KR930000505B1 - Automatic tuner testing equipment and method - Google Patents

Abstract

The apparatus using a micro computer, inspects operation of numerous electronic AM/FM tuners in a short time. The apparatus comprises first-sixth multiplexer (6-11) for selecting a tuner in many tuners (13..13n) having OSC terminal, VT terminal, SD terminal; tuner operating section (1) for supplying tuning voltage from first-forth multiplexer (6-9) to the selected tuner (13) and receiving SD voltage and output voltage from the tuner (13); first interface (3) for supplying control signals of a micro computer (4) to the multiplexer (6-11); frequency generating section (14) and power supply (15) for supplying frequency and power voltage; second interface (19) for deciding frequency and level; signal converting section (2) for converting signal inputting from the multiplexer (1-4) to digital signal; display section (5) for displaying disorder of the tuner.

Description

Tuner automatic inspection device and inspection method

1 is a block diagram of a conventional tuner inspection apparatus.

2 is a block diagram of a tuner automatic inspection device according to the present invention.

3 is a flow chart for explaining the operation of FIG.

* Explanation of symbols for main parts of the drawings

1: Tuner driver 2: Signal converter

3 and 19: first and second interface 4: microcomputer

5: display part 6: to

11: first to sixth multiplexer 13: tuner

14: frequency generator 15: power supply

16: oscilloscope 17: digital bolt meter

18: level meta

The present invention relates to an automatic AM or FM tuner inspection apparatus and a method for inspecting the same, and in particular, it is possible to automatically inspect a large amount of AM and FM tuners using a fully automatic tuning method in a short time using a microcomputer. Tuner automatic inspection device.

In general, in order to check the operation status of AM or FM tuner, the tuner is installed on the set jig manufactured by tuner model, and then one by one is applied by applying the operating power and modulation frequency. It was accompanied by the disadvantage that the manufacturing cost of the jig was increased and the inspection time was high.

Accordingly, an object of the present invention is to provide a tuner automatic inspection device and an inspection method thereof capable of eliminating the above-mentioned disadvantages by allowing a plurality of tuners to be mounted on one jig so as to automatically inspect the operation state at about the same time.

It is another object of the present invention to provide a tuner automatic inspection device and a method of inspecting the same to allow a full inspection of the sampled tuner.

According to the present invention, a tuner inspection apparatus for operating a tuner by applying a frequency and a power supply through a jig and measuring the output with an oscilloscope or a level meter to check whether there is an OSC terminal, a VT terminal, an SD terminal, First to sixth multiplexers 6 to 11, which are connected from a plurality of tuners 13 to 13n each having an output terminal, an antenna terminal and a power supply terminal B +, to select one of these tuners; A tuner driver 1 connected to the first to fourth multiplexers 6 to 9 and supplied with a tuning voltage to the selected tuner 13 and receiving an SD voltage and an output voltage generated from the tuner, and the first and sixth multiplexers. A first interface 3 connected between the control terminals 10 and 11 and the microcomputer 4 for supplying control signals of the microcomputer 4 to the first to sixth multiplexers 6 to 11, and The fifth A frequency generator 14 and a power supply 15 connected to the sixth multiplexer 10 and 11, respectively, for supplying a frequency and a power voltage to the tuner, and the frequency generator 14 and the microcomputer 4 A second interface 19 connected between the second interface 19 and the tuner driver 1 and the microcomputer 4 so as to determine a frequency and a level, and the multiplexer according to a control signal of the microcomputer 4. And a display unit 5 for converting a signal input from 1 to 4 into a digital signal, and a display unit 5 connected to the microcomputer 4 to indicate the failure of the selected tuner.

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

FIG. 1 is a block diagram of a conventional tuner test apparatus, in which a modulation frequency from the frequency generator 14 and an operating power supply of the power supply unit 15 are supplied to one tuner 13 through a set jig 12 for each model. Is applied, the output end of the tuner 13 is connected to the level meta 18 via the jig 12 so that the output level of the tuner 13 is displayed.

In addition, the level meta 18 may be connected to an oscilloscope 16 to view the output waveform of the tuner 13 and to check the tuning voltage V _T as the digital volt meta 17. . That is, FIG. 1 can inspect the tuners one by one by hand.

2 is a block diagram of the automatic tuner inspection apparatus according to the present invention, in which the tuner driver 1 is connected to each of the first to fourth multiplexers 6 to 9, and each of the first to fourth multiplexers 6 to 9 is shown. 9 is connected to, for example, eight tuners 13 ... 13n and n = 8, respectively. Herein, it is noted that although eight tuners have been described herein, the present invention is applicable to 16 or more tuners, and is described by applying to eight for convenience to effectively specify the technical idea of the present application.

The frequency generator 14 and the power supply 15 are connected to the eight tuners 13 ... 13n via the fifth multiplexer 10 and the sixth multiplexer 11, respectively.

The control terminals of the first to sixth multiplexers 6 to 11 are connected to the microcomputer 4 via the first interface 3 while being connected to each other, and the microcomputer 4 is connected to the display section 5. Connected. The frequency generator 14 is also connected to the microcomputer 4 via a second interface composed of a General Purpose Interface Bus (GP-IB) card.

On the other hand, the tuner driver 1 is connected to the microcomputer 4 via the signal converter 2. However, the power supply device 15 is shown so as to drive only the tuners 13... 13n and the operation power supply lines of the remaining blocks will be omitted.

Referring to the operation of the present invention configured as described above are as follows.

The tuner driver 1 generates a tuning voltage (hereinafter referred to as VT) of the tuners 13 ... 13n and supplies it to the second multiplexer 7.

In addition, the frequency generated by the frequency generator 14 (hereinafter referred to as ANT) is applied to the fifth multiplexer 10 and the B + voltage of the power supply device 15 is applied to the sixth multiplexer 11, respectively. The frequency and level of the unit 14 are controlled by a second interface operated by the microcomputer 4. At this time, when the first control signal of the microcomputer 4 is applied to the first to sixth multiplexers 6 to 11 via the first interface 3, the broadcast signal detection voltages SD ₁ and OUT ₁ (of the first tuner) are applied. The output terminal of the tuner) and the VT ₁ terminal are connected to the tuner driver 1 via the second to fourth multiplexers 7 to 9 and are the antenna terminal ANT ₁ and the power supply terminal of the first tuner 13 ₁ . The B + terminal is connected to the frequency generator 14 and the power supply 15 via the fifth multiplexer 10 and the sixth multiplexer 11, respectively, so that the first tuner 13 operates.

When the first tuner 13 ₁ is selected and operated, the output of the tuner 13 ₁ is amplified by the tuner driver 1 (not shown, but the tuner driver 1 includes an amplifier and a signal selector). ) and from the signal selection section select the OUT ₁ terminal of the OUT _1, SD ₁ and VT ₁ sends a signal converting portion 2 converts a digital signal to the signal conversion unit 2 then applied to the microcomputer 4. The digital signal applied to the microcomputer 4 compares with a preset value and indicates a failure in the display unit 5 if it is not correct.

Further, when the second control signal is output from the microcomputer 4, the VT ₁ terminal of the first tuner 13 ₁ is connected to the tuner driver 1 via the second multiplexer 7, and the signal conversion is performed. In section 2, the frequency change resulting from the application of the tuning voltage is converted into a digital signal and displayed on the display section 5 via the microcomputer 4 to determine whether there is a failure.

When the third control signal is output from the microcomputer 4, the SD ₁ terminal of the selected first tuner 13 ₁ is connected to the SD terminal of the tuner driver 1 via the third multiplexer 8 to enable broadcast. The voltage change according to the supply of the signal voltage is converted into a digital signal by the signal conversion unit 2 and displayed on the display unit 5. However, the signal conversion unit 2 is separated into three, for example, is linked to the control signal of the microcomputer.

After the above operation, the microcomputer selects the second and third tuners in order, and continues the above operation to automatically check the tuner.

3 is a flow chart for explaining the operation of FIG. 1, in which the inspection items and ranges of the FM tuner are set in step 101 from the start signal, and the process proceeds to step 102, where the first to be inspected in step 102 is shown. Select tuner and then proceed to step 103.

In step 103, the first item is inspected and the process proceeds to step 104. If "no", the process proceeds to step 106, and if yes, the process proceeds to step 105. In step 105, the fault item is displayed on the display unit 9, and the process proceeds to step 106.

In step 106, if the checked item is "yes", the process proceeds to step 107, in which the next tuner is selected in this step 107, and then returns to step 103, and "no". The process proceeds to step 108 where it checks the next item in this step and returns to step 104 to repeat the above operation.

As described above, according to the present invention, a large amount of tuners can be automatically inspected by a microcomputer, thereby reducing inspection time and inspection personnel, and since the jig is not required for each model, the jig manufacturing cost is reduced.

Claims (4)

A tuner inspection device that operates by applying a frequency and power to a tuner through a jig, and measures its output with an oscilloscope or level meta, and checks whether there is a malfunction. OSC terminal, VT terminal, SD terminal, output terminal, antenna A first to sixth multiplexers 6 to 11 connected to a plurality of tuners 13 to 13n each having a terminal and a power supply terminal B + to select one of these tuners, and the first to fourth A tuner driver 1 which is connected from the multiplexers 6 to 9 but supplies a tuning voltage to the selected tuner 13 and receives an SD voltage and an output voltage generated from the tuner, and the first and sixth multiplexers 10 and 11. A first interface 3 connected between the control terminal of the control panel and the microcomputer 4 to supply a control signal of the microcomputer 4 to the first to sixth multiplexers 6 to 11, and the fifth and Sixth Multiplexer (10 And a frequency generator 14 and a power supply 15 for supplying a frequency and a power voltage to the tuner, respectively, connected between the frequency generator 14 and the microcomputer 4, respectively. A second interface 19 for allowing a level to be determined, and between the tuner driver 1 and the microcomputer 4, from the multiplexers 1 to 4 in accordance with the control signal of the microcomputer 4; And a display unit (5) connected to the microcomputer (4) for displaying an input signal and converting the input signal into a digital signal. In the automatic tuner inspection method, setting an inspection item to be measured from a start signal and a range thereof, and then selecting a first tuner, inspecting a first tuner selected from the selection step and checking whether there is a failure Determining, and displaying the failure item on the display according to the determination of the failure, determining whether the item to be inspected is the last item to be checked, selecting the next tuner, and then examining the first item and returning to determining the failure. Tuner automatic inspection method, characterized in that consisting of. The method of claim 2, wherein in the step of determining whether the selected first tuner has a failure, it is determined whether or not the last inspection item exists if there is no failure. The method of claim 2, wherein in the determining of whether the last inspection item is applied, if the last inspection item is not the last inspection item, the next item is examined and the process returns to the step of determining whether the failure is a failure. .

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