KR101620754B1 - Tacan interface apparatus, and method for interfacing tacan - Google Patents

Abstract

The present invention relates to a tactical air navigation (TACAN) interface apparatus. According to the present invention, provided is a TACAN interface apparatus comprising: an antenna signal reception unit which acquires a received trigger signal from an antenna of a first TACAN system; a signal conversion unit which converts the received trigger signal into a modified trigger signal in a preset form; and a beacon signal transmission unit which transmits the modified trigger signal to a beacon of a second TACAN system that uses a trigger signal in a form different from that of the trigger signal that is used by the first TACAN system. According to the present invention, when a TACAN beacon fails, it is possible to operate a TACAN system while reducing power consumption during repair work.

Description

≪ Desc / Clms Page number 1 > TACAN INTERFACE APPARATUS, AND METHOD FOR INTERFACING TACAN &

The present invention relates to a takan interface apparatus and method.

TACAN (TACtical Air Navigation) is a tactical navigation system that provides azimuthal (0 ° ~ 360 °) information and distance information to an aircraft in all directions.

In addition, Takan is a navigation system for finding the relative bearing and distance between an aircraft and a ground station, and developed for military aircraft and short-range navigation support.

In addition, the takan has a simple mechanism, high degree of accuracy, and can continuously observe the azimuth and distance of the ground station.

The takan has a fixed takan for installation and operation at a fixed position on the ground, and a takan for a ship mounted on a naval vessel.

The takan is installed and operated in the form of a movable takan which is mounted on a vehicle and designed to be easily moved.

In the case of fixed type Takan, it is composed of Takan beacon and antenna group.

During the repair of a fixed-type Takan beacon during a failure, there may be a problem with the safety of the aircraft operation because the aircraft does not receive bearing and distance information.

For example, in the case of Takan, which provides defense and distance information to military aircraft, if a military aircraft is unable to capture information properly or a radio signal is interrupted, It can lead to serious accidents.

In addition, a large problem such as departure of a route of an aircraft may occur.

Therefore, we propose a technology that can provide the operation of Takan even if the fixed takan beacon breakdown occurs.

The present invention aims at solving all of the above problems.

It is another object of the present invention to provide the operation of the takan while repairing the failure of the fixed takan beacon.

Another object of the present invention is to save energy by operating a takane even in an emergency in the event of a power problem.

In order to accomplish the objects of the present invention as described above and achieve the characteristic effects of the present invention described below, the characteristic structure of the present invention is as follows.

According to an embodiment of the present invention, in the takan interface apparatus, the takan interface apparatus includes an antenna signal receiver for acquiring a receive trigger signal from an antenna of the first takan, a signal converter for converting a receive trigger signal into a deformed trigger signal of a predetermined type, And a beacon signal transmitter for transmitting the deformed trigger signal to a beacon of a second talker using a trigger signal different from the trigger signal used by the first talker.

In another aspect of the present invention, the antenna signal receiving unit obtains the reception trigger signal from an antenna of a fixed antenna, and the signal conversion unit converts the reception trigger signal into a deformable trigger signal in the form of a trigger signal of a mobile type And the beacon signal transmitting unit may transmit the deformed trigger signal to the mobile beacon beacon.

In another aspect, the signal conversion unit may include converting the reception trigger signal of a plurality of bipolar types into the deformable trigger signal of a plurality of unipolar types.

In another embodiment, the reception trigger signal and the modification trigger signal may include at least one of signals having frequencies of 15 Hz, 135 Hz, and 1350 Hz.

In another embodiment, in the takan interface device, the input connector and the output connector may be connected to a meter for determining whether the input / output connector is normal.

According to another embodiment of the present invention, the logic integrated circuit unit measures the period of the deformed trigger signal by measuring a high signal period of the deformed trigger signal and a counter value of the low signal period using an oscillator .

According to yet another embodiment, in the takan interface device, when the logic integrated circuit part detects the transformed trigger signal and the transformed trigger signal is not detected or the timing of the transformed trigger signal is not correct, Lt; RTI ID = 0.0 > a < / RTI >

According to an embodiment of the present invention, in the takan interface apparatus, the takan interface apparatus includes an antenna signal receiving unit for acquiring a receive trigger signal from the antenna of the mobile type takan, a signal converting unit for converting the receive trigger signal into a fixed takan's deformed trigger signal, And a beacon signal transmitter for transmitting the deformed trigger signal to the beacon of the fixed type takan.

According to another embodiment of the present invention, there is provided a touch panel interface device, wherein the touch panel interface device comprises: a logic integrated circuit part for monitoring an output of the deformable trigger signal; a display part for operating the monitored output when an error occurs; And an output connector for confirming whether or not the transformed trigger signal is normally transformed.

According to an embodiment of the present invention, there is provided a method of interfacing to an antenna, comprising: acquiring a reception trigger signal from an antenna of a first antenna; The signal converting unit converts the reception trigger signal into a predetermined type of deformable trigger signal, and the beacon signal transmitting unit converts the beacon signal into a beacon of a second talker using a trigger signal different from the trigger signal used by the first talker And transmitting the deformable trigger signal.

According to another embodiment, there is provided a method of interface with a takan, comprising the steps of: the logic integrated circuit portion monitoring the output of the deformed trigger signal; The display unit being operated when an error of the monitored output occurs; A step for confirming whether the input connector normally inputs the reception trigger signal; And an output connector for confirming whether or not the transformed trigger signal is normally transformed.

In another aspect of the present invention, there is provided a method of interfacing to a Tacna interface, wherein the antenna signal receiver obtains the reception trigger signal from an antenna of a fixed antenna, and the signal conversion unit converts the reception trigger signal into a deformable trigger signal in the form of a trigger signal And the beacon signal transmitting unit may transmit the deformed trigger signal to the mobile beacon beacon.

According to yet another embodiment, in the method of interfacing with a takan, the signal conversion unit may include converting the reception trigger signal of a plurality of bipolar types into the deformable trigger signal of a plurality of unipolar types.

In another aspect of the present invention, the reception trigger signal and the modification trigger signal may include at least one of signals having frequencies of 15 Hz, 135 Hz, and 1350 Hz.

According to another embodiment, in the takan interface method, the input connector and the output connector may be connected to a meter for determining whether the input / output connector is normal.

According to another embodiment of the present invention, the logic integrated circuit part measures the period of the deformed trigger signal by measuring a high signal section of the deformed trigger signal and a counter value of the low signal section using an oscillator .

According to still another aspect of the present invention, there is provided a method of interfacing a touch panel, wherein the logic integrated circuit part detects the transformed trigger signal, and when the transformed trigger signal is not detected or the timing of the transformed trigger signal is not correct, Lt; RTI ID = 0.0 > a < / RTI >

According to an embodiment of the present invention, there is provided a method of interfacing to an antenna of a mobile communication terminal, comprising the steps of: acquiring a reception trigger signal from an antenna of a mobile antenna; The signal conversion unit may convert the reception trigger signal into a fixed type of the deformed trigger signal, and the beacon signal transmitting unit may transmit the deformed trigger signal to the fixed type of beacon.

According to another embodiment of the present invention, in the method of interfacing to a tagan, the method of interfacing a tagan interface includes the steps of: the logic integrated circuit portion monitoring an output of the transformed trigger signal; The display unit being operated when an error of the monitored output occurs; A step for confirming whether the input connector normally inputs the reception trigger signal; And an output connector for confirming whether or not the transformed trigger signal is normally transformed.

The present invention has an effect that it is possible to provide operation of a takan even during a recovery when a fault occurs in the fixed takan beacon.

The present invention has the effect of saving energy by operating the takan even with less power than the fixed takan even in an emergency where there is a power problem.

FIG. 1 is a conceptual diagram illustrating an operation of a takan interface apparatus according to an embodiment of the present invention.
2 is a block diagram illustrating a takan interface device according to an embodiment.
FIG. 3 shows a takan interface apparatus according to an embodiment.
4A illustrates a detailed configuration of a takan interface apparatus according to an embodiment.
4B illustrates a power configuration of the takan interface apparatus according to an embodiment.
FIG. 5 illustrates a configuration of a takan interface apparatus according to an embodiment.
FIG. 6 illustrates a configuration of a fixed type takan connected to a takan interface apparatus according to an embodiment.
FIG. 7 illustrates a configuration of a movable type Takan connected to the takan interface apparatus according to an embodiment.
FIG. 8 is a flowchart illustrating a method of interface with a takan, according to an embodiment.
FIG. 9A illustrates a bipolar waveform in the form of a receive trigger signal according to one embodiment.
FIG. 9B shows a unipolar waveform in the form of a deformed trigger signal according to an embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram illustrating an operation of a takan interface apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the overall system may include a takan interface device 200, a fixed takan antenna 120, and a movable takan beacon 130.

Of course, in some cases, the entire system may further include a fixed takan beacon 110, a movable takan antenna 140, and the like.

According to one embodiment, the takan interface apparatus 200 can acquire a receive trigger signal from the fixed takan antenna 120 which is the antenna of the first takan.

Further, the takan interface device 200 can convert the obtained reception trigger signal into a predetermined type of deformation trigger signal.

Of course, the deformable trigger signal can be transmitted to the movable takan beacon 130, which is the beacon of the second takan using the trigger signal used by the first takan and another type of trigger signal.

The fixed takan antenna 120 may be connected to the fixed takan beacon 110 and the movable takan beacon 130 may be connected to the movable takan antenna 140. [

2 is a block diagram illustrating a takan interface device according to an embodiment.

Referring to FIG. 2, the TACAN interface apparatus 200 includes an antenna signal receiving unit 210, a signal converting unit 220, and a beacon signal transmitting unit 230.

Of course, in some cases, the overall system may further include a logic integrated circuit portion 240, a display portion 250 (not shown), an input connector 260 (not shown), and an output connector 270 (not shown).

Also, in some cases, the overall system may further include a buffer group 280 (not shown), a reset switch 290

The antenna signal receiving unit 210 can acquire a reception trigger signal from the antenna of the first antenna.

At this time, the first takans may be mainly fixed takans, but the present invention is not limited thereto.

The signal converting unit 220 can convert the reception trigger signal into a predetermined type of deformation trigger signal.

Specifically, for example, the signal conversion unit 220 can convert a plurality of bipolar reception trigger signals into a plurality of unipolar transformation trigger signals.

Further, the reception trigger signal and the deformation trigger signal may be at least one of signals having frequencies of 15 Hz, 135 Hz, and 1350 Hz.

Of course, a signal having a frequency of 15 Hz may be a North Trigger signal, and a signal having a frequency of 135 Hz may be an Auxiliary Trigger signal. In addition, a signal having a frequency of 1350 Hz may be a tone trigger signal.

The beacon signal transmitting unit 230 can transmit the deformed trigger signal to the beacon of the second talker using a trigger signal different from the trigger signal used by the first talker.

At this time, the second takan may be mainly a mobile takan, but the present invention is not limited thereto.

According to one embodiment, the antenna signal receiving unit 210 can acquire the reception trigger signal from the antenna of the fixed antenna. In addition, the signal conversion unit 220 may convert the reception trigger signal into a deformable trigger signal in the form of a trigger signal of a mobile type. Also, the beacon signal transmitting unit 230 may transmit the deformable trigger signal to the beacon of the movable type.

The logic integrated circuit portion 240 can monitor the output of the deformation trigger signal.

Specifically, the logic integrated circuit unit 240 can monitor the period of the deformed trigger signal by measuring the high signal period of the deformed trigger signal and the counter value of the low signal period using the oscillator.

The display unit 250 can operate when an error of the monitored output occurs.

Specifically, when the logic integrated circuit portion 240 senses the deformation trigger signal, and the deformation trigger signal is not detected or the timing of the deformation trigger signal is not correct, the color of at least a part of the display portion 250 may be changed .

The input connector 260 may be included in the takan interface device 200 to confirm whether or not the reception trigger signal is normally input.

The output connector 270 may be included in the takan interface device 200 in order to confirm whether or not the transformed trigger signal is normally converted.

At this time, the input connector 260 and the output connector 270 may be connected to a meter to determine whether the input connector 260 and the output connector 270 are normal.

According to another embodiment, the antenna signal receiving unit 210 of the takan interface apparatus 200 can acquire a receive trigger signal from the antenna of the mobile type takan.

In addition, the signal converting unit 220 may convert the reception trigger signal into a fixed type of the deformed trigger signal.

Also, the beacon signal transmitting unit 230 can transmit the deformed trigger signal to the beacon of the fixed type.

Further, the logic integrated circuit section 240 can monitor the output of the deformation trigger signal.

Also, the display unit 250 may operate when an error of the monitored output occurs.

Also, the input connector 260 may be further included to confirm whether or not the reception trigger signal is normally input.

Further, the output connector 270 may be further included to confirm whether or not the transformed trigger signal is normally transformed.

FIG. 3 shows a takan interface apparatus according to an embodiment.

Referring to FIG. 3, the Takan antenna group 121 may include a Takan antenna 120 and a modulation generator 123. In addition, it may be constituted by a takan antenna 122 (not shown) to which the takan antenna 120 and the modulation generator 123 are coupled. At this time, the takan may be a fixed type antenna, and the takan antennas 120 and 122 may be a fixed takan antenna.

The takan antenna 120 and the modulation generator 123 may be connected by a modulation drive cable and a monitor cable.

The talker interface apparatus 200 can receive the reception trigger signal 310 from the modulation generator 123. [ Of course, the takan interface apparatus 200 may receive the receive trigger signal 310 from the takan antenna 122. [

The receive trigger signal 310 may be a North Trigger 311, an Auxiliary Trigger 312, or a Tone Trigger 313.

The takan interface device 200 may convert the receive trigger signal 310 into another form of the deformed trigger signal 320.

At this time, the deformation trigger signal 320 may be a North Trigger 321, an Auxiliary Trigger 322, or a Tone Trigger 323.

Of course, the frequencies may have the same frequency. The reference triggers 311 and 321 may be signals having a frequency of 15 Hz. The auxiliary triggers 312 and 322 may be signals having a frequency of 135 Hz and the tone triggers 313 and 323 may be signals having a frequency of 1350 Hz.

The takan interface device 200 can transmit the deformed trigger signal 320 to the mobile takan beacon 130. [

Of course, the deformable trigger signal may be transmitted to a beacon (not shown) of another takan using a trigger signal different from the trigger signal used by the takan of the takan antennas 120 and 122.

4A illustrates a detailed configuration of a takan interface apparatus according to an embodiment.

The antenna signal receiving unit 210 may be an MGU (Modulation Generator Unit) connector 210. The antenna signal receiving unit 210 may receive a bipolar reference trigger (15 Hz), an assist trigger (135 Hz), and a tone trigger (1350 Hz) signal from the MGU.

The signal converting unit 220 may be an operational amplifier (AMP). The signal converting unit 220 may convert a bipolar signal (15 Hz, 135 Hz, 1350 Hz) received from the MGU into a unipolar trigger signal.

At this time, the input connector 260 may be a bipolar BNC connector. The input connector 260 is a connector for checking whether a bipolar type signal (15 Hz, 135 Hz, 1350 Hz) is normally input from the MGU.

Also, the output connector 270 may be a unipolar BNC connector. The output connector 270 is a connector for checking whether a signal (15 Hz, 135 Hz, 1350 Hz) converted into a unipolar form by the OP amp 220 is converted into a unipolar type signal normally.

For example, the input connector 260 and the output connector 270 may be connected to a meter such as an oscilloscope to verify the waveform. For example, if a 1V value other than the 5V value is found on the instrument, it may be determined to be defective.

The talker interface device 200 may include a buffer group 280. [ Some buffers in the buffer group 280 convert 5V to a 3.3V level in order to monitor the signal converted into the unipolar form by the operational amplifier with the CPLD 240.

The beacon signal transmitting unit 230 may be a trigger output unit. The trigger output device 230 can transmit the deformed trigger signal converted into the unipolar form by using a beacon of the other type using a trigger signal different from the trigger signal received by the MGU connector 210. [

The logic integrated circuit part 240 may be a complex programmable logic device (CPLD). It is possible to monitor whether the reference trigger (15 Hz), auxiliary trigger (135 Hz), and tone trigger (1350 Hz) signals, which are signals converted to unipolar format, are normally output.

The CPLD 240 can monitor the cycle of the deformed trigger signal by measuring the counter value of the high signal period and the low signal period of the deformed trigger signal using a 20 MHz oscillator.

For example, if the number of clocks (CLOCK) is less than 10,000 and the number of clocks is not 5000, the cycle is not correct, so it can be discriminated as abnormal.

The display unit 250 may be an LED. For example, if the CPLD 240 monitors the output of the deformed trigger signal (15 Hz, 135 Hz, 1350 Hz) and the signal is not sensed or timed, the LED may be lit red for each signal.

As a matter of course, the display unit 250 may be constituted by a display of a communication device in the vicinity of the manager so that the manager of the interactive interface device 200 can more readily confirm the change with the naked eye.

Further, it is also possible to separately display the trigger signal in which a failure occurs according to a change in color. For example, if the LED is lit in red, it can be determined that a failure has occurred in the reference trigger (15 Hz) signal. Also, when the LED is lit in blue, it may be determined that a failure has occurred in the auxiliary trigger (135 Hz) signal. Also, when the LED is lit in green, it may be determined that a failure has occurred in the tone trigger (1350 Hz) signal.

The takan interface device 200 may include a reset switch 290. [ The reset switch 290 is a switch that may reset when the counterpart interface device 200 malfunctions.

The takan interface device 200 may also include a power LED 410 that can verify the operational status of the interface equipment. For example, the power LED may be lit green during normal operation.

4B illustrates a power configuration of the takan interface apparatus according to an embodiment.

The takan interface device 200 may include a power management unit and may receive 220VAC (90V to 240V, 50 to 400Hz) and output 421 of + 48VDC (60W) to the MGU. The power management unit may make + 48VDC into + 5VDC and + 3.3VDC and supply it to the interface equipment (422).

For example, using a buffer, the CPLD may shift the 3.3V signal level to monitor the signal.

FIG. 5 illustrates a configuration of a takan interface apparatus according to an embodiment.

Referring to FIG. 5, the tagan interfacing device 200 may convert the trigger signal, and may verify the conversion process using the display unit 250 and the connectors 260 and 270.

The display unit 250 may be an LED. For example, the CPLD 240 may monitor the output of the deformation trigger signal (15 Hz, 135 Hz, 1350 Hz) such that if the signal is not sensed or timed out, the other LED may be lit red for each signal. Also, if the variant trigger signal is normal, each of the other LEDs may be illuminated in green.

For example, the input connector 260 and the output connector 270 may be connected to a meter such as an oscilloscope to verify the waveform. For example, if a 2V value other than the 5V value is confirmed on the display of the instrument, it may be determined to be defective.

FIG. 6 illustrates a configuration of a fixed type takan connected to a takan interface apparatus according to an embodiment.

In the fixed type takan, the fixed type Takan antenna 610 and the MGU 620 may be composed of one fixed takan antenna group, and may include the fixed takan beacon 630.

At this time, when the fixed Tacan beacon 630 fails or an error occurs, the movable Tacan beacon can be operated using the Tacan interface device connected to the fixed Tacan antenna group.

FIG. 7 illustrates a configuration of a movable type Takan connected to the takan interface apparatus according to an embodiment.

The movable takan may include a movable takan antenna 710 and a movable takan beacon 720.

At this time, if the fixed takkan beacon fails or an error occurs, the movable takkan beacon 720 can be operated using the takan interface apparatus connected to the fixed takan antenna group.

FIG. 8 is a flowchart illustrating a method of interface with a takan, according to an embodiment.

Referring to FIG. 8, in step S801, the antenna signal receiver may acquire a reception trigger signal from the antenna of the first antenna.

In step S802, the input connector can confirm whether or not the reception trigger signal is normally input.

For example, an input connector may be connected to the meter so that a device or element for identifying a normal input may be installed or attached to the input connector. In addition, a normal input can be confirmed and discriminated using an input connector in the measuring device, but the present invention is not limited thereto.

In step S803, the signal conversion unit may convert the reception trigger signal into a predetermined type of deformation trigger signal.

For example, referring to Figs. 9A and 9B, the signal conversion section may convert a plurality of bipolar reception trigger signals into a plurality of unipolar variation trigger signals.

At this time, the reception trigger signal and the variant trigger signal may be at least one of signals having frequencies of 15 Hz, 135 Hz, and 1350 Hz.

In step S804, the output connector may check whether or not the transformed trigger signal is normally transformed.

For example, a device or element for confirming a normal conversion may be installed or attached to the output connector. In addition, although the measuring device can confirm and discriminate the normal conversion by using the output connector, it is not limited thereto.

In step S805, the beacon signal transmitting unit may transmit the deformation trigger signal to the beacon of the second taker using a trigger signal different from the trigger signal used by the first taker.

In step S806, the logic integrated circuit portion may monitor the output of the deformation trigger signal.

Specifically, the logic integrated circuit part can monitor the cycle of the deformed trigger signal by measuring the high signal section of the deformed trigger signal and the counter value of the low signal section using an oscillator.

In step S807, the display unit may operate when an error of the monitored output occurs.

Specifically, if the logic integrated circuit portion detects the deformation trigger signal, and there is no detection of the deformation trigger signal, or the timing is not correct, the color of at least a part of the display portion may change.

According to an embodiment of the present invention, an antenna signal receiving unit can acquire a reception trigger signal from a fixed antenna of a fixed antenna by using the antenna method.

Next, the signal conversion unit can convert the reception trigger signal into a deformable trigger signal in the form of a trigger signal of the movable type.

Next, the beacon signal transmitting unit can transmit the deformable trigger signal to the mobile beacon beacon.

Of course, since the amount of power consumed by the mobile type takan (1kW) beacon is smaller than the amount of power consumed by the fixed type takan beacon (3kW), energy can be saved even in an emergency, Even if you can not operate the fixed takan beacon, you can operate the takan easily.

According to another embodiment, in the method of the takan interface, first, the antenna signal receiving unit can acquire the reception trigger signal from the antenna of the mobile type takan.

Next, the signal conversion unit can convert the reception trigger signal into the fixed-type Takan's deformed trigger signal.

Next, the beacon signal transmitting unit can transmit the deformed trigger signal to the beacon of the fixed type takan.

Of course, the logic integrated circuit portion can monitor the output of the deformation trigger signal, and the display portion can operate when an error of the monitored output occurs.

Further, the input connector may check whether or not the reception trigger signal is normally input, and the output connector may check whether or not the transformation trigger signal is normally converted.

Of course, it is also possible to determine whether a normal input or conversion is made through an input connector and an output connector connected to the output connector.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (20)

In the takan interface apparatus,
An antenna signal receiving unit for receiving a reception trigger signal from the antenna of the fixed antenna,
A signal conversion unit for converting the reception trigger signal into a deformable trigger signal in the form of a trigger signal of a movable type, the movable type using a trigger signal different from the type of the trigger signal used by the fixed type,
A beacon signal transmitting unit for transmitting the deformed trigger signal to the beacon of the mobile type takan,
A logic integrated circuit portion for monitoring the output of the variant trigger signal,
A display unit which operates when an error of the monitored output occurs,
An input connector for confirming whether or not the reception trigger signal is normally input,
An output connector for confirming whether or not the transformed trigger signal is normally transformed
Lt; / RTI >
Wherein the signal conversion unit converts the reception trigger signals of a plurality of bipolar types into the deformable trigger signals of a plurality of unipolar types,
Wherein the logic integrated circuit part measures a period of the deformed trigger signal by measuring a high signal section of the deformed trigger signal and a counter value of the low signal section using an oscillator. delete delete delete The method according to claim 1,
Wherein the reception trigger signal and the variant trigger signal comprise:
15 Hz, 135 Hz, and 1350 Hz. The method according to claim 1,
Wherein the input connector and the output connector are connected to a meter for determining whether the input connector and the output connector are normal. delete The method according to claim 1,
Wherein the color of at least a part of the display unit is changed when the logic integrated circuit unit detects the transformed trigger signal and the transformed trigger signal is not detected or the timing of the transformed trigger signal is not correct. delete delete In the takan interface method,
The antenna signal receiving unit receiving the reception trigger signal from the fixed antenna;
The signal converting unit converting the reception trigger signal into a deformable trigger signal in the form of a trigger signal of a mobile type mobile terminal, the mobile type mobile terminal using a trigger signal different from the trigger signal used by the fixed type mobile terminal;
The beacon signal transmitting unit transmitting the deformed trigger signal to the beacon of the mobile type takan;
The logic integrated circuit portion monitoring the output of the deformed trigger signal;
The display unit being operated when an error of the monitored output occurs;
A step for confirming whether the input connector normally inputs the reception trigger signal; And
A step of confirming whether or not the output connector has a normal conversion of the transformed trigger signal;
Lt; / RTI >
Wherein the signal conversion section converts the reception trigger signals of a plurality of bipolar types into the deformable trigger signals of a plurality of unipolar types,
Wherein the logic integrated circuit part measures an interval of a high signal interval and a low signal interval of the modified trigger signal using an oscillator to monitor the period of the modified trigger signal. delete delete delete 12. The method of claim 11,
Wherein the reception trigger signal and the variant trigger signal comprise:
15 Hz, 135 Hz, and 1350 Hz. 12. The method of claim 11,
Wherein the input connector and the output connector are connected to a meter for determining whether the input connector and the output connector are normal. delete 12. The method of claim 11,
Wherein the color of at least some of the display units is changed when the logic integrated circuit unit detects the transformed trigger signal and the transformed trigger signal is not detected or the timing of the transformed trigger signal is not correct. delete delete

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