KR960016136B1 - Input current measuring circuit using multiflexer - Google Patents

Abstract

The circuit enables us to measure the current/voltage value with 2 terminal measuring method and 4 terminal measuring method according to a testee to be measured with one measuring apparatus, by connecting a switching unit(600) which selects the measuring method by the control of a micom formed inside the measuring apparatus(500) between the measuring apparatus(500) and multiplexer boards(610,620) and by connecting connectors(710,720) which select the measuring method on one side of the multiplexer board(610,620) connected with a PCB board.

Description

Input Current Measuring Circuit Using Multiplexer

1 is a schematic diagram for explaining the principle of measuring the two-terminal when measuring the ICT (In Circuit Tester),

2 is a circuit diagram showing an embodiment for explaining the principle of measuring the two-terminal when measuring the In Circuit Tester (ICT),

3 is a schematic diagram for explaining the four-terminal measurement principle when measuring in circuit tester (ICT),

Figure 4 is a circuit diagram showing an embodiment for explaining the four-terminal measurement principle when measuring In Circuit Tester (ICT).

5 is a circuit diagram of an input current measuring circuit using the multiplexer of the present invention.

* Explanation of symbols for main parts of the drawings

100: power supply, 200: voltage measuring device,

300: current measuring device, 400: multiplexer,

500: measuring device, 600: switching unit,

610: multiplexer board, 620: multiplexer board,

710: connector, 720: connector.

The present invention relates to a circuit for measuring the current / voltage characteristics of the components configured on the PCB substrate, and more specifically, to the current / voltage measurement principle to 2 terminals and 4/4 terminal current / voltage measurement to reduce the line error occurring in the line In principle, the present invention relates to an input current measuring circuit that allows a multiplexer used to measure current / voltage characteristics on a PCB substrate to selectively use a three-terminal measurement principle and a four-terminal measurement principle according to component characteristics.

In factories or laboratories that produce electronic products, the failure rate of electronic products produced by measuring the current / voltage characteristics of components on a large number of PCB boards without electronics is measured without measuring the operating characteristics of the finished electronic products. In this way, a nail tester is generally used to measure the current / voltage characteristics of the components formed on the PCB. The nail tester applies a current on the PCB substrate to measure the current / voltage characteristics of the components configured on the PCB. Measure the voltage across the component and the current through the component.

As described above, a principle of measuring current / voltage characteristics of a component configured on a PCB substrate is illustrated in FIG. 1 through FIG. 1, in which the voltage measuring device 200 is connected in parallel to both ends of the component R _{X to} which power is applied from the power supply unit 100. ) And connect the current measuring device 300 in series at both ends of the component (R _X ) to measure voltage / current.

The normal value of the voltage across the component R _X measured by the voltage measuring device 200 is measured as in Equation (1) below.

V = IR _X ... … … … … … … … … … … … … … … … … … … … … … … … … … … … … (One)

"1" is the strength of the current output from the power supply unit 100.

However, since the line resistance r exists in the line connected between the component R _X , the voltage measuring device 200, and the power supply unit 100, the voltage value actually measured by the voltage measuring device 200 is represented by the following expression ( It is measured as 2).

V = rI + R _X 1... … … … … … … … … … … … … … … … … … … … … … … … … … … … (2)

Therefore, the voltage value actually measured compared to the normal voltage value has an error voltage value of r1 due to the line resistance r.

In addition, the normal current value of the current flowing through the component R _X measured by the current measuring device 300 is measured as in Equation (3) below.

… … … … … … … … … … … … … … … … … … … … … … … … … … … (3)

"V" is the magnitude of the voltage output from the power supply unit 100.

However, since the line resistance r exists in the line connected between the component R _X , the current measuring device 300, and the power supply unit 100, the current value actually measured by the current measuring device 300 is represented by the following equation (4). Is measured as

… … … … … … … … … … … … … … … … … … … … … … … … … … (4)

Therefore, the current value actually measured compared to the normal current value has an error current value as much as the current flowing in the line resistance r because of the line resistance r.

That is, by using the same principle as the first drawing of the first drawing and the second drawing of the drawing to measure the voltage of the component formed on the PCB board, the multiplexer 400 selects one terminal of the component formed on the PCB board. It can measure the voltage / current by 500 (with a current / voltage measuring device and a power supply), but the line error occurs in the voltage / current value as described above.

Conventionally, in order to reduce the error caused by the line resistance as described above, it is measured by using the four-terminal measuring principle as shown in FIG. 3, which is a voltage measuring device 200 at both ends of the component (R _X ). Directly connected in parallel, the current measuring device 300 is connected in parallel between the component (R _X ) to which the power is applied from the power supply unit 100 and the power supply unit 100 to measure the current value and the voltage value.

According to the above-described configuration, the voltage applied to both ends of the component R _X measured by the voltage measuring device 200 is excluded as the line resistance r is measured as shown in Equation 5 below.

V = IR _X ... … … … … … … … … … … … … … … … … … … … … … … … … … … … (5)

"1" is the strength of the current output from the power supply unit 100.

Therefore, the voltage value measured by the four-terminal principle can be measured while reducing the error voltage value because the line resistance (r) is excluded from the voltage value measured using the two-terminal principle.

In addition, since the current value flowing through the component R _X measured by the current measuring device 300 is excluded from the line resistance r, it is measured as in Equation (6) below.

… … … … … … … … … … … … … … … … … … … … … … … … … … … (6)

"V" is the magnitude of the voltage output from the power supply unit 100.

Therefore, as in the case of voltage measurement, the current value measured by the 4-terminal principle can be measured while reducing the error current value because the line resistance (r) is excluded unlike the current value measured by the 2-terminal principle.

However, when the voltage configured on the PCB is measured by using the 4-terminal principle as shown in FIG. 3 and measuring the voltage configured on the PCB, the multiplexer 400 selects one terminal of the component configured on the PCB. 500; a current / voltage measuring device and a power supply unit) can measure the voltage / current reducing the line resistance error, but switching in the multiplexer 400 connecting the component 500 and the measuring device 500 formed on the PCB substrate. The measurement error was reduced because of the large number of devices, but the configuration of the fitting was complicated.

Accordingly, the present invention has been made to solve the above-described problems, and when measuring the correct voltage / current value and the approximate current / voltage value according to the characteristics of the components configured on the PCB substrate The input voltage measuring circuit using the multiplexer can be used to measure the current / voltage value by mixing the two-terminal principle and the four-terminal principle in order to reduce the measurement error according to the line resistance and to simplify the configuration of the multiplexer. There is a purpose.

The input current measuring circuit using the multiplexer of the present invention for achieving the above object is a switching device for selecting a two-terminal measuring method and a four-terminal measuring method by driving between the multiplexers of the measuring device under the control of a microcomputer configured inside the measuring device. One end of the multiplexer connected to the PCB board is connected to a connector that selects a two-terminal measurement method and a four-terminal measurement method. It is to be able to measure.

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

According to the present invention, as shown in FIG. 5, the measurement device 500 and the multiplexer boards 610 and 620 are driven by the control of a microcomputer configured in the measurement device 500 to determine a two-terminal measurement method and a four-terminal measurement method. Selecting the switching unit 600 and the one end of the multiplexer board (610, 620) connected to the PCB substrate to be measured by connecting the connectors 710, 720 for selecting a two-terminal measurement method and a four-terminal measurement method According to the part to be measured by one measuring device, it is possible to measure the current / voltage value by 2 terminal measuring method and 4 terminal measuring method.

Here, the multiplexer switching elements of the multiplexer boards 610 and 620 operate while selecting components of the PCB substrate measured in the microcomputer configured inside the measuring device 500, and the connectors 710 and 720 are arbitrarily selected by the user. It is possible to connect / disconnect.

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

In the input current measurement circuit using the multiplexer, the connectors 710 and 720 are separated in order to measure the current / voltage values of components formed on the PCB substrate by using a two-terminal method. By switching, the switching elements of the switching unit 600 are switched to the terminal 2T, and the multiplexer switching elements of the multiplexer boards 610 and 620 are switched on the control of the microcomputer of the measuring device 500 to be configured on the PCB substrate. Since both ends of the component are selected, it is possible to measure the voltage and the current flowing across the components of the PCB substrate by the two-terminal method.

In addition, when the connectors 710 and 720 are connected in order to measure current / voltage values of components configured on the PCB board using a 4-terminal method, the switching of the switching unit 600 is controlled by the control of the microcomputer of the measuring device 500. The elements are switched to the terminal 4T, and since the multiplexer switching elements of the multiplexer boards 610 and 620 switch operation under the control of the microcomputer of the measuring device 500, the terminal 4T selects both ends of the components configured on the PCB substrate. According to the method, the voltage and current flowing across the components of the PCB substrate can be measured more precisely than the two-terminal method.

Preferably, a terminal having a plurality of multiplexer boards having a connector at one end and correspondingly having a switching element at the switching unit according to the component current / voltage characteristics on the PCB substrate to be measured, the two-terminal measuring method and four-terminal measuring method If the connector is connected to select so that can be used interchangeably, it is possible to measure the current / voltage value by the measurement method of 2 terminal and 4 terminal with one measuring device.

As described above, the present invention configures a switching device for selecting a two-terminal measurement method and a four-terminal measurement method by driving a microcomputer between the measuring device and the multiplexer, and selecting one of the multiplexers connected to the PCB substrate. By connecting the connector that selects the 2-terminal measurement method and the 4-terminal measurement method, the current characteristics and the number of multiplexers can be reduced by measuring the current / voltage value using the 2-terminal measurement method and the 4-terminal measurement method depending on the part with one measuring device. The current / voltage value can be measured accordingly.

Claims (1)

Between the measuring device 500 and the multiplexer boards 610 and 620 is driven by the control of the microcomputer configured inside the measuring device 500, the switching unit 600 for selecting a two-terminal measuring method and a four-terminal measuring method, and One end of the multiplexer board 610 and 620 connected to the PCB substrate is connected to the connectors 710 and 720 for selecting a two-terminal measurement method and a four-terminal measurement method according to a component to be measured by one measuring device. Input current measurement circuit using multiplexer, characterized in that the current / voltage value can be measured by a two-terminal measurement method and a four-terminal measurement method.