SU116170A1 - Device for measuring frequency in three-phase networks - Google Patents

Device for measuring frequency in three-phase networks

Info

Publication number
SU116170A1
SU116170A1 SU588646A SU588646A SU116170A1 SU 116170 A1 SU116170 A1 SU 116170A1 SU 588646 A SU588646 A SU 588646A SU 588646 A SU588646 A SU 588646A SU 116170 A1 SU116170 A1 SU 116170A1
Authority
SU
USSR - Soviet Union
Prior art keywords
phase
measuring frequency
frequency
phase networks
voltage
Prior art date
Application number
SU588646A
Other languages
Russian (ru)
Inventor
И.А. Матус
Original Assignee
И.А. Матус
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by И.А. Матус filed Critical И.А. Матус
Priority to SU588646A priority Critical patent/SU116170A1/en
Application granted granted Critical
Publication of SU116170A1 publication Critical patent/SU116170A1/en

Links

Landscapes

  • Measurement Of Current Or Voltage (AREA)

Description

Дл  измерени  частоты в трехфазных сет х примен ют устройства, содержащие контур, настроенный в резонанс на среднее значение измер емой частоты, кольцевой фазовый детектор и подключенный к нему измерительный прибор.To measure the frequency in three-phase networks, devices are used that contain a circuit tuned to resonance at the average value of the frequency being measured, an annular phase detector and a measuring device connected to it.

Предлагаемое устройство более совершенно, по сравнению с известными устройства, так как оно обеспечивает повышение точности измерени . Это достигаетс  тем, что элементы резонансного контура подключены к двум последовательно соединенным фазным вторичным обмоткам трехфазного трансформатора напр жени , треть  фазна  обмотка трансформатора используетс  в качестве источника управл юш.его напр жени  фазового детектора.The proposed device is more perfect in comparison with the known devices, since it provides an increase in measurement accuracy. This is achieved by the fact that the elements of the resonant circuit are connected to two series-connected phase secondary windings of a three-phase voltage transformer, the third phase winding of the transformer is used as a source of control of its phase detector voltage.

На чертеже изображена электрическа  схема предлагаемого устройства .The drawing shows the electrical circuit of the proposed device.

Устройство содержит резонансный контур /, настроенный на среднее значение измер емой частоты. Резонансный контур подключен к двум последовательно соединенным фазным вторичным обмоткам трехфазного трансформатора напр жени  2, который присоединен к контролируемой сети через стабилизатор напр жени  3. К схеме контура через фазовый кольцевой детектор 4 подключаетс  измерительный прибор .The device contains a resonant circuit /, tuned to the average value of the measured frequency. The resonant circuit is connected to two series-connected phase secondary windings of a three-phase voltage transformer 2, which is connected to the monitored network through a voltage regulator 3. A measuring device is connected to the circuit circuit via a phase ring detector 4.

Дл  визуального отсчета может быть применен магнитоэлектрический вольтметр 5, а дл  записи-шлейф 6 магнитоэлектрического осци .тлографа с фильтром 7.For a visual reference, a magnetoelectric voltmeter 5 can be used, and for recording-a loop 6 of the magnetoelectric oscillation tlograf with filter 7.

Источником управл юш,его напр жени  фазового детектора 4 служит треть  фазна  обмотка трансформатора 2.The control source, its voltage of the phase detector 4 is the third phase winding of the transformer 2.

В результате того, что питание ветвей резонансного контура осуш;естБл етс  в предлагаемом устройстве от различных фаз, при резонансе имеет место компенсаци  полных токов ветвей, а не только их реактивных составл ющих, что повышает точность измерени . Ток небаланса, по вл ющийс  при отклонении частоты от номинального значени , пропорционален величине этого отклонени  (при малых отклонени х). При перемене знака отклонени  частоты фаза этого тока измен етс  на 180°.Due to the fact that the power supply of the branches of the resonant circuit is drying out of the proposed device from different phases, at resonance there is a compensation of the total currents of the branches, and not just their reactive components, which increases the measurement accuracy. The unbalance current that occurs when the frequency deviates from the nominal value is proportional to the magnitude of this deviation (for small deviations). When the sign of the frequency deviation changes, the phase of this current changes by 180 °.

Предмет изобретени Subject invention

Устройство дл  измерени  частоты в трехфазных сет х, содержащее контзф, настроенный в резонанс на среднее значение измер емой частоты, кольцевой фазовый детектор и подключенный к нему измерительный прибор, отличающеес  тем, что, с целью повышени  точности измерени , элементы резонансного контура подключены к двум последовательно соединенным фазным вторичным обмоткам трехфазного трансформатора напр жени , треть  фазна  обмотка которого используетс  в качестве источника управл ющего напр жени  фазового детектора.A device for measuring frequency in three-phase networks, containing a contras, tuned to resonance at the average value of the measured frequency, an annular phase detector and a measuring device connected to it, characterized in that, in order to improve the measurement accuracy, the elements of the resonant circuit are connected to two in series connected phase secondary windings of a three-phase voltage transformer, the third phase winding of which is used as a source of control voltage of a phase detector.

тютtyut

SU588646A 1957-09-27 1957-09-27 Device for measuring frequency in three-phase networks SU116170A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
SU588646A SU116170A1 (en) 1957-09-27 1957-09-27 Device for measuring frequency in three-phase networks

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
SU588646A SU116170A1 (en) 1957-09-27 1957-09-27 Device for measuring frequency in three-phase networks

Publications (1)

Publication Number Publication Date
SU116170A1 true SU116170A1 (en) 1957-11-30

Family

ID=48388410

Family Applications (1)

Application Number Title Priority Date Filing Date
SU588646A SU116170A1 (en) 1957-09-27 1957-09-27 Device for measuring frequency in three-phase networks

Country Status (1)

Country Link
SU (1) SU116170A1 (en)

Similar Documents

Publication Publication Date Title
SU116170A1 (en) Device for measuring frequency in three-phase networks
US2712107A (en) Excitation systems
SU167244A1 (en) Device for determining power factors and losses in electrical circuits
SU486287A1 (en) Method of measuring the capacity of electrical networks with insulated neutral
SU117788A2 (en) Device for measuring electromagnetic moment in asynchronous electrical machines
SU99033A1 (en) Method of measuring the first current and voltage harmonics
SU109915A1 (en) Device for measuring capacitances and inductances by the resonance method
SU119619A1 (en) Device for automatic sorting of magnetodielectric cores
SU420965A1 (en) METER FOR REVERSE SEQUENCE OF THREE-PHASE STRESS SYSTEM
US3034052A (en) Frequency meter
SU143149A1 (en) Device for assessing the efficiency of the work of consumers of electric energy
SU402821A1 (en) ARROW PHASOMETER
SU107437A1 (en) Zero indicator to bridge or compensatory measuring devices of alternating current
SU113957A1 (en) Device for measuring high DC currents
SU142707A1 (en) High frequency wattmeter
SU107203A2 (en) Device for measuring active resistance inductance, capacitance and power loss
SU119254A1 (en) Ac bridge
SU128938A1 (en) Device for measuring small phase angles of deviation from 90 ° phase shift of two alternating voltages
SU75042A1 (en) Vectormeter
SU109327A2 (en) Wattmeter for measuring high frequency circuits
SU391492A1 (en) DEVICE FOR MEASUREMENT OF THE DEVELOPMENT OF THE FREQUENCY FREQUENCY OF SINUSOIDAL VOLTAGE FROM NOMINAL
SU136464A1 (en) Device for monitoring DC isolation
SU81941A1 (en) Method of testing the taming devices without disconnecting from the network
SU116184A1 (en) Contactless electrical level sensor
SU121507A1 (en) Device for accounting for total energy in AC networks