KR0151956B1 - Leakage current automatic inspection system of tuner - Google Patents

Abstract

A system for automatically checking a leakage current of a tuner, the jig unit connected to a tuner, a signal generator for applying an RF signal to the tuner through the jig unit, a frequency counter for measuring the frequency of an IF signal of the tuner, and tuning to the tuner. Programmable power supply unit for applying voltage and signal control unit for receiving a control signal and supplying a band selection signal and tuning voltage to the tuner through the jig unit and detecting leakage current of each terminal of the tuner through the jig unit and outputting it to the oscilloscope. A PLC control unit for controlling the control unit and a main control unit for controlling the respective units.

Description

Tuner Leakage Current Inspection System

1 is a leakage current inspection system of a conventional tuner.

2 is an automatic leakage current inspection system of a tuner according to the present invention.

3 is a block diagram showing the configuration of a switch controller applied to the present invention.

4 is a flowchart showing a method for controlling the leakage current automatic inspection system of the tuner according to the present invention.

* Explanation of symbols for main parts of the drawings

21: main controller 22: PLC control unit

23: switch control unit 24: programmable power supply unit

25 frequency counter 26 oscilloscope

27: signal generator 28: jig portion

29: monitor 30: tuner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for automatically checking leakage current of a tuner, and in particular, to automatically measure the leakage current and voltage of each terminal in a device such as a tuner, and to automate the connection between each terminal and the measuring instrument, and to automatically display the result of the measurement. A system for automatically checking leakage current of a tuner.

Conventionally, when checking the leakage current of the tuner, using three signal generators (for Bu, BH, and BL), the user manually switches by band and inspects with a leak tester to determine the quantity and defect. It was a working system.

A leakage current inspection system of such a conventional tuner is shown in FIG.

The leakage current inspection device 1 supplies power to the jig unit 2 to supply power to the tuner 8 for operation of the tuner 8. The jig unit 2 contacts the tuner 8 with a jig pin (not shown) or the like so as to supply a measurement signal and power to a test point and a power supply terminal of the tuner 8.

The multiplexer 3 receives a selection signal from a manual switch 7 operated by a user and, in the case of a low-frequency VHF selection of a signal generator corresponding to the selection signal among the signal generators 4-6, the signal generator for BL 4 ) Is connected to the jig part 2 to apply a low-frequency VHF signal to the tuner 8.

As described above, the conventional leakage current inspection system applies a test signal to the tuner by operating a manual switch, and when the result is displayed on the leakage current inspection device, the tuner is rejected or passed according to the result.手工) will take a lot of time, resulting in a lot of time, productivity is reduced. In addition, there is a problem that the inspection is incomplete because the fatigue of the worker is accumulated by the repetitive work.

The present invention is to solve the above problems, it is an object of the present invention to provide a system for automatically checking the leakage current of the tuner to automatically perform the leakage current test of the tuner.

In order to achieve the above object, the device according to the present invention is a leakage current inspection system of a tuner,

A jig portion connected to an input / output terminal of the tuner,

A signal generator for outputting an RF signal to the jig unit;

A frequency counter for receiving and measuring an IF signal from the jig unit;

A programmable power supply unit applying a tuning voltage to the jig unit;

A switch control unit which receives a control signal and outputs a band selection signal of the tuner to the jig unit according to the control signal, detects and outputs a leakage current through the jig unit from an input / output terminal of the tuner;

An oscilloscope measuring the leakage current output from the switch controller and outputting the result;

A PLC controller for controlling the mechanism system of the leakage current inspection system to receive and control a jig unit and an input / output terminal of the tuner;

The main control unit is provided with a main control unit which controls each unit and includes a GPIB control unit for data communication and a digital input / output control unit for digital input / output control.

The automatic leakage current inspection system of the tuner configured as described above comprises controlling a mechanism system by a PLC control unit to couple the tuner's input / output connector and the jig connector, the antenna terminal of the tuner and the jig connector;

Outputting a control signal to a switch control unit to select a band of the tuner through the jig unit;

Controlling a signal generator and a programmer voltage supply unit to generate an RF signal and a tuning voltage to the tuner, and then detect an IF signal from the tuner and measure the frequency signal with a frequency counter;

Adjusting the tuning voltage to become a standard value according to the measurement result;

If the leakage current of the tuning voltage terminal and AGC terminal is not within the standard value, display the fault on the monitor, and separate the tuner's antenna terminal and the jig part connector, the tuner's input / output connector and the jig part connector by the PLC control part. Moving the tuner to the bad station and terminating it,

If the leakage current of the tuning voltage terminal and AGC terminal is within the standard value, the monitor displays a good indication, and the PLC control unit separates the tuner's antenna terminal and the jig part connector, the tuner's input / output connector and the jig part connector, and then adjusts the tuner. And controlled to move to the inspection station and to exit.

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

2 is a block diagram showing an embodiment of an automatic leakage current inspection system according to the present invention.

21 is a main control part, and may be, for example, a personal computer (PC), and includes a GPIB control part 21a and a digital input / output control part 21b therein and is viewed in advance by software stored in the internal memory. Control each part of the system.

22 is a PLC control part and controls various actuators (cylinder, motor, lamp, etc.) which comprise a mechanism system under control by the main control part 21. As shown in FIG.

Numeral 23 is a switch controller, which enables communication between the main controller 21 and the programmable logic controller (PLC) controller 22, and from the digital input / output controller 21b, as shown in FIG. 40 channels of signals are input, and 24 channels of signals are input to the PLC controller 22 through the PC-PLC interface unit 31, and 8 channels of signals are input to the first relay unit 32. Is input to the first relay unit 33. The first relay unit 32 receives the eight channel control signals of the digital input / output controller 21b to control eight relays installed therein, and the eight relays are AGC voltages output from the power supply unit 34. The AFT voltage and the 12V voltage are output to the jig unit 28 and input to the third multiplexer 37 as a selection control signal. The second relay unit 33 receives eight channel signals from the digital input / output control unit 33 to control eight relays installed therein, and four of them relay the 12V voltage of the power supply unit 34 to the first multiplexer ( The first multiplexer 35 selects one of the four inputs to be input to the third multiplexer 37 by inputting it as the selection control signal of 35).

In addition, the remaining four relays similarly input the 12V voltage of the power supply unit 34 as the selection control signal of the second multiplexer 36 so that the second multiplexer 36 selects one of the four inputs and the third multiplexer 37. Connect the signal to input. The third multiplexer 37 receives a selection control signal from the first relay unit 32 through its control terminals CNT1 and CNT2, and selects one of the two inputs to input the channel 1 of the oscilloscope 26. 24 is a programmable power supply unit. The main control unit 21 receives the control data output through the GPIB control unit 21a, generates a tuning voltage according to the control data, and inputs it to the tuning voltage terminal VT of the jig unit 28. do. 25 is a frequency counter. The jig unit 28 receives the IF signal detected by the IF output terminal of the tuner 30, counts the frequency, and outputs the frequency to the GPIB control unit 21a. 26 is an oscilloscope, and signals detected from the tuner 30 input through the first multiplexer 35 and the second multiplexer 36 and the third multiplexer 37 constituting the switch control unit 23 (eg, VH, AGC, IF, BL, BH, Bu, etc.) are measured and the measurement results are output to the GPIB control unit 21a.

27 is a signal generator, and receives the control signal of the main controller 21 through the GPIB controller 21a and inputs an RF signal to the tuner 30 through the jig unit 28.

28 is a jig part and supplies various power and signals supplied to the tuner, and connects various power and signals from the tuner to the switch control unit and various measuring instruments.

It also includes the ability to lock the tuner.

29 is a monitor, and the inspection results of the inspection system are displayed on the screen.

30 is a tuner, a device to be inspected, and another device (for example, a through capacitor) may be used as a device to be inspected.

Hereinafter, the effect of the present invention will be described.

4 is a flowchart showing the control method of the inspection system according to the present invention.

After the power is applied, a process of initializing a parameter or the like is performed, and in step 401, it is checked whether the tuner to be examined arrives at the jig unit 28. If the tuner has not arrived, repeat step 401, and if the tuner arrives, at step 402, the PLC control unit 22 via the digital input / output control unit 21b and the switch control unit 23 via the PC-PLC interface unit 31; The control signal is output to operate a connector coupling cylinder of a mechanism system (not shown) to couple the input / output connector of the tuner 30 to the connector of the jig part 28.

In step 413, the RF output connector (not shown) of the jig unit 28 and the antenna terminal of the tuner 30 are combined. In step 414, an adjustment start signal is output, and in step 415, the digital input / output control unit 21b is disconnected. By outputting a control signal to the first relay unit 32 of the switch control unit 23 through the corresponding relay of the first relay unit 32, for example, to select the low band of the VHF, the corresponding relay is + 12 is input to the BL terminal of the tuner 30, and 0V is input to the BH and Bu terminals. In operation 416, the control signal is output to the signal generator 27 through the GPIB control unit 21a so that the signal generator 27 outputs the RF signal to the antenna terminal of the tuner 30 through the jig unit 28. In operation 417, the programmable power supply unit 24 is controlled through the GPIB control unit 21a to apply the tuning voltage VT to the tuner 30 via the jig unit 28. In step 418, the IF signal is detected from the IF output terminal of the tuner 30 and applied to the frequency counter 25 through the jig unit 29, and it is determined whether the IF frequency measured by the frequency counter 25 is a standard value. . If the measured IF frequency is not the standard value, the process of step 417 or less is repeated, and if the measured IF frequency is the standard value, the process proceeds to step 419. In step 419, the second relay unit 33 of the switch control unit 23 is controlled through the digital input / output control unit 21b, so that the first multiplexer 35 passes through the jig unit 28 and the tuning voltage terminal of the tuner 30. FIG. Outputting the current leaking from the control unit, and then controlling the first relay unit 32 so that the third multiplexer 37 outputs the output of the first multiplexer 35 to the channel 1 of the oscilloscope 26, The current leaking out of the tuning voltage terminal of the tuner 30 is measured by the oscilloscope 26 and the result is read through the GPIB control unit 21a. In step 420, it is determined whether the leakage current value of the tuning voltage terminal measured by the oscilloscope 26 is within a standard value. If it is not within the standard value, the monitor 29 is displayed as defective in step 425, and in step 426, the PLC controller (through the PC-PLC interface unit 31 of the digital input / output controller 21b and the switch controller 23) ( 22), the mechanism system moves the antenna terminal disconnection, the input / output connector disadvantage, and the inspection target tuner 210 to the defective station, and terminates the inspection program.

In step 420, if the leakage current value of the tuning voltage terminal is within the standard value, it is determined in step 421 whether it is measured three times.

If the measurement is not three times, the process of step 419 or less is repeated. If the measurement is three times, the process proceeds to step 422. In step 422, the digital output control unit 21b, the second relay unit 33, the first multiplexer 35, the third multiplexer 37 and the first relay unit 32 are controlled as described above. The leakage current is detected from the AGC terminal and measured by the oscilloscope 26. In step 423, the measured value is read through the GPIB control unit 21a to determine whether the measured value is within the standard value. If it is not within the standard value, the process of step 425 or less is repeated, and if it is within the standard value, it is determined in step 424 whether it is measured 3 times. If the measurement is not three times, the process of step 422 or less is repeated. If the measurement is three times, the process proceeds to step 427. In step 427, the monitor 29 is marked as good, and in step 428, a good completion signal is output to the PLC control unit 22 so that the PLC control unit 22 controls the mechanism system so that the jig unit 28 in step 429. Separate the input / output connector of the tuner and the input / output connector terminal of the tuner 30.

In step 430, the inspection target tuner 30 is moved to the next inspection station via a conveyor belt (not shown) and the program ends.

As described above, according to the present invention, the leakage current of each terminal of the tuner can be measured automatically, and the quantity and the defect can be determined, and the quantity and the defect can be automatically classified.

Claims (4)

A leakage current inspection system of a tuner, comprising: a jig unit connected to an input / output terminal of the tuner, a signal generator for outputting an RF signal to the jig unit, a frequency counter for receiving and measuring an IF signal from the jig unit, A programmable power supply unit for applying a tuning voltage to a jig unit, receiving a control signal and outputting a band selection signal of the tuner to the jig unit according to the control signal, and detecting a leakage current from the input / output terminal of the tuner through the jig unit; A mechanism of the leakage current inspection system for coupling and disconnecting the switch control unit for outputting, an oscilloscope measuring the leakage current output from the switch control unit, and outputting the result, and receiving and receiving a control signal from the jig unit and the input / output terminals of the tuner. PLC control unit for controlling the system, GPIB control for controlling the respective parts And a digital output for controlling a digital input and output control unit the leakage current automatic test system of the tuner, characterized in that it comprises the main control portion including a. The system of claim 1, wherein the signal generator, the frequency counter oscilloscope, and the programmable power supply unit receive a control signal or output measurement data through a GPIB controller of the main controller. The control unit of claim 1, wherein the switch control unit comprises a PC-PLC interface unit for performing data communication between the main control unit and the PLC control unit, and relays corresponding to the control data received from the main control unit. One of a plurality of inputs according to the first relay unit and the second relay unit, the power supply unit for supplying power to the first relay unit and the second relay unit, and the control data output from the second relay unit A first multiplexer for selecting and outputting the second multiplexer, and a third multiplexer for selecting one of the outputs of the first and second multiplexers according to control data output from the first relay unit and outputting the selected multiplexer to the oscilloscope Tuner leakage current automatic inspection system, characterized in that. In the automatic leakage current inspection system of the tuner, controlling the mechanism system by the PLC control unit, coupling the tuner's input / output connector and the jig connector, the antenna terminal of the tuner and the jig connector, and outputting a control signal to the switch control unit. Selecting a band of the tuner through the jig unit, controlling a signal generator and a programmer voltage supply unit, generating an RF signal and a tuning voltage, applying the tuner to the tuner, and detecting an IF signal from the tuner and measuring the frequency signal. And adjusting the tuning voltage so as to be a standard value according to the measurement result, and measuring leakage currents of the tuning voltage terminal and the AGC terminal to display a defective value on the monitor, and to the PLC controller. Tuner's antenna terminal and jig connector, tuner's input / output connector and jig connector Separating and moving the tuner to the defective station and terminating; and if the leakage current of the tuning voltage terminal and the AGC terminal is within the standard value, a good indication is displayed on the monitor, and the connector and tuner of the tuner antenna terminal and the jig part are controlled by the PLC control unit. And disconnecting the input / output connector of the jig and the connector of the jig unit, and moving the tuner to the next inspection station and terminating the leakage current of the tuner.