KR100824260B1 - A field test circuit for test a device including terrestrial digital multimedia broadcasting receiver and the field test method the device - Google Patents

Abstract

A field test circuit of a product with a terrestrial DMB(Digital Multimedia Broadcasting) and a method thereof are provided to perform a field test by using a signal of a frequency band which is currently broadcasted and perform up-conversion and down-conversion of the signal of the frequency band if it is necessary for a signal of a frequency band to be lower or higher than the signal of the frequency band which is currently broadcasted. An antenna(220) receives a signal of one frequency band. A mixer(230) performs up-conversion or down-conversion of a frequency of the signal received from the antenna. A DUT(Device Under Test)(210) measures electric response characteristics for the signals by using at least one of the signal received from the antenna and a signal outputted from the mixer. The antenna receives a signal of one frequency band among band-2, band-3, and L-band. The mixer performs the up-conversion or down-conversion of the frequency of the signal received from the antenna by using an oscillation frequency signal.

Description

A field test circuit for test a device including terrestrial digital multimedia broadcasting receiver and the field test method the device}

Fig. 1 shows a conventional field test circuit of a terrestrial DMB mounted product.

2 shows a field test circuit according to the invention.

3 shows Band-3 frequency band and L-Band frequency band of the field test circuit of the present invention.

The present invention relates to Digital Multimedia Broadcasting (DMB), and more particularly to the testing of terrestrial DMB receivers capable of receiving terrestrial DMB.

Recently, a frequency band utilized by a terrestrial DMB mounted in a navigator or a wireless terminal is varied, and there are, for example, Band-2, Band-3, and L-Band. Band-2 uses a frequency band from 88 MHz (Mega Hertz) to 108 MHz, Band-3 uses a frequency band from 174 MHz to 240 MHz, and L-Band from 1452 MHz to 1492 MHz. The terrestrial DMB receiver mixes the RF signal of the multiband and the oscillation frequency signal generated from a voltage control oscillator, converts the signal into an IF (Intermediate Frequency) signal, and then uses a band pass filter. It is a device that can select only the frequency of the desired signal through.

The general electrical properties of the developed terrestrial DMB-equipped products can be verified with measurement equipment in the laboratory. However, the effects of the interference of airwaves and the interference of various frequency bands must be verified through a field test process.

Fig. 1 shows a conventional field test circuit of a terrestrial DMB mounted product.

Referring to FIG. 1, for field testing of a product 10 equipped with Band-3 and L-Band, antennas 20 and 30 capable of receiving corresponding frequency signals should be provided, respectively. In this case, a product equipped with a terrestrial DMB refers to a hand phone, a navigator, and a personal multimedia player (PMP).

Korea is mainly using band-3 band for test broadcasting, but Europe and China are different in each country such as L-Band or Band-3 and L-Band. As a result of the above reasons, Korean terrestrial DMB developers cannot conduct field experiments on terrestrial L-Band bands in Korea, so it is actually necessary to go directly to Europe or China where L-Band bands are broadcast. to be. In case of going abroad and verifying, if it is determined that there is a problem with the product, the time and economic cost of debugging to correct it is enormous.

The technical problem to be achieved by the present invention is to provide a field test circuit that can be field-tested in the domestic product for terrestrial L-Band band.

Another technical problem to be achieved by the present invention is to provide a field test method that can be carried out domestic field experiments of terrestrial L-Banad band products in Korea.

Field test circuit according to the present invention for achieving the above technical problem is provided with an antenna, a mixer and a DUT. The antenna may receive a signal of one frequency band. The mixer upconverts or downconverts the frequency of the signal received from the antenna. The DUT measures an electrical response characteristic of the signals using at least one of a signal received from the antenna and a signal output from the mixer.

According to another aspect of the present invention, there is provided a field test method, the method including using the broadcast signal as it is when the frequency band of the receiver included in the terrestrial DMB-mounted device matches the frequency band of the broadcast signal currently being broadcast. When the frequency band of the receiver included in the terrestrial DMB mounting apparatus is higher than the frequency band of the broadcast signal currently being broadcast, upconverting the frequency of the broadcast signal and using the receiver included in the terrestrial DMB mounting apparatus. If the frequency band is lower than the frequency band of the broadcast signal currently being broadcast, down converting the frequency of the broadcast signal to use.

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

2 shows a field test circuit according to the invention.

Referring to FIG. 2, the field test circuit 200 includes one antenna 220 and one mixer 230 for field testing of the terrestrial DMB-mounted product 210.

For convenience of description, it is assumed that a device under test (DUT), that is, a terrestrial DMB-mounted product 210 to be field-tested, includes a band-3 receiver 211 and an L-Band receiver 212. Referring to FIG. 1, when the Band-3 receiver 211 and the L-Band receiver 212 are mounted as described above, two antennas 20 and 30 are required, but in the present invention, the Band-3 antenna 220 ) Use only one.

The band-3 receiver 211 may perform a field test using a signal received through the band-3 dedicated antenna 220. In order to field test the L-Band receiver 212, a frequency signal of an L-Band band should be input to the L-Band receiver 212. In the present invention, a signal of a band-3 band is up-converted. use. The mixer 230 converts the frequency of the signal received through the band-3 dedicated antenna 220 into the frequency signal of the L-Band band using the oscillation frequency signal LO received from a local oscillator (not shown). Convert

3 shows Band-3 frequency band and L-Band frequency band of the field test circuit of the present invention.

Referring to FIG. 3, the frequency (174 to 240 MHz) of the frequency band of Band-3 shown on the left side of the mixer 230 is lower than the frequency band (1452 to 1492 MHz) of the L-Band shown on the right. It can be seen that.

When developing a product that incorporates a multi-band receiver, it is necessary to go to other countries broadcasting in the frequency band to perform field tests for receivers in broadcasting frequency bands not used in the country. The same applies to the case. The above description is based on the premise that Korean domestic broadcasting uses Band-3, but in every country that broadcasts using one of the multi bands, an antenna capable of receiving a band unique to each country of the present invention is used. Can be carried out as is.

2 and 3 illustrate the up-conversion of signals in the Band-3 frequency band to signals in the L-Band frequency band, but vice versa. That is, it is also possible to down-convert the signal of the L-Band frequency band to the signal of the Band-3 frequency band.

In summary, in order to perform a field test on a signal in a frequency band that is not currently being broadcast, it takes a lot of time to test if it is necessary to go abroad using the signal in the frequency band. There is a technical difficulty in dealing with when a problem occurs, and the leakage of technology can be a problem.

The field test circuit and the field test method according to the present invention, in order to solve the inconvenience and problems described above, while performing the field test using the signal of the current frequency band as it is, When a signal of a lower or higher frequency band is required, it is suggested to use the up-converted and down-converted signals of the currently broadcasted frequency band.

In the above description, the technical idea of the present invention has been described with the accompanying drawings, which illustrate exemplary embodiments of the present invention by way of example and do not limit the present invention. In addition, it is apparent that any person having ordinary knowledge in the technical field to which the present invention belongs may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

As described above, the field test circuit and the field test method according to the present invention generate and use signals of all frequency bands by using signals of the frequency band currently being broadcasted, so that if a field trip is not required for a field test, Another advantage is that the test circuit is simplified because only one antenna is used.

Claims (6)

An antenna capable of receiving a signal in one frequency band; A mixer for upconverting or downconverting a frequency of a signal received from the antenna; And And a device under test (DUT) for measuring an electrical response characteristic of the signals using at least one of a signal received from the antenna and a signal output from the mixer. Circuit. The method of claim 1, wherein the antenna, A field test circuit for a terrestrial DMB-equipped product, which receives a signal in one of two bands, Band-2, Band-3, and L-Band. The method of claim 2, wherein the DUT, A field test circuit for a terrestrial DMB-mounted product comprising at least one of a band-2 receiver, a band-3 receiver and an L-Band receiver. The method of claim 3, wherein the mixer, A field test circuit of a terrestrial DMB-equipped product, wherein the frequency of a signal received from the antenna is up converted or down converted using an oscillation frequency signal. In the field test method of the terrestrial DMB-mounted device, Using the broadcast signal as it is if the frequency band of the receiver included in the terrestrial DMB mounting apparatus matches the frequency band of the broadcast signal currently being broadcast; Upconverting the frequency of the broadcast signal when the frequency band of the receiver included in the terrestrial DMB mounting apparatus is higher than the frequency band of the broadcast signal currently being broadcast; And And downconverting the frequency of the broadcast signal when the frequency band of the receiver included in the terrestrial DMB mounting apparatus is lower than the frequency band of the broadcast signal currently being broadcast. The method of claim 5, wherein the up conversion and the down conversion, A field test method using a local oscillation frequency signal generated using a local oscillator.

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