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US-12618874-B2 - Apparatus and system for non-contact current and voltage composite measurement

US12618874B2US 12618874 B2US12618874 B2US 12618874B2US-12618874-B2

Abstract

An apparatus for non-contact current and voltage composite measurement includes: a current signal detection device, a voltage signal detection device, a zero-crossing detection circuit, and a control unit. The current signal detection device generates a current-induced electromotive force based on current flowing on the transmission line to be measured when there is current-voltage passing through the transmission line to be measured; the voltage signal detection device generates a voltage-induced electromotive force based on voltage flowing on the transmission line to be measured when there is current-voltage passing through the transmission line to be measured. The zero-crossing detection circuit performs zero-crossing detection on the current-induced electromotive force and the voltage-induced electromotive force to determine the phase difference between them. After calibrating the phase difference by the control unit, the control unit can simultaneously output current value, voltage value and power value of the transmission line to be measured.

Inventors

  • Xiangyu TAN
  • Yong Lu
  • Wenyun Li
  • Yi Ma
  • Lijun Tang
  • Wenbin Zhang
  • Xiaowei Xu
  • Fangrong ZHOU
  • Xingmei ZHOU

Assignees

  • ELECTRIC POWER RESEARCH INSTITUTE OF YUNNAN POWER GRID CO., LTD.

Dates

Publication Date
20260505
Application Date
20230830
Priority Date
20221027

Claims (9)

  1. 1 . An apparatus for non-contact current and voltage composite measurement, comprising: a current signal detection device, a voltage signal detection device, a zero-crossing detection circuit, and a control unit; wherein the current signal detection device and the voltage signal detection device both comprises an openable and closable cylindrical housing for each; wherein the zero-crossing detection circuit is respectively connected to the current signal detection device, the voltage signal detection device, and the control unit; wherein the current signal detection device is fastened to a transmission line to be measured and is used to generate a current-induced electromotive force based on a current flowing on the transmission line to be measured when a current-voltage passes through the transmission line to be measured; wherein the voltage signal detection device is fastened to the transmission line to be measured and is used to generate a voltage-induced electromotive force based on a voltage flowing on the transmission line to be measured when a current-voltage passes through the transmission line to be measured; wherein the zero-crossing detection circuit is used to calculate a phase difference between the current-induced electromotive force and the voltage-induced electromotive force and to send a settlement result to the control unit; wherein the control unit is used to calibrate the phase difference and then output a current value, a voltage value, and a power value of the transmission line to be measured; wherein the apparatus further comprises: a first operational amplifier circuit and a second operational amplifier circuit; wherein the current signal detection device is connected to the zero-crossing detection circuit through the first operational amplifier circuit; wherein the voltage signal detection device is connected to the zero-crossing detection circuit through the second operational amplifier circuit; wherein the first operational amplifier circuit is used to amplify and output the current-induced electromotive force; wherein the second operational amplifier circuit is used to amplify and output the voltage-induced electromotive force.
  2. 2 . The apparatus according to claim 1 , wherein the apparatus further comprises: a first filter circuit and a second filter circuit; wherein the current signal detection device is connected to the zero-crossing detection circuit through the first filter circuit; wherein the voltage signal detection device is connected to the zero-crossing detection circuit through the second filter circuit; wherein the first filter circuit is used to filter out signals other than power frequency in the current-induced electromotive force; wherein the second filter circuit is used to filter signals other than power frequency in the voltage-induced electromotive force.
  3. 3 . The apparatus according to claim 1 , wherein the apparatus further comprises: an I/O output port; wherein the control unit is connected to a host computer through the I/O output port and is used to output the current value, voltage value and power value of the transmission line to be measured to the host computer.
  4. 4 . The apparatus according to claim 1 , wherein the apparatus further comprises: a power supply unit; wherein the power supply unit is respectively connected to the current signal detection device, the voltage signal detection device, the zero-crossing detection circuit, and the control unit, and is used to provide operating current.
  5. 5 . The apparatus according to claim 1 , wherein the housings of the current signal detection device and the voltage signal detection device are made of different materials.
  6. 6 . The apparatus according to claim 5 , wherein the current signal detection device comprises an openable and closable ferrite cylindrical housing; wherein the voltage signal detection device comprises an openable and closable metal cylindrical housing.
  7. 7 . The apparatus according to claim 1 , wherein the current signal detection device is provided with a Hall element or a giant magnetoresistance; wherein the current signal detection device is used to generate a current-induced electromotive force based on a current flowing on the transmission line to be measured through the Hall element or the giant magnetoresistance when there is a current-voltage passing through the transmission line to be measured.
  8. 8 . The apparatus according to claim 1 , wherein the current signal detection device and the voltage signal detection device are fittingly arranged on the transmission line to be measured.
  9. 9 . A system for non-contact current and voltage composite measurement, comprising: a host computer and the apparatus for non-contact current and voltage composite measurement according to claim 1 ; wherein the control unit in the apparatus for non-contact current and voltage composite measurement is communicatively connected with the host computer, and the control unit is used to output the current value, the voltage value, and the power value of the transmission line to be measured to the host computer.

Description

TECHNICAL FIELD The present disclosure relates to the technical field of electrical signal measurement, and in particular to an apparatus and a system for non-contact current and voltage composite measurement. BACKGROUND As interest in energy efficiency increases in commercial and residential locations, the need to measure power consumption in AC line powered systems is increasing more. In order to make an accurate measurement, the characteristics of the load and the current and voltage generated by the load must be taken into the considering. In the existing technology, current sensors and voltage sensors are generally used to measure the current and voltage of transmission lines. However, existing measurement apparatuses only can provide a single measurement result such as being for current or voltage, which cannot comply with the load measurement requirements of transmission lines. SUMMARY OF INVENTION In order to overcome, at least to a certain extent, the problem that measurement apparatuses in the related art only can provide a single measurement result such as being for current or voltage and cannot comply with the load measurement requirements of transmission lines, the present disclosure it to provide an apparatus and a system for non-contact current and voltage composite measurement. The solution provided by the present disclosure is as follows: According to a first aspect of embodiments of the present disclosure, an apparatus for non-contact current and voltage composite measurement is provided, including: a current signal detection device, a voltage signal detection device, a zero-crossing detection circuit, and a control unit;wherein the current signal detection device and the voltage signal detection device both include an openable and closable cylindrical housing;wherein the zero-crossing detection circuit is respectively connected to the current signal detection device, the voltage signal detection device, and the control unit;wherein the current signal detection device is fastened to a transmission line to be measured and is used to generate a current-induced electromotive force based on a current flowing on the transmission line to be measured when a current-voltage passes through the transmission line to be measured;wherein the voltage signal detection device is fastened to the transmission line to be measured and is used to generate a voltage-induced electromotive force based on a voltage flowing on the transmission line to be measured when a current-voltage passes through the transmission line to be measured;wherein the zero-crossing detection circuit is used to calculate a phase difference between the current-induced electromotive force and the voltage-induced electromotive force and to send a settlement result to the control unit;wherein the control unit is used to calibrate the phase difference and then output a current value, a voltage value, and a power value of the transmission line to be measured. Preferably, the apparatus further includes: a first operational amplifier circuit and a second operational amplifier circuit; wherein the current signal detection device is connected to the zero-crossing detection circuit through the first operational amplifier circuit;wherein the voltage signal detection device is connected to the zero-crossing detection circuit through the second operational amplifier circuit;wherein the first operational amplifier circuit is used to amplify and output the current-induced electromotive force;wherein the second operational amplifier circuit is used to amplify and output the voltage-induced electromotive force. Preferably, the apparatus further includes: a first filter circuit and a second filter circuit; wherein the current signal detection device is connected to the zero-crossing detection circuit through the first filter circuit;wherein the voltage signal detection device is connected to the zero-crossing detection circuit through the second filter circuit;wherein the first filter circuit is used to filter out signals other than power frequency in the current-induced electromotive force;wherein the second filter circuit is used to filter signals other than power frequency in the voltage-induced electromotive force. Preferably, the apparatus further includes: an I/O output port;wherein the control unit is connected to a host computer through the I/O output port and is used to output the current value, voltage value and power value of the transmission line to be measured to the host computer. Preferably, the apparatus further includes: a power supply unit; wherein the power supply unit is respectively connected to the current signal detection device, the voltage signal detection device, the zero-crossing detection circuit, and the control unit, and is used to provide operating current. Preferably, the housings of the current signal detection device and the voltage signal detection device are made of different materials. Preferably, the current signal d