KR20100056683A - Unity antenna for car - Google Patents

Abstract

PURPOSE: The number of antenna device of the vehicles is the cable through the serial transfer with the loop antenna module and serial transfer box the glass ant module is established the integration and the propagation signal is changed into the digital signals can be reduced. CONSTITUTION: An integration antenna module(10) comprises the loop antenna module which receives a message the propagation signal of the multimedia terminal by using the antenna installed at the vehicle roof. The integration antenna module comprises one or more glass ant module which receives a message the radio electric wave signal by using one or more antenna pattern installed in the window glass.

Description

Unity antenna for car

The present invention relates to an integrated antenna device of a vehicle in which a roof antenna and a glass antenna are integrated.

In general, a loop antenna is installed on a roof of a vehicle and includes a plurality of antennas for receiving radio signals corresponding to a DMB terminal, a GPS receiver, and a high speed downlink packet access (HSDPA) terminal, and a radio signal received from the plurality of antennas. It consists of a plurality of loop antenna modules to amplify.

Meanwhile, the glass antenna includes an AM antenna pattern, an FM1 antenna pattern, and an FM2 antenna pattern formed on the rear window glass of the vehicle, and an AM antenna module, an FM1 antenna module, and an FM2 antenna, which amplify AM or FM radio signals of a radio received through the patterns. Consists of modules.

In the conventional vehicle, the loop antenna module, the AM antenna module, the FM1 antenna module, and the FM2 antenna module are separately installed. The AM antenna pattern, the FM1 antenna pattern, and the FM2 antenna pattern are respectively provided at the upper side, the left side, and the right side of the window glass, where feed points that meet the corresponding antenna module are provided.

Therefore, there is a problem in that a manufacturing cost of a housing, a bracket, and a cable of the module is consumed in order to separately install the loop antenna module, the AM antenna module, the FM1 antenna module, and the FM2 antenna module in a vehicle.

1 is a block diagram showing the configuration of a conventional integrated antenna.

As shown in FIG. 1, in the case of the integrated antenna in which the loop antenna module and the glass antenna module are integrated, the radio signal amplified by the loop antenna module, that is, the GPS / HSDPA / DMB module and the glass antenna module, that is, the AM / FM antenna module Must be delivered to the corresponding DMB terminal, GPS receiver, HSDPA, and radio receiver in separate transmission lines. To this end, since the number of cables must be provided as many antenna modules, manufacturing cost increases.

In addition, since the loop antenna module and the glass antenna module transmit the amplified radio signal through the cable in an analog manner, the loop antenna module and the glass antenna module are vulnerable to noise.

In addition, the loop antenna module and the glass antenna module are each supplied with operating power from the signal line of the head unit of the vehicle. Therefore, the loop antenna module and the glass antenna module should be provided with low pass filters, respectively, in order to remove the signal of the high frequency component included in the signal line and pass only the operating power. Therefore, there is a problem in that the cost of providing such a low pass filter.

An object of the present invention is to provide an integrated antenna device for a vehicle integrating and installing a loop antenna module and a glass antenna module and digitally transmitting a radio signal amplified by the loop antenna module and glass antenna module to a head unit.

In addition, the present invention is to provide an integrated antenna device of a vehicle for inductively installing the feed point of the AM antenna pattern, FM1 antenna pattern FM2 antenna pattern on the upper side of the window glass adjacent to the integrated antenna device.

In another aspect, the present invention is to provide an integrated antenna device of a vehicle for selectively receiving only the signal according to any one or more of the DMB terminal, GPS receiver, HSDPA terminal, AM radio or FM radio requested from the head unit.

In addition, the present invention is to provide an integrated antenna device of a vehicle for converting an amplified radio signal into an optical signal and transmitting to the head unit via an optical fiber.

An integrated antenna device of a vehicle according to the present invention includes at least one radio antenna signal received using a loop antenna module for receiving a radio signal of a multimedia terminal using an antenna installed on a vehicle roof and at least one antenna pattern installed in a window glass. An integrated antenna module including a glass antenna module; A converter for receiving a radio signal and a radio wave signal of the multimedia terminal from the integrated antenna module and converting the signal into a digital signal; A serializer for serializing the converted digital signal; And a transceiver for transmitting a digital signal output from the serializer to a control terminal.

Here, the antenna pattern of the present invention is composed of an AM antenna pattern, an FM1 antenna pattern, and an FM2 antenna pattern, and the glass antenna module is composed of an AM antenna module, an FM1 antenna module, and an FM2 antenna module corresponding to the antenna pattern, respectively. The feed point to which the AM antenna pattern and the AM antenna module are connected, the feed point to which the FM1 antenna pattern and the FM1 antenna module are connected, and the feed point to which the FM2 antenna pattern and the FM2 antenna module are connected are guided to the upper side of the window glass, respectively. Is installed.

Meanwhile, the present invention further includes an operation power supply unit for supplying operation power to the loop antenna module, AM antenna module, FM1 antenna module, and FM2 antenna module, respectively.

Meanwhile, the multimedia terminal of the present invention is made of at least one of a DMB terminal, a GPS receiver, and an HSDPA terminal, and the loop antenna module corresponds to the multimedia terminal, respectively.

On the other hand, the present invention further includes a switching unit for selecting a radio signal transmitted to the conversion unit in response to a request from the control terminal.

Meanwhile, the transceiver of the present invention converts the digital signal output from the serializer into an optical signal and transmits the optical signal to the head unit through the optical fiber.

The integrated antenna device of the vehicle of the present invention integrates the loop antenna module and the glass antenna module and converts the radio wave signals received from the loop antenna module and the glass antenna module into digital signals and serially transmits them to the head unit. Thus, the transmission of digital signals eliminates noise vulnerabilities and reduces the number of cables through serial transmission.

In addition, the integrated antenna device of the vehicle of the present invention guides and installs the feed points of the AM antenna pattern, the FM1 antenna pattern, and the FM2 antenna pattern on the upper side of the window glass adjacent to the integrated antenna device. Therefore, the present invention provides an effect of solving the problem of difficulty in tuning the antenna pattern generated as the distance between the antenna pattern and the antenna device increases.

In addition, the integrated antenna device of the vehicle of the present invention further includes an operation power supply for supplying operation power to the loop antenna module, AM antenna module, FM1 antenna module and FM2 antenna module, respectively. Therefore, there is no need to install a separate low pass filter in order to receive power from the signal line of the head unit, thereby reducing the manufacturing cost.

In addition, the integrated antenna device of the vehicle of the present invention selectively receives only a signal according to any one or more of the DMB terminal, GPS receiver, HSDPA terminal, AM radio or FM radio requested from the head unit. Therefore, it is possible to reduce the power consumption of the device by not receiving the radio signal for the device which is not currently used unnecessarily, thereby providing the effect of extending the life of the device.

In addition, the integrated antenna device of the vehicle of the present invention provides an effect of increasing the data transmission speed by converting a digital signal into an optical signal and transmitting the optical signal to the head unit.

Hereinafter, with reference to the accompanying drawings will be described specific details for the practice of the invention.

3 is a block diagram showing the configuration of the integrated antenna device 100 and the head unit 200 of the vehicle of the present invention.

As shown in FIG. 3, the integrated antenna device 100 of the vehicle according to the present invention includes an integrated antenna module 10, a converter 20, a serializer 30, a transceiver 40, and an operating power supply 50. ), The switching unit 60 and the like.

The integrated antenna module 10 is installed on the roof of the vehicle, the roof antenna module and the glass antenna module are integrated.

The loop antenna module includes first, second, and third loop antenna modules to correspond to a plurality of multimedia terminals, that is, the DMB terminal 300, the GPS receiver 400, and the HSDPA terminal 600, respectively. The first, second, and third loop antenna modules 11b, 12b, and 13b each include an antenna for receiving a radio signal of the multimedia terminal and a signal amplifying circuit for amplifying the radio signal received by the antenna. The multimedia terminal includes a DMB terminal 300, a GPS receiver 400, and an HSDPA terminal 600, each of which corresponds to the DMB terminal 300, the GPS receiver 400, and the HSDPA terminal 600. The antennas of the 2,3 loop antenna modules 11b, 12b, and 13b respectively receive the frequencies of the DMB antenna 11a and the 1.575Ghz band of the GPS receiver 400 to receive the frequencies of the 200Mhz band of the DMB terminal 300, respectively. GPS antenna 12a for the purpose, and HSDPA antenna 13a for receiving the frequency of the 2Ghz band of the HSDPA terminal 600.

The glass antenna module is composed of an AM antenna module 14b, an FM1 antenna module 15b, and an FM2 antenna module 16b. The AM antenna module 14b receives an AM radio wave signal using the AM antenna pattern 14a of the vehicle. The FM1 antenna module 15b receives an FM radio wave signal using the FM1 antenna pattern 15a of the vehicle. The FM2 antenna module 16b receives an FM radio wave signal using the FM2 antenna pattern 16a of the vehicle. Here, each of the glass antenna modules may also include a signal amplifying circuit for amplifying the received radio signal.

2 is a configuration diagram showing an arrangement of a conventional glass antenna pattern.

2, the point where the AM antenna module 14b and the AM antenna pattern 14a are connected, the point where the FM1 antenna module 15b and the FM1 antenna pattern 15a are connected, and the FM2 antenna module 16b. ) And the point where the FM2 antenna pattern 16a is connected are called a feed point. Feeding points are all guided to the upper side of the window glass is installed in consideration of the antenna module is installed on the roof of the vehicle. That is, the conventional AM antenna pattern 14a is formed on the upper side of the window glass and the feed point is formed on the right side. The conventional FM1 antenna pattern 15a is formed below the AM antenna pattern 14a, and the feed point is formed on the right side. The FM2 antenna pattern 16a is provided between the AM antenna pattern 14a and the FM2 antenna pattern 16a, and the feed point is provided on the left side.

4 is a configuration diagram showing the arrangement of the glass antenna pattern of the present invention.

In the present invention, as shown in Figure 4, the feed point 14-1 of the AM antenna pattern 14a is located in the center of the upper end of the window glass. The FM1 antenna pattern 15a extends through the right side and the upper side of the AM antenna pattern 14a to be spaced apart from the top of the window glass to the right of the feed point 14-1 of the AM antenna pattern 14a. Position the feed point 15-1. The feed point of the FM2 antenna pattern 16a extends through the left side and the upper side of the AM antenna pattern 14a to be positioned at the left side of the feed point 14-1 of the AM antenna pattern 14a at the top of the window glass. Position the feed point 16-1 at a spacing distance. As a result, the feed points 14-1, 14-2, and 14-3 of the AM antenna pattern 14a, the FM1 antenna pattern 15a, and the FM2 antenna pattern 16a and the AM antenna module 14b installed on the roof of the vehicle. ), The separation distance from the FM1 antenna module 15b and the FM2 antenna module 16b is minimized.

On the other hand, as shown in Figure 2, the conversion unit 20 is a radio signal and radio signal of the multimedia terminal from the integrated antenna module 10 a plurality of channels, for example, channel 1 is a radio signal of the DMB terminal 300, Channel 2 is the radio signal of the GPS receiver 400, channel 3 is the radio signal of the HSDPA terminal 600, channel 4 is the radio signal of the AM antenna, channel 5 is the radio signal of the FM1 antenna, channel 6 is the radio signal of the FM2 antenna Received by The converting unit 20 converts the received radio signals of the plurality of channels into digital signals.

On the other hand, the serializer 40 serializes the digital signal consisting of the plurality of channels into a serial signal of one channel in order to transmit the signal through one optical fiber.

Meanwhile, the transceiver 40 converts the serial signal of one channel serialized by the serializer 30 into an optical signal and transmits the optical signal to the control terminal such as the head unit 200 through the optical fiber. To this end, the transceiver 40 converts a digital signal in the form of a serial signal output from the serializer 30 into a current signal and a laser driver (not shown) and a current signal output from the laser driver into an optical signal. And a laser diode (not shown) to output.

The head unit 200 receives an optical signal from the transceiver 40 of the integrated antenna device 100 through an optical fiber and converts the optical signal into a digital signal and the digital signal having a plurality of channels again. A deserializer 220 to be parallelized with a controller, a controller 230 for transmitting the digital signals of the parallelized channels to a corresponding multimedia terminal or a radio receiver 500, a DMB terminal 300 currently in operation, GPS receiver 400, HSDPA terminal 600, radio receiver 500, a request unit 240 for transmitting a radio signal reception request for AM radio or FM radio to the transceiver 40 of the integrated antenna device 100, etc. It includes.

On the other hand, the operating power supply unit 50 converts the power supplied from the battery of the vehicle to the operating power (B +) and converts the converted operating power to the first, second, third loop antenna modules (11b, 12b, 13b), AM antenna module ( 14b), FM1 antenna module 15b, and FM2 antenna module 16b.

On the other hand, the switching unit 60 receives a radio signal reception request according to any one or more of the DMB terminal 300, GPS receiver 400, HSDPA terminal 600, AM radio or FM radio from the head unit 200. The switching unit 60 may include first, second and third loop antenna modules 11b, 12b and 13b, an AM antenna module 14b, an FM1 antenna module 15b or an FM2 antenna module 16b according to the radio signal reception request. Control the operation of That is, the switching unit 60 blocks transmission of the radio signal transmitted from the antenna module not requested by the head unit 200 to the conversion unit 20.

Hereinafter, the operation of the integrated antenna device 100 of the vehicle of the present invention will be described.

5 is a flowchart showing the operation of the integrated antenna device 100 of the vehicle of the present invention.

As shown in FIG. 5, first, the switching unit 60 of the integrated antenna device 100 receives, for example, the GPS receiver 400 and the AM radio receiver 500 from the request unit of the head unit 200 through the transceiver. The radio signal reception request is received (S100).

Subsequently, the switching unit 60 of the integrated antenna device 100 includes an AM antenna according to the second loop antenna module 12b corresponding to the GPS receiver 400 and the AM radio receiver 500 in the integrated antenna module 10. The module 14b is operated (S102).

Subsequently, the second loop antenna module 12b and the AM antenna module 14b of the integrated antenna device 100 respectively receive and receive radio signals using the GPS antenna 12a and the AM antenna pattern 14a. The radio signal is transmitted to the converter 20 (S104).

Subsequently, the converting unit 20 of the integrated antenna device 100 receives a radio wave signal of the AM antenna module 14b and the GPS receiver 400 respectively received from the second loop antenna module 12b and the AM antenna module 14b. Converts the radio wave signal into two channels of digital signals (S106).

Subsequently, the serializer 30 of the integrated antenna device 100 serializes the two channels of digital signals into one channel of the digital signals (S108).

Subsequently, the transceiver of the integrated antenna device 100 converts the digital signal of the one channel into an optical signal and transmits it to the transceiver of the head unit 200 (S110).

Subsequently, the transceiver of the head unit 200 converts the optical signal back into a digital signal and transmits the optical signal to the deserializer 220 (S112).

Subsequently, the deserializer 220 of the head unit 200 parallelizes the digital signal into two digital signals (S114).

Subsequently, the controller of the head unit 200 transmits the digital signals paralleled into two channels to the corresponding GPS receiver 400 and the AM radio receiver 500 (S116).

As mentioned above, although the present invention has been described by means of a limited configuration and drawings, the technical idea of the present invention is not limited to the above, and by those skilled in the art to which the present invention pertains, Various modifications and variations may be made without departing from the scope of the appended claims.

1 is a block diagram showing the configuration of a conventional integrated antenna;

2 is a configuration diagram showing the arrangement of a conventional glass antenna pattern.

Figure 3 is a block diagram showing the configuration of the integrated antenna device and head unit of the vehicle of the present invention.

4 is a configuration diagram showing an arrangement of a glass antenna pattern of the present invention.

5 is a flowchart showing the operation of the integrated antenna device of the vehicle of the present invention.

Claims (6)

As an integrated antenna device of a vehicle, An integrated antenna module including a loop antenna module for receiving a radio signal of a multimedia terminal using an antenna installed on a vehicle roof and at least one glass antenna module for receiving a radio wave signal using at least one antenna pattern installed in a window glass; A converter for receiving a radio signal and a radio wave signal of the multimedia terminal from the integrated antenna module and converting the signal into a digital signal; A serializer for serializing the converted digital signal; And And a transceiver for transmitting a digital signal output from the serializer to a control terminal. The method of claim 1, The antenna pattern is composed of an AM antenna pattern, an FM1 antenna pattern, and an FM2 antenna pattern, and the glass antenna module is composed of an AM antenna module, an FM1 antenna module, and an FM2 antenna module corresponding to the antenna pattern, respectively. The feed point to which the AM antenna pattern and the AM antenna module are connected, the feed point to which the FM1 antenna pattern and the FM1 antenna module are connected, and the feed point to which the FM2 antenna pattern and the FM2 antenna module are connected are guided to the upper side of the window glass, respectively. The integrated antenna device of the vehicle, characterized in that installed. The method of claim 2, And an operation power supply unit for supplying operation power to the loop antenna module, the AM antenna module, the FM1 antenna module, and the FM2 antenna module, respectively. The method of claim 1, The multimedia terminal comprises at least one of a DMB terminal, a GPS receiver, an HSDPA terminal, and the loop antenna module corresponds to the multimedia terminal, respectively. The method of claim 1, And a switching unit for selecting a radio wave signal transmitted to the conversion unit in response to a request from the control terminal. The method of claim 1, And the transceiver converts the digital signal output from the serializer into an optical signal and transmits the optical signal to the head unit through the optical fiber.

Images