KR0168066B1 - Discharge apparatus of operation inspection system for printed board - Google Patents

Abstract

The present invention relates to a discharging device of an operation inspection system for a printed wiring board which discharges residual voltage remaining in a measuring element of the printed wiring board in an operation inspection system for a printed wiring board, the measurement of a microcomputer and a printed wiring board to be measured. Measurement signal generation means for generating voltage and current signals for determining good or bad for the device, a measurement signal selector for receiving control data output from the microcomputer and selecting the measurement signal generation means, and the microcomputer A multiplexer for receiving the control data output from the measuring signal generating means and applying it to the measuring element of the printed wiring board to measure the voltage and current signals of the measuring signal generating means, and to determine the good or bad for the measuring element of the printed wiring board. Measuring means for measuring the voltage of the microcomputer A measuring means selector for receiving the control data outputted from the controller and selecting the measuring means; a discharge circuit for discharging the residual voltage remaining on the measuring element of the printed circuit board at high speed; and receiving the control data output from the microcomputer. Characterized in that the discharge circuit selector for selecting a circuit.

Description

Discharge device of operation test system for printed wiring board

1 is a schematic block diagram of a discharge device of an operation inspection system for a printed wiring board according to an embodiment of the present invention.

2 is a detailed circuit diagram of a discharge circuit according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: microcomputer 20: measuring signal generating means

30: measurement signal selector 40: multiplexer

50: measuring means 60: measuring means selector

70: discharge circuit 71: voltage follower

72: comparison unit 73: discharge unit

80: discharge circuit selector 90: printed wiring board

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a discharge apparatus of an operation inspection system for a printed wiring board, which discharges residual voltage remaining in the measuring element of the printed wiring board.

In general, in the conventional discharging device, a resistor R and a field effect transistor (FET) have been used. However, when discharging using the resistor R, the discharge time is exponential because the current and voltage are reduced exponentially. There was a problem of this lengthening.

Also, in the method of discharging using the field effect transistor (FET), since the field effect transistor (FET) is similar to the operation of the variable resistor, the current and the voltage are reduced exponentially, so that the resistance (R) and Similarly, there was a problem that the discharge time is long.

Therefore, the present invention has been made to solve the conventional problems as described above, an object of the present invention by discharging the remaining voltage remaining in the measuring element of the printed circuit board to be measured using a microcomputer and a discharge circuit at high speed The present invention provides a discharge device for an operation inspection system for a printed wiring board which can shorten the discharge time and improve productivity.

In order to achieve the above object, the discharge device of the operation inspection system for a printed wiring board according to the present invention is a measurement signal for generating a voltage and a current signal to determine good or bad for a microcomputer and a measuring element of a printed wiring board to be measured. A measurement signal selector for receiving the generating means, the control data output from the microcomputer, and selecting the measurement signal generating means; and measuring the voltage and current signals of the measurement signal generating means by receiving the control data output from the microcomputer. A multiplexer applied to the measuring element of the printed wiring board to be measured, measuring means for measuring the voltage of the measuring element for determining good or bad for the measuring element of the printed wiring board, and control data outputted from the microcomputer A measuring means selector for selecting the measuring means; And a discharge circuit for discharging the residual voltage remaining in the measuring element of the printed circuit board at high speed, and a discharge circuit selector for receiving the control data output from the microcomputer and selecting the discharge circuit.

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

1 is a schematic block diagram of a discharging device of an operation inspection system for a printed wiring board according to an embodiment of the present invention, and FIG. 2 is a detailed circuit diagram of a discharge circuit according to an embodiment of the present invention.

In FIG. 1 to FIG. 2, reference numeral 10 denotes the overall operation of the discharging device of the operation inspection system for the printed wiring board and determines whether the defective or defective product for the measuring element of the printed wiring board 90 to be measured. Microcomputer 20 is a measurement signal generating means for generating voltage and current signals to determine whether or not genuine or defective for each measuring element of the printed wiring board 90 to be measured, and 30 is the microcomputer A measurement signal selector which receives control data outputted from (10) via a data bus (a) and turns on / off a relay switch (not shown) to select the measurement signal generation means (20).

40 denotes the measurement signal generating means selected by receiving a control data output from the microcomputer 10 through a data bus b and by turning on a relay switch (not shown) of the measurement signal selector 30 ( 20 is a multiplexer for turning on / off a relay switch (not shown) to apply the voltage and current signals of the printed circuit board to the measurement elements of the printed circuit board 90 to be measured.

Denoted at 50 is measuring means for measuring the voltage of the measuring element to determine whether it is genuine or defective for each measuring element of the printed wiring board 90 to be measured. A relay switch (not shown) is selected to select the measuring means 50 for measuring the voltage for each measuring element of the printed wiring board 90 to be measured by receiving the output control data through the data bus d. Measurement means selector to turn off.

In the figure, reference numeral 70 denotes a discharge circuit for discharging the remaining voltage remaining in each measuring element of the printed circuit board 90 measured by the measuring means 50 at high speed. Is a resistor R1 for limiting the current component contained in the residual voltage remaining in the measuring element of the printed wiring board 90 measured by the measuring means 50, and the current component is measured through the resistor R1. A voltage follower 71 which receives a limited voltage signal from the non-inverting terminal + and acts as a buffer circuit, and a buffer voltage signal output from the voltage follower 71 through an inverting terminal R3. A comparator 72 for receiving a reference voltage signal and receiving a reference voltage signal through a resistor R4 connected to ground and inverting a buffer voltage signal output from the voltage follower 71; On the state value of the voltage signal output from the unit 72 It consists of the discharge part 73 discharged accordingly.

And, 80 is the discharge circuit to receive the control data output from the microcomputer 10 through the data bus (d) to discharge the residual voltage remaining in each measuring element of the printed wiring board 90 at high speed The discharge circuit selector turns on / off a relay switch (not shown) to select 70.

In addition, the voltage follower 71 of the discharge circuit 70 includes an operational amplifier (OPA) that receives a voltage signal of a limited current component through the resistor (R1) from the non-inverting terminal (+), and the operational amplifier ( It consists of a resistor R2 which feeds back the voltage signal output from OPA).

The discharge unit 73 is turned on or off by the diodes D1 and D2 turned on and off according to the state values of the voltage signals output from the comparator 72 and the diodes D1 and D2 turned on or off. Non-conducting transistors TR1 and TR2, resistors R5 and R6 connected at one side to a base terminal of the transistors TR1 and TR2 and at the other end to a voltage Vcc applied from the outside, and the transistor ( Resistor R7 and R10 connected to the collector terminal of TR1 and TR2 and connected to the voltage Vcc applied from the other side, and resistor R8 connected to the emitter terminals of the transistors TR1 and TR2. R9 and resistors R11 connected in parallel with the resistors R8 and R9.

Hereinafter, the effect of the discharge device of the operation inspection system for a printed wiring board configured as described above will be described.

When power is applied to the microcomputer 10, the control data output from the microcomputer 10 is transferred to the measurement signal selector 30, the multiplexer 40, and the measurement means selector via the data buses a, b, and c. 60).

The measurement signal selector 30, the multiplexer 40 and the measurement means selector 60 are controlled by the control data of the microcomputer 10 inputted to the measurement signal selector 30, the multiplexer 40, and the measurement means selector 60. When the relay switch (not shown) is turned on, the measurement signal generating means 20 generates a voltage and a current signal to determine whether a genuine or defective product for each measuring element of the printed wiring board 90 to be measured. The generated voltage and current signals are applied to each measuring element selected by the multiplexer 40.

In this case, the measuring means 50 measures the voltage of each measuring element of the printed wiring board 90 selected by the multiplexer 40, and the microcomputer 10 measures the voltage measured by the measuring means 50. As a result, it is determined whether each measuring element of the printed wiring board 90 is genuine or defective.

On the other hand, when the voltage measurement for each measuring element of the printed wiring board 90 by the measuring means 50 is completed, the microcomputer 10 does not show the measurement signal selector 30 and the measuring means selector 60. The control data output from the microcomputer 10 is input to the discharge circuit selector 80 via the data bus d at the same time as the relay switch is turned off.

By the control data of the microcomputer 10 input to the discharge circuit selector 80, the relay switch (not shown) of the discharge circuit selector 80 is turned on, and the residual voltage remaining in the measuring element of the printed circuit board 90 is turned on. As the discharge circuit 70 for discharging is configured, discharge starts.

In FIG. 2, the residual voltage remaining on the measuring element of the printed wiring board 90 is limited by the residual component through the resistor R1, while the non-inverting terminal of the operational amplifier OPA of the voltage follower 71 is positive. ) Is entered.

At this time, if the residual voltage remaining on the measuring element of the printed circuit board 90 is a positive value, the residual voltage of the positive value is limited to the current component through the resistor R1, and the limited The voltage signal is input to the voltage follower 71 acting as a buffer circuit and outputs a buffer voltage signal having a positive value as it is.

The buffer voltage signal output from the voltage follower 71 is input to the inverting terminal (-) of the comparator COM through the resistor R3, and the buffer voltage signal is transmitted through the resistor R4 connected to the ground. The voltage signal having a negative value is output as compared with the reference voltage signal input to the non-inverting terminal (+) of the comparator (COM) and input to the discharge unit (73).

Since the voltage output from the comparator COM is a negative value, the diode D1 of the discharge unit 73 is turned on and the diode D2 is turned off.

In addition, since the diode D2 is turned off, the emitter terminal of the transistor TR2 has a residual voltage having a positive value remaining in the measuring element of the printed circuit board 90 through the resistors R11 and R9. The transistor TR2, which is the applied PNP transistor TR, is turned on.

Therefore, when the residual voltage remaining on the measuring element of the printed circuit board 90 is a positive value, discharge flows through the resistors R11 and R9, the transistor TR2 and the resistor R10 shown in FIG. As shown in FIG. 2, the discharge flows in the i1 current direction and the discharge ends when the residual voltage remaining on the measuring element of the printed circuit board 90 becomes zero (0).

On the other hand, the residual voltage of the negative value remaining in the measuring element of the printed wiring board 90 is limited to the current component through the resistor (R1), the limited voltage signal is a voltage follower acting as a buffer circuit A buffer voltage signal having a negative value while being input to 71 is output as it is.

The buffer voltage signal output from the voltage follower 71 is input to the inverting terminal (-) of the comparator COM through the resistor R3, and the buffer voltage signal is transmitted through the resistor R4 connected to the ground. It is output as a voltage signal having a positive value compared with a reference voltage signal input to the non-inverting terminal (+) of the comparator (COM) and input to the discharge unit (73).

Since the voltage output from the comparator COM is a positive value, the diode D1 of the discharge unit 73 is turned off and only the diode D2 is turned on.

When the diode D1 is turned off, the voltage V + applied from the outside is applied to the base terminal and the collector terminal of the transistor TR1 through the resistors R5 and R7 so that the transistor TR1 which is the NPN transistor TR becomes conductive. do.

In addition, since the diode D2 is turned on and a voltage having a positive value output from the comparator COM is applied to the base terminal of the transistor TR2, the transistor TR2, which is a PNP transistor TR, is not provided. It is conducting.

Therefore, when the residual voltage remaining on the measuring element of the printed circuit board 90 is a negative value, the printed wiring board 90 flows in the direction of i2 current as shown in FIG. 2 through the resistor R11. When the residual voltage remaining on the measuring device becomes zero, the discharge is completed.

When the discharge is completed in this way, the microcomputer 10 turns off the relay switch (not shown) of the discharge circuit selector 80 and the control data output from the microcomputer 10 is transferred via the data buses a and c. The operation as described above is repeated while being input again to the measurement signal selector 30 and the measurement means selector 60.

According to the discharge device of the operation inspection system for a printed wiring board according to the present invention as described above, the discharge time by discharging the remaining voltage remaining in the measuring element of the printed wiring board to be measured using a microcomputer and the discharge circuit at high speed There is an excellent effect of improving the productivity by shortening the time.

Claims (4)

Selecting the measurement signal generating means for receiving the control data output from the microcomputer and the measurement signal generating means for generating a voltage and current signal to determine whether the microcomputer, the measurement element of the printed wiring board to be measured A measurement signal selector, a multiplexer for receiving the control data output from the microcomputer and applying the voltage and current signals of the measurement signal generation means to a measurement element of a printed wiring board, and a goodness of measurement device of the printed wiring board Measuring means for measuring the voltage of the measuring element for determining a defective product, a measuring means selector for receiving the control data output from the microcomputer and selecting the measuring means, and a residual voltage remaining in the measuring element of the printed wiring board; A discharge circuit for discharging the battery at a high speed, and the microphone And a discharge circuit selector which receives the control data output from the raw computer and selects the discharge circuit. 2. The discharge circuit of claim 1, wherein the discharge circuit includes a resistor R1 for limiting a current component included in the residual voltage remaining in the measuring element of the printed circuit board measured by the measuring means, and through the resistor R1. A voltage follower that receives a voltage signal with a limited current component from a non-inverting terminal (+) and acts as a buffer circuit, and a buffer voltage signal output from the voltage follower through a resistor (R3). A comparator for receiving a reference voltage signal through a resistor R4 connected to ground and inverting a buffer voltage signal output from the voltage follower; and a state value of the voltage signal output from the comparator. Discharge device of the operation inspection system for a printed wiring board, characterized in that consisting of a discharge portion for discharging according to. 3. The voltage follower of claim 2, wherein the voltage follower is output from an operational amplifier (OPA) for receiving a voltage signal having a limited current component through a resistor (R1) from a non-inverting terminal (+), and the operational amplifier (OPA). A discharge device of an operation inspection system for a printed wiring board, comprising a resistor (R2) for feeding back a voltage signal. 3. The discharge circuit according to claim 2, wherein the discharge unit is turned on in response to the diodes D1 and D2 turned on and off according to the state values of the voltage signals output from the comparator and the signals of the diodes D1 and D2 turned on and off. Transistors TR1 and TR2 that are not connected to each other, resistors R5 and R6 that are connected to a base terminal of the transistors TR1 and TR2, and the other side is connected to a voltage Vcc applied from the outside, and the transistors Resistors R7 and R10 connected to the collector terminals of the transistors TR1 and TR2 and connected to the voltage Vcc applied from the outside, and resistors connected to the emitter terminals of the transistors TR1 and TR2. And a resistor (R11) connected in parallel with the resistors (R8, R9) in parallel with the resistors (R8, R9).