RU137944U1 - HIGH VOLTAGE DIGITAL CURRENT MEASUREMENT DEVICE - Google Patents

Abstract

A high-voltage digital device for measuring current, comprising a shunt, an analog-to-digital converter, an optical transceiver and an optical channel, characterized in that it further comprises a supply electromagnetic transformer, covering the conductor with the measured current; a current-voltage converter, a voltage stabilizer and a signal processing unit placed inside a shunt made cylindrical with an internal cavity and included in the cut of the current lead; a second optical transceiver, router, and power supply located on the low voltage side; wherein the first optical transceiver is placed inside the shunt, and the signal processing unit includes an analog-to-digital converter; wherein the supplying electromagnetic transformer is connected to a current-voltage converter, which is connected to a voltage stabilizer connected to the signal processing unit and to the optical transceiver, potential shunt electrodes are connected to the signal processing unit, which is connected to the optical transceiver through an optical channel connected to the second optical transceiver, connected to the router, and the power supply is connected to the second optical transceiver and to the router.

Description

The utility model relates to measuring equipment, in particular to digital measuring devices of direct and alternating current.

A known current sensor (Patent for the invention of the Russian Federation No. 2377578, IPC G01R 19/00, 2008) containing a resistive element connected to an amplifier and a power supply, a transformer galvanic isolation is installed between the resistive element and the output of the sensor, including an analog- a digital converter separating the transformer and the digital-to-analog converter, wherein the output of the amplifier is connected to an analog-to-digital converter, the output of the analog-to-digital converter is connected to the primary winding of the separating transformer, the secondary winding and which is connected to a digital to analog converter and an amplifier, and an analog-digital converter associated with the power supply through a power transformer.

The disadvantages of this current sensor are the transmission of the measuring signal in digital form through an isolating transformer, the absence of electronic equipment shielding devices and, as a consequence, its sensitivity to electric and magnetic fields of the current path with the measured current.

Known high-voltage optoelectronic device for measuring current (Patent for the invention of the Russian Federation No. 2346285, G01R 19/00, 2009), adopted as a prototype containing a current sensor, analog-to-digital converter (ADC) and a transmitter, it is placed inside the current lead with a measured current, It is under high voltage potential in the zone of absence of magnetic and electric fields, and information about the measured current is transmitted in digitally encoded form via an optical channel.

The disadvantage of this high-voltage optoelectronic device is that the measurement is carried out by determining the voltage on the shunt connected in parallel with the main current lead, changing the redistribution of currents between the current lead and the shunt leads to additional errors. Also, this device does not have a power supply unit for electronic equipment on the high-voltage side, which makes its operation impossible.

The technical result is to increase the accuracy of measurement.

The technical result is achieved by the fact that the high-voltage digital device for measuring current, containing a shunt, an analog-to-digital converter, an optical transceiver and an optical channel further comprises a supply electromagnetic transformer, covering the conductor with the measured current; a current-voltage converter, a voltage stabilizer and a signal processing unit placed inside a shunt made cylindrical with an internal cavity and included in the cut of the current lead; a second optical transceiver, router, and power supply located on the low voltage side; wherein the first optical transceiver is placed inside the shunt, and the signal processing unit includes an analog-to-digital converter; wherein the supply electromagnetic transformer is connected to a current-voltage converter, which is connected to a voltage stabilizer connected to the signal processing unit and to the optical transceiver, potential shunt electrodes are connected to the signal processing unit, which is connected to the optical transceiver through an optical channel connected to the second optical transceiver connected to the router, and the power supply is connected to the second optical transceiver and to the router.

The drawing shows a schematic diagram of a high-voltage digital device for measuring current and the following notation is used: current lead 1, cylindrical shunt 2, supplying electromagnetic transformer 3, current-voltage converter 4, voltage regulator 5, signal processing unit 6 containing an ADC, the first optical transceiver 7 , an optical channel 8, a second optical transceiver 9, a router 10, a power supply 11, a reference insulator 12.

The high-voltage digital device for measuring current contains a cylindrical shunt 2 included in the dissection of the current lead 1 (combined with the current lead), supplying an electromagnetic transformer 3, covering the current lead 1 with the measured current. Inside the cylindrical shunt 2 are placed: a current-voltage converter 4, a voltage stabilizer 5, a signal processing unit 6 containing an ADC and a first optical transceiver 7. An optical channel 8 is placed inside the reference insulator 12. The second optical transceiver 9, router 10 and power supply 11 are located on the low voltage side. The supply electromagnetic transformer 3 is connected to a current-voltage converter 4, which is connected to a voltage stabilizer 5. The voltage stabilizer 5 is also connected to a signal processing unit 6 and to the first optical transceiver 7. Potential electrodes of a cylindrical shunt 2 are connected to a signal processing unit 6, which is connected with the first optical transceiver 7. The first optical transceiver 7 using the optical channel 8 is connected to the second optical transceiver 9, which is connected to the to the switch 10. The power supply 11 is connected to the second optical transceiver 9 and to the router 10. A current-voltage converter 4, a voltage stabilizer 5, a signal processing unit 6, an optical transceiver 7 are placed inside the shunt 2 to exclude the influence of electric and magnetic fields on them. The optical channel 8 is placed in the supporting insulator 12 to provide high-voltage galvanic isolation. Cylindrical shunt 2, converts the entire spectrum of frequencies, including direct current and aperiodic component with high accuracy.

A high voltage digital device for measuring current is as follows. When electric current flows through the current lead 1 on a cylindrical shunt 2, a voltage drop is observed, which arrives at the signal processing unit 6, where it is processed in accordance with the programmed algorithms, including conversion to digital form. Next, the signal is digitally supplied to the first optical transceiver 7, converting it into an optical signal. The optical signal through the optical channel 8 is transmitted to the low-voltage side, where with the help of a second optical transceiver 9 it is converted into a digital signal and transmitted to the router 10. The router 10 transmits a digital signal to the signal consumers. The signal consumers can be relay protection and automation devices, commercial electricity metering devices, etc. Electric current from the supply transformer 3 that occurs when current flows through the current lead 1 is fed to the current-voltage converter 4, where rectification, smoothing, and limiting the output voltage are performed. The resulting voltage is supplied to a voltage stabilizer 5, which performs the function of normalizing the output voltage to a given level and smoothing. The power to the signal processing unit 6 and the transceiver 7 is supplied from the voltage stabilizer 5. The second optical transceiver 9 and the router 10 are supplied with power from the power supply 11.

Thus, the inclusion of a shunt in the dissection of the current lead and the location in it of electronic equipment provides improved measurement accuracy.

Claims (1)

A high-voltage digital device for measuring current, comprising a shunt, an analog-to-digital converter, an optical transceiver and an optical channel, characterized in that it further comprises a supply electromagnetic transformer, covering the conductor with the measured current; a current-voltage converter, a voltage stabilizer, and a signal processing unit placed inside a shunt made cylindrical with an internal cavity and included in the dissection of the current lead; a second optical transceiver, router, and power supply located on the low voltage side; wherein the first optical transceiver is placed inside the shunt, and the signal processing unit includes an analog-to-digital converter; wherein the supplying electromagnetic transformer is connected to a current-voltage converter, which is connected to a voltage stabilizer connected to the signal processing unit and to the optical transceiver, potential shunt electrodes are connected to the signal processing unit, which is connected to the optical transceiver through an optical channel connected to the second optical transceiver, connected to the router, and the power supply is connected to the second optical transceiver and to the router.

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