KR0136617B1 - Transformer tester - Google Patents

Abstract

The present invention relates to a transformer measuring apparatus, and more particularly, it is possible to determine whether a transformer is good by measuring an output voltage output from a secondary side of a transformer output in response to an input input to a primary side of a transformer. The present invention relates to a transformer measuring device, which is conventionally used. The input and output voltages of the transformer on the primary and secondary sides of the transformer are measured manually, and the measurement error is manually measured by the eye of the operator. Had defects that arise.

The present invention supplies the reference voltage generated from the input voltage generator 20 to the primary side of the transformer 10 to be measured, as shown in FIG. 1, and the secondary side of the transformer 10 to be measured. The output voltage is detected by the output voltage detector 30 and recognized by the control and measurement unit 40 to determine whether the transformer 10 to be measured is determined.

Description

Transformer Checking Device

1 is a block diagram according to the present invention.

(A) of FIG. 2 is a graph showing the input voltage state supplied to the primary side of the transformer for measurement of the present invention,

(B) is a graph showing the output voltage state output from the secondary side of the transformer for measurement of the present invention.

* Description of the symbols for the main parts of the drawings *

10-measure transformer,

20-input voltage interrupter, 21: reference voltage generator,

30-output voltage detector, 31-amplifier,

32-absolute circuit, 33-integrator,

34-analog / digital converter, 40-control and measurement unit,

op-amp, R ₁ , R ₂ -resistance,

SW-switching element.

The present invention relates to a transformer measuring apparatus, and more particularly, it is possible to determine whether a transformer is good by measuring an output voltage output from a secondary side of a transformer output in response to an input input to a primary side of a transformer. So that it relates to a measuring instrument of a transformer.

As the technology of home appliances develops, the frequency of using them in homes, factories, and other offices is increasing, and many of these appliances have been developed as essential necessities for living.

Home appliances that are used in homes and offices are being supplied with power to operate home appliances. The power supplies for home appliances are either AC power used in homes or offices, or DC power sources such as batteries or rechargeable batteries. It can be divided largely.

Of the above power sources, DC power is input at a certain level, i.e., a level required by home appliances, so the DC power input is used as it is, but AC power supplied to most home appliances is common regardless of the characteristics of the home appliances. Since it is supplied to all home appliances at the in-level, a transformer for converting AC power into the power required by the home appliance is configured inside the home appliance.

In order to use the transformer as described above in a home appliance, the transformer measures the performance (characteristics) of the transformer and selects and uses only a transformer having the characteristics required by the home appliance. The voltage was supplied and the output voltage induced at the secondary side of the transformer was measured by using a general tester or an oscilloscope, and the characteristics of the transformer were determined based on this. However, the measurement of the characteristics of the transformer by the method described above should measure the characteristics of the transformer because the input voltage supplied to the primary side of the transformer as well as the output voltage output from the secondary side of the transformer must be continuously measured. During the measurement, it was cumbersome to keep an eye on the fluctuations in the input and output voltages input and output on the primary and secondary sides of the transformer. In addition, since the measurer manually determines the characteristics of the transformer by looking at the input / output voltages input and output to the primary and secondary sides of the transformer as described above, the measurement error and the determination error do not accurately determine the characteristics of the transformer. There was a problem that often occurred.

The present invention has been made to solve the above-mentioned drawbacks. The present invention provides a reference voltage of a constant level to the primary side of the transformer and detects the state of the secondary output change of the transformer. It is an object of the present invention to provide a transformer measuring device capable of measuring the measuring quantity.

In order to realize the above object, the transformer measuring device of the present invention applies a reference voltage of a predetermined level to the primary side of the transformer, detects the output voltage output from the secondary side of the transformer, It is characterized in that the integral value is obtained and whether the transformer can be determined based on the detected integral value of the output voltage.

Hereinafter, the configuration of the present invention in more detail with reference to the accompanying drawings as follows.

As shown in FIG. 1, the present invention provides an input voltage interrupter 20 for generating and supplying a reference voltage of a predetermined level to the primary side of the transformer 10 to be measured, and the transformer 20 to be measured. The output voltage detector 30 detects the output voltage output from the secondary side of the output side and detects the integral value of the output voltage, and the transformer 10 to be measured on the basis of the integral value of the output voltage detector 30. It consists of the control and measurement part 40 which determines the quality.

Here, the input interrupter 20 for supplying a reference voltage of a predetermined level to the primary side of the transformer 10 to be measured includes a reference voltage generator 21 for generating a reference voltage of a predetermined level and the reference voltage generator 21. It is composed of a switching element (SW) for supplying / blocking to the primary side of the transformer 10 to be measured by switching the reference voltage output from the control and control of the measurement unit 40. The output voltage detector 30 which detects an output voltage output from the secondary side of the transformer 10 to be measured and calculates an integral value has a constant output voltage output from the secondary side of the transformer 10 to be measured. The integral value of the absolute value output of the amplifier 31, the absolute value circuit 32 which calculates the absolute value of the output voltage of the amplifier 31, and the buffer-amplified by the voltage of a level is calculated | required. Integrator 33 and an analog-to-digital converter 34 for converting the integral output value output from the integrator 33 into a digital signal.

In addition, the control and measurement unit 40 is connected to the switching element SW of the input voltage interrupter 20 to interrupt the switching operation of the switching element SW to perform a transformer for measurement from the reference voltage generator 21 ( The input voltage supplied to the primary side of 10) is interrupted, and is connected to the analog-to-digital converter 34 of the output voltage detector 30 to detect the output of the analog-to-digital converter 34 and based on this, the transformer to be measured. The quality of the former 10 is determined and stored in a display device or other storage device not shown.

FIG. 2A shows a reference voltage input to the primary side of the transformer 10 to be measured, and FIG. 2B shows an output from the primary side of the transformer 10 to be measured. Shows the output voltage.

Referring to the effects of the present invention configured as described above are as follows.

A program for measuring the quality of the transformer 10 to be measured and a program for realizing the same are stored in a memory connected to the control and measurement unit 40, and the controller for measuring the quantity of the transformer according to the present invention drives the control and measurement unit ( Under the control of 40, the switching element SW of the input voltage interrupter 20 switches so that the reference voltage generated by the reference voltage generator 21 is at the same level as (a) in FIG. It is supplied to the primary side of (10). Accordingly, the output voltage output from the secondary side of the transformer 10 to be measured is output at the same level as (b) of FIG. 2 by the mutual inductance of the transformer 10.

As shown in (b) of FIG. 2, the output voltage of the transformer 10 output from the secondary side of the transformer 10 to be measured is not enough to determine whether the output voltage of the transformer is low. The amplifier 31 amplifies the OP amp OP and the resistors R ₁ and R ₂ to a level at which the quality of the transformer 10 can be measured.

Even if the polarity of the transformer 10 to be measured is changed by taking the absolute value of the output voltage output from the secondary side of the transformer 10 to be buffered and amplified by the amplifier 31, In order to detect the output voltage output from the secondary side irrespective of the polarity, the voltage output from the absolute value circuit 32 to the secondary side of the transformer 10 to be measured is applied to the integrator 33.

The integrator 33 obtains the area of the shaded portion of the output voltage output in the form shown in (b) of FIG. 2 and converts it into a digital value through the analog-to-digital converter 34 to control and measure the measurement unit 40. ) Is applied.

Accordingly, the control and measurement unit 40 determines the output voltage applied from the integrator 33 and the analog-to-digital converter 34 to determine whether the transformer 10 to be measured is determined.

That is, the control and measurement unit 40 controls the input of the reference voltage supplied to the primary side of the transformer 10 to be measured and detects the output voltage output to the secondary side of the transformer 10 to be measured. By determining the quality of the transformer 10 to be measured on the basis of this, the measurement error by the manual side can be reduced.

Preferably, the control and measurement unit 40 connects a display device to display the output voltage state output from the secondary side of the transformer to be measured as described above and the quantity of the transformer to be measured. You can tell by looking at the display device.

In particular, when the memory is connected to the control and measurement unit 40, the output voltage output from the secondary side of the transformer to be measured as described above and the condition of the transformer to be measured determined based on this are stored. The transformer's integrity can be confirmed later.

As described above, the present invention applies the reference voltage output from the input voltage interrupter to the primary side of the transformer under measurement by the control and the control of the measurement unit, and outputs the induced voltage induced on the secondary side of the transformer under measurement. When it is detected by the voltage detector and applied to the control and measurement unit as an integral value, the control and measurement unit judges the quality of the transformer under measurement based on this, and then displays it or displays / stores the display device or memory. It is possible to reduce the measurement error that comes from measuring the quantity by manual, as well as to reduce the time for determining the quality of the transformer for measurement.

Claims (3)

A reference voltage generator 21 for generating and supplying a reference voltage of a predetermined level is connected to the primary side of the transformer 10 to be measured through a switching element SW controlled by the control and measurement unit 40. On the secondary side of the transformer 10 to be measured, an absolute value for calculating an absolute value of the output voltage of the amplifier 31 and the amplifier 31 which buffers and amplifies the output voltage output from the secondary side to a voltage of a predetermined level. An integrator 33 for obtaining the integral value of the absolute value output of the value circuit 32 and the absolute value circuit 32, and an analog-to-digital converter 34 for converting the integral output value output from the integrator 33 into a digital signal. A transformer measuring unit, characterized in that the control and measuring unit 40 for determining the quality of the transformer to be measured 10 is connected in turn. The display device according to claim 1, characterized in that the control and measurement unit (40) is connected to a display device for displaying both the output voltage output from the secondary side of the transformer (10) to be measured and the transformer of the object to be measured. Transformer measurement equipment. The transformer according to claim 1, wherein the control and measurement unit (40) is connected to a memory for storing the output voltage output from the secondary side of the transformer (10) to be measured and both parts of the transformer to be measured. Former former measuring device.