KR20020095931A - Integrated measuring instrument - Google Patents

Abstract

PURPOSE: A unified measuring instrument is provided to reduce an error rate for the measurement by processing two functions with one apparatus and implementing a correction work of a power measurement device over the whole bandwidth of the output frequency of a power generator inside. CONSTITUTION: A unified measuring instrument(100) includes a power generator(110) for generating a power, a power measurement device(120) for measuring the power by using a signal inputted from outside, a first switching device(130) for selectively outputting the signal outputted from the power generator(110), a second switching device(140) selectively inputting the signal inputted from the first switching device(130) or from outside to the power measurement device(120) and a cable(150) connected between the first switching device(130) and the second switching device(140) for transmitting the signal to allow the electrical elements to be measured.

Description

Integrated instrument {INTEGRATED MEASURING INSTRUMENT}

The present invention relates to a measuring instrument, and more particularly, to integrate a power generator and a power meter into a single device so that the output frequency level is always measured to maintain a constant level and to measure the amount of variation, and to compensate for the integrated measurement using them. It is an integrated instrument that allows it to process itself within the system and can also be used as a unique device.

In general, in a communication method using a wired or wireless frequency, it is necessary to accurately recognize power transmitted to determine a characteristic of an object to be measured.

In addition, there is a change in the transmission power according to the frequency used, so the output power should be measured for each frequency band.

However, the equipment that generates the current frequency appears at different output levels for each frequency generated. This is caused by the difference in the characteristics of each of the reacting frequencies.

Therefore, the method currently widely used for the purpose of solving the above problems, using a dedicated equipment power generator for generating the frequency and output, and a dedicated equipment power meter for measuring the power level, respectively, and measure before In order to set the standard of the power meter, measurement is performed after the calibration of the power meter is performed in advance. After measuring the power according to the output frequency of the power generator, the characteristics of the target equipment are measured.

However, in the conventional method, the power generator and the power meter are each composed of a single device, and the interworking equipment connection and the computer are separately required for interworking between the devices, and the calibration of the power meter is required. There is a problem that a characteristic table for the band has to be prepared.

In addition, the calibrating operation of the power meter increases the error rate for a wide frequency band due to the relationship performed for a single frequency, and in the absence of a computer, another problem arises that an error occurs due to a connection repetition by the meter and a problem in contact when connecting. There is this.

Accordingly, an object of the present invention is to solve the above problems, by performing two functions in one equipment, and by performing the calibration operation of the power meter inside the entire frequency band of the power generator to reduce the error rate for the measurement To reduce it.

In addition, another object of the present invention is to block the occurrence of errors due to the problem of contact when the connection and repeat the connection by the measurer according to the presence of a computer.

1 is a block diagram schematically showing the configuration of a combined instrument according to the present invention

<Explanation of symbols for main parts of the drawings>

1: Electronic component 100: Instrument

110: power generator 120: power meter

130: first switch 140: second switch

150: cable 160: computer

Features of the present invention for achieving the above objects,

A power generator for generating power,

A power meter for measuring power using a signal input from the outside;

First switching means for selectively outputting a signal output from the power generator;

Second switching means for selectively inputting the first switching means or a signal input from the outside to the power meter;

It is characterized in that the cable is connected to one side of the first switching means and the second switch means for transmitting a signal to enable the measurement of the electronic component.

Here, the power generator and power meter,

It is connected to an external computer, respectively, and operates under the control of the computer, or independently under the control of the measurer.

Here also the first switching means,

A first fixed contact is connected to one contact of the second switching means, a second fixed contact is connected to one end of the cable, and is connected to a movable contact at an output end of the power generator,

The second switching means,

A first fixed contact is connected to a first fixed contact of the first switching means, and a second fixed contact is connected to the other end of the cable.

Hereinafter, the configuration of the summed measuring instrument according to the present invention will be described in detail with reference to FIG.

1 is a block diagram schematically showing the configuration of a combined instrument according to the present invention.

Referring to FIG. 1, the combined meter 100 according to the present invention includes a power generator 110, a power meter 120, a first switch 130, a second switch 140, and a cable ( 150).

First, the power generator 110 and the power meter 120 may be operated by the computer 160, and the computer 160 stores various information necessary for a calibration operation.

The power generator 110 generates power according to the control of the computer 160 or the control of the meter, and the power meter 120 measures the power according to the control of the computer 160 or the control of the meter.

The first switch 130 is connected to the movable contact (a) to the output terminal of the power generator 110, the first fixed contact (b) is connected to one side of the second switch 140, one end of the cable 150 The second fixed contact c is connected.

The second switch 140 is connected to the movable contact (d) to the input terminal of the power meter 120, the first fixed contact (e) is connected to the first fixed contact (b) of the first switch 130, The second fixed contact f is connected to the other end of the cable.

The cable 150 is connected to the second fixed contact c of the first switch 130 and the second fixed contact f of the second switch 140, and has a terminal to which the electronic component 1 can be connected. do.

Hereinafter, the operation of the combined instrument according to the present invention will be described in detail with reference to FIG.

First, a calibration operation is performed to set the reference of the power generator 110 and the power meter 120 to measure the electronic component 1.

That is, the measurer connects the movable contact a of the first switch 130 with the first fixed contact b and the movable contact d of the second switch 140 with the first fixed contact e. In this state, a specific frequency is generated from the power generator 110 using the computer 160.

Then, the specific frequency generated and output from the power generator 110 is input to the power meter 120 through the first switch 130 and the second switch 140.

The value specified by the power meter 120 is input back to the computer 160 to confirm the power value measured by the computer 160. In this way, the computer 160 stores the measured power value by measuring the power meter 120 according to the full band frequency of the power generator 110.

When the correction is finished, the electronic component 1 to be measured is connected to the terminal of the cable 150, and then the movable contact a of the first switch 130 is connected to the second fixed contact c. The movable contact d of the second switch 140 is connected to the second fixed contact f.

In this state, the computer 160 controls the power generator 110 to output an output frequency, and the frequency passes through the first switch 130, the electronic component 1, and the second switch 140, and then the power meter 120. ) Is entered.

Then, the power meter 120 measures power using the signal output from the electronic component 1, and outputs the measured power value to the computer 160.

Meanwhile, the measurer connects the movable contact a of the first switch 130 to the second fixed contact c and then connects the electronic component 1 to the terminal of the cable 150 to independently connect the power generator 110. Can be used.

In addition, the measurer connects the movable contact d of the second switch 140 to the second fixed contact f and then connects the electronic component 1 to the terminal of the cable 150 to independently connect the power meter 120. Can be used.

Therefore, by combining the power generator and power meter into one device, the error rate of the measurement can be reduced.

As described above, according to the summed-up measuring instrument according to the present invention, an error rate for measurement is performed by performing two functions in one equipment and performing a calibration operation of the power meter over the entire output frequency band of the power generator. Can be reduced.

Also, depending on the presence or absence of error, it is possible to prevent the error caused by the connection repetition and the problem of contact at the time of connection.

Claims (3)

A power generator for generating power, A power meter for measuring power using a signal input from the outside; First switching means for selectively outputting a signal output from the power generator; Second switching means for selectively inputting the first switching means or a signal input from the outside to the power meter; And a cable connected to one side of the first switching means and the second switch means and configured to transmit a signal to enable measurement of the electronic component. The method of claim 1, The power generator and power meter, The combined instrument connected to an external computer, respectively, operating under the control of the computer, or independently operated under the control of the measuring instrument. The method of claim 1, The first switching means, A first fixed contact is connected to one contact of the second switching means, a second fixed contact is connected to one end of the cable, and is connected to a movable contact at an output end of the power generator, The second switching means, And a first fixed contact is connected to a first fixed contact of the first switching means, and a second fixed contact is connected to the other end of the cable. Instrument.