KR102279949B1 - Direct current low current meter calibration using high resistance - Google Patents

Abstract

)에 의해 전류가 발생하므로 고가의 전류 발생장치를 사용하지 않고 일반적인 개발된 측정장치를 통해 전류를 측정할 수 있으며, 저항체를 교체할 수도 있으므로, 저항체가 열화되어 저항값이 변하는 저항체를 쉽게 교체할 수 있는 고 저항을 이용한 직류 저 전류계 교정장치에 관한 것으로서, 직류전압을 발생시켜 인가하는 직류전원부와 연결되는 연결부; 상기 연결부와 연결되는 서로 다른 고저항값을 가지는 다수의 저항체; 상기 다수의 저항체와 연결되어 전류를 측정하는 측정장치와 연결되는 측정부; 상기 연결부와 다수의 저항체 간 및 다수의 저항체와 측정부 간에 각각의 저항체를 선택하여 연결할 수 있도록 형성되는 다수의 스위치; 상기 저항체를 고정 및 교체되도록 다수의 결합홈이 형성되고, 상기 스위치, 연결부 및 측정부가 고정되는 본체부 및 상기 연결부와 측정부에 연결되어 스위치를 통해 선택되는 저항체의 저항값을 측정하여 해당 저항체의 저항값을 확인하도록 하는 저항 측정장치를 포함를 포함하는 것을 특징으로 한다.In the present invention, when a DC voltage generated from a DC voltage source is applied to a resistor, Ohm's Law (

), it is possible to measure the current through a general developed measuring device without using an expensive current generator, and since the resistor can be replaced, it is easy to replace a resistor whose resistance value is changed due to deterioration of the resistor. It relates to a DC low ammeter calibration device using a high resistance that can, comprising: a connection unit connected to a DC power supply for generating and applying a DC voltage; a plurality of resistors having different high resistance values connected to the connection part; a measuring unit connected to the plurality of resistors and connected to a measuring device for measuring current; a plurality of switches formed to select and connect each resistor between the connection part and the plurality of resistors and between the plurality of resistors and the measuring part; A plurality of coupling grooves are formed to fix and replace the resistor, the main body part to which the switch, the connection part, and the measuring part are fixed, and the connection part and the measuring part are connected to the connecting part and the measuring part to measure the resistance value of the resistor selected through the switch It is characterized in that it includes a resistance measuring device for checking the resistance value.

Description

Direct current low current meter calibration using high resistance

The present invention relates to a calibrating device for a DC low ammeter (picoammeter, electrometer) using a high resistance and a DC voltage source, and more particularly, when a DC voltage from a DC voltage source is applied to the input terminal of the calibration device, the current at the output terminal of the calibration device is It relates to a calibration device capable of calibrating a low ammeter without using an expensive picoampere current source as a principle of occurrence.

)에 따라 자체 전류의 소급(교정)이 가능하므로 저 전류계의 성능을 확인 하거나 쉽고 정확하게 교정 할 수 있는 장점이 있다. 이 교정장치는 저가의 비용으로 제작이 가능하므로 종전 고가의 저 전류 발생장치를 대체할 수 있는 기술이다.The calibration device in the present invention uses Ohm's law (

), retroactive (calibration) of its own current is possible, so it has the advantage of checking the performance of the low ammeter or calibrating it easily and accurately. Since this calibration device can be manufactured at a low cost, it is a technology that can replace the existing expensive low current generator.

In general, to measure the low current of pA or nA, since it cannot be measured with a general ammeter, an expensive low ammeter must be used. can be measured.

However, there is a problem in that an expensive picoampere current source must be used separately to calibrate such a low ammeter (picoammeter), and this low current generator must be calibrated by a national standard institute or a national calibration institute before use. There was a problem.

The prior patent relates to a precision current, voltage and power measuring device constituting a power meter by developing a multifunctional power meter capable of accurately measuring voltage, current, and power based on a thermoelectric converter. To this end, a transformer and a current transformer each output a predetermined current and voltage; a predetermined DC voltage source; A first switch for switching between a measurement mode connected to a transformer and a current transformer and a calibration mode connected to a DC voltage source: a mode changeover switch connected to the first switch to change one of a voltage mode, a current mode, and a power mode; first amplifying means having addition means for adding each output signal of the mode changeover switch and subtraction means for subtracting; third and fourth thermoelectric transducers connected in series to receive respective amplified signals amplified by the first amplifying means; second amplifying means for amplifying the output signals of the third and fourth thermoelectric transducers to generate an output value proportional to the input; and feedback means for feeding back to the mode changeover switch amplified by the second amplifying means is described.

However, the prior patent has a problem in that it is not possible to correct the error of the measuring device that occurs over time because it is not a device for calibrating a measuring device with a configuration for measuring precise voltage and power.

Prior patent: Korean Patent Publication No. 10-0724095 (2007.05.25.)

According to the present invention, when a DC voltage (100 mV ∼ 100 V) from a DC voltage source is applied to each high resistance in the calibration device, a current corresponding to each high resistance range is generated, so the performance of the low ammeter can be checked or calibrated easily and accurately. It is a device that can

)에 따라 전류는 전압과 저항 비에 비례하여 전류를 발생시킬 수 있으므로 고가의 저 전류 발생장치(picoampere current source)를 사용하지 않아도 저 전류계의 성능을 확인 하거나 교정할 수 있도록 하며, 저 전류의 범위에 해당하는 다수개의 고 저항이 있어서 저항 값에 해당하는 직류 전압(100 mV ∼ 100 V)을 교정장치의 입력단에 인가하면 저 전류계의 전류 범위전류범위(pA ∼ nA)에 해당하는 전류를 출력단으로 발생시킬 수 있으므로 저 전류계의 성능을 쉽게 확인할 수 있고 교정할 수 있는 고 저항을 이용한 직류 저 전류계 교정장치를 제공하는데 목적이 있다.That is, the principle of direct current generation is Ohm's law (

), the current can generate a current in proportion to the voltage and resistance ratio, so the performance of the low ammeter can be checked or corrected without using an expensive picoampere current source, and the range of low current There are a number of high resistances corresponding to , and when a DC voltage (100 mV ∼ 100 V) corresponding to the resistance value is applied to the input terminal of the calibration device, the current corresponding to the current range (pA ∼ nA) of the low ammeter is output to the output terminal. An object of the present invention is to provide a DC low ammeter calibration device using a high resistance that can easily check and calibrate the performance of the low ammeter.

A DC low ammeter calibration device using a high resistance according to the present invention for achieving the above object, a connection unit connected to a DC power supply for generating and applying a DC power; a plurality of resistors having different high resistance values connected to the connection part; a measuring unit connected to the plurality of resistors and connected to a measuring device for measuring current; a plurality of switches formed to select and connect each resistor between the connection part and the plurality of resistors and between the plurality of resistors and the measuring part; A plurality of coupling grooves are formed to fix and replace the resistor, the main body part to which the switch, the connection part, and the measuring part are fixed, and the connection part and the measuring part are connected to the connection part and the measuring part to measure the resistance value of the selected resistor to measure the resistance value of the resistor It is characterized in that it includes a resistance measuring device to confirm.

The plurality of switches are respectively formed between the connection part and the plurality of resistors and between the plurality of resistors and the measuring part, and the resistors connected to the connection part and the resistors connected to the measuring part are measured with a resistance measuring device through the switches to measure resistance. It is characterized in that it is possible to check whether or not the

Another configuration of the present invention includes a plurality of connection parts selectively connected to the DC power supply unit 10 for generating and applying DC power; a plurality of resistors respectively connected to the plurality of connection parts and made of resistors having different reference values; a measuring unit connected to the plurality of resistors and connected to a measuring device for measuring current; A plurality of coupling grooves are formed so as to fix and replace the resistor, the main body part to which the connecting part and the measuring part are fixed, and the connecting part and the measuring part are connected to the connecting part and the measuring part to measure the resistance value of the resistor connected through the connecting part to measure the resistance of the resistor It characterized in that it includes a resistance measuring device 40 to check whether the value is normal.

In the present invention, when a DC voltage (100 mV ~ 100 V) is applied from a DC voltage source to the input terminal of the calibration device, an output current (pA ~ nA) suitable for each resistance range is generated, so an expensive low current generator is not used. It has the effect of checking or correcting the performance of the low ammeter without

In addition, when the resistance value is changed due to deterioration of the resistor, it can be easily replaced with a normal resistor.

1 is a view showing the overall configuration of a DC low ammeter calibration device using a high resistance according to an embodiment of the present invention.
2 is a view showing that a plurality of switches are formed between the coupling unit and the measuring unit of the DC low ammeter calibration device using a high resistance according to the present invention.
3 is a view showing the overall configuration of a DC low ammeter calibration device using a high resistance according to another embodiment of the present invention.
4 is a view showing a structure in which the resistor body of the DC low ammeter calibration device using the high resistance according to the present invention is coupled to the main body.

Hereinafter, specific embodiments for carrying out the present invention will be described with reference to the drawings. The embodiment of the present invention is intended to explain one invention, and the scope of rights is not limited to the illustrated embodiment, and the illustrated drawings are limited to the drawings because only the essential content is enlarged and illustrated for clarity of the invention and incidental elements are omitted. should not be interpreted as such.

the present invention
a connection unit 21 connected to a DC power supply unit 10 for generating and applying DC power;
a plurality of resistors (50) made of resistors having different reference values from the connection part (21), connected to the connection part (21), each having different high resistance values, and formed in parallel;
a measuring unit 24 connected to a plurality of resistors 50 formed in parallel and connected to a measuring device 30 for measuring a current;
a plurality of switches 22 connected to the connection unit 21, each having a different high resistance value, and respectively connected to a plurality of resistors 50 formed in parallel;
each of the different high resistance values, corresponding to a plurality of resistors 50 formed in parallel, respectively, and connected to the measuring unit 24;
A body portion 20 in which a plurality of coupling grooves 25 are formed to fix and replace the resistor 50, and to which the switch 22, the connection portion 21, and the measurement portion 24 are fixed;
A resistance measuring device 40 connected to the connection unit 21 and the measuring unit 24 and measuring the resistance value of the resistor 50 selected through the switch 22 to check the resistance value of the resistor 50 . includes;
The plurality of switches 22 are respectively formed between the connection part 21 and the plurality of resistors 50 and between the plurality of resistors 50 and the measuring part 24 to be connected to the connection part 21 in parallel with the resistor 50 . ) and the resistor 50 connected to the measuring unit 24 through the switch 22 to measure each resistance value with the resistance measuring device 40 to check whether the resistance is normal or not. It relates to a DC low ammeter calibration device using

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And another configuration of the present invention includes a plurality of connection parts 21 selectively connected to the DC power supply unit 10 for generating and applying DC power; a plurality of resistors 50 respectively connected to the plurality of connection parts 21 and made of resistors having different reference values; a measuring unit 24 connected to the plurality of resistors 50 and connected to a measuring device 30 for measuring current; A plurality of coupling grooves 25 are formed to fix and replace the resistor 50, the main body 20 to which the connection part 21 and the measurement part 24 are fixed, and the connection part 21 and the measurement part ( 24) and measuring the resistance value of the resistor 50 connected through the connection part 21 to check whether the resistance value of the resistor 50 is normal. characterized.

1 is a view showing the overall configuration of a DC low ammeter calibration device using a high resistance according to an embodiment of the present invention, a connection unit 21 connected to a DC power supply unit 10 for generating and applying DC power, a connection unit ( 21) and a plurality of resistors having a different reference value, respectively, a plurality of resistors 50 having different high resistance values connected to the connection part 21, and a measuring device connected to a plurality of resistors 50 to measure current Each resistor 50 can be selected and connected between the measuring unit 24 connected to the 30 and the connecting unit 21 and the plurality of resistors 50 and between the plurality of resistors 50 and the measuring unit 24 . A plurality of coupling grooves 25 are formed so as to fix and replace the plurality of switches 22 and the resistor 50 to be formed, and the body portion to which the switch 22, the connection part 21 and the measurement part 24 are fixed. (20) and the connection unit 21 and the measuring unit 24 are connected to measure the resistance value of the resistor 50 selected through the switch 22 to check whether the resistance value of the resistor 50 is normal. It includes a resistance measuring device 40 so as to do so.

2 is a view showing that a plurality of switches are formed between the coupling unit and the measuring unit of the DC low ammeter calibration device using a high resistance according to the present invention.

1 and 2 , the DC power supply unit 10 applies an arbitrary voltage of 100 mV to 100 V corresponding to each resistance value to the resistor 50 .

The DC power supply unit 10 should apply a DC voltage according to each resistance value.

)에 의해 전류는 1.000 00 nA가 출력 된다.For example, in order to apply a reference current of 1.000 00 nA in the 1 nA range of the low ammeter, if the resistance value of one resistor 50 measured with a resistance meter is 1.000 15 GΩ, if a DC voltage of 1.000 15 V is applied, Rule(

), the current is 1.000 00 nA.

Since the current value according to the voltage of the generated power in the DC power supply unit 10 may not be accurate, the voltage generated by the DC power supply unit 10 should be checked with a DC voltmeter.

To this end, the body part 20 in which the connection part 21 and the plurality of resistors 50 and the measuring part 24 are formed is formed, the DC power supply part 10 is connected to the connection part 21, and the measuring part 24 is formed. The measuring device 30 is connected to the main body 20 in which the connection part 21 and a plurality of resistors 50 and the measuring part 24 are formed for this purpose, and the DC power supply part 10 is formed in the connection part 21 . is connected, and the measuring device 30 is connected to the measuring unit 24 to apply a DC voltage to the resistor 50 from the DC power supply unit 10 to measure the current in the measuring device 30 .

The measuring device 30 is configured as a low ammeter for measuring a low current.

The connection part 21 is formed on one side of the body part 20 to connect a DC power supply, and a plurality of resistors 50 are connected through a switch 22 and selected through the switch 22 to be connected to the resistor 50 and make it connect

The resistor 50 having the high resistance value may be connected to each other by providing a connection part 21 for each resistor, or a selectable switch 22 may be formed to select and connect with the switch 22 .

The plurality of resistors 50 are formed to have different resistance values, which have various resistance values so that a low current is generated according to the voltage applied from the DC power supply unit 10, and the coupling groove ( 25) is bound to

The plurality of resistors 50 may be formed in a fitting manner so that they can be easily coupled to and separated from the coupling groove 25 of the main body 20 .

To this end, electrodes 51 are formed to protrude from both ends of the plurality of resistors 50, and corresponding slide grooves are formed in the coupling grooves 25 of the main body 20 so that the protruding electrodes 51 are slid. allow it to be inserted.

That is, the plurality of resistors 50 are vertically slidably coupled to the coupling groove 25 of the body 20 so that they are easily coupled to the body 20, and replacement is easy.

The reason for replacing the plurality of resistors 50 is to replace the resistor 50 with a new resistor 50 because the resistance value changes as the resistor 50 deteriorates with use for a long time. Another reason is the resistance according to the current to be measured. This is to allow the resistor 50 to be changed to change the value.

The other end of the plurality of resistors 50 is connected to the measuring unit 24 and selectively connected through a plurality of switches 22 .

Since the plurality of resistors 50 are configured to have different high resistance values, the selection switch 22 or a separate connection part 21 is formed to distinguish between the connection part 21 and the resistor 50 and connect them. It may be formed to correspond between the plurality of resistors 50 and the measuring unit 24 .

A switch 22 for connecting the plurality of resistors 50 and the connecting part 21 or the measuring part 24 is formed between each resistor 50 and the connecting part 21 or each of the resistors 50 and the measuring part 24 . Thus, each resistor 50 is selected and connected to the connection unit 21 and the measurement unit 24 .

The main body 20 has a connection part 21 formed on one side, a measuring part 24 formed on the other side, and a coupling groove 25 to which a plurality of resistors 50 are coupled is formed in the center, and a coupling groove is formed. A plurality of switches 22 are formed so that each resistor is individually connected between one end of the 25 and the connecting portion 21 and between the other end of the coupling groove 25 and the measuring portion 24 .

The main body 20 is provided with a plurality of switches 22 or a separate connection part 21 and a measuring part 24 so that the resistors 50 forming the high resistance value group can be separately connected to each other.

A measuring device 30 is connected to the measuring unit 24 .

The resistor 50 coupled to the coupling groove 25 of the main body 20 is replaced for deterioration or to be replaced with a resistor 50 having a different resistance value. A resistor that measures the resistance value of the resistor 50 . The measuring device 40 is connected to the main body 20 and measures the resistance value of the resistor 50 connected to the connecting part 21 and the measuring part 24 through the switch 22 to determine whether the resistor 50 is normal. to be able to check

3 is a view showing the overall configuration of a DC low ammeter calibration device using a high resistance according to another embodiment of the present invention, Figure 4 is a resistor of the DC low ammeter calibration device using a high resistance according to the present invention is the main body portion It is a diagram showing the structure to be coupled.

Referring to FIG. 4 , at this time, the resistor 50 has electrodes 51 formed on the side thereof and is slide-inserted into the electrode grooves formed on both sides of the coupling groove 25 of the main body from the upper side and is in contact, so that the resistor 50 is easily coupled, and the resistor is upwardly connected. (50) so that it can be removed.

When the measurement unit 24 measures the current, it is calculated through the voltage value and the resistance value.

As shown in FIG. 3, another configuration of the present invention made in this way is as follows.

A plurality of connection parts 21 selectively connected to the DC power supply unit 10 for applying a DC voltage (100 mV to 100 V), a plurality of connection parts 21 , respectively connected to the plurality of connection parts 21, each of a plurality of resistors having different reference values. A plurality of coupling grooves 25 are formed to fix and replace the resistor 50 , the measuring unit 24 connected to the measuring device 30 connected to the plurality of resistors 50 and measuring current, and the resistor 50 . resistance of the body part 20 to which the connection part 21 and the measurement part 24 are fixed, and the resistor 50 connected to the connection part 21 and the measurement part 24 and connected through the connection part 21 and a resistance measuring device 40 for measuring the value to check whether the resistance value of the corresponding resistor 50 is normal.

The connection units 21 are formed in plurality so that the DC power supply units 10 applying a DC voltage (100 mV to 100 V) can be selectively connected, and are respectively connected to resistors 50 having different resistance values.

A plurality of resistors 50 respectively connected to the connection part 21 are formed to have different reference values.

The resistor 50 is inserted and coupled to the body part 20, and the body part 20 has a plurality of coupling grooves 25 formed to fix and replace the resistor 50, and a measuring part 24 on the other side. is formed

The measuring unit 24 is connected to a plurality of resistors 50 as one and is connected to a measuring device 30 for measuring a current.

That is, one measuring unit 24 connected to the measuring device 30 is formed on the other side, and a plurality of connecting units 21 are formed on one side and connected to the DC power supply unit 10, so that a plurality of resistors 50 are formed. to be selectively connected to the DC power supply unit 10 .

The resistance measuring device 40 is connected to the connection part 21 and the measurement part 24 and measures the resistance value of the resistor 50 connected through the connection part 21 to determine whether the resistance of the resistor 50 is normal. to check whether

The present invention made in this way applies a DC voltage (100 mV ~ 100 V) from a DC voltage source to the input terminal of the calibration device, so that an output current (pA ~ nA) suitable for each resistance range is generated, so an expensive low current generator It has the effect of checking or correcting the performance of the low ammeter without using

In addition, when the resistance value is changed due to deterioration of the resistor, it can be easily replaced with a normal resistor.

The DC low ammeter calibration device using the above and high resistance is not limited to the configuration and operation method of the embodiments described above. The above embodiments may be configured so that various modifications can be made by selectively combining all or part of each of the embodiments.

10: DC power supply
20: body part 21: connection part
22: switch 23: select switch
24: measurement unit 25: coupling groove
30: measuring device 40: resistance measuring device
50: resistor 51: electrode

Claims (3)

a connection unit 21 connected to a DC power supply unit 10 for generating and applying DC power;
a plurality of resistors (50) formed of resistors having different reference values from the connection part (21), connected to the connection part (21), each having different high resistance values, and formed in parallel;
a measuring unit 24 connected to a plurality of resistors 50 formed in parallel and connected to a measuring device 30 for measuring a current;
a plurality of switches 22 connected to the connection unit 21, each having a different high resistance value, and respectively connected to a plurality of resistors 50 formed in parallel;
each of the different high resistance values, corresponding to a plurality of resistors 50 formed in parallel, and respectively connected to the measuring unit 24;
A body portion 20 in which a plurality of coupling grooves 25 are formed to fix and replace the resistor 50, and to which the switch 22, the connection portion 21, and the measurement portion 24 are fixed;
A resistance measuring device 40 connected to the connection unit 21 and the measuring unit 24 and measuring the resistance value of the resistor 50 selected through the switch 22 to check the resistance value of the resistor 50 . includes;
The plurality of switches 22 are respectively formed between the connection part 21 and the plurality of resistors 50 and between the plurality of resistors 50 and the measuring part 24 to be connected in parallel with the connection part 21 . ) and the resistor 50 connected to the measuring unit 24 through the switch 22 to measure each resistance value with the resistance measuring device 40 to check whether the resistance is normal. DC low ammeter calibration device using
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