KR100452301B1 - The Apparatus and Method for Simultaneous Measurement of Current and Voltage Using Optic Fiber - Google Patents

Abstract

A polarization modulator (3) which generates an electrical signal with respect to a reference voltage and periodically modulates the polarized polarized laser beam with time by linearly and circularly polarizing light;

A sensor head (4) which receives the polarization modulated by the polarization modulator (3) and induces a change in linearly polarized light due to a current and a circularly polarized light due to a voltage with respect to the input light;

A photodetector 6 for converting the polarized sensor head 4 output light into an electrical signal;

Circularly polarized light receiving an electrical signal of the polarization modulator 3 and the photodetector 6, the lock-in amplifier 7 for measuring the amount of change in linearly polarized light, and an electrical signal of the polarization modulator 3 and the photodetector 6 A lock-in amplifier 8 for measuring the amount of change in?

The lock-in amplifier 7 and the lock-in amplifier 8 are converted into a current and voltage value conversion unit according to the calculation of the amount of polarization.

It is compact and easy to install, requires no electrical noise or insulation, no current saturation, good straightness, direct current and high frequency measurements, small temperature effects, and no measurement errors over distance. There is a very significant effect that can easily measure the amount of power.

Description

Current Apparatus and Method for Simultaneous Measurement of Current and Voltage Using Optic Fiber}

The present invention is a magneto-optical effect of changing the linear polarization direction of the optical fiber wound around the wire by a magnetic field flowing through the wire when the polarized light passes through the current-carrying conductor and a voltage is applied to the optical fiber is passed through it when the electric field is formed The present invention relates to a device and a method for simultaneously measuring the current and voltage of a distribution line using an electro-optic effect in which circularly polarized light is converted into elliptical polarization. The present invention relates to an apparatus and method for simultaneously measuring current and voltage using an optical fiber capable of calculating electric power by periodically measuring current and voltage simultaneously by circularly polarized light.

In general, in the transmission and distribution technology field, the total power can be calculated by measuring the current and voltage of the distribution line.

Conventionally, when measuring the current circulated through a distribution line, a transformer consisting of an iron core and a coil is generally used. However, since this transformer is purely an electric device, it must satisfy the electric noise resistance and the electric insulation resistance, and there is a current saturation phenomenon, the straightness is inferior, and the size of the transformer itself increases, so that the installation considering the external dimensions is essential. There was a problem.

On the other hand, the conventional optical sensor for current measurement has the advantage that there is no current saturation, high linearity, can measure up to DC and high frequency, and easy to install as a miniaturized sensor compared to the conventional current transformer, but such an optical sensor Since it is divided into voltage measurement and current measurement, there is a problem in that an independent sensor must be installed when measuring the amount of power.

In addition, since the conventional current measuring sensor is a sensor using an optical fiber, and the voltage measuring sensor is a sensor using an electro-optic crystal, there is a problem in that the two sensors are installed in the same conductor.

In addition, the photocurrent sensor and the voltage sensor composed of a crystal may cause a measurement error depending on the distance between the wire and the sensor, and has a large effect on temperature.

The present invention has been made in order to solve the above problems, by modulating the reference light to linear and circular polarization using a polarization modulator, by measuring the amount of linear polarization change according to the current and the circular polarization change according to the voltage at the same time, An object of the present invention is to provide an apparatus and method for simultaneously measuring current and voltage of a wire using an optical fiber, which can measure the amount of power by a sensor.

1 is a waveform diagram showing a waveform of polarized light by a polarization modulator;

2 is a block diagram showing an apparatus for simultaneously measuring current and voltage using an optical fiber of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: laser 2: polarizer

3: polarization modulator 4: sensor head

5 polarizing plate 6 photodetector

7: Lock-in Amplifier 8: Lock-in Amplifier

9: current conductor to which voltage is applied 10: optical fiber

11: grounding

In order to achieve the above technical problem, the current and voltage simultaneous measurement apparatus using the optical fiber of the present invention

A laser 1 for generating a laser beam;

A polarizing plate (2) for polarizing the laser beam generated by the laser (1) at a predetermined angle;

A polarization modulator (3) which generates an electrical signal with respect to the reference voltage and periodically modulates the beam polarized by the polarizing plate according to time by linearly and circularly polarized light;

A sensor head (4) which receives the polarization modulated by the polarization modulator (3) and induces a change in linearly polarized light due to a current and a circularly polarized light due to a voltage with respect to the input light;

A polarizing plate 5 for polarizing the output light of the sensor head 4 at a predetermined angle;

A photodetector 6 for converting the output light of the polarizer 5 into an electrical signal;

Circularly polarized light receiving an electrical signal of the polarization modulator 3 and the photodetector 6, the lock-in amplifier 7 for measuring the amount of change in linearly polarized light, and an electrical signal of the polarization modulator 3 and the photodetector 6 A lock-in amplifier 8 for measuring the amount of change in?

A device for simultaneously measuring current and voltage using an optical fiber, characterized in that it comprises a conversion processing unit for converting the amount of polarization change of the lock-in amplifier 7 and the lock-in amplifier 8 into current and voltage values.

Here, the sensor head (4) is composed of an optical fiber (10) wound around the conductor (9) to be measured, the output light of the polarization modulator (3) is input to the optical fiber (10), part of the reference voltage And configured to apply voltages of the measurement target points, respectively.

On the other hand, the current and voltage simultaneous measurement method using the optical fiber of the present invention

Polarizing the laser beam through a polarizing plate at a predetermined angle;

Separating the polarized light with time and periodically modulating the polarized light into linearly and circularly polarized light;

Measuring a linear polarization change amount of the optical fiber wound around the conductive line in the period of the linear polarization, and converting it into a current value to obtain a current value;

In the period of the circular polarization, the current using the optical fiber, characterized in that for measuring the circular polarization change amount of the optical fiber according to the voltage difference between the reference voltage applied to the conductive wire and the measurement target point and converting it into a voltage value This is a voltage simultaneous measurement method.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a waveform diagram illustrating a polarization modulation waveform. First, the principle of the polarization modulator will be described.

A polarization modulator is a device for modulating polarization of an incident linearly polarized light at a constant frequency. The polarization modulator is a device that modulates polarized light with time by linearly polarized light for one period and circularly polarized light for half a period.

Therefore, the magnetic field is formed by the current flowing in the conductive wire, and in order to measure the amount of change in the linearly polarized light of the light beams due to the magnetic field, it is necessary to measure the phases in one cycle and polarize the light rays in the optical fiber according to the voltage difference applied to the optical fiber. In order to measure the change of, it is necessary to measure the half cycle phase. This makes it possible to measure current and voltage simultaneously with one optical fiber.

2 is a block diagram showing an apparatus for simultaneously measuring current and voltage using an optical fiber of the present invention.

First, the laser beam generated by the laser 1 passes through the polarizing plate 2, and when it passes through, the polarization of the laser beam is changed to a predetermined predetermined angle, for example, a 45 ° angle. Subsequently, the polarized light changed by the angle D passes through the polarization modulator 3.

Passing through the polarization modulator 3, the polarization of the laser beam is periodically modulated. The polarization modulator 3 generates a reference voltage with respect to the voltage Va to be measured or an electrical signal with respect to the ground 11.

The laser beam through which the polarization is periodically modulated through the polarization modulator 3 passes through the optical fiber 10 of the sensor head 4.

However, in the period of linearly polarized light, the light rays in the optical fiber 10 change due to the magnetic field generated by the current of the conductive wire 9, thereby changing the linearly polarized light direction. In addition, in the period of the circularly polarized light which is periodically changed, the light beam in the optical fiber 10 is changed by the potential difference between the voltage Va applied to the optical fiber 10 and the reference voltage so that the circularly polarized form is changed into an elliptical polarization form. do.

The light rays in the optical fiber 10 changed according to the current and the voltage are output at the ends to be changed to a predetermined angle, for example, -45 ° by the polarizer 5. The light is then converted into an electrical signal through photodetector 6.

Thereafter, an electrical signal output from the polarization modulator 3 and the photodetector 6 is applied to the lock-in amplifiers 7 and 8. The lock-in amplifiers 7 and 8 allow the lock-in amplifier to measure the peak value of the measurement signal in phase with respect to the reference frequency. That is, as an amplifier measuring a measurement signal by matching a phase with a reference signal, external noise can be reduced, and a fine signal can be measured.

The lock-in amplifier 7 is configured to measure a signal in phase with the reference frequency, thereby measuring the amount of change in linearly polarized light. On the other hand, the lock-in amplifier 8 is configured to measure a signal that is twice the reference frequency, thereby measuring the amount of change in circularly polarized light.

The outputs of the lock-in amplifiers 7 and 8 are input to a conversion processor (not shown). The conversion processing unit converts the output values of the lock-in amplifiers 7 and 8 which are electric signals into corresponding current and voltage values, respectively. Thus, current and voltage can be measured simultaneously.

If necessary, the amount of power can be easily obtained by simple multiplication of the output of the conversion processing unit.

According to the present invention as described above, it is easier to install than the conventional electrical transformer or crystal optical sensor, the size is small, no consideration of electrical noise or insulation, no current saturation phenomenon, straightness is good, direct current and high frequency It is possible to measure up to, the effect of temperature is small, and also measure the current and voltage at the same time by using a polarization modulator, it has a very significant effect that can easily measure the amount of power without the measurement error on the distance with the same sensor.

Claims (3)

delete A laser 1 for generating a laser beam; A polarizing plate (2) for polarizing the laser beam generated by the laser (1) at a predetermined angle; A polarization modulator (3) which generates an electrical signal with respect to the reference voltage and periodically modulates the beam polarized by the polarizing plate according to time by linearly and circularly polarized light; A sensor head (4) which receives the polarization modulated by the polarization modulator (3) and induces a change in linearly polarized light due to a current and a circularly polarized light due to a voltage with respect to the input light; A polarizing plate 5 for polarizing the output light of the sensor head 4 at a predetermined angle; A photodetector 6 for converting the output light of the polarizer 5 into an electrical signal; Circularly polarized light receiving an electrical signal of the polarization modulator 3 and the photodetector 6, the lock-in amplifier 7 for measuring the amount of change in linearly polarized light, and an electrical signal of the polarization modulator 3 and the photodetector 6 A lock-in amplifier 8 for measuring the amount of change in? Conversion processing unit for converting this into a current and voltage value according to the calculation of the polarization change amount of the lock-in amplifier 7 and the lock-in amplifier 8 It includes, but the sensor head 4 is composed of an optical fiber 10 wound around the conductive wire (9) to be measured, the output light of the polarization modulator 3 is input to the optical fiber 10, a part of A current and voltage simultaneous measurement apparatus using an optical fiber, characterized in that configured to apply a reference voltage and the voltage of the measurement target point respectively. Polarizing the laser beam through a polarizing plate at a predetermined angle; Separating the polarized light with time and periodically modulating the polarized light into linearly and circularly polarized light; Measuring a linear polarization change amount of the optical fiber wound around the conductive line in the period of the linear polarization, and converting it into a current value to obtain a current value; In the period of the circular polarization, the current using the optical fiber, characterized in that for measuring the circular polarization change amount of the optical fiber according to the voltage difference between the reference voltage applied to the conductive wire and the measurement target point and converting it into a voltage value Voltage simultaneous measurement method.