KR101471297B1 - Antenna sensitivity measuring instrument - Google Patents

Abstract

The present invention relates to an antenna sensitivity measuring device (90), capable of: identifying a uniform measurement value by allowing electric field intensity to be proportional to a distance when a reader and LC resonance are matched; and identifying a failure by measuring detection voltages of an incident wave and a reflected wave between an RF module (R) and an antenna (A) in the reader. The antenna sensitivity measuring device (90) comprises: an electric field intensity measurer (100) to measure an analog measurement value of electric field intensity of a reader to recognize an RFID card (110); a standing-wave ratio measurer (200) to measure an analog measurement value derived by measuring an incident wave and a reflected wave which are transmitted/received between an RF module (R) and an antenna (A) in the reader; a control unit (140) which is connected to the standing-wave ratio measurer (200) and the electric field intensity measurer (100) to convert the analog measurement value to a digital measurement value; and a display device (150) which is connected to the control unit (140) to display the digital measurement value.

Description

[0001] Antenna sensitivity measuring instrument [

The present invention relates to an antenna sensitivity measuring apparatus, and more particularly, to an antenna sensitivity measuring apparatus capable of measuring an electric field strength and a standing wave ratio of a card reader.

In general, a variety of cards are used as payment means in a subway station, and the card is composed of an RFID card.

When the RFID reader card (hereinafter abbreviated as a card) is brought into contact with the reader, the payment is completed while transmitting and receiving data between the antenna in the card and the antenna provided in the reader.

However, since the readers differ in performance from station to station, complaints of passengers are being raised. That is, the case where the card normally used in the A station can not be detected by the reader in the B station, and the passengers are floored.

The antenna sensitivity of the reader is checked using the antenna sensitivity measuring apparatus 1 shown in FIG.

The antenna sensitivity measuring apparatus 1 comprises an antenna 10 for generating an electric field intensity in proximity to a reader and connected to the antenna 10 to measure a voltage induced in the antenna 10, And a control unit 30 configured to transmit the voltage measured in association with the detection unit 20 to a display device 40 to be described later and to display the voltage. The display unit 40 is configured to receive data from the control unit 30 and display the data.

Therefore, the intensity of the electric field generated by bringing the antenna 10 close to or in close contact with the reader can be measured and confirmed through the display device 40.

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According to the background art, there are the following problems.

First, since the antenna is manufactured by itself and has different properties from the antenna of the RF ID chip received in the RF ID card, when the voltage induced in the antenna is detected, the reader and the LC resonance do not coincide with each other, There was a difficult problem.

Therefore, there is a problem that different field strength measurement values are calculated according to the proximity distance of the antenna in the reader, and the measured values are different for each of the users. Experiments show that the highest field strength value is output at approximately 3 cm in the reader, but it is difficult to accurately position the antenna at this point, so it is impossible to measure the field strength accurately.

Secondly, the detection unit is composed of only a detection diode, and thus there is a problem that it is not possible to measure a detailed electric field intensity value when measuring a voltage.

Third, since the RF ID chip and the antenna in the RF ID card are not used, communication does not occur and modulation does not occur. Therefore, there is a problem that the electric field strength value at the time of modulation can not be confirmed.

Fourth, there is a problem that it is not possible to confirm whether the RFID module and the antenna mounted inside the reader can be faulty.

An antenna sensitivity measuring apparatus according to the present invention comprises an electric field strength measuring device for measuring an electric field intensity of a reader recognizing an RF ID card as an analog measurement value and an antenna intensity measuring device for measuring an incident wave and a reflected wave transmitted and received between the RFID module and the antenna inside the reader A control unit connected to the field intensity meter and the standing wave ratio meter for converting the analog measurement value into a digital measurement value; a display unit connected to the control unit and displaying the digital measurement value; Device.

The electric field strength measuring device may further include a detection unit connected to the RF ID card of the RF ID card to detect a voltage induced in the RF ID card, And a voltage distributing circuit connected to the integrator for distributing the voltage of the analog signal to the input pin of the control unit.

Also, the standing wave ratio measuring unit is configured to include a high frequency diode to detect the incident wave and the reflected wave and to transmit the detected wave to the input pin of the control unit.

The antenna sensitivity measuring apparatus according to the present invention has the following effects.

First, the present invention uses an actually used RFID reader card as an object of inspection, so that the readers and the LC resonance are matched with each other, so that a uniform measurement value of the electric field strength can be confirmed. That is, since a uniform value can be obtained in proportion to the proximity distance between the RF ID card and the reader, the same value can be obtained depending on the measurer.

Second, the present invention provides an integrator that is connected to a detection unit and stabilizes a detected voltage by an analog signal, and is connected to the integrator to distribute the voltage of the analog signal to be transmitted to an input pin of the control unit So that it is possible to measure a fine electric field intensity value as compared with a case where only a detection diode is used as in the background art.

Thirdly, since the antenna of the RF ID chip in the RF ID card is used, the present invention has the effect of confirming the electric field intensity value at the time of modulation because the modulation is generated through communication.

Fourth, since the standing wave ratio measuring device can measure the voltage detected the incident wave entering the antenna from the RF module formed inside the reader and the reflected wave coming from the antenna to the RF module, It is possible to confirm whether or not the antenna is faulty.

1 is a block diagram showing an antenna sensitivity measuring apparatus according to the background art.
2 is a block diagram showing an apparatus for measuring sensitivity of an antenna according to the present invention.

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

2 is a block diagram showing an apparatus for measuring sensitivity of an antenna according to the present invention.

Generally, a variety of cards are used as payment means in a subway station, and the card is composed of an RFID card (RFID card) 110.

In the present invention, it is possible to accurately measure the electric field strength of the reader communicating with the RF ID card 110 and to measure the ratio of the incident wave and the reflected wave mutually transmitted and received between the RF module (R) Is measured.

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

The RFID reader (100) according to any one of claims 1 to 3, wherein the RFID reader (100) is configured to measure an analog measurement value of an electric field strength of a reader A standing wave ratio meter 200 for measuring an analog measurement value obtained by measuring a reflected wave is constructed.

The controller 140 is connected to the field intensity meter 100 and the standing wave ratio meter 200 to convert the analog measurement value into a digital measurement value. The controller 140 is connected to the controller 140, And a display device 150 for displaying the value so that the operator can recognize the value.

The field strength meter 100 is connected to the RF ID chip of the RF ID card 110 to detect a voltage induced in the RF ID card 110, And an integrator 120 which is connected to the detection section 105 and is an alarm (RC) circuit for stabilizing the detected voltage to an analog signal is constituted.

The voltage divider circuit 130 is connected to the integrator 120 and distributes the voltage of the analog signal to the input pin of the controller 140.

Also, the standing wave ratio measuring device 200 is configured to include a high frequency diode to detect the incident wave and the reflected wave, and to transmit the incident wave and the reflected wave to the input pin of the controller 140.

That is, the standing wave ratio measuring device 200 outputs a voltage obtained by detecting an incident wave entering the antenna A from the RF module R, which is formed inside the reader, through the high frequency diode to the input Pin.

The control unit 140 is configured to transmit a voltage obtained by detecting a reflected wave coming from the antenna A to the RF module R through the high frequency diode.

The controller 140 converts the detected voltage of the incident wave and the reflected wave into a digital signal and displays the converted digital signal through the display device 150. It is most ideal when the incident wave and the reflected wave have the same value, and it is possible to check the error of the RF module R or the antenna A when the value is less than the reference value.

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

First, after power is applied to the antenna sensitivity measuring device 90, the RF ID card 110 is brought into close contact with or close to the reader. At this time, by using the actually used RFID card 110 as an object to be inspected, resonators of the reader and the LC are matched with each other, and a uniform measurement value of the electric field intensity can be confirmed. That is, since a uniform value can be obtained in proportion to the proximity distance between the RFID reader card 110 and the reader, the same value can be obtained depending on the measurer.

In this way, the voltage induced in the RF ID card 110 is detected by the detection unit 105 in a state where the RF ID card 110 is brought close to the reader, the analog signal is stabilized by the integrator 120, A signal is input to an input pin of the controller 140 via a circuit 130. [

At this time, since the input voltage of the input pin of the controller 140 is determined, the value of the voltage distributed by the voltage divider circuit 130 is corrected by the program of the controller 110. The input analog signal is converted into a digital signal, and the average value and the maximum value sampled a plurality of times are displayed through the display device 150. If the average value and the maximum value are equal to or more than the reference value, the determination result is passed.

The standing wave ratio measuring device 200 is connected to a contact for connecting the RF module R and the antenna A. [ A voltage obtained by detecting the incident wave entering the antenna A from the RF module R through the high frequency diode is input to the input pin of the control unit 140. The control unit 140 converts the voltage into a digital signal, And displays the average value on the display device 150. At this time, if the average value is equal to or greater than the set reference value, it is indicated as pass. Otherwise, it is indicated as fail.

The standing wave ratio measuring device 200 inputs a voltage detected through a high frequency diode to the input pin of the control part 140 through a reflection wave inputted from the antenna A to the RF module R, Signal and displays the average value sampled a plurality of times on the display device 150. [

At this time, if the average value is equal to or greater than the set reference value, it is indicated as pass. Otherwise, it is indicated as fail. It is possible to confirm whether the RF module R and the antenna A are faulty through the average value.

90: Antenna sensitivity measuring device 100: Electric field strength measuring device
110: RF ID card 120: integrator
130: Voltage distribution circuit 140:
150: Display device 200: Standing wave ratio meter

Claims (3)

An electric field strength measuring device (100) for measuring an analog measurement value of the electric field strength of the reader recognizing the RFID card (110)
A standing wave ratio meter 200 for measuring an analog measurement value obtained by measuring an incident wave and a reflected wave transmitted and received between the RF module R and the antenna A in the reader,
A controller 140 connected to the field intensity meter 100 and the standing wave meter 200 to convert the analog measurement value into a digital measurement value,
A display device (150) connected to the controller (140) for displaying the digital measurement value;
The field strength meter 100 includes the RF ID card 110,
A detection unit 105 connected to the RF ID chip of the RF ID card 110 to detect a voltage induced in the RF ID card 110,
An integrator 120 connected to the detection unit 105 for stabilizing the detected voltage to an analog signal,
And a voltage distribution circuit (130) connected to the integrator (120) for distributing the voltage of the analog signal and transmitting the divided voltage to the input pin of the controller (140). delete delete

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