KR101063645B1 - Volt clamping apparatus for constant current circuit - Google Patents

Abstract

The present invention relates to a bolt clamp device of a constant current circuit, and more particularly, to prevent leakage current so as not to affect the current in the clamp device and to not affect the current of the measuring device when the forward voltage of the measuring device is lowered. It relates to a bolt clamp device of a constant current circuit.
In the first embodiment of the present invention, the measuring unit is connected to the measuring element to be measured to measure the electro-optical characteristics; A constant current member supplying a constant current to the measurement unit; A clamp member configured to prevent the voltage applied from the constant current member from rising above the set voltage, wherein the clamp member comprises: a clamp input unit configured to input a reference voltage; A voltage sensing unit configured to sense a voltage applied to the measuring unit and to detect whether a forward voltage which is higher than a set voltage is applied to the measuring unit; A voltage drop unit configured to drop a reference voltage of the clamp input unit and output a limit voltage when a forward voltage is sensed by the voltage detector; And a voltage limiting unit which is turned on when the limiting voltage of the voltage dropping unit is applied to block the forward voltage of the measuring unit.

Description

Volt clamping apparatus for constant current circuit

The present invention relates to a bolt clamp device of a constant current circuit, in particular, clamping at a set voltage without affecting the current source in the clamp device, and is set from the clamp circuit when the forward voltage of the measuring element to be measured is lower than the set voltage The present invention relates to a bolt clamp device of a constant current circuit that does not affect the current value.

In general, a constant current circuit is a circuit that maintains a constant voltage level between both ends of a resistor set in the measurement stage when the 1V is applied to the input terminal so that the constant current can be output constantly. Supplied. Here, the measurement device connected to the constant current circuit, for example, in the case of a light emitting device can be accurately applied to the set rated current to measure the electrical or optical characteristics output from the light emitting device.

The constant current circuit has a characteristic of rising to a voltage supply voltage when less than the rated current flows or is disconnected due to a defect in manufacturing a device, for example, a light emitting device (LED), which is a product to be connected to the measurement terminal due to the constant current characteristics. Since it may cause damage to the light emitting device (LED) to be measured, a clamp device is provided so as not to rise above the limit voltage (reverse voltage) of the light emitting device to limit the voltage rise of the measurement stage.

The conventional clamp device applies a predetermined voltage to the input terminal so that the voltage does not rise above the threshold voltage of the light emitting device connected to the measuring terminal so that a voltage higher than the voltage set in the constant current circuit is not applied to the measuring device to be measured. Block it.

However, the conventional clamp device prevents leakage current by the clamp circuit by removing the clamp circuit when the voltage is lower than the set voltage by measuring the voltage on the measuring element (DUT) immediately after application. This method does not guarantee the safety of the product by supplying more than the set current even for a short time.

This problem occurs when a normal element is connected to the measuring terminal in the constant current circuit, and the forward voltage of the measuring element is input low to the negative terminal of the clamp device during normal driving. Due to the structure of the op amp internal circuit, a leakage current is generated from the high side to the low side, and the leakage current and the set constant current value are output to the measurement element, which makes it difficult to accurately test the measurement element.

The present invention has been made to solve the above conventional problems, an object of the present invention is to not affect the current of the measuring device when the forward voltage of the measuring device is lowered without affecting the current in the clamp device The present invention provides a bolt clamp device for a constant current circuit that prevents leakage current.

Another object of the present invention is to reduce the difference between the variable set voltage and the forward voltage in the clamp device when the forward voltage of the measuring device is lower than the voltage set as the threshold value to change the set voltage of the clamp to the range to which the forward voltage belongs. The present invention provides a clamp device for a constant current circuit that prevents leakage current.

The present invention includes the following embodiments in order to achieve the above object.

In the first embodiment of the present invention, the measuring unit is connected to the measuring element to be measured to measure the electro-optical characteristics; A constant current member supplying a constant current to the measurement unit; A clamp member configured to prevent the voltage applied from the constant current member from rising above the set voltage, wherein the clamp member includes: a clamp input part configured to output a set reference voltage of the measurement element; A voltage limiting unit comparing the reference voltage applied from the clamp input unit with the voltage output from the constant current member and applied to the measurement device to determine whether the voltage applied to the constant current member is blocked; A voltage sensing unit which senses a forward voltage of the measuring element connected to the measuring unit and outputs a sensing signal when the voltage is lower than the reference voltage; And a reference voltage between the clamp input unit and the voltage sensing unit connected to the clamp input unit and the voltage sensing unit to limit the reference voltage of the clamp input unit to a limit voltage within a range to which the voltage sensed by the voltage sensing unit belongs. It is preferable to include a; voltage drop to drop.

In the second embodiment of the present invention, the voltage drop unit includes a resistor connected between the clamp input unit and the input side of the voltage limiting unit; And a diode connected to an input side between the resistor and the voltage limiting unit, and an output side connected to an input side and an output side of the voltage sensing unit, respectively.

In the third embodiment of the present invention, the limit voltage is applied to the voltage limiting unit as a reference voltage, and the reference voltage is preferably lowered to a voltage that is the sum of the forward voltage of the measuring element and the forward drop voltage of the diode. .

In the fourth embodiment of the present invention, the voltage limiting unit may be turned off if the forward voltage is not greater than the limiting voltage by comparing the forward voltage of the measurement element with the limit voltage applied from the voltage drop unit.

In the fifth embodiment of the present invention, the voltage sensing unit is an input side connected to the measuring unit, and the output side is a buffer of the constant current member connected between the constant current input unit of the constant current member and the output side of the voltage drop unit. do.

In the sixth embodiment of the present invention, it is preferable that the voltage sensing unit detects a forward voltage of the measuring device by connecting an input side to the measurement unit and an output side to an output side of the voltage drop unit.

According to the present invention, when the measurement element connected to the constant current circuit is lower than the set value when the forward voltage applied to both ends during the normal driving is lower than the set value, the reference voltage which is compared with the forward voltage is dropped to the range in which the forward voltage belongs, so that the positive voltage is positive. By reducing the voltage difference between the negative and negative, it does not affect the current supplied to the device to be measured, thereby making it possible to accurately check the electrical and / or optical characteristics of the measuring device.

1 is a circuit diagram showing a bolt clamp device of a constant current circuit according to the present invention,
2 is a circuit diagram showing another embodiment of the bolt clamp device of the constant current circuit according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the voltage clamp device and method of the constant current circuit according to the present invention will be described in detail.

1 is a circuit diagram showing a bolt clamp device of a constant current circuit according to the present invention.

Referring to FIG. 1, the bolt clamp device of a constant current circuit according to the present invention includes a measuring unit 30 to which a measuring device (DUT) to be measured is connected, and a constant current member 10 for outputting a constant current to the measuring unit 30. And a clamp member which cuts the voltage output from the constant current member 10 if the output voltage of the constant current member 10 is greater than the set voltage by comparing the voltage output from the constant current member 10 with the set voltage. 20).

The constant current member 10 includes a constant current input unit 11 to which a voltage is input, a first op amp U1 connected to the constant current input unit 11, and a positive input end, and an output end of the first op amp U1. A first resistor (R1) and a second resistor (R2) connected in parallel to each other, and a second op amp (U2) having an output terminal of the first op amp (U1) connected to a positive input terminal. .

Here, the second op amp U2 has an output terminal connected between the first op amp U1 and the constant current input unit 11 to maintain a high impedance of the voltage of the measuring device DUT so as to measure the measurement unit 30. The buffer is configured to compare the voltage applied to the voltage supplied to the first op amp U1 and output the difference.

The configuration of the constant current member 10 including the constant current input unit 11 is for explaining a generally known constant current circuit as an example, and even if there is no detailed description, those skilled in the same industry generally know the technical details. Omit the description.

The clamp member 20 includes a clamp input unit 21 for outputting a reference voltage, and a measurement element DUT (for example, a light emitting element DUT) connected to the measurement unit 30 in the constant current member 10. When the forward voltage is detected by the voltage sensing unit 24 and the voltage sensing unit 24, the reference voltage of the clamp input unit 21 is lowered to limit the voltage that is variable beyond the range to which the forward voltage belongs. The voltage limiting unit 22 outputs the voltage drop unit 22 and the voltage limiter which is turned on and off by determining whether the voltage applied to the measurement unit 30 is blocked by comparing the voltage drop applied from the voltage drop unit 22 with the forward voltage. And a portion 23.

The clamp input unit 21 outputs a reference voltage which is a reference of whether the voltage of the constant current member 10 applied to the measurement unit 30 is blocked by the voltage limiting unit 23. Here, the reference voltage corresponds to the highest reverse voltage (reverse voltage) of the measurement device DUT connected to the measurement unit 30.

The voltage detector 24 detects the forward voltage across both ends of the input / output side while the light emitting device DUT connected to the measurement unit 30 is normally driven and outputs the forward voltage to the voltage drop unit 22. Here, the voltage sensing unit 24 has an input side connected to an input terminal of the measuring unit 30 and an output side connected to an output side of the voltage drop unit 22, respectively.

The voltage drop unit 22 is connected to an output side of the clamp input unit 21, an input side of the voltage limiting unit 23, and an output side of the voltage sensing unit 24 to measure the voltage at the voltage sensing unit 24. When the forward voltage of the device DUT is output, the voltage limiter 23 turns off the voltage limiter 23 which turns on the voltage lowering the reference voltage output from the clamp input unit 21 to the range in which the forward voltage belongs.

To this end, the voltage drop unit 22 includes a seventh resistor R7 connected to the clamp input unit 21, and a third diode D3 connected in a forward direction between the seventh term and the voltage limiter 23. ). The third diode D3 is connected to the output side of the voltage sensing unit 24 so that the voltage sensing unit 24 is turned on and the forward voltage is output. The applied forward voltage is lowered to vary the voltage of the clamp input unit 21 to the same limit voltage.

In this case, when the forward voltage is applied from the voltage sensing unit 24 as the third diode D3 is connected to the clamp input unit 21 in the forward direction, the voltage applied to both ends is turned on. It is changed to the limit voltage more than the belonging range. In this case, the limit voltage is a voltage added by the forward drop voltage generated by the third diode D3 and the voltage sensed by the voltage detector 24.

That is, since the third diode D3 is turned on while the forward voltage is output, the third diode D3 drops the reference voltage to a limit voltage in which the forward drop voltage is added to the forward voltage. At this time, the forward drop voltage of the third diode D3 is preferably, for example, within 0.5 to 1V.

Here, when the third diode D3 is turned on to lower the reference voltage, the seventh resistor R7 drops the reference voltage output from the clamp input unit 21 to the limit voltage and the clamp input unit 21. The shock is absorbed to prevent the shock from being applied.

In addition, in the present invention, the voltage drop unit 22 is not limited to the diode D3 and the resistor R7. More specifically, the constant current circuit is connected to the constant current circuit, and the reference voltage is input from the clamp input unit. When the forward voltage of the measuring device DUT is lower than the reference voltage of the clamp input unit 21 during normal operation, the reference voltage of the clamp member 20 may be changed to a voltage having a difference of about 1V or less than the forward voltage. Any circuit or device capable of falling within the scope of the technical idea of the present invention.

The voltage limiter 23 has an output terminal and an input terminal connected to the measurement unit 30, and an input terminal is connected to a seventh resistor R7 of the voltage drop unit 22, respectively. Accordingly, the voltage limiting unit 23 compares the forward voltage across the light emitting device DUT at the measuring unit 30 with the limiting voltage of the voltage dropping unit 22 and applies the voltage to the measuring unit 30. Determines whether or not to cut off the voltage.

Since the voltage limiting unit 23 sets the variable range of the limiting voltage so that the difference between the limiting voltage and the forward voltage of the measuring unit 30 is not large, the difference is preferably 0.5 to 1V or more. No current is generated.

Hereinafter, the operation of the bolt clamp device of the constant current circuit according to the present invention will be described in detail through the above-described configuration.

First, the constant current input unit 11 of the constant current member 10 outputs a reference voltage for driving the constant current. At this time, if the output voltage is 1V, the first op amp U1 and the second op amp U2 are operated to operate at a voltage of both ends of the fifth resistor connected to the output terminal of the first op amp U1 to be 1V. The current at one contact point V1 is 10 mA. Here, all of the first to fourth resistors R1 to R4 in the circuit diagram shown in FIG. 1 have the same resistance value.

The constant current member 10 is connected to the measuring unit 30 due to the constant current characteristic, for example, there is a characteristic that the voltage rises up to the voltage supplied when there is no load of the light emitting device DUT or there is an error in the measuring device. Since this phenomenon may damage the light emitting device DUT, the clamp member 20 limits the voltage so as not to rise above the rated voltage of the light emitting device DUT to be measured.

That is, the clamp member 20 has a measurement element (DUT) connected to the measurement unit 30, or a bad connection or defective product is connected to the voltage higher than the reference voltage applied from the clamp input unit 21, the measurement unit 30 When detected by the voltage limiter 23 is turned on so that the voltage applied to the measurement unit 30 does not rise above the reference voltage.

In detail, when the voltage applied to the first contact point V1 is higher than the set voltage corresponding to the rated voltage of the light emitting device DUT, a voltage exceeding the rated voltage of the light emitting device DUT is applied. The voltage limiting unit 23 is turned on.

In this case, the clamp input unit 21 applies the set reference voltage to the voltage limiting unit 23. The voltage limiting unit 23 compares the reference voltage with the voltage of the first contact point V1 of the measuring unit 30 and if the voltage is greater than the reference voltage, turns on the voltage applied from the constant current member 10. The overvoltage is prevented from being applied to the light emitting device DUT of the measurement unit 30.

In addition, the present invention detects whether the voltage applied to the light emitting device (DUT) in the voltage sensing unit 24 is lower than the reference voltage while the light emitting device (DUT) connected to the measurement unit is normally driven On to output the voltage applied to the light emitting device.

Accordingly, the voltage drop unit 22 receives the reference voltage output from the clamp input unit 21 by the third diode D3 as the voltage sensing unit 24 is turned on, in the voltage sensing unit 24. Only 0.5 ~ 1V drop to the large limit voltage at the level of output voltage.

In this case, since the third diode D3 of the voltage drop unit 22 is turned on, the reference voltage input from the clamp input unit 21 is the forward voltage and the forward drop voltage of the third diode D3. Drop to the combined limiting voltage. The limit voltage is applied to the second op amp U2 of the voltage limiter 23.

In addition, the second op amp U2 is connected to the first contact point V1 to receive a forward voltage across both ends of the light emitting device DUT. Therefore, the voltage limiting unit 23 is turned off by determining that the voltage difference between the positive input terminal and the negative input terminal is, for example, the driving of a normal device because the voltage difference is 0.5 to 1V. Therefore, since the voltage limiting part is turned off, leakage current as in the prior art is not generated.

The present invention can be implemented through the buffer using the second op amp U2 of the constant current member 10 in the configuration as described above. In this case, the configuration of the voltage sensing unit 24 can be omitted in the configuration of FIG. Hereinafter, another embodiment of the bolt clamp device of the constant current circuit according to the present invention will be described in detail with reference to FIG.

2 is a circuit diagram showing another embodiment of the bolt clamp device of the constant current circuit according to the present invention.

Referring to FIG. 2, a clamp device of a constant current circuit according to the present invention includes a measuring unit 30 to which a measuring device DUT, for example, a light emitting device DUT, is connected, and the measuring unit 30. A constant current member 10 for outputting a constant current, and the clamp member 20 for blocking a voltage exceeding the rated voltage of the light emitting device (DUT) to be measured in the measurement unit 30. The configuration that has the same function as the configuration of the first embodiment described above was briefly described.

The constant current member 10 includes a constant current input unit 11, a first op amp U1 which maintains a constant value by comparing a reference voltage and an output voltage, and the light emitting device connected to the measurement unit 30 and normally driven. The second voltage detector 12 detects a voltage applied to both ends of the DUT.

The second voltage sensing unit 12 has an input terminal connected to an input side of the measuring unit 30 and an output side of the voltage drop unit 22, respectively, and an output side of the voltage drop unit 22 and the constant current input unit ( 11) is connected between and senses a voltage lower than the reference voltage set in the light emitting device (DUT).

The clamp member 20 includes a clamp input unit 21 for outputting a reference voltage, a voltage drop unit 22 for dropping the reference voltage of the clamp input unit 21 to a limited voltage, and the voltage drop unit 22. It includes a voltage limiting unit 23 is turned off by the limit voltage applied in the).

The voltage drop unit 22 includes a seventh resistor R7 connected between the clamp input unit 21 and the second op amp U2 of the voltage limiting unit 23, and the seventh resistor R7. It includes a third diode (D3) connected in parallel between the second op amp (U2).

The third diode D3 is turned on when an output terminal is connected to an output terminal and an input terminal of the second voltage sensing unit 12 so that a voltage lower than a reference voltage is output from the second voltage sensing unit 12. The reference voltage output from is changed into a limit voltage dropped within a range to which a voltage which is the sum of the forward drop voltage of the third diode D3 and the sensed voltage belongs.

When the third diode D3 is turned on, the seventh resistor R7 drops the voltage to prevent the reference voltage output from the clamp input unit 21 from returning to the clamp input unit 21.

The voltage limiter 23 has an input terminal connected to a first diode D1 connected to the measurement unit 30, the seventh resistor R7, and the measurement unit 30, respectively, and an output terminal connected to the first diode. And a second op amp U2 connected to the output terminal of D1.

The voltage limiting unit 23 is turned off because the difference between the limited voltages varied in the voltage dropping unit 22 and the forward voltage across the light emitting device DUT is not large.

As described above, when the forward voltage is lower than the reference voltage while the measurement device DUT is normally driven, the reference voltage applied by the clamp input unit 21 is dropped and applied to the voltage limiter 23. Then, the voltage limiting unit 23 is turned off because the difference between the voltages input to the positive input terminal and the negative input terminal is not large, so that no leakage current is generated. It is possible to check.

Although the present invention has been described in detail with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and variations belong to the appended claims.

10: constant current member 11: constant current input unit
12: second voltage sensing unit 20: clamp member
21: clamp input 22: voltage drop
23: voltage limiter 24: voltage detector
30: measuring unit DUT: measuring element

Claims (6)

A measuring unit to which a measuring element to be measured is connected to measure the electrical and optical characteristics;
A constant current member supplying a constant current to the measurement unit;
And a clamp member which prevents the voltage applied from the constant current member from rising above the set voltage in the measurement unit.
The clamp member may include a clamp input unit configured to output a predetermined reference voltage of the measurement device;
A voltage limiting unit comparing the reference voltage applied from the clamp input unit with the voltage output from the constant current member and applied to the measurement device to determine whether the voltage applied to the constant current member is blocked;
A voltage sensing unit which senses a forward voltage of the measuring element connected to the measuring unit and outputs a sensing signal when the voltage is lower than the reference voltage; And
When the sensing signal of the measuring device is applied from the voltage sensing unit by being connected between the clamp input unit and the voltage sensing unit, the reference voltage of the clamp input unit drops to a limit voltage within a range to which the voltage sensed by the voltage sensing unit belongs. Volt clamp device of a constant current circuit comprising a. The method of claim 1, wherein the voltage drop unit
A resistor connected between the clamp input portion and an input side of the voltage limiting portion; And a diode having an input side connected between the resistor and the voltage limiting unit, and an output side connected to the input side and the output side of the voltage sensing unit, respectively. The method of claim 2, wherein the limit voltage
And a voltage applied to the voltage limiting unit, and dropping the reference voltage to a voltage that is the sum of the forward voltage of the measurement device and the forward drop voltage of the diode. The constant current according to any one of claims 1 to 3, wherein the voltage limiting unit compares the limit voltage applied from the voltage drop unit with the forward voltage of the measurement device to turn off the forward voltage if the forward voltage is not greater than the limit voltage. Bolt clamp device in the circuit. The method of claim 1, wherein the voltage sensing unit
An input side is connected to the measurement unit, and the output side is a clamp of the constant current circuit, characterized in that the buffer of the constant current member connected between the constant current input portion of the constant current member and the output side of the voltage dropping portion. The method of claim 1, wherein the voltage sensing unit
A bolt clamp device of a constant current circuit having an input side connected to the measuring unit and an output side connected to an output side of the voltage drop unit to sense a forward voltage of the measuring element.

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