KR0125597B1 - Smoothing condenser fault detection method of power circuit - Google Patents

Abstract

The present invention relates to a smoothing capacitor failure detection and prevention of the smoothing capacitor of the power supply circuit to facilitate the detection of the failure of the smoothing capacitor provided in the power circuit for inspection, the control method is a smoothing capacitor through the switch input unit (13). (C1) detecting a value input through the detection unit 12 at the zero point of the pulse waveform input through the power frequency input unit 11 when the defect inspection key is input, and inputted through the detection unit 12 in the process If the voltage is the first predetermined voltage, outputting a command according to the good state of the smoothing capacitor C1 to the display unit 14; and if the voltage input through the detection unit 14 is not the first predetermined voltage. Determining whether it belongs to the second predetermined voltage and if it belongs to the second predetermined voltage detects a voltage value input through the detection unit 14 again after a predetermined time elapses, and if the value is the first predetermined voltage, the smoothing capacitor C1. Disconnection Outputting the command according to the quantity to the display unit 14; and if the voltage inputted through the detector 12 in this process is not the first predetermined voltage and is also out of the second predetermined voltage, the smoothing capacitor C1 And outputting a command corresponding to a short circuit to the display unit 14.

Description

Defect Detection of Smoothing Capacitor of Power Circuit

1 is a smoothing capacitor failure detection circuit according to the present invention,

2 is a main waveform diagram of each part for explaining the present invention,

3 is a control flow diagram illustrating the present invention;

4 is a smoothing capacitor failure detection device of a conventional power supply circuit

* Explanation of symbols for main parts of the drawings

10: microcomputer 11: power frequency input unit

12: Detection part 13: Switch input part

14: display part 20: circuit part for inspection

C1: Smoothing Capacitor

The present invention relates to a control method of an inspection circuit for inspecting a defect of a printed circuit board (PCB) in which a device is inserted and connected for the purpose of predetermined control. In particular, the present invention relates to a failure of a smoothing capacitor provided in a power supply circuit to be inspected. The present invention relates to a smoothing capacitor defect detection method of a power supply circuit that can be easily detected.

Reference numeral 20 in FIG. 1 denotes a general power circuit of the circuit board under test, which includes a transformer TS for dropping the applied power supply AC and a bridge diode BD2 for full-wave rectifying the output of the transformer TS. And a smoothing capacitor C1 for smoothing the rectified signal output from the bridge diode BD2 and a DC voltage output through the smoothing capacitor C1 to a predetermined voltage (V2: Example 12V). The main circuit is composed of a regulator REG, and in a circuit for inspection using the output voltage V2 of the regulator REG for a predetermined portion, a conventional method for detecting whether the smoothing capacitor C1 is defective or not (disconnected, shorted, etc.). As shown in FIG. 4, the inspection circuit apparatus includes a microcomputer 30, a switch input unit 31 including a plurality of switches for inputting a key of a predetermined function command to the microcomputer 30, and a plurality of switches. Specific indicators with two indicator lamps In this case, the display unit 32 turns on or off the lamp by the output of the microcomputer 30 to indicate whether or not the smoothing capacitor C1 is defective, and the input port PA of the microcomputer 30 ( It is comprised by the detection part 33 connected to PB and detecting whether the smoothing capacitor C1 is defective.

Therefore, in order to detect whether the smoothing capacitor C1 is defective, first, the terminal P1 of the detecting unit 33 is connected to the output terminal P2 of the smoothing capacitor C1 of the circuit unit 20 for inspection. When the predetermined command for detecting the failure of the smoothing capacitor C1 is input to the microcomputer 30 through the switch input unit 31, the microcomputer 30 passes through the detection unit 33 to the port PA (PB). Detect the value entered by.

Here, when the smoothing capacitor C1 is normal, the output voltage (about 18V) of the smoothing capacitor C1 is divided by the resistor R10 and the resistor R11 to the port PA of the microcomputer 30. The divided voltage, about 3V is input, and the microcomputer 30 recognizes the normal of the smoothing capacitor C1 as the input voltage and outputs the corresponding signal to the display unit 32 so that the corresponding lamp is turned on or off. It indicates that the condenser (C1) is normal.

If the smoothing capacitor C1 is disconnected, the full-wave rectified output voltage 120HZ of the bridge diode BD2 of the circuit under test 20 is not smoothed by the smoothing capacitor C1. As a result, the transistor Q2 is intermittently turned on through the resistors R12 and R13, and a pulse signal corresponding to the frequency 120HZ is input to the input port PB of the microcomputer 30, and the pulse signal is input. The received microcomputer 30 recognizes the disconnection failure of the smoothing capacitor C1 and outputs a different signal to the display unit 32 to turn on or turn off the corresponding lamp to inform the outside of the smoothing capacitor C1. Was.

However, such an inspection device has been used a little more parts in the detection unit 33, in the inspection of the smoothing capacitor (C1) inefficiency of using two ports (PA) (PB) of the microcomputer (30) ( Wasting of the port).

Accordingly, the present invention has been made to solve the above problems, the constitution of the power circuit to reduce the number of parts by simply configuring the detection unit to reduce the number of parts, by receiving the detection signal of the detection unit as a single port It is an object of the present invention to provide a smoothing capacitor failure detection method.

In order to achieve the above object, the present invention includes a microcomputer, a power frequency input unit for inputting a pulse signal of a frequency corresponding to a power frequency to the microcomputer, and a plurality of switches for key input for a command of a predetermined test to the microcomputer. A switch input section configured to provide a plurality of display lamps, a display section for turning on or off the corresponding lamp by the output of the microcomputer to indicate whether a specific device is defective or not, and an output voltage of a smoothing capacitor of a power circuit for inspection. A control method of a smoothing capacitor failure detection circuit of a power supply circuit including a detection unit detecting a distribution value of a resistance, the pulse waveform being input through a power frequency input unit when a smoothing capacitor failure inspection key is input through the switch input unit. Detecting a value input through the detection unit at the point, and in the process, the detection unit If the voltage inputted through the first predetermined voltage outputs a command according to the good state of the smoothing capacitor to the display unit, and if the voltage input through the detector in the process is not the first predetermined voltage belongs to the second predetermined voltage? Determining the value of the second predetermined voltage and detecting the voltage value input through the detector again after a predetermined time, and outputting a command according to the disconnection failure of the smoothing capacitor to the display unit if the value is the first predetermined voltage; And outputting a command according to a short circuit failure of the smoothing capacitor to the display unit when the voltage input through the detection unit is not the first predetermined voltage and the second predetermined voltage.

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

1 shows a smoothing capacitor C1 failure detection circuit diagram to which the present invention is applied. The microcomputer 10 incorporating a control method according to the present invention, a bridge diode BD1, a resistor R1, R2, A power supply frequency input unit 11 which comprises a transistor Q1 and inputs a pulse waveform corresponding to the power supply AC frequency to the microcomputer 10, and a plurality of switches to command the microcomputer 10 to perform a predetermined test. A switch input unit 13 for performing key input to the display unit, and a display unit 14 having a plurality of display lamps to turn on or off the corresponding lamps by the output of the microcomputer 10 to indicate whether a specific device is defective or not. And a detector 12 which detects the output voltage of the smoothing capacitor C1 of the power supply circuit of the circuit under test 20 as the divided value of the resistors R4 and R3. ) Is the power source (AC) through the bridge diode (BD1) Full-wave rectified and the rectified signal intermittently turns on the transistor Q1 through the resistor R1 to the input port PI1 of the microcomputer 10 through the collector of the transistor Q1 to (2-3) in FIG. The pulse signal as described above is inputted, and the microcomputer 10 detects whether the smoothing capacitor C1 is defective by using the zero point of the pulse signal at this time.

Referring to FIGS. 2 and 3, the operation and effect of the present invention will be described. First, the terminal P1 of the detection unit 12 is connected to the detection terminal P2 of the circuit unit 20 for inspection, and the power source AC After inputting the switch, the switch for the failure inspection of the smoothing capacitor C1 is keyed through the switch input unit 13, and the microcomputer 10 which detects the key input signal (step 100) receives the power frequency input unit ( 11) (101) detects a pulse waveform as shown in (2-3) of FIG. 2 input to the input port PI1 of the microcomputer 10 through the detection unit 12 at the zero point (low edge). Detects the voltage value input through (step 102). Here, if the smoothing capacitor C1 is satisfactory, the voltage applied to the terminal P1 of the detection unit 12 is about 18V as shown in (2-1) of FIG. 2, and this voltage is the resistance of the detection unit 12 ( The voltage is divided by R4 and resistor R3, and a voltage of about 3V is applied to the input port PI2 of the microcomputer 10 as shown in (2-2) of FIG. In this case, the voltage of 3V is referred to as a first predetermined voltage for convenience. Therefore, when the first predetermined voltage is detected (step 103), the smoothing capacitor C1 is recognized as good and a predetermined output is output to the display unit 14 so that the state according to the goodness of the smoothing capacitor C1 is displayed. (Step 104).

However, when the smoothing capacitor C1 has a defect corresponding to disconnection or short circuit, first of all, in the case of disconnection, the detection terminal P2 of the circuit portion 20 to be inspected is the same as (2-4) in FIG. The rectified signal is output, and the voltage is divided by the resistors R3 and R4 of the detector 12, and a waveform such as (2-5) in FIG. 2 is input to the input port PI2 of the microcomputer 10. . The peak value of this waveform corresponds to the first predetermined voltage (3V) and reaches the peak value after about 4 msec from the zero point of the power supply waveform, and the minimum value of the waveform ripple voltage is about 2.5V.

Accordingly, if the first predetermined voltage is not input to the input port PI2 of the microcomputer 10, it is determined whether the input voltage is between 2.5 and 2.9 V (step 105). Here, the voltages 2.5 to 2.9 are referred to as second predetermined voltages. When the second predetermined voltage is detected in step 105, a time of 4 msec is set (step 107), and after 4 msec (step 108), the voltage of the input port PI2 is read again (step 109) and the value corresponds to 3V. The disconnection failure of the smoothing capacitor C1 is determined, and a predetermined output is made to the display unit 14 so that the state according to the disconnection of the smoothing capacitor C1 is displayed. (Step 110)

Meanwhile, if the second predetermined voltage is not detected in step 105, the display unit 14 recognizes that the smoothing capacitor C1 has caused a short circuit failure and displays the state according to the disconnection failure of the smoothing capacitor C1. Predetermined output is output to (Step 106).

As described above, the present invention is a useful invention that can simplify the inspection circuit device in inspecting the smoothing capacitor of the circuit to be inspected, thereby reducing the cost by reducing components and saving the port of the microcomputer.

Claims (1)

A microcomputer 10, a power frequency input unit 11 for inputting a pulse signal having a frequency corresponding to a power frequency to the microcomputer 10, and a plurality of switches are provided to the microcomputer for key input for a predetermined inspection command. A switch input unit 13 to be carried out, a display unit 14 having a plurality of display lamps to turn on or off the corresponding lamps by the output of the microcomputer 10 to indicate whether or not a specific device is defective, and a power source for inspection A control method of a smoothing capacitor (C1) failure detection circuit of a power supply circuit including a detecting unit (12) for detecting an output voltage of the smoothing capacitor (C1) of a circuit as a distribution value of a resistance, wherein the switch input unit (13) is Detecting the value input through the detection unit 12 at the zero point of the pulse waveform input through the power frequency input unit 11 when the smoothing capacitor (C1) failure inspection key input through the detection unit 12, in the process If the voltage input through the first predetermined voltage is a step of outputting a command according to the 'good' state of the smoothing capacitor (C1) to the display unit 14, the voltage input through the detector 14 in the process is the first If it is not the predetermined voltage, it is determined whether it belongs to the second predetermined voltage, and if it belongs to the second predetermined voltage, the voltage value inputted through the detector 14 is detected again after a predetermined time elapses. Outputting a command according to the disconnection failure of the condenser C1 to the display unit 14; and if the voltage input through the detection unit 12 in this process is not the first predetermined voltage and is also out of the second predetermined voltage, And a step of outputting a command according to a short circuit failure of the utilization capacitor (C1) to the display unit (14).