KR19990037916U - Jig for tuner measurement - Google Patents

Abstract

The present invention relates to a jig for measuring a tuner, which is installed at least on the rear side of the plate and is connected to the terminal pin of the tuner so that signal exchange can be performed to supply measurement information to an external measuring device. In the tuner measuring jig comprising a plurality of measuring pins elastically mounted by an extrusion spring in the plurality, the plurality of measuring pins are built-in and at the same time a plurality of through-holes corresponding to the number of the terminal pins are formed Since the pin cover is fixedly installed on the front of the block, that is, the pin cover is formed with a plurality of through-holes corresponding to the number of the terminal pins at the same time as embedding a plurality of measuring pins in contact with the terminal pins of the tuner. By installing the not only to prevent the accumulation of foreign matter such as dust on the measuring pin, but also to It is possible to overcome the bending phenomenon that can occur when the terminal pin of the tuner is in contact, and has an excellent effect of maximizing the measurement efficiency of the tuner.

Description

Jig for tuner measurement

The present invention relates to a jig for measuring a tuner, and more particularly, to install a plurality of measuring pins in contact with the tuner terminal pins and at the same time to install a pin cover formed with a plurality of through-holes corresponding to the number of the terminal pins. The present invention relates to a tuner measuring jig that can prevent accumulation of foreign substances such as dust on the measuring pin.

In general, the tuner includes a PLL IC with a three-wire transmission system that exchanges signals with a microcomputer in three lines, such as a data line, a clock line, and an enable line. It is separated into a tuner with a PLL IC with an I ² C (I square C) transmission method that exchanges signals with a microcomputer in two lines, a data line and a clock line.

That is, the conventional tuner 100 is divided into a tuner to which a 3-wire transmission system and an I ² C transmission system are applied, depending on whether a short circuit occurs in the A terminal of the PLL IC 10, as shown in FIG. In case of shorting of the A terminal line, the I ² C transmission method using the clock line 11 of the E terminal and the data line 12 of the F terminal is applied. The three-wire transmission method using the clock line 11, the data line 12 of the F terminal, and the enable line 13 of the G terminal is applied.

In this case, the three-wire transmission method is mainly used in one-to-one communication with a microcomputer (not shown), and as shown in FIG. 2, after recognizing a data signal in a frequency section of the enable signal, an arbitrary frequency By generating a feedback to the microcomputer, there is a disadvantage that is usually impossible in the case of controlling several in one microcomputer. In other words, when a plurality of microcomputers control a plurality, the plurality of devices operate, which may cause undesirable behavior.

On the other hand, the I ² C transmission method recognizes a data signal according to a clock signal irrespective of an enable signal as shown in FIG. 3, and addresses multiple devices on the same bus. By using the designation method, it can be seen that various devices can be used as compared to the three-wire transmission method. That is, it is possible to prevent unwanted operation because of address designation method for data transmission, and 100KBIT / S in standard mode and 400KBIT / S in FAST mode with bi-directionality in SERIAL SBIT DATA transmission.

Meanwhile, as shown in FIG. 4, the tuner 100 including the PLL IC 10 to which the I ² C transmission scheme and the three wire transmission scheme are applied includes a chassis in which a circuit board including a plurality of circuit components is mounted. 110, a plurality of terminal pins 120 connected to the circuit board and protruding to the outside of the chassis 110, and a connection jack 130 connected to a coaxial cable for supplying an external high frequency signal.

Tuner 100 composed of the above configuration should be measured for each band and I ² C transmission, 3 wire transmission after the final component assembly is completed by the automated process, jig for this measurement is shown in Figure 5 As shown.

5 is a perspective view showing a tuner measurement jig according to the prior art.

Tuner measurement jig 200 according to the prior art, as shown in Figure 5, a plate 210 formed in a substantially channel shape, and attached to one side on the plate 210, the chassis of the tuner 100 (110) a guide member 220 for guiding the side surface, a high frequency supply terminal 230 installed at the other side on the plate 210 to supply a high frequency signal to the connection jack 130 of the tuner 100, A plurality of test pins moving up and down from the lower surface of the plate 210 and directly connected to the circuit board of the tuner 100 to check I ² C and 3 wire transmission states of each band and the PLL IC 10. 240 and a plurality of measurement pins 250 installed at the rear side of the plate 210 and connected to the terminal pins 120 of the tuner 100 to perform signal exchange to supply measurement information to an external measurement device. ) Is provided on the pin block 280, and the pin block 280 And group tuner band Status VHF and band selection switch 260 to switch select the UHF measurement band to check (100), wherein the pin is provided on the block 250 and the I ² C of the tuner 100 It consists of a data transmission selection switch 270 for switching selection to check each of the three wire transmission status.

Here, the plurality of measuring pins 250 are attached to the extrusion spring 282 mounted in the plurality of fitting holes 281 drilled in the substantially rectangular pin block 280 attached to the rear side of the plate 210. It is fixed to the structure that is elastically moved.

The operation of the tuner measurement jig 200 having the above configuration will be described with reference to FIG. 6 as follows.

6 is a use state diagram illustrating a general tuner measurement jig.

First, the tuner 100 is placed on the plate 210 such that the plurality of terminal pins 120 connected to the circuit board of the tuner 100 face the plurality of measurement pins 250 installed at the rear side of the plate 210. Press it and push it in at the same time.

At this time, the terminal pin 120 of the tuner 100 is a plurality of measurements that are elastically moved by the extrusion spring 282 mounted in the fitting hole 281 of the pin block 280 attached to the rear side on the plate 210 It is connected to the pin 250 and is electrically connected to an external measuring device.

Meanwhile, the rectangular guide member 220 attached to one side of the plate 210 slides the side surface of the tuner 100 and the chassis 110 so that the measuring pin 250 and the terminal pin 120 are moved. It performs the function of being able to interconnect to the correct location.

Thereafter, an external high frequency signal is applied to the high frequency supply terminal 230 to supply a high frequency signal to the circuit board through the connection jack 130 of the tuner 100.

At this time, the plurality of test pins 240 located on the lower surface of the circuit board is moved upward by the not shown operation means to be in exact contact with the testing point of the lower surface of the circuit board.

When the VHF band and the UHF band of the tuner 100 are to be selected and measured, the band selection switch 260 may be operated to correspond to the respective bands, and the tuner 100 transmits I ² C. If the PLL IC 10 of the type is provided or the PLL IC 10 of the 3 wire transfer type is provided, the data transfer selection switch 270 may be operated in response to the measurement.

In addition, the measurement information of the tuner 100 measured by the tuner measuring jig 200 is data-displayed on the monitor of an external measuring device through a plurality of test pins 240 and measuring pins 250 to be displayed. With the naked eye, the defects and the current state can be accurately understood.

However, the above-described tuner measuring jig 200 has a plurality of terminal pins 120 connected to the circuit board of the tuner 100 connected to a plurality of measuring pins 250 provided at the rear side of the plate 210. When pressing the chassis 110 of the tuner 100 to be able to be, the plurality of terminal pins 120 are rather bent or broken by the extrusion force of the extrusion spring 282 to elastically move the measuring pin 250 There was a huge disadvantage of causing a bad tuner 100.

In addition, since the measuring pin 250 is installed in the state exposed by the extrusion spring 282 to the outside of the pin block 280, foreign matter such as external dust is mounted to cause a bad measurement of the tuner 100. There was a downside made.

Therefore, the tuner measuring jig according to the present invention was devised to solve the above problems, and its purpose is to prevent the accumulation of foreign substances such as dust on the measuring pins in contact with the terminal pins of the tuner. At the same time, to provide a tuner measuring jig that can overcome the bending phenomenon that may occur when the terminal pin of the tuner in contact with the measuring pin.

1 is an explanatory diagram showing a PLL IC according to a three-wire transmission system and an I ² C transmission system applied to a general tuner.

2 is a diagram for explaining a three-wire transmission method applied to a general tuner.

3 is a diagram for explaining an I ² C transmission scheme applied to a general tuner.

4 is a perspective view showing a general tuner.

5 is a perspective view showing a tuner measurement jig according to the prior art.

Fig. 6 is a use state diagram showing a tuner measurement jig according to the prior art.

Figure 7 is a perspective view including a tuner showing a jig for tuner measurement according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: PLL IC 11: Clock Line

12: data line 13: enable line

100: tuner 110: chassis

120: terminal pin 130: connection jack

200: Tuner measurement jig 210: Plate

220: guide member 230: high frequency supply terminal

240: test pin 250: measuring pin

260: band selection switch 270: data transmission selection switch

280: pin block 281: fitting hole

282: extrusion spring 290: pin cover

291 through hole

The present invention for achieving the above object is installed at least on the rear side of the plate is connected to the terminal pin of the tuner and the signal exchange to make the measurement information supplied to the external measuring device in the insertion hole drilled inside the pin block In the tuner measuring jig comprising a plurality of measuring pins elastically mounted by an extrusion spring, the pin block is formed by forming a plurality of through holes corresponding to the number of the terminal pins at the same time as the plurality of measuring pins built-in It consists of a pin cover fixedly installed on the front of the technical features of the basic configuration.

Hereinafter, a preferred embodiment of the tuner measuring jig according to the present invention will be described with reference to FIG. 7.

Figure 7 is a perspective view showing a tuner measuring jig according to the present invention, and the same name and the same reference numerals are used for the same configuration having the same function as the conventional configuration, the detailed description thereof in order to avoid the complexity of the description It will be omitted.

Tuner measurement jig 200 according to the present invention is a plate 210, formed in a substantially channel shape, as shown in Figure 7, the rear of the plate 210 is installed on the terminal of the tuner 100 It is composed of a pin block 280 having a plurality of measuring pins 250 to be connected to the pins 120 to supply the measurement information to the external measuring device by the signal exchange.

In this case, the plurality of measuring pins 250 are attached to the extrusion spring 282 mounted in the plurality of fitting holes 281 drilled inside the substantially rectangular pin block 280 attached to the rear side of the plate 210. It is fixed in a structure that is elastically moved by a plurality of through-holes 291 is formed on the front of the pin block 280 and at the same time the number of measuring pins 250 and the number of the terminal pins 120 Pin cover 290 is fixedly installed.

Here, the pin cover 290 accumulates foreign matters such as dust that may be generated when the measuring pin 250 is installed in the state exposed by the extrusion spring 282 to the outside of the pin block 280. At the same time it can be seen that the action to prevent the bending phenomenon that may occur when the terminal pin 120 of the tuner 100 in contact with the measuring pin 250 at the same time.

As described above, according to the tuner measuring jig according to the present invention, a plurality of through-holes corresponding to the number of the terminal pins are formed at the same time as a plurality of measuring pins are built in contact with the terminal pins of the tuner. By doing so, it is possible not only to prevent accumulation of foreign substances such as dust on the measuring pin, but also to overcome the bending phenomenon that may occur when the terminal pin of the tuner contacts the measuring pin, thereby maximizing the measuring efficiency of the tuner. That has an excellent effect.

Claims (1)

A plurality of measurements elastically mounted by an extrusion spring installed at the rear side of the plate to be connected to the terminal pins of the tuner and performing signal exchange to supply measurement information to an external measuring device. In the tuner measurement jig made of a pin, A tuner measuring jig, comprising a pin cover fixed to the front of the pin block is formed by forming a plurality of through holes matching the number of the terminal pins at the same time as the built-in plurality of measuring pins.