of the schottky diode is coupled to the power supply.3. The motherboard voltage testing ...

BATTERY SYSTEM

A battery system includes a battery module having a plurality of assembled batteries. Battery monitoring circuits are provided to correspond to each of the assembled batteries of the battery module. A control circuit controls operation of the battery monitoring circuits. A first signal transmission path transmits signals that are input and output between the battery monitoring circuits and the control circuit. A first isolation element is connected to the control circuit, and a second isolation element is connected to the battery monitoring circuit. The first signal transmission path is isolated from the control circuit by the second isolation element. The electrical potential of the first signal transmission path is a floating potential in relation to the electrical potentials of the control circuit and battery monitoring circuits. 1. A battery system , comprising:a battery module in which a plurality of assembled batteries each having a plurality of battery cells are connected;a plurality of battery monitoring circuits that are each provided so as to correspond to each of the assembled batteries of the battery module and each monitor a status of each of the battery cells of each of the assembled batteries; anda plurality of boards, wherein:the plurality of battery monitoring circuits are each provided on each of the plurality of boards which are different from each other;the plurality of boards each include a capacitor;the plurality of battery monitoring circuits are connected via the capacitor and a relay signal transmission path; andan electrical potential of the relay signal transmission path is a floating potential in relation to electrical potentials of the battery monitoring circuits.2. The battery system according to claim 1 , further comprisinga control circuit for controlling each of operations of the plurality of battery monitoring circuits;a transmission/reception signal transmission path for transmitting signals that are input and output between the ...

OPTICAL VOLTAGE PROVE

An optical voltage prove includes: an optical modulator having two modulation electrodes and the optical modulator being configured to modulate an intensity of an incident light depending on a voltage between the two modulation electrodes and output the incident light which is modulated; an input/output optical fiber connected with the optical modulator two contact terminal attachment portions to which contact terminals can be detachably attached and contacted, the two contact terminals being configured to be in contact with the points to be measured, the two contact terminal attachment portions being respectively connected with the modulation electrodes and a package that houses the optical modulator and a part of the input/output optical fiber A voltage signal induced via the contact terminals is converted into an optical intensity modulation signal. When an electric wave having a measurement frequency is applied while the contact terminal attachment portions are opened, the package exhibits a shielding effect of attenuating the electric wave by 15 dB or more compared to an output signal intensity measured without providing the package. 1. An optical voltage prove comprising:an optical modulator having at least two modulation electrodes, the optical modulator being configured to modulate an intensity of an incident light depending on a voltage between the two modulation electrodes and output the incident light which is modulated;an input optical fiber that is connected with the optical modulator;an output optical fiber that is connected with the optical modulator;two contact terminals or two contact terminal attachment portions to which the two contact terminals can be detachably attached and contacted, the two contact terminals being connected with the two modulation electrodes and configured to be in contact with points to be measured;a package that houses the optical modulator, a part of the input optical fiber and a part of the output optical fiber, whereina ...

INTENSITY MODULATED FIBER OPTIC VOLTAGE SENSORS FOR ALTERNATING CURRENT AND DIRECT CURRENT POWER SYSTEMS

A fiber optic sensor for measuring voltage in direct current and alternating current systems is disclosed. The sensor may include an optical fiber probe containing transmitting and receiving fibers, fixed conductor elements, and a dynamic conductor element with a reflective surface or material. The reflector may be attached to a dynamic conductor. The two fixed conductors may be placed parallel to one another and coupled to a static voltage source. The dynamic conductor may bisect the fixed conductors and be coupled to a voltage source. The dynamic conductor may be spaced apart from the ends of the fibers in the fiber probe, and positioned so that light transmitted through the transmitting fiber is reflected by that surface into a receiving fiber. A light sensing means may be coupled to the receiving fiber, so light from a light reflected by the reflector body back into the receiving fibers is detected. 1. A fiber optic sensor for measuring electric voltage , comprising:an optical fiber probe including at least one transmitting fiber having one end coupled to a light source and at least one receiving fiber having one end coupled to a light sensing means;two conductive elements arranged in parallel, such that upon being coupled to a voltage source an electric field is created between the two conductive elements;a conductive material having a reflective surface or a reflective body attached thereto, the conductive material bisecting the two conductive elements;the fiber probe being positioned such that the uncoupled ends of the fibers are adjacent to the reflective surface with space between the fibers and the reflective surface;wherein, light transmitted through the transmitting fiber emerges at the uncoupled end, propagates a short distance, and is reflected by the reflective surface into the at least one receiving fiber, and is detected by a light sensing means, with the conductive material arranged such that a physical displacement in the conductive material in ...

STATE DETECTION APPARATUS

A state detection apparatus includes a communication circuit that transmits information to an external apparatus, a control circuit that operates the communication circuit at a first timing, a battery that supplies electric power to the communication and control circuits, and a first explosion-proof barrier connected between a contact circuit and the control circuit. The control circuit applies a test signal, generated based on voltage from the battery, to the contact circuit at a second timing arriving at shorter intervals than the first timing, acquires a detection signal indicating current flow in the contact circuit due to test signal application, and regardless of the first timing, operates the communication circuit when the detection signal is acquired to transmit to the external apparatus that the state of a device connected to the contact circuit is abnormal. 1. A state detection apparatus comprising:a communication circuit configured to transmit information to an external apparatus;a control circuit configured to operate the communication circuit at a first timing;a battery configured to supply electric power to the communication circuit and the control circuit; anda first explosion-proof barrier connected between a contact circuit and the control circuit, wherein apply a test signal, generated based on a voltage outputted by the battery, to the contact circuit via the first explosion-proof barrier at a second timing that arrives at a shorter interval than the first timing,', 'acquire, from the first explosion-proof barrier, a detection signal indicating that a current has flowed in the contact circuit due to application of the test signal to the contact circuit, and', 'regardless of the first timing, operate the communication circuit at a timing at which the detection signal is acquired to transmit to the external apparatus that a state of a device connected to the contact circuit is an abnormal state., 'the control circuit is configured to'}2. The state ...

CAPACITOR FAILURE

A circuit is arranged to detect a voltage imbalance indicative of component failure and, upon such detection, convey an optical signal to indicate that a component appears to have failed. 1. A capacitor failure indication circuit , the capacitor failure indication circuit being arranged for connection between a first circuit node and a second circuit node , wherein:the first circuit node is the common connection point of a first capacitor and a second capacitor that are connected in series;the second circuit node is the common connection point of a first resistor and a second resistor that are connected in series;the series connected first and second capacitors are connected in parallel to the series connected first and second resistors; andthe ratio of the impedance of the second capacitor to the sum of the impedances of the first and second capacitors is the same as the ratio of the impedance of the second resistor to the sum of the impedances of the first and second resistors, the capacitor failure indication circuit comprising:first, second, and third circuit blocks, each having first and second connections, wherein:the first connection of the first circuit block is arranged for connection to the first circuit node;the first connection of the second circuit block is connected to the second connection of the first circuit block;the first connection of the third circuit block is connected to the second connection of the second circuit block and the second connection of the third circuit block is arranged for connection to the second circuit node;one of the first, second, and third circuit blocks has a first Zener diode having its anode connected to the first connection of that circuit block and its cathode connected to the second connection of that circuit block;another of the first, second, and third circuit blocks has a first Light Emitting Diode, LED, having its anode connected to the first connection of that circuit block and its cathode connected to the ...

Arrangement Having Two Redundant Modules

An arrangement having two redundant modules that monitor one another and that each contain a current or voltage source, which is connected to a first line terminal via a first controllable switch and a first current sensor, wherein each module also has a second line terminal and a ground terminal, between which lies a second current sensor in series with a second controllable switch, where each module, when in the functioning state, closes the controllable switches contained therein, and contains a monitoring device connected to the two current sensors of the modules, the monitoring device generating a monitoring signal identifying the corresponding other module as functioning if at least one of the two current sensors detects a current flow. 1. An arrangement comprising:a first module; anda redundant, second module, the first module and the redundant, second module operatively monitoring one another mutually; a current source or voltage source, which is one of (i) switchable on and off and is connected via a first current sensor to a first line terminal of a respective module of the first module and redundant, second module and (ii) connected to the first line terminal via a series circuit formed by a first controllable switch and the first current sensor; and', 'a second line terminal and a ground terminal, between which is operatively connected a second current sensor in series with a second controllable switch;, 'wherein the first module and redundant, second module each includeswherein the first line terminal of the first module is connected via a first line to the second line terminal of the second module, and the first line terminal of the second module is connected via a second line to the second line terminal of the first module; andwherein the first module and redundant, second module are, when in a functioning state, configured to switch on its current source or voltage source and further configured to one of (i) close the second controllable switch ...

NULL DETECTOR DEVICES AND SYSTEMS EMPLOYING SAME

Within electrical test equipment systems comparator bridges are employed to provide the required dynamic range, accuracy, and flexibility. However, whilst bridge based measurement configurations remove many of the issues associated with making measurements at accuracies of sub-parts, a part, or few parts per million they still require, in many instances, that a null point be determined where the bridge is balanced. However, this becomes increasingly difficult within electrically noisy environments, with modern digital multimeters, and where the desired measurement point within the electrical system is physically difficult to access particularly when improved accuracy in calibration, standards, and measurements on circuits and components means measurement systems must operate at 50 parts per billion (ppb) and below. In order to address this, a null detector design is provided supporting operation within such electrically noisy environments with physical separation of the null detector measurement circuit from the electrical test equipment. 1. A device comprising:an input port comprising an upper signal rail and a lower signal rail;a first resistor having a first end coupled to the upper signal rail of the input port;a second resistor having a first end coupled to the upper signal rail of the input port;a third resistor having a first end coupled to the other end of the first resistor and a second distal end coupled to the lower signal rail of the input port;a fourth resistor having a first end coupled to the other end of the second resistor and a second distal end coupled to the lower signal rail of the input port;a first output port coupled to the other end of the first resistor and the first end of the third resistor;a second output port coupled to the other end of the second resistor and the first end of the fourth resistor; in a first configuration the first resistor and fourth resistor are light dependent resistors which are each optically illuminated with first ...

ARRANGEMENT HAVING A COAXIAL RESISTOR

An arrangement has a coaxial resistor. The coaxial resistor is to be placed on an electrically conductive housing, and sensor lines of the coaxial resistor are to be guided through an interior of the coaxial resistor into the interior of the electrically conductive housing and to be connected to an electrical interface in the electrically conductive housing. 1. A configuration , comprising:an electrically conductive housing having an interior;an electrical interface disposed in said electrically conductive housing; anda coaxial resistor disposed on said electrically conductive housing, said coaxial resistor having sensor lines being guided through an interior of said coaxial resistor into said interior of said electrically conductive housing and are connected to said electrical interface.2. The configuration according to claim 1 , wherein:said coaxial resistor has an outer waveguide and an inner waveguide which is disposed coaxially in said outer waveguide and is separated from said outer waveguide by a gap; andsaid inner waveguide has at least two ring segments, at least one of said at least two ring segments is a resistor ring which is connected to said sensor lines or to at least two of said sensor lines.3. The configuration according to claim 2 , wherein said inner waveguide has at least three said ring segments claim 2 , wherein one of said at least three ring segments is a first waveguide section close to said electrically conductive housing claim 2 , one of said at least three ring segments is a second waveguide section remote from said electrically conductive housing and one of said at least three ring segments is a resistor ring between said second waveguide section remote from said electrically conductive housing and said first waveguide section close to said electrically conductive housing.4. The configuration according to claim 3 , wherein:said coaxial resistor has a supporting element with an inner section forming a ring segment of said inner waveguide; ...

Digital voltmeter topology

A system may include two input terminals, e.g., HI and LO, and a floating circuit that is physically separate from the input terminals and includes a gain amplifier. The floating circuit can be surrounded by a conductive enclosure that is electrically connected to the second input terminal. The floating circuit can further switch between input signals received from the first and second input terminals to the gain amplifier and the floating circuit ground.

Isolation amplifier

An isolation amplifier includes an input circuit at high voltage potential with an input for a measurement signal to be transmitted, an input circuit configuration providing a coupling section signal representing the measurement signal, and a high-voltage-side control unit for driving the input circuit, a galvanically isolating coupling section for the potential-free transmission of the coupling section signal to an output circuit at low-voltage potential with an output circuit configuration for generating an output signal from the transmitted coupling section signal, an output for the output signal and at least one low-voltage-side control unit for generating control signals, input elements for inputting control commands and/or parameters into the high-voltage-side control unit, a low-voltage-side arrangement of all the input elements provided for the parameterization of the high-voltage-side control unit, exclusively in a low-voltage circuit, and a galvanically isolating control channel for transmitting the parameters for driving the input circuit.

Fiber Optic Telemetry For Switched-Mode Current-Source Amplifier In Magnetic Resonance Imaging (MRI)

Example systems, apparatus, circuits, and other embodiments described herein concern acquiring telemetry data from an MR system and providing the telemetry data via fiber optic cable. One example apparatus includes a telemetry signal acquisition element (e.g., circuit, circuit component) that is configured to acquire a telemetry signal from a component in the MR apparatus. The component may be, for example, a transmit coil or an on-coil amplifier. The example apparatus also includes a fiber optic cable that is configured to carry an output signal from the MR apparatus through a field produced by the MR apparatus. The example apparatus also includes a telemetry signal output element that is configured to produce the output signal from the telemetry signal and to transmit the output signal via the fiber optic cable. 1. A telemetry apparatus for use with a magnetic resonance (MR) apparatus , comprising:a telemetry signal acquisition element configured to acquire a telemetry signal from a component in the MR apparatus;a fiber optic cable configured to carry an output signal through a field produced by the MR apparatus; anda telemetry signal output element configured to produce the output signal from the telemetry signal and to transmit the output signal via the fiber optic cable.2. The telemetry apparatus of claim 1 , the component in the MR apparatus being a transmit coil.3. The telemetry apparatus of claim 1 , the component in the MR apparatus being a transmit coil configured with an on-coil amplifier.4. The telemetry apparatus of claim 3 , the on-coil amplifier being a switched mode amplifier claim 3 , a switched-mode current-source amplifier claim 3 , or a current-mode class-D (CMCD) amplifier.5. The telemetry apparatus of claim 1 , the telemetry signal acquisition element being a multiplexer.6. The telemetry apparatus of claim 1 , the telemetry signal acquisition element being a voltage detector claim 1 , a current detector claim 1 , a power detector claim 1 , a ...

PARTIAL DISCHARGE DETECTOR

A partial discharge (PD) detection system includes a PD sensor configured to sense a PD event of an electrical system and to generate a sensor signal in response to the PD event. An envelope generator is coupled to receive the sensor signal from the PD sensor. The envelope generator extracts an envelope signal from the sensor signal. A digitizer is configured to convert the envelope signal to a digital representation of the PD event. 2. The partial discharge system of claim 1 , wherein the PD sensor comprises one or more of a coupling capacitor claim 1 , a transient earth voltage sensor claim 1 , a current transformer claim 1 , and an antenna.3. The partial discharge system of claim 1 , wherein the envelope generator is configured to extract the envelope signal of a positive or a negative-going portion of the sensor signal.4. The partial discharge system of claim 1 , wherein the envelope generator is configured to extract the envelope signal of both a positive and a negative-going portion of the sensor signal.5. The partial discharge system of claim 1 , wherein the envelope generator comprises at least one amplifier configured to amplify the envelope signal.6. The partial discharge system of claim 5 , wherein the envelope generator comprises a diode coupled to an input of the amplifier and configured to reduce a slew rate requirement of the amplifier.7. The partial discharge system of claim 1 , where the envelope signal is an electrical signal.8. The partial discharge system of claim 1 , wherein the envelope signal is an optical signal.9. The partial discharge system of claim 1 , wherein a bandwidth of the digitizer less than a highest frequency component of the sensor signal to be measured.10. The partial discharge system of claim 1 , wherein the envelope generator comprises at least one or both of a high pass filter and a low pass filter.11. The partial discharge system of claim 10 , wherein a cut off frequency of at least one of the high pass filter and the low ...

PARTIAL DISCHARGE TRANSDUCER

A partial discharge (PD) transducer that includes a PD sensor configured to sense a PD event of an electrical system. At least one light emitting device (LED) is arranged in series with the PD sensor. The LED is configured to receive the electrical sensor signal from the PD sensor and to generate a light signal in response to the electrical sensor signal. 1. A partial discharge transducer , comprising:a partial discharge (PD) sensor configured to sense a partial discharge event of an electrical system; and receive the electrical sensor signal from the PD sensor; and', 'generate a light signal in response to the electrical sensor signal., 'at least one light emitting device (LED) in series with the PD sensor, the LED configured to2. The partial discharge transducer of claim 1 , wherein the PD sensor comprises a transient earth voltage sensor claim 1 , or high-frequency coupling capacitor.3. The partial discharge transducer of claim 1 , further comprising a high pass filter connected between the PD sensor and the LED.4. The partial discharge transducer of claim 1 , further comprising a voltage regulator arranged in parallel with the LED claim 1 , the voltage regulator configured to bring a turn on voltage of the LED to about 0V.5. The partial discharge transducer of claim 1 , wherein a response time of the LED comprises:a rise time greater than about 5 ns; anda fall time greater than about 5 ns.6. A partial discharge monitoring system claim 1 , comprising: a partial discharge (PD) sensor configured to sense a PD event of a monitored electrical system and to generate an electrical sensor signal in response to the PD event;', receive an electrical sensor signal from the PD sensor; and', 'generate an analog light signal in response to the electrical sensor signal;, 'at least one light emitting device (LED) in series with the PD sensor, the LED configured to], 'multiple partial discharge (PD) transducers, each partial discharge transducer comprisingat least one optical ...

ACTIVE NOISE SUPPRESSION FOR OPTICAL VOLTAGE SENSOR

A sensor head of a test and measurement instrument can include an input configured to receive an input signal from a device under test (DUT), an optical voltage sensor having signal input electrodes and control electrodes or one set of electrodes, wherein the input is connected to the signal input electrodes, and a bias control unit connected to the control electrodes and configured to reduce an error signal or the input signal bias control signal are electrically combined and applied to a single set of electrodes. 1. A sensor head of a test and measurement instrument , comprising:an input configured to receive an input signal from a device under test (DUT);an optical voltage sensor having signal input electrodes and control electrodes, wherein the input is connected to the signal input electrodes; anda bias control unit connected to the control electrodes and configured to reduce an error signal.2. The sensor head of claim 1 , wherein the bias control unit is configured to eliminate the error control signal.3. The sensor head of claim 1 , further comprising a photodiode configured to measure an optical output power Vof the optical voltage sensor.4. The sensor head of claim 3 , further comprising a correction block configured to compare the measured optical output power Vto a reference signal V.5. The sensor head of claim 4 , wherein the reference signal Vis the input signal.6. The sensor head of claim 4 , wherein the correction block is further configured to identify the error signal based on the comparing.7. The sensor head of claim 4 , further comprising a buffer coupled between the correction block and the input.8. The sensor head of claim 1 , wherein the optical voltage sensor is configured to be coupled with an output block of an external controller via a downstream fiber.9. The sensor head of claim 1 , wherein the optical voltage sensor is configured to be coupled with a laser source of an external controller via an upstream fiber.10. The sensor head of claim ...

FEW-MODED FIBER FOR SENSING CURRENT

A few-moded fiber is doped such that spatial modes of a signal exhibit different magnetic-field-dependent effects. Based on these magnetic-field-dependent effects, one can determine the electric current that induced a magnetic field that caused these effects. 1. A system , comprising:a first single-moded fiber;a few-moded fiber comprising an input end, the few-moded fiber further comprising an output end, the input end being spliced to the first single-moded fiber, the few-moded fiber to propagate an optical signal, the optical signal comprising a first spatial mode, the optical signal further comprising a second spatial mode, the first spatial mode exhibiting a first magnetic-field-dependent birefringence, the second spatial mode exhibiting a second magnetic-field-dependent birefringence, the second magnetic-field-dependent birefringence being different from the first magnetic-field-dependent birefringence; anda second single-moded fiber spliced to the output end of the few-moded fiber.2. The system of claim 1 , the few-moded fiber being a two-moded doped fiber.3. The system of claim 1 , the few-moded fiber comprising a bend.4. The system of claim 3 , the bend inducing a linear birefringence (β) in the few-moded fiber.5. The system of claim 4 , the few-moded fiber exhibiting a circular birefringence (β) claim 4 , the βbeing induced by a magnetic field.6. The system of claim 5 , the few-moded fiber exhibiting a total birefringence (β) claim 5 , such that:{'br': None, 'sub': Linear', 'Circular, 'sup': 2', '2, 'β=√{square root over (β+β)}'}8. A system claim 5 , comprising:a few-moded fiber; anda doped region within the few-moded fiber, the doped region to propagate a signal having a first spatial mode and a second spatial mode, the first spatial mode exhibiting a first magnetic-field-dependent birefringence, the second spatial mode exhibiting a second magnetic-field-dependent birefringence, the first magnetic-field-dependent birefringence being different from the ...

Supply Voltage Detection Device and Method for Detecting a Supply Voltage

The present invention relates to a supply voltage detection device (), in particular for at least one load, for monitoring a rectified mains voltage of a mains voltage supply () and for comparing a detected mains voltage value with a predetermined reference value, wherein, if the detected mains voltage value is lower than the reference value, switching to e.g. an emergency voltage of an emergency voltage supply can be effected by means of an electronic control system (). In addition, if a voltage limit value has been exceeded, the rectified mains voltage can be fed to an optocoupler () and a signal can be transmitted by said optocoupler for the duration of this excess, a duty factor that is dependent on the mains voltage value being determinable from the duration and the period of said signal.

SYSTEMS AND METHODS FOR MONITORING FIBER OPTIC CURRENT SENSING SYSTEMS

A system includes a light source configured to generate a source of light, a fiber optic current sensor (FOCS) configured to detect the source of light, and a decoding circuitry communicatively coupled to the FOCS. The system also includes a health monitoring circuitry communicatively coupled to the decoding circuitry. The health monitoring circuitry is configured to receive a first electrical characteristic component of the first signal and a corresponding second electrical characteristic component of the second signal, to generate a summation of the first electrical characteristic component of first signal and the second electrical characteristic component of the second signal, and to generate an output signal based at least in part on the summation of the first electrical characteristic component and the second electrical characteristic component. The output signal includes an indication of an operational condition of the light source. 1. A system , comprising:a light source configured to generate a source of light;a fiber optic current sensor (FOCS) configured to detect the source of light;a decoding circuitry communicatively coupled to the FOCS, wherein the decoding circuitry is configured to receive the source of light as an indication of a measurement of an electrical current and to generate a first signal and a second signal based thereon; and receive a first electrical characteristic component of the first signal and a corresponding second electrical characteristic component of the second signal;', 'generate a summation of the first electrical characteristic component of the first signal and the second electrical characteristic component of the second signal; and', 'generate an output signal based at least in part on the summation of the first electrical characteristic component and the second electrical characteristic component, wherein the output signal comprises an indication of an operational condition of the light source., 'a health monitoring ...

Differential current measuring module

A differential current measuring module is composed of a housing that encases a current transformer core and a printed circuit board, the current transformer core surrounding a line duct of the housing and having at least one secondary winding. The differential current measuring module is characterized in that in the line duct, at least one primary conductor is led out on a top side of the housing to be connected to an external electrical feed line and whose other end protrudes out of a bottom side of the housing and is provided with a solder terminal. The principle idea is based on continuing the electrical line to be monitored, in sections, as a primary conductor in the effective area of the current transformer core so as to advantageously arrive at a differential current measuring device whose integration is constructionally simple and which offers an uncomplicated connecting option. 12420262064. A differential current measuring module () composed of a housing () that encases a current transformer core () and a printed circuit board () , the current transformer core () surrounding a line duct () of the housing () and having at least one secondary winding , characterized in that{'b': 6', '8', '10', '4', '10, 'i': a', 'b, 'in the line duct (), at least one primary conductor () is arranged that is led out on a top side () of the housing () so as to be connected to an external electrical feed line and whose other end protrudes out of a bottom side () of the housing and is provided with a solder terminal.'}22. The differential current measuring module () according to claim 1 , characterized in that{'b': 14', '6', '6', '8, 'a separating web () that runs parallel to the line duct () is arranged in the line duct () to keep the distances of the primary conductor ().'}32. The differential current measuring module () according to claim 2 , characterized in that{'b': 14', '6', '16', '6', '8, 'the separating web () arranged in the line duct () consists of four web walls () ...

DEVICES, SYSTEMS AND METHODS FOR DATA TRANSMISSION OVER A COMMUNICATION MEDIA USING MODULAR CONNECTORS

Devices, systems and methods for coupling sensors to intelligent electronic devices (IED's), e.g., an electrical power meter, via various communication media are provided. The present disclosure provides a mechanism for coupling an IED to another desired device, e.g., a current sensor, using modular connectors (e.g., a RJ-45 connector) and fiber-optic cables. The present disclosure also provides for coupling devices using modular connectors via wired or wireless connectivity. 1. An intelligent electronic device (IED) comprising:a housing;at least one first modular receptacle disposed on the housing, wherein the at least one first modular receptacle is configured to receive at least one first modular connector, the at least one first modular receptacle configured to receive at least one first signal indicative of at least one power parameter of at least one first transmission line via a first data channel; andat least one processor coupled to the at least one first modular receptacle, the at least one processor configured to receive the at least one first signal and calculate energy consumption in the at least one transmission line.2. The IED of claim 1 , wherein the at least one first modular connector is coupled to a first end of at least one first fiber-optic cable including a plurality of optical fibers claim 1 , and the at least one first signal is at least one first light signal received by the at least one first modular connector via the at least one first fiber-optic cable.3. The IED of claim 2 , wherein the at least one first modular connector includes a light to voltage conversion (LVC) circuit that converts the at least one first light signal into at least one first voltage signal and provides the at least one first voltage signal to the at least one first modular receptacle via the first data channel.4. The IED of claim 3 , wherein the at least one first modular connector includes a voltage to light conversion (VLC) circuit that converts at least one ...

METHOD AND SYSTEM FOR MONITORING EQUIPMENT AT MEDIUM VOLTAGE

A system for monitoring electrical equipment operative at a medium voltage that is isolated from a low voltage environment includes a transmitter unit that is operative at the medium voltage. The transmitter unit produces an optical signal that is indicative of at least one measured property of the electrical equipment. The optical signal is transmitted via an optical fiber to a low voltage receiver within the low voltage environment. 1. A system for monitoring electrical equipment operative at a medium voltage that is isolated from a low voltage environment , the system comprising a transmitter unit operative at the medium voltage to produce an optical signal that is indicative of at least one measured property of the electrical equipment , and to transmit the optical signal via an optical fiber to a low voltage receiver within the low voltage environment.2. The system of claim 1 , wherein the transmitter unit comprises a plurality of component units claim 1 , each of the component units being configured to transmit an optical signal that is indicative of a property that is measured by that component unit.3. The system of claim 2 , wherein each of the component units is directly connectable to a different bus bar of a system of bus bars claim 2 , each of the bus bars carrying a different phase of a three phase electrical distribution system.4. The system of claim 3 , wherein a component unit of the component units is connectable via another of the component units to the bus bar to which that other component unit is connected.5. The system of claim 4 , wherein said property that is measured by that component unit comprises a potential difference between the phase that is carried by the bus bar to which that component unit is directly connected claim 4 , and the phase that is carried by the bus bar to which that component unit is connected via another of the component units.6. The system of claim 4 , wherein a power supply of a component unit of the component units ...

HIGH-VOLTAGE DIRECT CURRENT BROAD FREQUENCY-DOMAIN CORONA CURRENT MEASUREMENT SYSTEM

The present invention provides a kind of high voltage direct current broadband domain corona current measurement system, including the sampling resistance sensor, the UHV local end measurement unit, the optical fiber transmission unit, the safe location measurement unit and the upper monitor; The sampling resistance sensor samples the corona current signal of the HVDC line, and converts the corona current signal to the voltage signal, the UHV local end measurement unit collects the voltage signal, and obtains the optical signal by photoelectric conversion, the optical signal transforms to the safe location measurement unit by the optical fiber transmission unit, the safe location measurement unit converts the optical signal to the voltage signal, the host computer performs processing, storing and displaying with the voltage signal. The present invention has a wide range of measuring frequency, strong ability of anti-electromagnetic interference and other advantages, also can running in long-term stable status under the condition of the UHV DC and all kinds of bad natures, this provides effective technological means for further research on the character of the UHVDC corona. 1. A kind of high voltage direct current broadband domain corona current measurement system , is characterized that , said system includes the sampling resistance sensor , the UHV local end measurement unit , the optical fiber transmission unit , the safe location measurement unit and the upper monitor , said sampling resistance sensor and UHV local end measurement unit both set in the integrated UHV local unit , said sampling resistance sensor samples the corona current signal of the HVDC line , and converts said corona current signal to the voltage signal , said UHV local end measurement unit collects said voltage signal , and gets the optical signal by photoelectric conversion , said optical signal transforms to said safe location measurement unit by said optical fiber transmission unit , said ...

Optoelectric Measuring Device And Method For Measuring An Electrical Current

A measuring device measures an electrical current and contains a light source for generating a polarized primary light signal for feeding into a Faraday sensor unit, and a detector for detecting a secondary light signal provided by the Faraday sensor unit and polarization-altered in relation to the primary light signal. An optical-electrical compensation element, by which the polarization alteration of the secondary light signal can be compensated via an opposite polarization alteration, and a measurement signal, according to the opposite polarization alteration, for the electrical current can be deduced. A method for measuring an electrical current by use of the measuring device is further disclosed. 115-. (canceled)16. A measuring device for measuring an electrical current , the measuring device comprising:a Faraday sensor;a light source for generating a polarized primary light signal for feeding into said Faraday sensor device;a detector for detecting a secondary light signal provided by said Faraday sensor device and altered in polarization in relation to the polarized primary light signal; anda compensation element, by which a change in the polarization of the secondary light signal can be compensated for by an opposite change in the polarization, and a measurement signal that depends on the opposite change in the polarization can be derived for the electrical current.17. The measuring device according to claim 16 , wherein said compensation element has a compensating Faraday sensor and a compensation electrical conductor disposed close to said compensating Faraday sensor claim 16 , wherein the secondary light signal passes through said compensating Faraday sensor claim 16 , and a compensation current in said compensation electrical conductor can be adjusted in such a way that a change in the polarization of the secondary light signal can be compensated claim 16 , wherein the measurement signal can be derived from the compensation current.18. The measuring ...

POSITIONING OF A MAGNETIC RESONANCE BODY COIL

A magnetic resonance (MR) body coil is provided with a supporting surface for support on an object to be examined and an outer side remote from the support side, wherein at least one light source is fastened to the outer side at a predefined position. A magnetic resonance system has at least one MR body coil and an image acquisition device for acquiring light, which may be radiated by the at least one light source of the at least one MR body coil. A method is used for operating a MR body coil, wherein at least one light source radiates light for positioning the MR body coil. A further method is used for positioning a MR body coil on an object to be examined, wherein at least one light source fastened to a MR body coil radiates light, the light is acquired by an image acquisition device, which includes at least one camera, and at least one position of the at least one light source is determined by the acquisition. 1. A magnetic resonance (MR) body coil comprising:a supporting surface for support on an object to be examined;an outer side remote from the support side; andat least one light source fastened to the outer side at a predefined position.2. The MR body coil of claim 1 , wherein the at least one light source comprises at least one light-emitting diode.3. The MR body coil of claim 1 , wherein the at least one light source comprises a plurality of light sources disposed in a predefined arrangement.4. The MR body coil of claim 3 , wherein at least two light sources of the plurality of light sources radiate light of a different spectral composition.5. The MR body coil of claim 4 , wherein the different spectral composition comprises different colors.6. The MR body coil of claim 1 , wherein the at least one light source is an infrared light source.7. The MR body coil of claim 1 , wherein the at least one light source is configured to be operated to flash in a coded manner.8. The MR body coil of claim 1 , wherein the at least one light source is configured to be ...

SYSTEMS AND METHODS FOR LOW-POWER CURRENT & VOLTAGE SENSING USING AN OPTICALLY COUPLED ISOLATOR

Described herein are systems and methods for low-power voltage sensor circuits and current sensor circuits using an optically coupled isolator. In various embodiments, opto-couplers replace bulky transformers that are used in common designs. In embodiments, an optically coupled isolator is used as a power gate to reduce power consumption. Further power savings may be obtained by selecting appropriate phototransistors and adjustable bias resistors to set the forward current of a photodiode as small as functionally possible to reduce battery discharge while providing sufficient gain for the optical transistor. In certain embodiments, the bias voltage point may be chosen to be at the turn-on voltage of the photodiode. In embodiments, power consumption of the voltage and current sensors may be adjusted by adjusting the frequency of a power-gating control signal, which may be controlled by a microcontroller. Embodiments may be used to produce low-cost alternatives that provide small form factor, high measurement accuracy, reliability, and longevity. 1. A method for sensing voltage or current in a high voltage circuit using low power , the method comprising:coupling a sensor to a low voltage circuit and a high voltage circuit that are electrically isolated from each other;coupling a switch to the low voltage circuit and the high voltage circuit;using the low voltage circuit to activate the switch, the switch causing the sensor to be energized;in response to the sensor being energized, detecting a current that is representative of at least one of a high voltage and a high current present in the high voltage circuit; andusing the low voltage circuit to generate an output voltage representative of at least one of the high voltage and the high current.2. The method according to claim 1 , further comprising sampling the current via a sampling resistor that carries the current.3. The method according to claim 1 , further comprising using a voltage divider coupled between two ...

VOLTAGE INDICATORS

A voltage indicator includes a polypeptide sequence comprising a voltage-sensitive opsin domain and a capture protein domain arranged and disposed to capture a fluorescent dye ligand. When the fluorescent dye ligand is captured and the voltage indicator is bound to a cell membrane, an increase in voltage across the cell membrane causes an increase in fluorescent emission. 1. A voltage indicator , comprising: a voltage-sensitive microbial rhodopsin domain including one , two , three , or four amino acid mutations relative to a wild type polypeptide sequence; and a capture protein domain arranged and disposed to capture a fluorescent dye ligand.2. The voltage indicator of claim 1 , wherein the voltage-sensitive opsin domain is a microbial rhodopsin domain.3. The voltage indicator of claim 2 , wherein the microbial rhodopsin domain is selected from the group consisting of QuarsAr1 claim 2 , QuarsAr2 claim 2 , Ace2N claim 2 , and combinations thereof.4. The voltage indicator of claim 3 , wherein the voltage-sensitive opsin domain is Ace2N including an amino acid mutation at one or more of residue 81 claim 3 , 92 claim 3 , and 199.5. The voltage indicator of claim 1 , wherein the voltage-sensitive opsin domain comprises the polypeptide of SEQ ID NO: 9 having one claim 1 , two claim 1 , three claim 1 , or four amino acid mutations.6. The voltage indicator of claim 8 , wherein the voltage-sensitive opsin domain comprises the amino acid sequence of SEQ ID NO: 9 having an amino acid mutation at one or more of residue 81 claim 8 , 92 claim 8 , and 199.7. The voltage indicator of claim 1 , comprising an amino acid sequence selected from the group of amino acid sequences of SEQ ID NOS: 2 claim 1 , 4 claim 1 , 6 claim 1 , 8 claim 1 , 20 claim 1 , 22 claim 1 , 24 claim 1 , and 26.8. The voltage indicator of claim 1 , wherein the capture protein is selected from the group consisting of biotin-avidin claim 1 , HaloTag claim 1 , SNAP-tag claim 1 , TMP-tag claim 1 , βLac-tag claim 1 ...

Device for Measuring Electrical Current, Voltage and Temperature on an Electrical Conductor Made of Rigid Material

A device for measuring electrical current, voltage and temperature in a conductor made of rigid material is disclosed. The conductor is formed from two conductor sections, between which an electrical resistor element is provided that is made of a material having greater resistance than the material of the conductor sections. In the region of the resistor element, a flattened area with a depression is provided, over which a measuring arrangement, through which a portion of the current flowing through the conductor flows, is placed in the manner of a bridge. In the measuring arrangement is arranged in the vicinity of a contact piece by means of which the conductor can be connected in an electrically conducting manner to another conductor such that the heat generated at the contact point is measured.

Device for measuring electrical current, voltage and temperature on an electrical conductor made of rigid material

A device for measuring electrical current, voltage and temperature in a conductor made of rigid material is disclosed. The conductor is formed from two conductor sections, between which an electrical resistor element is provided that is made of a material having greater resistance than the material of the conductor sections. In the region of the resistor element, a flattened area with a depression is provided, over which a measuring arrangement, through which a portion of the current flowing through the conductor flows, is placed in the manner of a bridge. In the measuring arrangement is arranged in the vicinity of a contact piece by means of which the conductor can be connected in an electrically conducting manner to another conductor such that the heat generated at the contact point is measured.

OPTICAL SENSOR MODULE AND INTERROGATION SYSTEM FOR HIGH VOLTAGE MEASUREMENT AND MONITORING

a presente invenção se refere a um módulo sensor óptico com grade de bragg em fibra óptica e um sistema de interrogação com sintonia e compensação de temperatura automáticas para medida e monitoramento de altas tensões. The present invention relates to an optical fiber bragg grid optical sensor module and an automatic tuning and temperature compensation interrogation system for high voltage measurement and monitoring.

Electric current measurement

OPTICAL FIBER WINDING FOR MEASURING THE CURRENT CIRCULATING THROUGH A CONDUCTOR, AND OPTICAL FIBER-BASED CURRENT MEASURING EQUIPMENT

An optical fiber winding for measuring current circulating through a conductor. The optical fiber winding includes a first helically wound optical fiber cable and a second helically wound optical fiber cable. The first helically wound optical fiber cable is twisted about its longitudinal axis in a first twist direction, and the second helically wound optical fiber cable is twisted about its longitudinal axis in a second twist direction, the first twist direction being opposite the second twist direction. Each of the first and second helically wound optical fiber cables making contact with one another at multiple locations along their length. Due to the first and second helically wound optical fiber cables making contact with one another and being twisted in opposite directions, counteracting forces exist where the first and second helically wound optical fiber cables contact one another to resist an untwisting. 1. An optical fiber winding for measuring the current circulating through a conductor , the optical fiber winding comprising:a first helically wound standard single-mode optical fiber cable having a length and a first longitudinal axis, the first helically wound standard single-mode fiber cable being twisted about the first longitudinal axis in a first twist direction; anda second helically wound standard single-mode optical fiber cable having a length and a second longitudinal axis, the second helically wound standard single-mode optical fiber cable being twisted about the second longitudinal axis in a second twist direction, the second twist direction being opposite the first twist direction,each of the first and second helically wound standard single-mode optical fiber cables making contact with one another at multiple locations along their length, due to the first and second helically wound standard single-mode optical fiber cables making contact with one another and being twisted in opposite directions, counteracting forces exist where the first and ...

Decreasing the effects of linear birefringence in a fiber-optic sensor by use of Berry's topological phase

The invention relates to the field of fiber optics, and more particularly to birefringence in single-mode fibers. The sensitivity of a fiber optic sensor coil for a current sensor may be increased by winding the sensing fiber, without torsion, around a current-carrying wire to form the coil, wherein the pitch angle of the fiber may be selected to result in a phase shift due to Berry's phase of circularly polarized light propagating through the fiber. Preferably, the pitch angle may be approximately 60°.

一种交流充电桩短路检测电路

本发明公开了一种交流充电桩短路检测电路，包括依次串联在电路中的分压电阻R1、R2、R3、R4、R5，L1接线端连接在所述分压电阻R1与R2之间，L2接线端连接在所述分压电阻R2与R3之间，所述L3接线端连接在所述分压电阻R3与R4之间，所述N接线端连接在所述分压电阻R4与R5之间；短路检测模块，用于将所述分压电阻R1、R2、R3、R4、R5从电路供电电源中分压得到的电压值U1与参考电压值U2进行比较来产生短路检测信号。本发明对现有的短路检测电路进行了简化，仅采用一个比较器、分压电阻以及稳压管替代了以上电路的功能，极大地降低了成本。

Fibre-optic electric current sensor

FIELD: electricity. SUBSTANCE: invention relates to measurement of electric currents and concerns a fibre-optic electric current sensor. Sensor includes a radiation source, an input and an output connectors, an input and an output collimators, a polarizer, an optically active crystal, an analyzer, a photodetector, an assembling tube, a rotary bushing and a fixing device of the rotary bushing. Optically active crystal, the analyzer, the output collimator and the output connector are fixed in the rotary bushing making it possible to perform its setting by the angle of rotation relative to the polarizer in the assembling tube with the accuracy of not less than 0.1°. Rotary bushing after setting the required angular position is locked by a locking ring. EFFECT: technical result is the increase of conversion coefficient and higher measurement accuracy. 1 cl, 6 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 608 576 C1 (51) МПК G01R 15/22 (2006.01) G01R 19/32 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2015133727, 11.08.2015 (24) Дата начала отсчета срока действия патента: 11.08.2015 Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 11.08.2015 2 6 0 8 5 7 6 "Волоконно-оптический датчик электрического тока на основе магнитооптических кристаллов Bi 12 SiO 20 и Bi 12 GeO 20 с чувствительным элементом однопроходного типа", ИЗМЕРЕНИЕ МОНИТОРИНГ УПРАВЛЕНИЕ КОНТРОЛЬ, No3(9), 2014 г., стр.41-46. RU 2213356 C2, 27.09.2003. RU 83340 U1, 27.05.2009. US 2015097551 A1, 09.04.2015. (54) ВОЛОКОННО-ОПТИЧЕСКИЙ ДАТЧИК ЭЛЕКТРИЧЕСКОГО ТОКА (57) Формула изобретения Волоконно-оптический датчик электрического тока, содержащий корпус, источник излучения, входной коннектор, входной коллиматор, поляризатор, оптически активный кристалл, анализатор, выходной коллиматор, выходной коннектор, фотоприемник, причем длина оптически активного кристалла и угол между оптическими осями поляризатора и анализатора ...

Portable Continuity Tester

본 고안은 도통 시험을 매우 쉽게 할 수 있도록 개선된 휴대용 도통 시험기에 관한 것이다. 본 고안은 본체와; 상기 본체 일측에 구비된 스위치와; 상기 본체에 설치되어 상기 스위치의 온/오프에 작동에 따라 점등 또는 점멸되는 LED 램프와; 상기 본체 내에 설치되어 상기 LED 램프에 전원을 공급하는 배터리와; 일측이 상기 배터리에 연결 설치되어 도통 시험이 이루어지도록 상기 본체의 하부에 형성된 인출공을 통해 상기 본체 외부로 인출되며 설치된 2개의 단자와; 상기 단자 및 상기 배터리와 연결되어 도통 여부에 따라 울림 작동을 하거나 또는 울림 작동을 하지 않는 부저와; 상기 본체 외부의 상부에 설치되어 도통 시험기가 끼워져 고정되도록 하는 클립과; 상기 본체의 전면에 설치되어 상기 LED 램프의 빛이 반사되며 본체 외부로 방사되도록 하는 윈도우와; 상기 스위치를 가압하여 상기 스위치가 온/오프되도록 상기 본체 상부에 돌출되며 설치된 누름버튼;을 포함하는 휴대용 도통 시험기를 제공한다. The present invention relates to an improved portable conductivity tester for very easy conduction testing. The present invention relates to an apparatus and a method for manufacturing the same. A switch provided at one side of the main body; An LED lamp installed in the main body and turned on or off according to an operation of turning on / off the switch; A battery installed in the main body and supplying power to the LED lamp; Two terminals connected to the battery and drawn out to the outside of the main body through a lead-out hole formed in a lower portion of the main body so as to conduct a conduction test; A buzzer that is connected to the terminal and the battery and does not perform a ringing operation or a ringing operation depending on whether the terminal or the battery is conductive; A clip installed on an upper portion of the main body to fix and fix a conductivity tester; A window installed on a front surface of the main body to reflect light of the LED lamp and emit the light to the outside of the main body; And a push button provided on the upper portion of the main body so as to press the switch to turn on / off the switch.

在塞氏干涉仪内实现法拉第效应用以测量电流的一种装置

本装置包括位于光学环路中的相位调制装置18、19，用以调制围绕该干涉仪以相反方向传输的两束光波之间的相位差；电子装置32、33用以处理从接受两束光波之间偏摆的光检测器14来的信号。该装置还包括作用在光源12发射的功率上的振幅调制装置70；以及该电子信号处理装置，它包括一个同步解调器32，工作于该振幅调制和相位调制之间的较低偏摆频率上，而不需工作在该相位调制的甚高频率上。

Universal optical current meter

FIELD: instrument engineering. SUBSTANCE: invention relates to optical instrument-making and concerns a universal optical current meter. Current meter includes hollow high-voltage insulator, laser light source, first polariser, Faraday cell magneto-optical element in form of quadrangular glass prism, second polariser in form of Wollaston prism, lens, differential photodetector, electronic unit with indicator and interface. Light source polarizers, photodetector, electronic unit with indicator are arranged in lower part of high-voltage hollow insulator and are under zero potential. Magneto-optical element of Faraday cell is fixed in upper part of high-voltage insulator and is located in longitudinal magnetic field of fragment of conductor of high-voltage line. Quadrangular prism comprises a first base with a mirror-like coating in the center of the strip. Second prism base comprises two polished inclined surfaces with mirror coatings. EFFECT: technical result consists in providing the possibility of measuring both AC and DC, simplifying the design and improving measurement accuracy. 1 cl, 4 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 700 288 C1 (51) МПК G01R 15/24 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК G01R 15/246 (2019.05); G01R 15/247 (2019.05) (21)(22) Заявка: 2019107102, 12.03.2019 (24) Дата начала отсчета срока действия патента: Дата регистрации: 16.09.2019 C 1 2 7 0 0 2 8 8 Адрес для переписки: 420075, Респ. Татарстан, г. Казань, ул. Липатова, 37, Акционерное общество "Швабе - Технологическая лаборатория" (56) Список документов, цитированных в отчете о поиске: RU 171401 U1, 30.05.2017. US 4002975 A1, 11.01.1977. US 5963026 A1, 05.10.1999. US 2017350922 A1, 07.12.2017. (54) ИЗМЕРИТЕЛЬ ТОКА ОПТИЧЕСКИЙ УНИВЕРСАЛЬНЫЙ (57) Реферат: Изобретение относится к области оптического Фарадея закреплен в верхней части приборостроения и касается универсального высоковольтного изолятора и находится в ...

磁気光学式電流測定方法及び装置

(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。

Apparatus For Testing Isolator Mounted PCB

본 발명의 일 측면에 따르면, 검사 대상 PCB에 전원과 신호를 따로 연결하지 않고도 PCB 상에 조립되어 있는 아이솔레이터를 검사할 수 있는 검사 장치를 제공한다. 이를 위해 본 발명의 일 실시예에 따른 인쇄 회로 기판에 실장된 아이솔레이터의 검사 장치는, 아이솔레이터의 입력단 핀에 접촉되는 입력단 프로브; 아이솔레이터의 출력단 핀에 접촉되는 출력단 프로브; 아이솔레이터의 종류을 선택하기 위한 제1 스위치; 입력단 프로브를 통해 아이솔레이터의 입력단 핀에 인가되는 하이 또는 로우 신호를 선택하기 위한 제2 스위치; 출력단 프로브에 연결되는 램프; 입력단 또는 출력단 프로브를 통해 아이솔레이터의 핀에 인가되는 전원을 공급하는 배터리;를 포함하고, 아이솔레이터가 손상된 경우에 제2 스위치를 통해 선택된 신호가 하이 신호이면 램프가 꺼지고 로우 신호이면 램프가 켜지는 것을 특징으로 한다. According to an aspect of the present invention, there is provided an inspection apparatus capable of inspecting an isolator assembled on a PCB without separately connecting a power supply and a signal to the inspection target PCB. To this end, the inspection apparatus of the isolator mounted on the printed circuit board according to an embodiment of the present invention, the input terminal probe in contact with the input terminal pin of the isolator; An output probe contacting the output pin of the isolator; A first switch for selecting a type of isolator; A second switch for selecting a high or low signal applied to an input pin of the isolator through the input probe; A lamp connected to the output probe; And a battery for supplying power applied to the pin of the isolator through an input terminal or an output terminal probe. When the isolator is damaged, the lamp is turned off when the signal selected by the second switch is a high signal, and the lamp is turned on when the signal is low. It is done.

采用极化测定检测方法的光纤电流传感器

利用感测光纤(8)内的法拉第效应来测量导体(10)中的电流。从感测光纤(8)返回的光被分成至少两部分，其中至少一部分由第一圆分析器(15a，15b)分析，以产生第一信号。第二部分可由第二圆分析器(17a，17b)等来分析，第三部分可由线分析器(19)分析。结合这样得到的各信号，可以有效而精确地测量返回光内电流诱发的相位延迟。

Photovoltaic power generation

본 발명은 자기진단 기능을 구비한 태양광 발전시스템에 관한 것으로, 태양으로부터 입사되는 빛에너지를 전기에너지로 변환하여 수집하는 역할을 수행하는 태양 전지 모듈과, 태양광 발전 시스템의 어레이를 접속하는 접속함과, 접속함으로부터 태양광발전 시스템의 아날로그 데이터와 접점 데이터를 수신하고 이를 네트워크망을 통해 중앙제어장치 및 서버로 전송하며 태양전지에 의해 직류전원으로 변환된 전기에너지를 교류 전원으로 변환하는 인버터로 구성하되, 정션박스는, 상기 태양 전지 모듈의 배면에 부착되며 리본과 다이오드를 내장하고 있는 하우징과, 상기 하우징에 착탈되는 커버와, 상기 커버의 윗면에는 발광 다이오드를 형성하여 상기의 태양 전지 모듈로부터 변환되어 흐르는 직류전원의 전압값을 비교기로 비교하면서 정상적인 발전상태와 비정상적인 발전상태 또는 문제가 발생한 상태에 따라 각각 다른 색상의 발광다이오드를 점등하여 태양전지의 이상 유무를 육안으로 확인할 수 있도록 한다. 그리고 접속함은, 상기 태양전지모듈에서 출력되는 전압과 전류를 감지하는 전원측정부와, 상기 전원측정부에서 측정한 입출력 전원을 기준 전압과 비교하면서 정상의 여부를 판단하는 전원 비교부와, 접속함의 내부 온도와 외부 온도를 측정하는 센서감지부와, 일조량을 감지하는 일조량 감지부와, 상기의 전원측정부 및 센서감지부의 감지 결과에 따라 내부의 동작을 제어하는 컨트롤러와, 상기 컨트롤러의 제어를 받아 내부의 팬을 가동하여 내부 온도를 낮추는 팬구동부와, 상기 컨트롤러의 제어에 의해 내부의 히터를 가동하면서 내부 온도를 높여주는 히터구동부와, 외부와 유선 및 무선으로 데이터를 중앙제어장치로 송신하고 중앙제어장치로부터의 제어신호를 수신하는 송수신부와, 상기 컨트롤러의 제어에 따라 내부의 데이터를 외부로 전송하기 위한 송수신부의 온/오프 동작을 제어하는 제1 스위칭부와, 상기 중앙 제어장치의 제어를 받으면서 상기 태양 전지 모듈의 작동을 온.오프하는 제2 스위칭부로 구성됨을 특징으로 한다.

Optical interference current meter

FIELD: measuring equipment. SUBSTANCE: invention relates to optical devices that use the Faraday effect to measure electric current. The proposed device contains a light source, a multimode fiber light guide, a polarizer, a Wollaston prism with a beam dilution angle of 2β, a quarter-wave plate, a magnetically sensitive element in the form of a glass prism located in the longitudinal magnetic field of an alternating current conductor. The glass prism contains the first and second polished bases. The second base serves as a mirror and contains two mirror surfaces inclined relative to the first base at angles β and forming an edge in the middle of the base perpendicular to the plane of dilution of the rays of the Wollaston prism. The transmission plane of the polarizer and the “fast” axis of the quarter-wave plate make up the angles ±45° with the planes of polarization of the rays coming out of the Wollaston prism. Next, a second polarizer, the transmission plane of which is 45° with respect to the first polarizer, a second multimode fiber light guide, a photodetector and an electronic unit are installed. EFFECT: increase in sensitivity. 1 cl, 4 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 767 166 C1 (51) МПК G01R 15/24 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК G01R 15/246 (2021.08) (21)(22) Заявка: 2021111957, 26.04.2021 (24) Дата начала отсчета срока действия патента: (73) Патентообладатель(и): Акционерное общество "Центральное конструкторское бюро "ФОТОН" (RU) Дата регистрации: 16.03.2022 (45) Опубликовано: 16.03.2022 Бюл. № 8 2 7 6 7 1 6 6 R U (54) ИЗМЕРИТЕЛЬ ТОКА ОПТИЧЕСКИЙ ИНТЕРФЕРЕНЦИОННЫЙ (57) Реферат: Изобретение относится к оптическим служит зеркалом и содержит две зеркальные приборам, в которых используется эффект поверхности, наклоненные относительно первого Фарадея для измерения электрического тока. основания на углы β и образующие в середине Техническим результатом является повышение ...

전류 세기를 측정하기 위한 광 파이버 장치

내용 없음

Current measuring apparatus

A current measuring apparatus utilizes a known fundamental frequency, e.g., 60 Hz, for measuring current and includes a sensing and measurement pulse generation circuit including a current transformer for developing a low power signal directly related to the line current in a powerline, and a diode bridge with a first Zener diode for sensing when the developed current related signal exceeds a first predetermined positive threshold value and a second Zener diode for sensing when the developed current related signal falls below a second predetermined negative threshold value. Across the bridge is an LED for generating a first measurement signal having a duration related to the time when the developed signal exceeds the positive threshold value and second measurement signal during the time when the current related signal falls below the negative threshold value. The apparatus further includes processing circuitry and optical fibers for transmitting the measurement signals to the processing circuitry which is capable of processing the measurement signals durations (t 1 or t 2 ) to determine parameters of the developed current related signal thereby to determine the current flowing in the power line.

Photo measuring device

Portable curing device

Disclosed is a portable curing device. A portable curing device comprises: a body unit installed with a charging terminal unit, and formed with an insertion groove on the lower unit; a light irradiation unit installed on the insertion groove of the body unit for irradiating dried light; and a control unit for controlling the operation of the light irradiation unit. According to an embodiment of the present invention, a user can easily store the device in a space such as a pocket or a handbag.

Test terminal block all-in-one test terminal unit and distributing board used in it

The present invention relates to an integrated test terminal unit with imaging protection and live wire display functions and a distribution board using the same. The integrated test terminal unit comprises: a key input unit including an operation mode key and a test mode key of a relay; an integrated terminal block formed by integrating a voltage test terminal block (PTT) with a current test terminal block (CTT) of the relay; and a control unit.

Optical fiber sensing device based on ultrasonic detection frequency and implementation method

本发明专利提供了一种基于超声波检测频率的光纤传感装置，它包括ASE光源、光纤耦合器、传感单元、超声波发生装置、光电转换器、信号处理模块。本发明专利通过光纤进行传感，利用法珀腔原理，使ASE光源发出的光在法珀腔中产生干涉光谱，通过对干涉光谱的检测，测量超声波频率，并且通过信号处理模块，实现数字输出，达到可以在计算机上显示的目的。本发明降低了传感单元的尺寸，增加了传感的灵敏度，实现了监测超声波频率的目的。同时可以在主机上输出，实现了对超声波频率的实时监测。

Wireless light emitting patch using NFC

본 발명은 NFC 모듈을 구비한 이동통신단말기와 연동하여 이동통신단말기에 발생되는 이벤트에 대응해서 발광하도록 한 NFC를 이용한 무선발광패치에 관한 것으로, 이동통신단말기에서의 이벤트 발생 시에 이동통신단말기에 구비된 NFC 모듈과 연동하여 NFC 모듈로부터 송출되는 전자기파를 수신하여 자기 유도 방식으로 전기적 신호로 변환시켜 주는 NFC수신안테나부; 일측면에 NFC수신안테나부를 형성하되 전기적으로 연결 설치하여, NFC수신안테나부에서 변환시킨 전기적 신호를 AC 전원으로 변환시켜 주는 인버터부; 및 일측면에 인버터부를 형성하되 전기적으로 연결 설치하여, 인버터부에서 변환시킨 AC 전원을 인가받아 발광하기 위한 발광시트부를 포함한다.

Measuring apparatus of electric current

(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。

Fibre-optic sensor of current or magnetic field with temperature compensation, insensitive to variation of sensor parameters

FIELD: measurement equipment. SUBSTANCE: invention relates to electric measurement equipment. A fibre-optic current sensor comprising: measurement fibre (5), exposed to magnetic field of measured current, at the same time the specified measurement fibre (5) creates a turn in the plane of the sensor and has Verder constant V, a delay device (4), located between the fibre (2) preserving linear polarisation and measurement fibre (5), for conversion of light between linear polarisation and elliptical polarisation, at the same time the main axis of the specified fibre (2) preserving polarisation (pp) directly in front of the specified delay device rotates relative to the perpendicular line to the specified plane of the sensor by the angle β, and the specified delay device (4) introduces a differential phase shift ρ=π/2+ε between light waves, polarised along their main axes, where ε is the additional non-zero phase shift, a control unit (1), generating a signal proportionate to the phase shift Δφ. EFFECT: reduced impact of temperature at current measurements. 23 cl, 12 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (51) МПК G01R 15/24 (13) 2 547 753 C2 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ 2010140076/28, 29.09.2010 (24) Дата начала отсчета срока действия патента: 29.09.2010 Приоритет(ы): (30) Конвенционный приоритет: (72) Автор(ы): ВЮЕСТ Роберт (CH), ФРАНК Андреас (CH), БОНЕРТ Клаус (CH) 30.09.2009 EP 09171889.0 (43) Дата публикации заявки: 10.04.2012 Бюл. № 10 R U (73) Патентообладатель(и): АББ РИСЕРЧ ЛТД (CH) (45) Опубликовано: 10.04.2015 Бюл. № 10 B2, 11.11.2008. EP 1107029 B1, 23.01.2008. EP 1115000 B1, 27.12.2006. WO 9400768 A1, 06.01.1994 2 5 4 7 7 5 3 R U (54) ВОЛОКОННО-ОПТИЧЕСКИЙ ДАТЧИК ТОКА ИЛИ МАГНИТНОГО ПОЛЯ С ТЕМПЕРАТУРНОЙ КОМПЕНСАЦИЕЙ, НЕЧУВСТВИТЕЛЬНЫЙ К ИЗМЕНЕНИЮ ПАРАМЕТРОВ ДАТЧИКА (57) Реферат: Изобретение относится к поляризацию (сп) волокна (2) непосредственно электроизмерительной ...

Automated equipment monitoring device for electric substation

FIELD: information technologies. SUBSTANCE: automated equipment monitoring device for electrical substation comprises a computer connected to a sensor for metering the parameters of substation equipment. The computer is designed as a microprocessor-based data acquisition and processing unit. The sensors themselves are installed outside the sensors and connected with them using one or two fiber-optic cables. The cables are respectively connected to optical signal generator and receiver, either integrated or separated. The microprocessor and sensors are arranged in a single housing, which is fitted with a power supply, a display and an interface module. The sensors are connected to the personal computer by means of electrical or fiber optic connection. The sensors can be formed as current, voltage and temperature sensors. The microprocessor comprises a microcontroller connected with a Profinet and / or Ethernet communication module, ROM and RAM-1 memory as well as with a data controller to which RAM-2 with the ring buffer and the switching board with input sensor signals are connected. The microprocessor unit output is connected via Profinet and / or Ethernet network with the operator station. EFFECT: improvement of reliability and versatility of monitoring devices. 2 cl, 7 dwg, 1 tbl РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 613 130 C1 (51) МПК G01R 21/133 (2006.01) H02J 13/00 (2006.01) G01R 15/22 (2006.01) G06E 1/00 (2006.01) H02B 5/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2015150670, 25.11.2015 (24) Дата начала отсчета срока действия патента: 25.11.2015 Дата регистрации: (72) Автор(ы): Балашов Алексей Викторович (RU), Карпиков Станислав Рудольфович (RU), Есафов Андрей Владимирович (RU) Приоритет(ы): (22) Дата подачи заявки: 25.11.2015 (56) Список документов, цитированных в отчете о поиске: RU 2468407 C1, 27.11.2012. RU (45) Опубликовано: 15.03.2017 Бюл. № 8 2552842 C2, ...

Fiber-optic device for measurement of current strength

FIELD: fiber optics. SUBSTANCE: fiber- optic device for measurement of current strength in a conductor with the use of the Faraday effect has systematically arranged a linearly polarized light source, first device for splitting the light beam, and optical fiber which envelops the conductor as a winding and has a mirror end surface, second device for splitting the light beam which is arranged in the path of the beam successively reflected from the mirror end surface of the optical fiber and from the first device for splitting the light beam, and two photodetectors installed at the outputs of the second device for splitting the light beam. A polarizer is placed between the second device for splitting the light beam and each photodetector. The optical axes of the polarizers are turned symmetrically to one another relative to the plane of polarization of light entered the optical fiber through an angle selected within 20 to 40 deg. EFFECT: enhanced accuracy. 2 dwg 88698 0с%с ПЧ Го РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (19) (51) МПК ВИ” 2 086 988 ' С 01 К 15/26, С 02 В 6/00 13) СЛ 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 5011148/28, 12.07.1990 (30) Приоритет: 19.07.1989 ОЕ Р 3923803.2 (46) Дата публикации: 10.08.1997 (56) Ссылки: Патент ФРГ М 2201151, кл. С 01 К ТУЮТ, 1977. (86) Заявка РСТ: ОЕ 90/00530 (12.07.90) (71) Заявитель: МВЬ Мессвандлер-Бау АГ (0Е) (72) Изобретатель: Дирк Пайер[ПЕ], Хольгер Хирш[рЕ] (73) Патентообладатель: МВЬ Мессвандлер-Бау АГ (ОЕ) (54) ВОЛОКОННО-ОПТИЧЕСКОЕ УСТРОЙСТВО ДЛЯ ИЗМЕРЕНИЯ СИЛЫ ЭЛЕКТРИЧЕСКОГО ТОКА (57) Реферат: Сущность изобретения: волоконно-оптическое устройство — для измерения силы тока в проводнике с использованием эффекта Фарадея содержит последовательно установленные источник линейно-поляризованного света, первое устройство для разделения пучка света и оптическое волокно, которое охватывает проводник в виде обмотки и имеет зеркальную концевую поверхность, второе устройство для ...

Patent JPH0367231B2

Data collecting connection

Disclosed herein is an apparatus. The apparatus includes a first body, a second body, and an electronic circuit. The first body includes a first end, a second end, and a middle section. The first body further includes a first conductor receiving area and a recessed cavity. The first receiving area extends from the first end to the second end. The cavity is at the middle section. The second body is adapted to be removably connected to the first body. The second body includes a first end, a second end, and a second conductor receiving area. The second conductor receiving area extends from the first end to the second end. The apparatus is adapted to receive an electrical conductor between the first receiving area and the second receiving area. The electronic circuit is at the cavity. The electronic circuit is configured to receive reference information corresponding to the electrical conductor.

Data collecting connection

Disclosed herein is an apparatus. The apparatus includes a first body, a second body, and an electronic circuit. The first body includes a first end, a second end, and a middle section. The first body further includes a first conductor receiving area and a recessed cavity. The first receiving area extends from the first end to the second end. The cavity is at the middle section. The second body is adapted to be removably connected to the first body. The second body includes a first end, a second end, and a second conductor receiving area. The second conductor receiving area extends from the first end to the second end. The apparatus is adapted to receive an electrical conductor between the first receiving area and the second receiving area. The electronic circuit is at the cavity. The electronic circuit is configured to receive reference information corresponding to the electrical conductor.

O.d.d. tester

The apparatus is for measuring the data value of the detector exactly by displaying the 4 voltages simultaneously on the detector of a digital panel meter. The device comprises: a four partition wave detector(10) for detecting the light source generated from the laser diode as four partitions; a connector(20) for producing four detected currents; a current/voltage converter(30) for converting the four converted voltages; and a digital panel meter(40) for measuring exactly the data value of the wave detectors by transmitting the four converted voltages to the respective wave detectors.

Current / temperature measurement optical sensor using multi-wavelength light source and its method

본 발명은 온도에 영향을 받지 않고 자기장(또는 전류)을 측정할 수 있을 뿐 아니라 동시에 온도도 함께 측정이 가능한 광센서 및 전류 및 온도 측정방법을 제공하기 위한 것이다. 본 발명에서는 패러데이 소자의 Verdet 상수가 온도에 따라 변할 뿐 아니라 광의 파장에 대해서도 변한다는 점을 활용하여 별도의 온도 센서를 부착하지 않고도 온도의 영향을 배제한 정확한 자기장(또는 전류)의 측정이 가능하도록 하였고, 동시에 온도도 측정할 수 있도록 한 것으로, 적어도 2개 이상의 파장을 가지는 다파장 광원과; 선편광된 다파장 광이 자신의 내부를 통과하도록 하는 패러데이 소자와; 상기 패러데이 소자를 통과한 광의 선편광 회전각을 각 파장별로 검출하는 수단과; 상기 파장별 회전각들의 상호관계로부터 상기 패러데이 소자에 인가되는 자기장의 크기 및 온도를 검출하는 신호처리수단으로 구성함으로써, 온도에 의한 영향을 받지 않고 감지할 수 있고, 전기적 절연 비용이 줄어들며, 주변의 전자기장에 의한 잡음이나 써지에 강하여 신뢰성이 높은 과전류 보호계전기 및 미터링 시스템을 구현하는데 용이한 것이다. The present invention is intended to provide an optical sensor and a current and temperature measuring method capable of simultaneously measuring a magnetic field (or current) without being affected by temperature and simultaneously measuring temperature. In the present invention, by utilizing the fact that the Verdet constant of the Faraday device changes not only with temperature but also with respect to the wavelength of light, it is possible to measure an accurate magnetic field (or current) excluding the influence of temperature without attaching a separate temperature sensor A multi-wavelength light source having at least two wavelengths, the temperature of which can be measured at the same time; A Faraday element for allowing linearly polarized multi-wavelength light to pass through the inside thereof; Means for detecting a linear polarization rotation angle of light passing through the Faraday element for each wavelength; And the signal processing means for detecting the magnitude and the temperature of the magnetic field applied to the Faraday element from the correlation of the rotation angles according to the wavelengths, it is possible to detect without being influenced by the temperature, reduce the electrical insulation cost, It is easy to implement a reliable overcurrent protection relay and metering system that is resistant to electromagnetic noise or surge.

Magnetooptic method of measuring current intensity

Изобретение относитс  к электроизмерительной технике. Цель изобретени  - расширение диапазона измер емых токов. Делитель 7 светового пучка формирует из оптического излучени  источника 8 излучени  пучки, которые пропускаютс  через  чейки 1,2 Фараде . Последние изготовлены из материалов с различной посто нной Вер- де. Проанализированные пучки излучени  преобразуютс  в электрический сигнал фотоприёмниками 13 - 16. Выполнение  чеек Фараде  из материалов с -различными посто нными Верде позвол ет с помощью вычислительного блока 17 определ ть измер емый ток по разности углов поворота плоскости пол ризации излучени . 1 ил. i (/) This invention relates to electrical measuring technology. The purpose of the invention is to expand the range of measured currents. The light beam divider 7 forms, from the optical radiation of the radiation source 8, beams which are transmitted through the 1.2 Farad cells. The latter are made of materials with different Cond verd. The analyzed radiation beams are converted into an electrical signal by photodetectors 13–16. Performing Farade cells from materials with different constant Verde allows using the computing unit 17 to determine the measured current by the difference of the angles of rotation of the polarization plane of the radiation. 1 il. i (/)

Optical Current Sensor based on All-optical Variable Quarter Wave Plate

The present invention provides an all-optical variable type 1/4 wavelength phase retarder-based optical fiber current sensor, which comprises: a light source for generating reference light for current or magnetic sensing; a polarizer for polarizing the reference light; a phase modulator for phase-modulating the polarized light into a predetermined reference signal; a phase retarder for delaying the phase-modulated light by 1/4 phase; a sensing optical fiber in which an optical path of the phase-delayed light is located in the vicinity of a sensing target; a Faraday rotation reflector for reflecting the light guiding the optical path at the end of the sensing optical fiber; a phase delay length adjuster for adjusting a physical length on an optical axis of the phase retarder; and a delay tuning module for controlling the operation of the phase delay length adjuster.

Apparatus and method for conforming the battery connection

The present invention relates to a battery connection confirmation device including a plurality of connection lines respectively provided between a plurality of battery cells and a battery protection circuit, and a plurality of detection units respectively provided between two adjacent connection lines to check a connection state of the connection lines. Confirmation method using the same is presented.

Device for measuring electrical energy supplied to railroad power traction plant

FIELD: electricity. SUBSTANCE: measuring device of electrical energy supplied to railroad traction plant through high voltage line (1) includes the following: supply current load measuring devices (5, 26) and device (12, 27) for measuring the voltage of that power supply, optic electronic inverters (22a, 22b) for low voltage supply required for operation of the above measuring devices; at that, the above optic electronic inverters (22a, 22b) are connected through optic fibres (21a, 21b) to electrooptical transducer (20) for them to be connected to supply voltage, and outputs of measuring devices includes optic fibres (9, 19) connected to optoelectronic transducer (10) for them to be connected to electronic system. At that, measuring devices are installed in insulator (25) through which high voltage line (L) of locomotive roof passes; at that, high voltage environment is arranged in upper cavity (28) made in insulator (25), and low voltage environment is arranged in lower cavity (29) of that insulator, and connections between various elements of the device are performed between those two cavities through the above optic fibres. EFFECT: decreasing dimensions of the device. 2 cl, 2 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 452 972 (13) C2 (51) МПК G01R 31/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2007128529/28, 24.07.2007 (24) Дата начала отсчета срока действия патента: 24.07.2007 (73) Патентообладатель(и): АЛЬСТОМ ТРАНСПОРТ СА (FR) (43) Дата публикации заявки: 27.01.2009 Бюл. № 3 2 4 5 2 9 7 2 (45) Опубликовано: 10.06.2012 Бюл. № 16 (56) Список документов, цитированных в отчете о поиске: WO 2004072662 А2, 26.08.2004. DE 19543363 А1, 28.05.1997. FR 2698695 А1, 03.06.1994. DE 10005164 A1, 09.08.2001. 2 4 5 2 9 7 2 R U (54) УСТРОЙСТВО ИЗМЕРЕНИЯ ЭЛЕКТРИЧЕСКОЙ ЭНЕРГИИ, ПОДАВАЕМОЙ НА ЖЕЛЕЗНОДОРОЖНУЮ СИЛОВУЮ ТЯГОВУЮ УСТАНОВКУ оптические волокна (9, 19), соединенные с оптико-электронным ...

Current detection device

本发明提供一种批量生产如下的导体的技术，该导体上固定有对在导体中流通的电流值进行检测的电流检测头，且检测值和电流值之间的关系稳定。电流检测头具备：透镜、磁光元件、导体、和固定部件，在该固定部件上分别固定有：透镜、磁光元件、和导体。所述导体中形成了如下的光学系统，即，通过电流检测头，从而将光经过透镜而引导至磁光元件，并且将通过磁光元件而受到了磁光效应的光引导至透镜。由于与电流检测相关的全部部件分别被固定在固定部件上，因此与电流检测相关的全部部件之间的相对位置关系被确定为一定，从而能够批量生产电流检测特性的误差较小的导体。还可以采用如下方式，即，预先在固定部件和导体之间形成对两者的位置关系进行定位的形状，从而对被定位了的电流检测头和导体进行固定，以得到所述导体。

DC supply input status monitoring circuit and system

本发明提供一种直流电源输入状态监测电路及系统，该电路通过依次连接的分压模块、检测模块、开关模块和光耦隔离模块；其中，分压模块用于对直流电源的输入电压进行分压，并将分压电压输出至检测模块；检测模块用于对分压电压与参考电压进行比较，并将比较结果输出至开关模块；开关模块用于根据比较结果导通或者断开；光耦隔离模块用于在开关模块导通或者断开时输出电平信号，以指示直流电源输入是否处于欠压状态，实现了对直流电源输入电压状态的监测，并降低了监测成本。

Distributing board with detection and notification status and method for using the same

본 발명은 접지회로의 누설전류 및 이상전위를 감지하여 이를 관리자의 단말이나 외부 시스템에 전달함으로써, 사고의 감지 및 대처가 가능하도록 한 배전반 감시 및 알림 시스템과 이를 이용한 감시 및 알림 방법에 관한 것이다. 본 발명에 따른 배전반 감시 및 알림 시스템은 하나 이상의 배전반으로 구성되며, 배전반 각각이 자신의 상태를 감시하여 작성된 감지값에 의해 동작상태정보를 작성하고, 상기 동작상태정보에 의해 동작상태를 판단하여 상태표시등을 통해 출력하는 배전반그룹; 상기 배전반 그룹의 배전반 각각으로부터 배전반 아이디, 상기 동작상태정보 및 상기 감지값을 전달받아 출력하는 주관리시스템과 관리단말을 포함하는 관리리스템을 포함하여 구성된다.

Optical current transformer and signal processing method thereof

본 발명은 광변류기 및 이의 신호처리방법에 관한 것으로, 광섬유 전송선로 상에 전송되는 광 신호에 임의의 위상지연을 발생시켜 전류의 검출감도를 향상시킬 수 있는 광변류기 및 이의 신호처리방법을 제공한다. The present invention relates to an optical current transformer and a signal processing method thereof, and provides an optical current transformer and a signal processing method thereof that can generate an arbitrary phase delay in an optical signal transmitted on an optical fiber transmission line to improve detection sensitivity of current. . 본 발명에 따른 광변류기는 패러데이 로테이터(Faraday rotator)와 편광유지섬유(Polarization maintaining fiber) 등을 이용하여 광섬유 선로에서 전송되는 광 신호에 임의의 위상지연을 발생시킴으로써 검출감도가 양호한 지점으로 동작점을 이동시켜 신호검출감도를 향상시키고, 또한 광 자이로스코프 기술을 이용하는 기존의 광변류기에 비하여 센서광학부와 신호처리부 측면에서 구성이 보다 간단하여 경제적인 구성이 가능한 장점이 있다. The optical current transformer according to the present invention generates an arbitrary phase delay in an optical signal transmitted from an optical fiber line by using a Faraday rotator, Polarization maintaining fiber, and the like. It is possible to improve the signal detection sensitivity by moving, and also the economical configuration is simpler in terms of the sensor optical unit and the signal processing unit than the conventional optical current transformer using the optical gyroscope technology. 광섬유, 광변류기, 패러데이 로테이터, 편광유지섬유, 위상지연, 동작점, 간섭현상 Optical fiber, optical current transformer, Faraday rotator, polarization maintaining fiber, phase delay, operating point, interference

Wireless light emitting patch using NFC

본 발명은 NFC 모듈을 구비한 이동통신단말기와 연동하여 이동통신단말기에 발생되는 이벤트에 대응해서 발광하도록 한 NFC를 이용한 무선발광패치에 관한 것으로, 이동통신단말기에서의 이벤트 발생 시에 이동통신단말기에 구비된 NFC 모듈과 연동하여 NFC 모듈로부터 송출되는 전자기파를 수신하여 자기 유도 방식으로 전기적 신호로 변환시켜 주는 NFC수신안테나부; 일측면에 NFC수신안테나부를 형성하되 전기적으로 연결 설치하여, NFC수신안테나부에서 변환시킨 전기적 신호를 AC 전원으로 변환시켜 주는 인버터부; 및 일측면에 인버터부를 형성하되 전기적으로 연결 설치하여, 인버터부에서 변환시킨 AC 전원을 인가받아 발광하기 위한 발광시트부를 포함한다.

Current sensing circuitry

Novel all-fiber current transformer and manufacturing method for interference part thereof

本发明是一种新型全光纤电流互感器，其特点是，包括：超辐射发光二极管光源、保偏光纤耦合器、铌酸锂集成光学调制器、 波片、光电检测器、干涉部件和全数字闭环处理电路通过保偏光纤连接；干涉部件包括双环光纤环和保温装置；还提供了干涉部件的制作方法。具有结构合理、简单，适用温度范围广，测量精度高，成本低等优点。

Monitor the method and device of communication base station and electric power power supply state

一种监测通信基站电源供电状态的方法及装置，包括市电感应探头、3相交流电压检测模块、48V蓄电池电压检测模块、供电源判断模块、GPRS通讯模块，所述供电源判断模块包括，通过检测AC/DC开关电源进线测的交流电压频率抖动率和谐波幅度和市电状态，判断基站的供电电源是市电、还是发电或者疑似市电，通过检测48V蓄电池电压的突变方向，判断不同电源的供电起止时刻，通过市电感应探头检测市电输入侧的电压是否异常；能准确监测到当前为基站供电的电源是市电，还是交流发电或者是直流发电或者是蓄电池，以及对应的供电起止时间，还能将监测的结果保存到EPROM存储器中，并通过GPRS通讯模块，传送到移动油机管理系统的云端服务器进行数据统计。

Distributing board with opening and opening risk monitoring function on secondary side of current transformer

A distributing board with an opening and opening risk monitoring function on a secondary side of a current transformer includes: a voltage reducer connected to opposite terminals of the secondary side of the current transformer and configured to output a reduced voltage by reducing the terminal voltage of the secondary side of the current transformer; a first shunt regulating unit that has a predetermined reference voltage and compares the reduced voltage and the first reference voltage to be turned on when the reduced voltage is higher than the first reference voltage and outputs a first shut voltage; a first photo coupler connected to an output terminal of the first shunt regulating unit to output a first detection signal by using an optical signal as the first shunt voltage is provided by the first shunt regulating unit; a second shunt regulating unit that has a predetermined second reference voltage that is higher than the first reference voltage and compares the reduced voltage and the second reference voltage to be turned on when the reduced voltage is higher than the second reference voltage and outputs a second shunt voltage; a second photo coupler connected to an output terminal of the second shunt regulating unit to output a second detection signal by using an optical signal as the second shunt voltage is provided by the second shunt regulating unit; and a control unit configured (i) to determine that the secondary side terminal of the current transformer is in an open risk state if only the first detection signal is provided and output a first control signal, and (ii) determine that the secondary side terminal of the current transformer is in an open state if both the first detection signal and the second detection signal are provided and output a second control signal. Accordingly, a very rapid response speed can be achieved.

Narrow spectrum short pulse light source device and voltage detection device

Optical current transformer based on dual-wavelength structure and measurement method thereof

本发明公开了一种基于双波长结构的光学电流互感器，包括通过光纤连接的第一光源1、第二光源2、光纤耦合器3、传感头4、第一波分解复用器5、第二波分解复用器6、第一光电探测器7、第二光电探测器8；传感头4内的光学元件依次为第一准直器9、起偏器10、磁光晶体11、偏振分光棱镜12、第二准直器13和第三准直器14；测量方法包括：得到在两个不同的波长下磁光晶体的费尔德常数与温度之间的函数关系；在实际测量过程中，得到两束不同波长的偏振光在外界磁场的作用下经过磁光晶体后旋转的角度θ 1 、θ 2 ；求解后得到温度T和磁场强度H，再由电流I与其产生的磁场H之间的关系，最终求得所测电流值的大小。本发明提高了测量结果的准确度。

A kind of AC power power factor isolation detection interface circuit

本发明涉及一种交流电源功率因数隔离检测接口电路，包括交流电压隔离检测电路、交流电流隔离检测电路、电压电流放大电路和功率因数显示接口电路，所述交流电压隔离检测电路和交流电流隔离检测电路分别通过电压电流放大电路与功率因数显示接口电路电连接。通过本发明解决了现有交流电源的功率因数的检测设备体积大、重量重、测量不精确存在相移、使用动态频率范围窄、价格贵的问题。

Optical universal current meter

FIELD: instrument engineering.SUBSTANCE: invention relates to an optical instrument, namely to measuring instruments that use the Faraday effect. Device contains a light source, the first polarizer in the form of a Wollaston prism, a magneto-optical element in the form of a glass quadrangular prism of height h, with a mirror coating in the form of a strip equal to the width of the light beam D on the first base, and the second base has two polished inclined surfaces with mirror coatings, which are equal angles with the first base γ=arctg(0.5D/h). Further along the rays, a second polarizer is installed with transmission plane ±45° in relation to the transmission planes of the Wollaston prism, lenses, photodetectors and electronic unit. Wollaston prism is fixed on the first base of the quadrilateral prism so that the plane of rays dilution is parallel to the long side of the mirror plane, and angle thereof of the rays dilution is 2β≥arctg(D/4h). Second polarizer is also fixed on the plane of the first base, but on the other side of the strip of the mirror coating, followed by an additional glass prism with two faces forming the same angles θ=β+arcsin(sinβ/n) with third face thereof, where β – deflection angle by the Wollaston prism ray; n is the refractive index of the prism glass.EFFECT: invention provides increased versatility in measurements, reduced size.1 cl, 8 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 682 133 C1 (51) МПК G01R 15/24 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК G01R 15/246 (2018.08) (21)(22) Заявка: 2018115434, 24.04.2018 (24) Дата начала отсчета срока действия патента: Дата регистрации: 14.03.2019 (45) Опубликовано: 14.03.2019 Бюл. № 8 2 6 8 2 1 3 3 R U (56) Список документов, цитированных в отчете о поиске: US 5500909 A, 19.03.1996. RU 2620927 C1, 30.05.2017. US 2015097551 A1, 09.04.2015. (54) ИЗМЕРИТЕЛЬ ТОКА ОПТИЧЕСКИЙ УНИВЕРСАЛЬНЫЙ (57) Реферат: Изобретение относится к ...

Output signal stabilization circuit against the optical power variations for optical fiber current sensor

본 고안은 광섬유 전류센서의 광량 변화에 대해 안정화된 편광도가 얻어질 수 있도록 하는 광섬유 전류센서의 광량변화에 따른 출력신호 안정화 회로를 제공한다. 이를 위해 본 고안은 광섬유 전류센서의 편광 빔 분할기로부터 발생되는 제 1 및 제 2광 출력 신호를 신호처리하여 편광도를 측정하기 위한 신호처리 회로에 있어서, 상기 광섬유 전류센서로부터의 제 1 및 제 2광출력 신호를 각각 전기적인 신호로 변환하여 출력하는 제 1 및 제 2광 검출기와, 상기 제 1 및 제 2광 검출기로부터의 제 1 및 제 2출력신호를 전치 증폭하는 제 1 및 제 2전치 증폭기, 상기 각각 전치 증폭된 제 1 및 제 2출력신호에 대한 교류 성분 및 직류 성분을 각각 검출하는 제 1 및 제 2신호성분 검출기, 상기 제 1 및 제 2신호성분 검출기에 의해 검출된 제 1 및 제 2출력신호의 교류 성분 및 직류 성분을 정규화하기 위한 신호처리를 수행하는 제 1 및 제 2신호성분 정규화기 및, 상기 제 1 및 제 2신호성분 정규화기에 의해 정규화된 출력신호를 가산처리하는 가산기로 구성된 것을 특징으로 한다. The present invention provides an output signal stabilization circuit according to the light amount change of the optical fiber current sensor to obtain a stabilized polarization degree against the light amount change of the optical fiber current sensor. To this end, the present invention is a signal processing circuit for measuring the polarization degree by signal processing the first and second light output signal generated from the polarization beam splitter of the optical fiber current sensor, the first and second light from the optical fiber current sensor First and second photodetectors for converting and outputting output signals into electrical signals, respectively, and first and second preamplifiers for preamplifying first and second output signals from the first and second photodetectors, First and second signal component detectors for detecting an AC component and a DC component with respect to the preamplified first and second output signals, respectively, and first and second detected by the first and second signal component detectors, respectively. First and second signal component normalizers for performing signal processing to normalize the AC and DC components of the output signal, and output signals normalized by the first and second signal component normalizers. Characterized in that the treatment consisting of the adder.

METHOD AND DEVICE FOR MEASURING AN ALTERNATING ELECTRICAL QUANTITY TO INCLUDE TEMPERATURE COMPENSATION

센서 엘리먼트(3)에서 편광된 측정광(2)의 편광이 교류량(X)에 따라 변경된다. 상기 센서 엘리먼트(3)를 통과한 후 상기 측정광(2)은 두 개의 상이한 직선으로 편광된 신호 성분(LSI,LS2)으로 분할되고, 이것은 전기의 세기 신호(S1,S2)로 변환된다. 그 다음 이 시호의 세기가 규격화되고 나서 상기 신호가 P=(S1-S2)/(S1+S2)에서 형성된다. 규격화된 신호(P)의 이 교류 성분(PAC)과 직류 성분(PDC)으로부터 온도 보상된 신호(S)가 S=(a*PAC+b*1)/(c*PDC+D*1)에서 유출된다. 따라서 상기 온도 감도가 팩터 10만큼 감소된다.

Conductor to which current detection head is fixed, and current detection head used for manufacturing the conductor

ELECTRIC ENERGY COUNTER COMPRISING MEASURING SHUNT

Compteur d' énergie électrique comportant des moyens de mesure pour mesurer un courant sur au moins un conducteur (5a, 5b, 5c), les moyens de mesure comprenant, pour chaque conducteur : - un circuit de mesure (8a, 8b, 8c) comprenant un shunt (13) et des moyens d'acquisition (14) reliés au shunt ; - un circuit de traitement (9a, 9b, 9c) destiné à recevoir un signal de transmission (45) représentatif du courant consommé et à traiter le signal de transmission ; - des moyens de transmission (10a, 10b, 10c) destinés à transmettre avec un isolement galvanique le signal de transmission, les moyens de transmission comprenant au moins une diode électroluminescente (32, 33) située dans le circuit de mesure et une première photodiode (34) située dans le circuit de traitement. Electric energy meter comprising measuring means for measuring a current on at least one conductor (5a, 5b, 5c), the measuring means comprising, for each conductor: - a measurement circuit (8a, 8b, 8c) comprising a shunt (13) and acquisition means (14) connected to the shunt; - a processing circuit (9a, 9b, 9c) for receiving a transmission signal (45) representative of the consumed current and processing the transmission signal; transmission means (10a, 10b, 10c) for transmitting the transmission signal with a galvanic isolation, the transmission means comprising at least one light-emitting diode (32, 33) located in the measuring circuit and a first photodiode ( 34) located in the processing circuit.