KR102297426B1 - Controller internal resistance measuring apparatus and controller internal resistance measuring method - Google Patents

Abstract

The present invention relates to a measuring apparatus and a measuring method for measuring control resistance inside a controller, and to a controller internal resistance measuring apparatus that measures control resistance inside a controller using a voltage division law, and a controller internal resistance measuring method. The controller internal resistance measuring apparatus includes a main circuit and a control part. The purpose of the present invention is to provide a controller internal resistance measuring apparatus that can easily measure control resistance in a control part, which is difficult to measure directly.

Description

CONTROLLER INTERNAL RESISTANCE MEASURING APPARATUS AND CONTROLLER INTERNAL RESISTANCE MEASURING METHOD

The present invention provides a control unit internal resistance measuring device and a control unit internal control unit internal resistance measuring method for measuring the control resistance inside the control unit. It relates to a method for measuring the internal resistance of a control unit.

In a control unit constituting a control system of an electric or electronic device, an internal resistance (control resistance) is provided in almost all input signal lines such as various switches or sensors.

This internal resistance is difficult to measure because there are many cases where voltage is applied or disconnected when power is cut off. Therefore, in the maintenance of the control system, as it is difficult to accurately measure the internal resistance, when determining whether the control unit main circuit is defective or whether an externally connected sensor is defective, the accuracy of determination may be impaired, and unnecessary This may incur time and cost.

Accordingly, there is a need to develop a control unit internal resistance measuring method and measuring device capable of accurately measuring the internal resistance.

Patent Publication No. 10-2015-0084572

The present invention has been devised to solve the above problems, and it is an object of the present invention to provide a control unit internal resistance measuring device and a control unit internal resistance measuring method capable of simply measuring the control resistance in the control unit, which is difficult to directly measure. .

A control unit internal resistance measuring device according to an embodiment of the present invention is a control unit internal resistance measuring device having an internal resistance measuring mode for measuring a resistance value of a control resistor in the control unit, the control unit internal resistance measuring device that operates ON/OFF; a meter resistance having a predetermined resistance value; and a measuring wire that connects the measuring switch and the measuring resistance in series and both ends of which can be connected to an external circuit, wherein the control unit internal resistance measuring device includes: Calculate the size of the control resistor using the ratio.

According to an embodiment, the resistance of the measuring instrument is provided in plurality, the plurality of resistances of the measuring instruments are arranged in parallel, and one or more resistances of the measuring instruments among the plurality of resistances of the measuring instruments are selectively connected in series with the measuring unit switch.

A control unit internal resistance measurement method according to an embodiment of the present invention, a measuring device switch that operates ON / OFF; a meter resistance having a predetermined resistance value; Using the control unit internal resistance measuring device including; a measuring wire that connects the measuring switch and the measuring resistance in series and both ends can be connected to an external circuit, the main power supply unit, the device unit, and the main switch are connected to the main wiring unit a main circuit sequentially connected in series by A control unit internal resistance measurement method for measuring a resistance value of the control resistance of an electrical or electronic device connected between the device unit and the main switch, the method comprising: removing a connection between the main power supply unit and the device unit ; connecting both ends of the measurement wiring to the main wiring unit with the main switch interposed therebetween; turning off the main switch to connect the control power supply, the control resistor, the measuring device switch, and the measuring device resistance in series; and deriving a resistance value of the control resistor using a voltage division ratio of the voltage of the control power supply and the voltage of the resistance of the measuring instrument.

According to the embodiment, the resistance value of the control resistor is derived by Equation 1 below.

(식 1)

(Equation 1)

(V ₁ : Voltage applied to the resistance of the measuring instrument

V _dd : voltage of the control supply,

r _x : resistance value of the control resistor,

r ₁ : resistance value of the measuring instrument resistance)

A control unit internal resistance measurement method according to an embodiment of the present invention, a measuring device switch that operates ON / OFF; a meter resistance having a predetermined resistance value; Using the control unit internal resistance measuring device including; a measuring wire that connects the measuring switch and the measuring resistor in series and both ends can be connected to an external circuit, the main power supply unit, the main switch, and the device part are connected to the main wiring part a main circuit sequentially connected in series by the A method for measuring internal resistance of a control unit for measuring a resistance value of the control resistance of an electric or electronic device connected between a unit and the main switch, the method comprising: removing a connection between the unit and the main switch; connecting both ends of the measurement wiring to the main wiring unit with the main switch interposed therebetween; turning the main switch OFF to connect the main power supply, the measuring device switch, the measuring device resistor, and the control resistor in series; and deriving a resistance value of the control resistor by using a voltage division ratio of the voltage of the main power supply and the voltage of the resistance of the measuring instrument.

According to an embodiment, the resistance value of the control resistor is derived by Equation 1 below.

(식 1)

(Equation 1)

(V ₁ : Voltage applied to the resistance of the measuring instrument

V _dd : voltage of the mains supply,

r _x : resistance value of the control resistor,

r ₁ : resistance value of the measuring instrument resistance)

According to an embodiment, the resistance of the measuring instrument is provided in plurality, the plurality of resistances of the measuring instruments are arranged in parallel, and any one or more of the resistances of the plurality of measuring instruments can be selectively connected in series with the measuring unit switch, , The step of selectively connecting any one of the plurality of measurement resistance in series with the measurement switch; further includes.

According to the control unit internal resistance measuring apparatus and the control unit internal resistance measuring method according to the embodiment, it is possible to measure the control resistance in the control unit, which is difficult to directly measure.

In addition, the resistance measuring device according to the embodiment has an internal resistance measurement mode, so that the control resistance can be easily measured.

As the control resistance of the control unit can be measured as described above, the time and cost required for maintenance can be reduced when determining whether the control unit main circuit is defective or whether an externally connected sensor is defective.

In the control unit internal resistance measuring apparatus and control unit internal resistance measuring method according to an embodiment of the present invention, all control systems for measuring the control resistance provided in the control unit are provided for any control system including a control unit including a vehicle. It can be applied to a multimeter or measuring instrument.

1 and 2 are diagrams illustrating circuit diagrams of electric and electronic devices having resistances to be measured by a measuring method and a measuring device according to an embodiment of the present invention.
3 is a diagram illustrating a circuit and current flow in a steady state having a control unit according to a pull-up method.
FIG. 4 shows a case where a disconnection occurs in the main circuit shown in FIG. 3 , and FIG. 5 shows a case where a short circuit occurs in the main circuit.
6 is a diagram illustrating circuits and current flows of electric and electronic devices in a steady state having a control unit by a pull-down method.
FIG. 7 shows a case in which abnormal resistance occurs in the main circuit shown in FIG. 6 .
8 is a diagram showing a measuring device according to an embodiment of the present invention, and FIG. 9 is a diagram showing a circuit diagram of the measuring device.
10 is a diagram illustrating a state in which a measuring device according to an embodiment of the present invention is connected to an electric and electronic device having a control resistance (a pull-up type control unit) that is a resistance value measurement target, and FIG. 10 is a diagram illustrating a circuit diagram of a state in which the measuring device according to an embodiment of the present invention is connected to an electrical or electronic device having a control resistance as a resistance value measurement target.
12 is a diagram in which the circuit diagram shown in FIG. 11 is reconstructed into a series circuit.
13 is a diagram illustrating a state in which a measuring device according to an embodiment of the present invention is connected to an electrical and electronic device having a resistance to be measured (a pull-down type control unit), and FIG. 14 is FIG. As described above, it is a diagram showing a circuit diagram of a state in which the measuring device according to an embodiment of the present invention is connected to an electric or electronic device having a control resistance as a resistance value measurement target.
15 is a diagram in which the circuit diagram shown in FIG. 14 is reconstructed into a series circuit.
16 is a flowchart illustrating a method for measuring internal resistance of a control unit according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment according to the present invention will be described.

1 and 2 are diagrams showing a circuit diagram of an electric and electronic device 1 having a resistance to be measured by a measuring method and a measuring device 100 according to an embodiment of the present invention.

The electric or electronic device 1 having a resistance to be measured by the measuring method and the measuring device 100 according to the embodiment of the present invention may be, for example, various electric and electronic devices 1 such as a vehicle. .

The electric and electronic device 1 includes a main circuit 10 and a control unit 20 .

The main circuit 10 may include a main power supply unit 12 having a predetermined voltage, a main wiring unit 14 , a device unit 16 , and a main switch 18 . One end of the main wiring unit 14 may be connected to the main power supply unit 12 and the other end may be short-circuited as indicated by an arrow L. The device unit 16 may be, for example, various electric and electronic devices 1 such as a motor and a light emitting device. The main switch 18 may open and close the main wiring unit 14 .

The control unit 20 may be connected to the main circuit 10 . The control unit 20 may provide an operation signal to the main circuit 10 . In addition, the control unit 20 may detect whether there is an abnormality in the main circuit 10 .

The control unit 20 may be connected to the main circuit 10 in a pull-up method or a pull-down method. 1 shows that the control unit 20 is connected to the main circuit 10 in a pull-up manner 20A. FIG. 2 shows that the control unit 20 is connected to the main circuit 10 in a pull-down manner 20B.

Hereinafter, each will be described.

<Electrical and electronic device (1) having pull-up type control unit (20) and circuit monitoring method>

First, with reference to FIGS. 1 and 3 , an electric and electronic device 1 in which the pull-up type control unit 20 is connected to the main circuit 10 and a circuit monitoring method thereof will be described.

The pull-up type control unit 20 may include a control power supply 22 , a control resistor 24 , and a control wiring 26 . One end of the control wiring 26 is connected to the control power supply 22 , and the other end is connected to the main wiring unit 14 .

In the pull-up method, the control unit 20 itself applies a separate monitoring power supply voltage (control power supply 22) to the circuit to be monitored through the pull-up resistor (control resistor 24). Accordingly, it is possible to monitor whether a circuit to be monitored is faulty according to the magnitude of the voltage input by the operation of the sensor or switch.

According to the pull-up method, the voltage provided by the control unit 20 disappears when a sensor or a switch external to the control unit 20 operates. According to this pull-up method, the input line of the monitoring circuit is connected through the monitoring power supply voltage (control power supply 22) and the pull-up resistor (control resistor 24).

The pull-up method uses the control power supply 22 built into the control unit 20 . That is, according to the pull-up method, the voltage of the control power supply 22 is applied to the main circuit 10 through the control resistor 24 to determine the state of the main circuit 10 . At this time, when a sensor or a switch is operated (main circuit 10 is operated) outside the control unit 20 (main circuit 10 ), the voltage provided through the control power supply 22 is removed.

A circuit monitoring method by the pull-up method will be described as follows. Hereinafter, for convenience, it is assumed that the voltage of the main power supply unit 12 is 12 V and the voltage of the control power supply 22 is 5 V. However, this is only an example.

3 is a diagram illustrating a circuit and current flow in a steady state having the control unit 20 by a pull-up method.

In the normal state, the control unit 20 provides a monitoring voltage via the control resistor 24 to monitor the main circuit 10 . The control power supply 22 serves as a monitoring voltage for monitoring the state of the main circuit 10 .

When the switch is turned OFF at the stage in which the control unit 20 starts monitoring, the voltage of the main power supply unit 12 is input into the control unit 20 . At this time, the current generated by the main power supply unit 12 and the current generated by the control power supply 22 flow along the arrow F1, respectively. At this time, the control power supply 22 is also input into the control resistor 24, but since the voltage of the main power supply unit 12 is high, only the voltage of the main power supply unit 12 appears at the node P. Accordingly, when the voltage (12 V) of the main power supply unit 12 is input to 1, the control unit 20 determines that the main circuit 10 is normal.

4 is a case in which a disconnection V occurs in the main circuit 10 . In this way, when the disconnection V occurs, the current generated from the control power supply 22 of the control unit 20 flows along the arrow F2 . Accordingly, the voltage of the control power supply 22 appears at the node P. Accordingly, the control unit 20 determines that the main circuit 10 is disconnected when the voltage (5 V) of the control power supply 22 is input to the node P.

5 is a case in which a short circuit W occurs in the main circuit 10 . When the short-circuit W occurs in this way, the current flows along the arrow F3. Therefore, neither the main power supply unit 12 nor the control power supply 22 is applied to the node P. Therefore, a voltage of 0 V appears at the node P. Accordingly, the control unit 20 determines that the main circuit 10 is short-circuited when O V is input.

<Electrical and electronic device (1) having a pull-down control unit (20)>

Next, the electric and electronic device 1 having the pull-down type control unit 20 will be described.

The pull-down control unit 20 includes a control resistor 24 and a control wiring 26 . Here, one end of the control wiring 26 is connected to the ground, and the other end is connected to the main wiring unit 18 of the main circuit 10 .

In the pull-down control unit 20 , a circuit is monitored through a voltage input to the control unit 20 by the operation of a sensor or a switch located outside the control unit 20 . In the pull-down type control unit 20, if the monitoring line is not connected anywhere, a floating state that is vulnerable to noise occurs, so the pull-down resistor (control resistor 24) is connected to the ground. take the way According to this pull-down method, there is no voltage in the control unit 20 , and when a sensor or a switch operates, a voltage is input to the control unit 20 .

According to the pull-down method, the control unit 20 is connected to the ground through the control resistor 24 . Accordingly, when a sensor or a switch is operated outside the control unit 20 (the main circuit 10 is operated), a voltage is applied to the inside of the control unit 20 . That is, the pull-down method is a method in which the control unit 20 is connected to the ground through a pull-down resistor in order to determine the state of the external circuit.

If it is not connected to ground or power, it becomes a floating state and an unstable signal is input.

If the control wiring 26 of FIG. 2 is not connected to ground or power, it is vulnerable to external noise. Accordingly, noise may be introduced into the node Q of FIG. 7 . Accordingly, when the control wiring 26 does not take a pull-down method connected to the ground or a pull-up method connected to a power source, and exists independently as if floating in the air, it becomes a floating state and a noise signal can be introduced as it is. . In this case, the input signal of the node Q is input as an actuated signal (on) even though the main switch 18 is not operated (on), or an unstable state such as on and off is repeated.

The circuit monitoring method by the pull-down method will be described as follows. Hereinafter, for convenience, it is assumed that the voltage of the main power supply unit 12 is 12V. However, this is only an example.

6 is a diagram illustrating a circuit and current flow of the electric and electronic device 1 in a steady state having the control unit 20 by a pull-down method.

When the main switch 18 of the main circuit 10 operates, the current flows as indicated by the arrow F4. In such a normal state, the voltage (12 V) of the main power supply unit 12 is applied to the inside of the control unit 20, and 12 V appears at the node Q.

However, as shown in FIG. 7 , when it is not in a normal state, an abnormal resistance RS may occur in the main wiring unit 18 of the main circuit 10 . Even in this case, the current may flow as indicated by the arrow F4. However, the voltage appearing at the node Q may be different depending on the size of the abnormal resistance RS. For example, assuming that the ratio between the resistance of the device unit 16 and the abnormal resistance RS generated in the main wiring unit 18 of the main circuit 10 is 1:1, a voltage of 6 V is applied to the node Q by voltage division. is input Accordingly, the control unit 20 may detect that the abnormal resistance RS has occurred in the main wiring unit 18 of the main circuit 10 .

FIG. 8 is a view showing a measuring apparatus 100 according to an embodiment of the present invention, and FIG. 9 is a view showing a circuit diagram of the measuring apparatus 100 .

The measuring device 100 may be manufactured integrally with an analog multimeter or a digital multimeter.

The measuring device 100 may include a measuring switch 110 , a measuring resistance 120 , and a measuring wire 130 . In this case, the measuring switch 110 and the measuring resistance 120 may be provided in a predetermined unit box 140 .

The meter switch 110 may be selectively on/off or automatically on/off operated by a user.

The meter resistance 120 may have a resistance value r ₁ having a predetermined size. A predetermined voltage V ₁ may be applied to the meter resistor 120 .

The measuring wire 130 connects the measuring device switch 110 and the measuring device resistance 120 in series. The measurement wiring 130 may extend to the outside of the unit box 140 . Connection clips capable of being electrically connected to the main circuit 10 may be provided at both ends of the measurement wiring 130 . The connection clip may be, for example, in the form of tongs or in the form of a connector, but is not limited thereto.

According to an embodiment, the resistance 120 of the meter may be plural. The plurality of measurement resistances 120 may have different resistance values, respectively. A plurality of meter resistors 120 may be arranged in parallel, respectively. According to an embodiment, any one of the measuring resistances 120 among the plurality of measuring resistances 120 may be selectively connected to the measuring switch 110 . At this time, the meter resistance 120 selected as described above is connected in series with the meter switch 110 .

The unit box 140 may include a predetermined display device indicating the measured resistance value of the control resistor 24 .

The measuring device 100 according to the embodiment of the present invention may be, for example, a tester device such as a multimeter. In this case, the measuring device 100 may separately have an internal resistance measuring mode for measuring the control resistance 24 of the electrical and electronic device 1 .

In the internal resistance measurement mode of the measuring device 100 , the size of the control resistor 24 inside the control unit 20 may be measured by using the divided voltage while the voltage is applied.

Although it is usually difficult to directly measure the control resistance 24 , the measurement apparatus 100 according to the embodiment has the internal resistance measurement mode, so that the control resistance 24 can be easily measured.

Hereinafter, resistance value measurement using the measuring apparatus 100 according to an embodiment of the present invention will be described.

<Measuring method for electric and electronic device 1 having pull-up type control unit 20>

First, a connection between the electrical and electronic device 1 and the measurement device 100 when measurement is performed by a pull-up method, a circuit diagram thereof, and an arithmetic equation will be described.

10 shows a state in which the measuring device 100 according to an embodiment of the present invention is connected to the electrical and electronic device 1 having the control resistor 24 as a resistance value measurement target, and FIG. 11 is FIG. A diagram showing the circuit diagram of 12 is a diagram in which the circuit diagram shown in FIG. 11 is reconstructed into a series circuit.

When measuring the control resistance 24 using the measuring device 100 according to the embodiment of the present invention, first, in order to measure the voltage output from the inside of the control unit 20, the main circuit 10 is blocked carry out The blocking of the main circuit 10 may be made in the form of, for example, removing a fuse or a connection connector of a portion marked as shown in P of FIG. 10 . The position P from which the main circuit 10 is removed may be a position between a position where the control unit 20 and the main circuit 10 are connected and the main power supply unit 12 . According to the embodiment, the fuse or connection connector is provided between a position where the control unit 20 and the main circuit 10 are connected and a position between the main power supply unit 12 , and the fuse or the connection connector can be removed.

As such, when the fuse or connector is removed and the main switch 18 is turned off, the main circuit 10 is disconnected, and no current flows in the main circuit 10 . As such, in a state in which no current flows (disconnection), the supply voltage or power supply voltage of the control power supply 22 provided in the control unit 20 appears.

Then, the measuring device 100 is connected to the electrical and electronic device 1 (outside the control unit 20 ). The connection of the measuring device 100 is made in the form of electrically connecting the connecting clip of the measuring wire 130 provided in the measuring device 100 to the main circuit 10 . At this time, the connection clip may be respectively connected to the positions of both ends (A, B) of the main switch 18 with the main switch 18 of the main circuit 10 interposed therebetween.

As the measuring device 100 is connected in a state in which the main circuit 10 is blocked as described above, the control resistor 24 provided in the control unit 20 and the measuring device switch provided in the measuring device 100 are connected. 110 and the meter resistor 120 are connected in series. The series circuit is opened and closed by the operation of the measuring device switch 110 . That is, an open circuit (measurement switch 110 OFF, disconnection) or closed circuit (measurement switch 110 ON) is selected by the measuring instrument switch 110 .

In the closed circuit state, when the measuring device switch 110 of the measuring device 100 is turned on, a current is generated from the control power supply 22 . The current flows from the control power supply 22 through the control resistor 24 , the meter switch 110 , and the meter resistor 120 .

Using the voltage difference between the voltage input to the measuring device 100 (the voltage of the control power supply 22 ) and the measuring device resistance 120 (eg, 1 kΩ) inside the measuring device 100 , the The resistance value of the control resistor 24 may be calculated.

That is, the voltage of the control power supply 22 is used as a supply voltage, and the magnitude of the supply voltage is between the magnitude of the voltage applied to both ends of the measuring device resistance 120 inside the measuring device 100 when the measuring device switch 110 is ON. The size of the control resistor 24 inside the control unit 20 can be calculated using the voltage division ratio of .

In this case, as described above, the resistance 120 of the measuring device in the measuring device 100 may be plural. In addition, the measuring resistance 120 may have different resistance values, respectively. The meter switch 110 may be connected to any one of the meter resistance 120 .

According to an embodiment, the measurement resistance 120 connected to the measurement switch 110 may be automatically selected and changed according to the size of the control resistance 24 inside the control unit 20 .

_{For example, when the voltage (V 1} ) across the resistance 120 of the measurement device is equal to or greater than a predetermined ratio with the control power supply 22 as 100% or less, the resistance of the measurement device connected to the switch 110 of the measurement device 120 is automatically or It can be changed according to the user's choice.

Accordingly, the accuracy and convenience of measurement can be improved.

When the measurement is performed in the above manner, the equation for calculating the internal resistance of the controller will be described as follows. In the measurement method for the electric and electronic device 1 having the pull-up type control unit 20 as described above, a circuit is configured as shown in FIG. 12 . According to the circuit shown in Fig. 12, the following voltage equation is established. In the equation below, V ₁ is the voltage applied to the meter resistor 120 . r _x is the resistance value of the control resistor 24 , and r ₁ is the resistance value of the meter resistor 120 . In addition, V _dd is the voltage of the control power supply 22 .

∴

The resistance value of the control resistor 24 may be derived from the voltage equation.

<Measurement performed on the electrical and electronic device 1 having the pull-down control unit 20>

Hereinafter, when performing a measurement on the electrical or electronic device 1 having the pull-down type control unit 20, the connection between the electrical and electronic device 1 and the measurement device 100 and The circuit diagram by it and the calculation equation by it are demonstrated.

13 shows a state in which the measuring device 100 according to an embodiment of the present invention is connected to an electric and electronic device 1 having a resistance as a resistance value measurement target, and FIG. 14 is a circuit diagram of FIG. It is a drawing. 15 is a diagram in which the circuit diagram shown in FIG. 14 is reconstructed into a series circuit.

The measurement performance of the electric and electronic device 1 having the pull-down control unit 20 is also similar to the method of performing the measurement on the electric and electronic device 1 having the pull-up control unit 20 . and redundant descriptions are omitted.

Also in the measurement by the pull-down method, the main circuit 10 is cut off. The blocking of the main circuit 10 may be made in the form of, for example, removing a portion of the main circuit 10 indicated as Q in FIG. 13 and turning off the main switch 18 . The position Q from which the main circuit 10 is removed may be between a position where the control unit 20 and the main circuit 10 are connected and a position where the main circuit 10 is short-circuited. Meanwhile, according to the embodiment, a fuse or a connection connector is provided between a position where the control unit 20 and the main circuit 10 are connected and a position where the main circuit 10 is short-circuited, and the fuse or the connection connector can be removed. can

As such, when the main circuit 10 is removed and the main switch 18 is turned OFF, the main circuit 10 is disconnected, and current does not flow in the main circuit 10 . In the case of the pull-down method, when the main switch 18 is OFF and current does not flow in the load or the sensor circuit (disconnection), the supply voltage or the power voltage of the main power supply unit 12 appears.

Then, the measuring device 100 is connected to the electrical and electronic device 1 (outside the control unit 20 ). In the pull-down method, the connection clips of the measurement wiring 130 provided in the measurement device 100 are respectively connected to both ends of the main switch 18 with the main switch 18 of the main circuit 10 interposed therebetween. can

As the measuring device 100 is connected in a state in which the main circuit 10 is blocked as described above, the control resistor 24 provided in the control unit 20 and the measuring device switch provided in the measuring device 100 are connected. 110 and the meter resistor 120 are connected in series. The series circuit is opened and closed by the operation of the measuring device switch 110 . That is, an open circuit (switch OFF, disconnection) or a closed circuit (switch ON) is selected by the measuring instrument switch 110 .

In the closed circuit state, when the measuring device switch 110 of the measuring device 100 is turned on, a current is generated from the main power supply unit 12 . The current flows from the main power supply unit 12 through the meter switch 110 and the meter resistor 120 and through the control resistor 24 .

In the case of measurement of the electric or electronic device 1 having the pull-down control unit 20 , the voltage input to the measurement device 100 (the voltage of the main power supply unit 12 ) and the inside of the measurement device 100 . The resistance value of the control resistor 24 inside the control unit 20 can be calculated as the voltage difference between both ends of the measuring instrument resistance 120 (eg, 1 kΩ).

That is, between the voltage of the main power supply unit 12 as a supply voltage, and the magnitude of the supply voltage and the magnitude of the voltage applied to both ends of the measuring device resistance 120 inside the measuring device 100 when the measuring device switch 110 is ON. The size of the control resistor 24 inside the control unit 20 can be calculated using the voltage division ratio of .

Even in this case, as described above, the measuring device resistance 120 in the measuring device 100 may be plural. In addition, the measuring resistance 120 may have different resistance values, respectively. The meter switch 110 may be connected to any one of the meter resistance 120 .

According to an embodiment, the measurement resistance 120 connected to the measurement switch 110 may be automatically selected and changed according to the size of the control resistance 24 inside the control unit 20 . Accordingly, the accuracy and convenience of measurement can be improved.

When the measurement is performed by the pull-down method, the equation for calculating the internal resistance of the controller will be described as follows. In the pull-down measurement method as described above, a circuit is configured as shown in FIG. 15 . According to the circuit shown in Fig. 15, the following voltage equation is established. In the equation below, V ₁ is the voltage applied to the meter resistor 120 . r _x is the resistance value of the control resistor 24 , and r ₁ is the resistance value of the meter resistor 120 . In addition, V _dd is the voltage of the main power supply 12 .

∴

<Flowchart of how to measure the internal resistance of the control unit>

16 is a flowchart illustrating a method for measuring internal resistance of a control unit according to an embodiment of the present invention.

First, activate the resistance measurement mode. Here, the resistance measurement mode may be an internal resistance measurement mode. In addition, along with the operation of the resistance measurement mode, the removal of the main circuit 10 by the pull-up method or the pull-down method, and the connection between the main circuit and the measurement device 100 may be made.

_{Then, the first voltage (V AB} ) between the point A and the point B is measured. In this case, the first voltage corresponds to the voltage of the control power supply 22 in the electric and electronic device 1 having the pull-up type control unit 20 . In addition, the first voltage may correspond to the voltage of the main power supply unit 12 in the electric or electronic device 1 having the pull-down control unit 20 (however, other than the main power supply unit 12 ) It is okay even if it is the voltage of the power supply part).

If the first voltage appears as 0, an error has occurred. For example, when the contact of the measurement wiring 130 provided in the measurement device 100 is poor, or when there is no voltage of the main power supply unit 12 in the pull-down method, or when there is no control power 22 in the pull-up method may be the case Therefore, when the first voltage is 0, an error indication is outputted on the screen and re-measurement is performed.

On the other hand, when the voltage is not 0, the first voltage is displayed.

Next, the measuring instrument switch 110 is turned on. When the measuring device switch 110 is not turned on, an error indication is outputted on the screen and re-measurement is performed.

When it is confirmed that the meter switch 110 is in the ON state, the second voltage (V ₁ ) across the meter resistance 120 is checked. Here, the resistance value of the measuring instrument resistor 120 used for measurement is r ₁ . The magnitude of the first voltage is compared with the magnitude of the second voltage.

In a normal case, the second voltage cannot be greater than the first voltage. If the magnitude of the second voltage is greater than or equal to the magnitude of the first voltage (ie, when V ₁ ≥ V _AB ), an error is displayed.

When the second voltage is less than the first voltage (ie, when V ₁ < V _AB ), the control resistor 24 is calculated by applying the resistance calculation equation. Here, the resistance calculation equation for calculating the control resistor 24 is as described above. That is, according to the electric and electronic device 1 having the pull-up type control unit 20 and the electric and electronic device 1 having the pull-down type control unit 20, the resistance calculation equation is applied to control resistance. (24) is calculated. On the other hand, no matter which method the calculation is performed, the first voltage V _{AB corresponding to the voltage at both ends when the measuring device switch 110 is in the off state is V dd} in the voltage equation.

Then, the calculated control resistance 24 is displayed on the screen, and the internal resistance measurement mode is terminated.

<Application field and effect>

According to the method for measuring the control resistance 24 according to the embodiment, it is possible to measure the control resistance 24 in the control unit 20 that is difficult to directly measure.

In addition, the resistance meter according to the embodiment has an internal resistance measurement mode, so that the control resistance 24 can be easily measured.

As the control resistance 24 of the control unit 20 can be measured in this way, maintenance is required when determining whether the control unit 20 main circuit 10 is defective or whether the externally connected sensor is defective. time and cost can be saved.

The control resistance 24 measuring method and the resistance measuring device according to the embodiment of the present invention, the control resistance ( 24) can be applied to any multimeter or measuring instrument for measuring.

Although preferred embodiments have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and common knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims is not limited thereto. Various modifications are possible by the possessor, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

10: main circuit
12: main power supply
14: main wiring part
16: device unit
18: main switch
20: control unit
22: control power
24: control resistor
100: resistance measuring device inside the control unit
110: meter switch
120: meter resistance
130: wiring for measurement
140: unit box

Claims (7)

delete delete Meter switch operating ON/OFF; a meter resistance having a predetermined resistance value; Using a control unit internal resistance measuring device comprising a; a measuring wire that connects the measuring switch and the measuring resistance in series and both ends can be connected to an external circuit,
A main circuit in which the main power supply unit, the device unit, and the main switch are sequentially connected in series by the main wiring unit;
a control unit connected to the main circuit, providing an operation signal to the main circuit, and having a control power supply and a control resistor;
In the control unit internal resistance measurement method, the control unit is a pull-up type control unit and measures a resistance value of the control resistance of an electric or electronic device connected between the device unit and the main switch,
removing the connection between the main power supply unit and the device unit;
connecting both ends of the measurement wiring to the main wiring unit with the main switch interposed therebetween;
turning off the main switch to connect the control power supply, the control resistor, the measuring device switch, and the measuring device resistance in series; and
and deriving a resistance value of the control resistor by using a voltage division ratio of the voltage of the control power supply and the voltage of the resistance of the measuring device. 4. The method of claim 3,
The resistance value of the control resistor is a control unit internal resistance measurement method derived by Equation 1 below.

(Equation 1)
(V ₁ : Voltage applied to the resistance of the measuring instrument
V _dd : voltage of the control supply,
r _x : resistance value of the control resistor,
r ₁ : resistance value of the measuring instrument resistance) Meter switch operating ON/OFF; a meter resistance having a predetermined resistance value; Using a control unit internal resistance measuring device comprising a; a measuring wire that connects the measuring switch and the measuring resistance in series and both ends can be connected to an external circuit,
A main circuit in which the main power supply unit, the main switch, and the device unit are sequentially connected in series by the main wiring unit;
a control unit connected to the main circuit and providing an operation signal to the main circuit and having a control resistor;
The control unit is a pull-down type control unit, and in the method for measuring a resistance value of the control resistance of an electric or electronic device connected between the device unit and the main switch, the internal resistance measurement method of the control unit,
removing the connection between the device unit and the main switch;
connecting both ends of the measurement wiring to the main wiring unit with the main switch interposed therebetween;
turning the main switch OFF to connect the main power supply, the measuring device switch, the measuring device resistor, and the control resistor in series; and
and deriving a resistance value of the control resistor by using a voltage division ratio between the voltage of the main power and the voltage of the resistance of the measuring device. 6. The method of claim 5,
The resistance value of the control resistor is a control unit internal resistance measurement method derived by Equation 1 below.

(Equation 1)
(V ₁ : Voltage applied to the resistance of the measuring instrument
V _dd : voltage of the mains supply,
r _x : resistance value of the control resistor,
r ₁ : resistance value of the measuring instrument resistance) 6. The method of claim 3 or 5,
A plurality of measuring resistances are provided, the plurality of measuring resistances are arranged in parallel, and at least one of the plurality of measuring resistances can be selectively connected in series with the measuring switch,
The control unit internal resistance measuring method further comprising; selectively connecting any one of the plurality of resistances of the measuring instruments in series with the switch of the measuring instruments.

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