KR101374205B1 - Check machine for subassy' range track - Google Patents

Abstract

An inspection device (100) for a distance tracking receiver module according to the present invention includes: a power supply (110) which receives commercial AC power, adjusts the power into transformed DC power, and supplies the adjusted power to a distance tracking receiver module and the inspection device for the distance tracking receiver module; a pulse generator (120) which generates an input pulse; a signal supplier (130) which receives the input pulse from the pulse generator, converts the frequency, and outputs the result; an output terminal (140) which is connected to the signal supplier and outputs one among the input pulse and the DC power supplied from the power supply; a switch (160) which is placed between the output terminal and the signal supplier and connects one among the input pulse and the DC power to the output terminal; an input terminal (170) which is connected to the output terminal of the distance tracking receiver module and receives one among the output pulse and the DC power; and a test point (190) which is a terminal connected to the input terminal and a measurement device. Since the test point is connected to the measurement device after the distance tracking receiver module is connected, it is possible to check errors fast and conveniently even if a user is not a professional mechanic.

Description

CHECK MACHINE FOR SUBASSY 'RANGE TRACK}

The present invention relates to a checker for a distance tracking receiver module, and more particularly, to a checker for a distance tracking receiver module that can easily and quickly check the distance tracking receiver module used in the radar, and to determine whether there is a failure and an error point. will be.

The distance tracking receiver module 1 shown in FIG. 1 is a device that extracts the distance to a tracked target mounted on the radar of the Korean Air Force, and is composed of 24 1.5Mhz low frequency filters corresponding to a distance of 6.25 feet. It combines the output of the filter with a 6-bit word and sends it to a computer to calculate the target distance.

The distance tracking receiver module 1 is configured by exposing the input / output terminal 15 and the connector 13 to the outside, and is configured to input and output a signal. And it is accommodated in the housing 10, and is comprised.

When the distance tracking receiver module (1) error occurs and the data cannot be calculated properly, there is no hassle to maintain in domestic manufacturers because there is no maintenance personnel to maintain.

Therefore, it takes a lot of maintenance time, there was a problem that foreign currency is wasted.

In the present invention, even if it is not a professional maintenance personnel can check the distance tracking receiver module easily and quickly to check whether there is an error, and if there is an error, because it provides a checker for the distance tracking receiver module that can accurately determine the point of error, distance to overseas manufacturers It is an object of the present invention to provide a checker for a distance tracking receiver module that can solve the trouble of sending and maintaining the tracking receiver module.

The checker for a distance tracking receiver module according to the present invention is a checker for a distance tracking receiver module and a distance tracking receiver module which is supplied with a commercial AC power and adjusted to a transformed DC power supply. An output for outputting one of a pulse generator to generate, a signal supply source for receiving an input pulse from the pulse generator, converting a frequency, and outputting the frequency generator, and a DC power source connected to the signal supply source and supplied from the power supply and the power supply; A switch interposed between the terminal, the output terminal, and the signal supply source to select one of the input pulse and the DC power supply and connected to the output terminal; an output pulse connected to an output terminal of the distance tracking receiver module; An input terminal receiving one of a DC power supply and the input terminal Is connected to the terminal is configured to include a test point coupled to the measuring device.

The checker for the distance tracking receiver module according to the present invention has the effect that even if the operator does not have expertise in the distance tracking receiver module, the present invention can easily and quickly determine whether there is an error. Therefore, it is possible to solve the time loss and foreign currency waste caused by the maintenance of a professional mechanic to send to foreign manufacturers.

In the present invention, since a plurality of input terminals and output terminals are configured to correspond to a plurality of input terminals and output terminals configured in the distance tracking receiver module, and a plurality of test points corresponding to the output terminals are configured, an error is confirmed. Test points can be recognized. Therefore, since the output terminal of the module is checked upon receiving the distance tracking associated with the test point where the error occurred, there is an effect of accurately identifying the error point.

1 is a perspective view of a distance tracking receiver mounted to a radar;
2 is a circuit diagram showing a checker for a distance tracking receiver module according to the technique of the present invention.
3 is a block diagram schematically illustrating FIG.
Figure 4 is a graph showing the input waveform input to the distance tracking receiver module through the checker for the distance tracking receiver module according to the technique of the present invention.
5 and 6 are graphs illustrating output waveforms output when the input waveforms shown in FIG. 4 are input to a distance tracking receiver module.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

2 is a circuit diagram showing a checker for a distance tracking receiver module according to the technique of the present invention, FIG. 3 is a block diagram schematically showing FIG. 2, and FIG. 4 is a checker for a distance tracking receiver module according to the technique of the present invention. 5 and 6 are graphs illustrating output waveforms output when the input waveform shown in FIG. 4 is input to the distance tracking receiver module.

The distance tracking receiver module 10 is a device mounted on the radar of the Korean Air Force and extracts a distance to a tracked target. The distance tracking receiver module 10 is composed of 24 1.5Mhz low frequency filters corresponding to a distance of 6.25 feet. It is configured to combine the output into 6-bit words and send it to a computer to calculate the target distance.

The distance tracking receiver module 10 includes a connector 15 that receives DC power, an input terminal 11 that receives a signal, and an output terminal 13 that outputs a signal.

The present application is connected to the connector 15, the input terminal 11 and the output terminal 13, and after supplying the input waveform and the DC power of the frequency, and outputs the output waveform of the frequency and the voltage and current of the DC power It is characterized in that it is configured to check whether the error and the error point.

To this end, the present invention is configured as follows.

A power supply 110 for supplying DC power is configured as a distance tracking receiver module 10 and a checker 100 for a distance tracking receiver module according to the present invention by adjusting a DC power supply by receiving commercial AC power. do.

The power supply 110 is provided with a plurality of power supply 110 to be converted into a plurality of DC power supply by receiving AC power, each power supply 110 is provided with a switch 113 is configured to be on and off.

In the present invention, a connector 180 connected to the power supply 110 and connected to the connector 15 of the distance tracking receiver module 10 is configured.

In addition, a pulse generator 120 for generating an input pulse is configured, and a signal supply source 130 for receiving an input pulse from the pulse generator 120 to convert a frequency and output the input pulse. The signal supply source 130 includes a pulse input terminal 150 connected to the pulse generator 120 to input an input pulse.

The signal supply source 130 is a purchased product configured to select one of a plurality of frequencies by the selection of the switch 135, and it will be omitted by those skilled in the art.

In addition, an output terminal 140 connected to the signal supply source 130 to output one of the input pulse and the DC power supplied from the power supply 110 is configured. In addition, a switch 160 interposed between the output terminal 140 and the signal supply source 130 selects one of the input pulse and the DC power supply and connects it to the output terminal 140.

In addition, the input terminal 170 is connected to the output terminal 13 of the distance tracking receiver module 10 and receives one of an output pulse and a DC power. The test point 190 is connected to the input terminal 170 and is a terminal connected to a measurement device such as an oscilloscope O, a voltmeter V, an ammeter M, or the like.

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

First, the connector 180 of the present invention is connected to the connector 15 of the distance tracking receiver module 10 by a jump line. The input terminal 170 and the output terminal 140 are connected to the input terminal 11 and the output terminal 13 of the distance tracking receiver module 10 by using jump lines.

Then, the switch 113 is turned on so that power is supplied from the power supply 110.

Then, the switch 160 is operated to select one of the frequency waveform and the DC power. In this case, when the frequency waveform is selected, the input waveform is output to the output terminal 140, and when the DC power is selected, the DC power is output.

For example, if you want to check the output waveform for the input waveform, operate the switch 160 to output the input waveform to the output terminal 140. In this case, the input waveform generated by the pulse generator 120 is transformed into a desired frequency through the signal supply source 130. That is, by operating the switch 135 of the signal source 130 it can make an input waveform of the desired frequency.

In this way, the input waveform output to the output terminal 140 is input through the input terminal 11 of the distance tracking receiver module 10, after passing through the circuit, and is output through the output terminal 13 . The output waveform thus output is supplied to the input terminal 170 of the present invention, it is possible to output through the test point 190.

Therefore, since the oscilloscope O is connected to the test point 190, the output waveform can be known.

For example, when an input waveform as shown in FIG. 4 is input, it can be recognized that there is no error if an output waveform is output as shown in FIGS. 5 and 6. If the output waveform is not of the specified shape, it is determined that there is an error.

In addition, when the switch 160 selects the DC power, after the power of the power supply 110 is applied to the input terminal 11 of the distance tracking receiver module 10 through the output terminal 140. After being output to the output terminal 13, and then input to the input terminal 170 of the present invention, it is output through the test point 190.

Therefore, since the voltmeter (V) or the ammeter (M) is connected to the test point 190, the voltage or current is checked to determine whether there is an error.

According to the present invention, even if the operator does not have the expertise in the distance tracking receiver module 10 there is an advantage that can easily and quickly determine whether the error using the present invention.

In the present invention, a plurality of input terminals 170 and output terminals 140 are configured to correspond to a plurality of input terminals 11 and output terminals 13 configured in the distance tracking receiver module 10, and the output terminal ( Since a plurality of test points 190 respectively corresponding to 140 are configured, the test point 190 identified as an error may be recognized. Therefore, since the output terminal of the module is checked upon receiving the distance tracking associated with the test point 190 in which the error occurs, there is an advantage in that the error point can be accurately identified.

100: checker for distance tracking receiver module 110: power supply
113: switch 120: pulse generator
130: signal source 135: switch
140: output terminal 150: pulse input terminal
160: switch 170: input terminal
180: connector 190: test point

Claims (1)

A power supply 110 for supplying power to the range tracking receiver module and the checker 100 for the range tracking receiver module by adjusting the transformed DC power by receiving commercial AC power;
A pulse generator 120 for generating an input pulse,
A signal supply source 130 which receives an input pulse from the pulse generator 120 and converts and outputs a frequency;
An output terminal 140 connected to the signal supply source 130 to output one of the input pulse and the DC power supplied from the power supply;
A switch 160 interposed between the output terminal 140 and the signal supply source 130 to select one of the input pulse and the DC power source and to connect the output terminal 140 to the output terminal 140;
An input terminal 170 connected to an output terminal of the distance tracking receiver module and receiving one of an output pulse and a DC power;
And a test point (190) which is a terminal connected to the input terminal (170) and connected to a measuring device.

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