KR101005931B1 - Circuit and apparatus for strobo Auto discharging - Google Patents

Abstract

A strobe auto discharge circuit and apparatus are disclosed. The strobe automatic discharge circuit and apparatus according to the present invention include a reference voltage unit for generating a reference voltage, a decompression unit for decompressing a charging voltage which is a voltage charged in the strobe, a voltage for comparing the reference voltage and the charge voltage decompressed by the decompression unit. And a discharge unit configured to receive a discharge signal from the controller and generate a discharge as a result of the comparison unit, the voltage comparison unit. According to the present invention, it is possible to prevent the discharge of the product is not discharged by the system determines whether the discharge is completed or not.

Strobe, discharge, charge voltage

Description

Strobe Auto Discharging Circuit and Apparatus {Circuit and apparatus for strobo Auto discharging}

The present invention relates to a strobe discharge device, and more particularly, to a strobe automatic discharge circuit and a device which is a device capable of automatically discharging the strobe after the strobe inspection and a device including the circuit.

Recently, various types of portable electronic devices such as mobile phones, Motion Picture Experts Group Audio Layer-3 (MP3) players, personal digital assistants (PDAs), and digital cameras have been widely used. As these various portable electronic devices are widely used, functions of portable electronic devices have been integrated, and users have become convenient in carrying these devices. A representative example is that the cellular phone or PDA has not only a communication function but also an MP3 player function and a digital camera function. In particular, a mobile phone with a camera function is used by many people, and as the pixel unit is gradually increased, the usage is increasing. Such a camera or a portable electronic device including a camera function is required to use a strobo (flash) device that generates an artificial light source when a light target is dark due to lack of light.

The strobe mounted on the camera module is a device that charges a capacitor by boosting the voltage to 300V or more using a voltage of 3V to 5V, and emits light upon a strobo on signal.

After such stroboscopic process, the high voltage charged in the capacitor may cause electric shock to the worker, and the discharged product must be discharged because electric shock may occur during assembly with electronic devices such as mobile phones and electronic devices. do.

Therefore, after the strobe test, the module including the strobe is separated from the jig and then discharged manually or manually using a separate discharge device. Since the discharge is performed manually or manually, the discharge may be shipped in a state where the discharge is not completely completed. In addition, there is a problem that an electric shock accident may occur during the discharge operation.

It is an object of the present invention to provide a strobe automatic discharge circuit capable of automatically performing discharge execution and whether discharge is completed.

Further, another object of the present invention is to provide a strobe automatic discharge device in which discharge is automatically performed after the strobe inspection without providing a separate step.

According to an embodiment of the present invention, a reference voltage unit for generating a reference voltage, a decompression unit for decompressing the charging voltage which is the voltage charged in the strobe, a voltage comparison unit for comparing the reference voltage and the charge voltage reduced by the decompression unit, the voltage According to a result of the comparing unit, a strobe automatic discharge circuit is provided, including a control unit for generating a discharge signal and a discharge unit for receiving a discharge signal from the control unit and performing discharge.

The decompression unit decompresses the charging voltage to 1/100.

The controller may monitor the power of the strobe test board. Here, the stroboscope test board is a test board for the operation test of the strobe on which the camera module is mounted.

In addition, the controller generates a trigger signal when the power of the strobe test board is turned off. Here, the controller may output the discharge signal by the trigger signal.

As a result of comparing the reference voltage and the charging voltage in the voltage comparator, when the charging voltage is higher than the reference voltage, the controller generates a discharge signal.

According to another embodiment of the present invention, there is provided a strobe auto discharge device including a jig board (JIG) for the strobe operation test having a strobe auto discharge circuit. Here, the jig board includes a discharge probe.

According to the present invention, it is possible to prevent the discharge of the product is not discharged by the system determines whether the discharge is completed or not.

In addition, according to the present invention, it is possible to prevent an electric shock accident that may occur during the discharge operation.

In addition, according to the present invention, since the discharge operation that is performed manually or manually by using a separate discharge device is unnecessary, there is an effect of reducing the manpower and cost.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description.

Hereinafter, an embodiment of a stroboscopic automatic discharge circuit and apparatus according to the present invention will be described in detail with reference to the accompanying drawings. In the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals. Duplicate explanations will be omitted.

1 is a block diagram showing a strobe automatic discharge circuit according to an embodiment of the present invention.

Referring to FIG. 1, the strobe automatic discharge circuit includes a reference voltage unit 101, a pressure reducing unit 102, a voltage comparator 103, a control unit 104, and a discharge unit 105.

The reference voltage unit 101 generates a reference voltage. Here, the reference voltage becomes a reference value when discharging the charging voltage charged in the strobe. That is, when the reference voltage is 50V, the charging voltage is discharged until it becomes 50V or less, which is the reference voltage.

The decompression unit 102 decompresses the charging voltage to 1/100. The circuit for the operation of an electronic device such as a mobile phone is supplied with power using a battery or the like. Such supplied power is typically low voltage within 5V. The charging voltage charged to the strobe is about 700V high voltage. If a high voltage charge voltage is input to the comparator for comparison between the charge voltage and the reference voltage, serious damage to the device and circuit can occur. Therefore, in order to prevent such damage, the charging voltage is reduced through the pressure reducing unit 102.

The voltage comparing unit 103 compares the reference voltage generated by the reference voltage unit with the charged voltage reduced by the pressure reducing unit. As a result of the comparison between the charging voltage and the reference voltage in the voltage comparator, if the charging voltage is higher than the reference voltage, the strobe auto discharge circuit performs the discharge. If the charging voltage is lower than the reference voltage, the discharge is not performed.

The controller 104 generates a discharge signal based on the result of the voltage comparator. For example, if the charging voltage is higher than the reference voltage, the output of the voltage comparator will be 5V. When 5V, the output value of the voltage comparator, is input to the controller, the controller generates a discharge signal. If the charging voltage is lower than the reference voltage, the output of the voltage comparator will be 0V. Even if 0 V, the output value of the voltage comparator, is input to the controller, the controller will not generate a discharge signal.

In addition, the controller 104 is connected to the power supply of the strobe test board, it is possible to monitor the power of the strobe test board (Monitoring). Here, the stroboscope test board is a test board for checking the operation of the strobe mounted on the camera module.

In addition, the controller 104 generates a trigger signal when the power of the strobe test board is turned off.

That is, the controller 104 monitors the power supply of the strobe test board and generates a trigger signal when the power of the strobe test board is turned off, which is the point at which the test of the strobe is finished. The discharge signal generated by the trigger signal generated in this way operates the output switch element to perform discharge.

The discharge unit 105 receives a discharge signal from the control unit 104 to perform discharge.

2 is a circuit diagram illustrating a comparison between a reference voltage and a charging voltage in a strobe auto discharge circuit according to an exemplary embodiment of the present invention.

The circuit diagram showing a comparison between the reference voltage and the charging voltage among the strobe automatic discharge circuits of FIG. 2 includes a reference voltage unit 101, a pressure reducing unit 102, and a voltage comparing unit 103.

The reference voltage unit 101 may include a Zener diode 201 and resistors 202 and 203. When a voltage is supplied from a power supply VCC such as a battery, the user may set a reference value of discharge by adjusting the value of R1 202. Accordingly, the discharge reference value desired by the user may be generated by using the power supply VCC.

The pressure reduction unit 102 includes resistors 205 and 206. The high voltage charging voltage is reduced by the resistors 205 and 206 to a degree that does not damage the control circuit including the comparison circuit. In the embodiment of the present invention, the pressure is reduced to 1/100, but the present invention is not limited thereto and may be changed by a circuit designer or a user.

The voltage comparator 103 is composed of a comparator 204. The reference voltage generated by the reference voltage unit 101 is compared with the charging voltage output through the decompression unit 102. If the reference voltage is 5V and the charging voltage output through the decompression unit 102 is 6V, the output value of the comparator 204 is 5V. If the reference voltage is 5V and the charging voltage output through the decompression unit 102 is 3V, the output value of the comparator 204 becomes 0V. Such an output value of the comparator 204 becomes an input value of the control unit 104.

3 is a control circuit diagram for generating a discharge signal in the strobe automatic discharge circuit according to an embodiment of the present invention.

The control unit of the strobe automatic discharge circuit of FIG. 3 includes a trigger signal unit 301 and a discharge signal generator 302.

The trigger signal unit 301 outputs a trigger signal when the power of the strobe test board is turned off.

The discharge signal generator 302 monitors the power supply of the strobe test board, receives a trigger signal generated when the board power of the strobe test board is turned off, and outputs a discharge signal.

Here, the discharge signal generator 302 may be configured using a micro computer unit (MCU).

4 is a circuit diagram of a discharge unit that performs discharge in a strobe auto discharge circuit.

The discharge part of the strobe automatic discharge circuit of FIG. 4 includes a gate driver circuit part 401 and an output switch part 402.

The gate driving circuit section 401 is a circuit for operating the output switch section 402.

When the discharge signal is input to the gate driving circuit unit 401, the gate driving circuit unit 401 outputs a signal for the output switch unit 402 to operate.

The output switch unit 402 receives a signal output from the gate driving circuit unit 401 to perform discharge.

In the present invention, the output switch unit 402 includes an Insulator Gate Bipolar Transistor (IGBT). That is, while the IGBT included in the output switch unit 402 receives the signal output from the gate driving circuit unit 401, the discharge is performed.

5 is an exemplary view showing a strobe inspection apparatus according to an embodiment of the present invention.

As can be seen from Figure 5, the strobe inspection apparatus according to an embodiment of the present invention is provided with a discharge probe (Probe). The discharge probe installed in the strobe inspection apparatus is discharged at the time when the strobe inspection ends. That is, while the strobe operation test is monitored by the MCU included in the strobe operation test device, the strobe operation test is completed and the discharge is automatically performed.

The stroboscopic automatic discharge circuit and apparatus according to the present invention can prevent the discharge of the product is not discharged is determined by a system other than the operator whether the discharge is complete. That is, it is possible to prevent the electrical damage of the electronic device that may be caused by leakage of the charged product that is not discharged.

In addition, it is possible to prevent an electric shock accident that may occur during the discharge operation.

In addition, since a separate discharge device is not used, cost can be reduced. In other words, since the discharge work that is performed manually or manually by using a separate discharge device becomes unnecessary, it is possible to reduce manpower and cost.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

1 is a block diagram showing a strobe automatic discharge circuit according to an embodiment of the present invention.

2 is a circuit diagram showing a comparison between the reference voltage and the charging voltage in the strobe automatic discharge circuit according to an embodiment of the present invention.

3 is a control circuit diagram for generating a discharge signal in the strobe automatic discharge circuit according to an embodiment of the present invention.

4 is a circuit diagram of a discharge unit that performs discharge in a stroboscopic automatic discharge circuit.

5 is an exemplary view showing a strobe inspection apparatus according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

101: reference voltage section

102: decompression unit

103: voltage comparison unit

104: control unit

105: discharge part

201: Zener Diode

301: trigger signal unit

302: signal generator

401: gate driving circuit portion

402: output switch unit

Claims (9)

A reference voltage unit generating a reference voltage; A decompression unit for depressurizing a charging voltage which is a voltage charged in the strobe; A voltage comparison unit comparing the reference voltage with the charging voltage decompressed by the pressure reduction unit; A controller configured to generate a discharge signal based on a result of the voltage comparator; And And a discharge unit configured to receive the discharge signal from the controller and perform discharge. The method of claim 1, And the decompression unit decompresses the charge voltage to 1/100. The method of claim 1, The control unit is connected to the power of the strobe test board, the strobe automatic discharge circuit, characterized in that for monitoring the power of the strobe test board (Monitoring). The method of claim 3, wherein The strobe test board is a strobe auto discharge circuit, characterized in that the test board for the operation test of the strobe mounted on the camera module. The method of claim 3, wherein And the control unit generates a trigger signal when the power of the strobe test board is turned off. The method of claim 5, And the controller outputs the discharge signal in response to the trigger signal. The method of claim 1, The voltage comparator compares the reference voltage with the charging voltage, and when the charging voltage is higher than the reference voltage, the controller generates a discharge signal. A strobe auto discharge device comprising a jig board (JIG) for the strobe operation test having the strobe auto discharge circuit according to any one of claims 1 to 7. The method of claim 8, The jig board has a strobe auto discharge device, characterized in that it comprises a discharge probe (Probe).

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