KR20130063139A - Antenna apparatus havingb microstripline-filter preventing interferenceof signal for vehicle - Google Patents

Abstract

PURPOSE: A vehicle antenna apparatus with a micro strip line filter for preventing interference of a signal is provided to include a band-stop filter part and a low frequency band passing filter part, thereby preventing signal interference with a patch antenna which is operated in a digital satellite radio frequency band and preventing the interference signal from generating in the high frequency band of the dual frequency band in which the antenna pattern is operated. CONSTITUTION: A vehicle PCB(Printed Circuit Board) antenna apparatus with a micro strip line filter for preventing interference of a signal includes a PCB substrate(110) on which an antenna pattern, which is operated in a dual frequency band, is formed, and is vertically formed on a main board; a feeding unit(120) formed at the lower side end of the PCB substrate as an electric conductor so as to electrically connect the antenna pattern and the main board; and a band-stop filter unit(130) formed between the antenna patterns as a micro strip line so as to stop the digital satellite radio frequency band signal in which a patch antenna is operated.

Description

Vehicle antenna with microstrip line filter for signal interference prevention {ANTENNA APPARATUS HAVINGB MICROSTRIPLINE-FILTER PREVENTING INTERFERENCEOF SIGNAL FOR VEHICLE}

The present invention relates to a PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference, and more particularly, a shark fin antenna device for a vehicle having a band blocking filter part and a low frequency bandpass filter part formed of a microstrip line. It prevents signal interference and patch antennas operating in the digital satellite radio frequency band disposed at the same time, and it is relatively close to the digital satellite radio frequency signal among the dual frequency bands in which the antenna pattern formed on the surface of PCB is operated. It is possible to prevent the generation of interference signals in the high frequency band The present invention relates to a vehicle PCB antenna device having a microstrip line filter for preventing signal interference.

1 is a schematic diagram of a vehicle shark fin antenna device 10 having a patch antenna 11 operating in a digital satellite radio band and a PCB antenna 12 operating in a mobile communication frequency band on the main board 1 simultaneously. Phosphorus composition diagram. As shown in the drawing, the conventional vehicle PCB antenna 12 can derive a small and lightweight antenna characteristic so that it can be mounted inside a vehicle shark fin antenna device, but is disposed at the same time in close proximity to the interior of the vehicle shark fin antenna device. Due to the patch antenna 11, there is a problem in that an interference signal that degrades antenna performance occurs in a mobile communication frequency band in which the PCB antenna 12 operates.

In addition, the antenna pattern formed on the surface of the PCB antenna 12 When operating in the dual frequency band lower than the digital satellite radio frequency band operating in the 2.332GHz ~ 2.345GHz band, the antenna is caused by a fine interference signal generated in the high frequency band relatively close to the digital satellite radio frequency band among the dual frequency band. There was a problem that the performance of the.

Therefore, the antenna pattern formed on the surface of the PCB substrate is prevented from generating interference signals of the vehicle PCB antenna operating in the mobile communication frequency band and the patch antenna operating in the digital satellite radio frequency band inside the vehicle shark fin antenna device. Among the operating dual frequency bands, there is an urgent need for a practical and highly available technology that can prevent interference signals from occurring in a high frequency band close to the digital satellite radio frequency band.

Publication No. KR 10-2011-0060500 2011.06.08. , Page 3 <identification number 13> to page 5 <identification number 22>, drawing 1

The present invention has been made to solve the above problems, the present invention, a digital satellite radio frequency that is disposed at the same time inside the vehicle shark fin antenna device having a band stop filter unit and a low frequency band pass filter formed of a microstrip line It is possible to prevent signal interference from patch antennas operating in a band and to generate an interference signal in a high frequency band relatively close to the digital satellite radio frequency band among dual frequency bands in which an antenna pattern formed on a surface of a PCB substrate operates. An object of the present invention is to provide a PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference.

In order to achieve the above object, a PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference according to an embodiment of the present invention includes a shark fin antenna for a vehicle having a patch antenna operating therein in a digital satellite radio frequency band. A vehicle PCB antenna device disposed simultaneously on a main board on which a feed circuit of a device is formed, comprising: a PCB substrate having an antenna pattern operating in a dual frequency band formed on a surface thereof and formed in an upper vertical direction of the main board; A feeding part formed of a conductor at a lower end of the PCB to electrically connect the antenna pattern and the feeding circuit of the main board; And a band blocking filter unit formed as a microstrip line between the antenna patterns in order to block the digital satellite radio frequency band signal in which the patch antenna operates.

As described above, the present invention provides a patch antenna for operating in a digital satellite radio frequency band which is simultaneously disposed inside a vehicle shark fin antenna device having a band stop filter unit and a low frequency band pass filter unit formed of a microstrip line. It prevents signal interference from occurring and prevents interference from occurring in the high frequency band relatively close to the digital satellite radio frequency band among the dual frequency bands in which the antenna pattern formed on the surface of the PCB is operated. There is an effect to provide a vehicle PCB antenna device having a microstrip line filter.

1 is a schematic configuration diagram showing a vehicle shark fin antenna device having a patch antenna and a mobile communication antenna at the same time
2 is a front and front perspective view of a PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference according to an embodiment of the present invention.
3 is a rear view and a rear perspective view of a PCB antenna apparatus for a vehicle having a microstrip line filter for preventing signal interference according to an embodiment of the present invention.
4 is a diagram illustrating an equivalent circuit of the band blocking filter shown in FIGS. 2 to 3.
5 is a diagram illustrating an equivalent circuit of the low frequency bandpass filter shown in FIGS.

A PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference according to the present invention is provided on a main board on which a power supply circuit of a shark pin antenna device for a vehicle having a patch antenna operating in a digital satellite radio frequency band is provided therein. It is assumed that they are arranged at the same time.

In addition, the patch antenna operates in the band 2.332 GHz to 2.345 GHz, which is a digital satellite radio frequency band, and the radiator of the patch antenna generates a left hand circular polarization (LHCP) circular polarization suitable for receiving digital satellite radio broadcasting in North America. It is desirable to.

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

2 is a front view and a front perspective view of a PCB antenna device for a vehicle having a signal interference prevention microstrip line filter according to an embodiment of the present invention, Figure 3 is a signal interference prevention microstrip according to an embodiment of the present invention A rear and rear perspective view of a vehicle PCB antenna device with a line-filter.

As shown in the drawings, a vehicle PCB antenna apparatus 100 having a microstrip line filter for preventing signal interference according to an embodiment of the present invention, the PCB substrate 110, the power supply unit 120 and the band blocking filter The unit 130 is made.

More specifically, the PCB substrate 110 is formed on the surface of the antenna pattern 101 operating in the dual frequency band lower than the frequency band operating in the digital satellite radio frequency band 2.332GHz ~ 2.345GHz band and the main It is formed in the vertical direction of the top of the board, the power supply unit 120 is formed as a conductor at the lower end of the PCB substrate to electrically connect the power feeding circuit of the antenna pattern 101 and the main board (1).

At this time, the antenna pattern 101 operates in the mobile communication cellular band 824MHz ~ 894MHz and the US PCS frequency band 1.850GHz ~ 1.990GHz band.

In addition, the band stop filter unit 130 is formed as a microstrip line between the antenna patterns to block the digital satellite radio frequency band signal in which the patch antenna operates.

Here, the band blocking filter unit 130 is formed on one surface of the lower side of the PCB substrate 110 and is formed on both sides of the first inductor pattern 201 having an inductor component and lower surfaces of the PCB substrate 110, respectively. The first inductor is formed of first to second capacitor patterns 301 and 302 having a capacitor component, and is provided through a via hole 131 provided in a feeder 120 formed as a conductor at a lower end of the PCB substrate 110. The pattern 201 and the first to second capacitor patterns 301 and 302 are electrically connected to each other.

In addition, as shown in the drawing, the first capacitor pattern 301 is formed in a rectangular pattern on the lower surface of the PCB substrate 110, the second capacitor pattern 302 is the PCB substrate ( Both ends are opened on the other side of the lower side of the 110 and are formed in a loop-shaped pattern that is symmetrically left and right. At this time, by adjusting the height D of the left-right symmetrical loop-shaped pattern forming the second capacitor pattern 302, the capacitor capacity for designing the band stop filter 130 to prevent the interference signal operating in the stop band I can regulate it.

As such, the PCB antenna device for a vehicle having a microstrip line-filter for preventing signal interference according to an embodiment of the present invention is formed of a microstrip line and has a bandstop filter part formed of an inductor pattern and a capacitor pattern on both sides of a PCB substrate. Implemented to prevent signal interference with the patch antenna operating in the digital satellite radio frequency band.

On the other hand, the vehicle PCB antenna device 100 having a signal interference prevention microstrip line filter according to an embodiment of the present invention, as shown in the drawing, the antenna pattern including the band stop filter 130 A low frequency bandpass filter 140 may be further included between the 101 to prevent signal interference from occurring in the low frequency band by the high frequency band signal.

In more detail, the low frequency bandpass filter unit 140 is formed on the upper side surfaces of the PCB substrate 110, respectively, and includes the second to third inductor patterns 202 and 203 having the inductor component, and the PCB substrate 110. And a third capacitor pattern 303 formed on one side of the upper side of the PCB) and having a capacitor component, and the second to third inductor patterns 202 and 203 and the via through holes 141 provided on the PCB. The third capacitor pattern 303 is electrically connected.

In addition, as shown in the drawing, the second inductor pattern 202 and the third inductor pattern 203 are loop types in which both ends having different opening directions are opened on both upper surfaces of the PCB substrate 110, respectively. It is formed in a pattern and connected to each other via the via hole 141 has a spiral-shaped pattern as a whole.

Therefore, the PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference according to an embodiment of the present invention is formed on a surface of a PCB substrate by a low frequency bandpass filter formed on the PCB substrate 110. In the dual frequency band in which the antenna pattern is formed, the minute interference signal may be further prevented from occurring in the high frequency band relatively close to the digital satellite radio frequency band.

4 is a diagram illustrating an equivalent circuit of the band stop filter shown in FIGS. 2 to 3.

As shown in the figure, the inductor and the capacitor are connected in parallel to constitute a band stop filter unit for removing the interference signal of the digital satellite radio frequency band.

As described above, in one embodiment of the present invention, the first inductor pattern 201 having the inductor component is formed on one side of the lower side of the PCB substrate 110 to form the band blocking filter unit, and the PCB substrate 110 is formed. The first capacitor pattern 301 is formed in a rectangular pattern on one lower surface of the second capacitor pattern 302 in a loop-shaped pattern in which both ends are opened and left-symmetrically symmetrically formed on the other lower surface of the PCB substrate 110. To form.

At this time, the first inductor pattern 201 and the first to the second capacitor pattern (301,302) is formed of a conductor at the lower end of the PCB substrate 110 to be connected in parallel as in the equivalent circuit shown in FIG. A via hole 131 connecting the first inductor pattern 201 and the second capacitor pattern 302 is formed in the entire 120.

5 is a diagram illustrating an equivalent circuit of a low frequency bandpass filter unit according to an embodiment of the present invention.

As shown in the figure, an inductor and a capacitor are connected in series to constitute a low frequency bandpass filter unit for removing interference signals of a high frequency band close to a digital satellite radio frequency band among dual band frequencies in which a PCB antenna device according to the present invention operates. do.

As described above, in order to form the low frequency bandpass filter, the opening directions of the second to third inductor patterns 202 and 203 having the inductor component on the upper both sides of the PCB substrate 110 are different from each other. Each end is formed in an open loop-shaped pattern, and a third capacitor pattern 301 is formed in a rectangular pattern on an upper surface of the PCB substrate 110.

In this case, the second inductor pattern 202 and the third inductor pattern such that the second to third inductor patterns 202 and 203 and the third capacitor pattern 303 are connected in series as shown in FIG. 5. The via hole 141-1 connecting the 203 to form a spiral pattern as a whole is formed, and another via hole 141-2 connecting the third inductor pattern 203 and the antenna pattern 101 is formed. do.

As described above, the present invention includes a band-stop filter unit and a low-frequency band pass filter unit formed of a microstrip line, and a patch antenna and a signal interference operating in a digital satellite radio frequency band simultaneously arranged in the shark fin antenna device for a vehicle. Microstrip for preventing interference and preventing interference from occurring in a high frequency band relatively close to the digital satellite radio frequency band among the dual frequency bands in which the antenna pattern formed on the surface of the PCB substrate operates. There is an effect of providing a vehicle PCB antenna device having a line-filter.

The present invention has been described in detail so far, but the embodiments mentioned in the process are only illustrative and are not intended to be limiting, and the present invention is provided by the following technical model claims. However, within the scope not departing from the field, the component change of the degree that can be coped evenly will belong to the scope of the present invention.

1: Main board 10: Vehicle shark pin antenna device
11: patch antenna 12: vehicle PCB antenna
100: vehicle PCB antenna device 101: antenna pattern
110: PCB board 120: feeding part
130: band blocking filter unit 131: via hole
140: low frequency band pass filter 141-1,141-2: via hole
201, 202, and 203: first to third inductor patterns
301, 302, and 303: first to third capacitor patterns

Claims (10)

In the vehicle PCB antenna device which is disposed simultaneously on the main board formed with the feed circuit of the vehicle shark fin antenna device having a patch antenna operating in a digital satellite radio frequency band,
A PCB substrate having an antenna pattern operating in a dual frequency band formed on a surface thereof and formed in an upper vertical direction of the main board;
A feeding part formed of a conductor at a lower end of the PCB to electrically connect the antenna pattern and the feeding circuit of the main board; And
And a band blocking filter unit formed as a microstrip line between the antenna patterns so as to block the digital satellite radio frequency band signal in which the patch antenna operates. Automotive PCB Antenna Unit
The method of claim 1, wherein the band stop filter unit,
Signal interference prevention, characterized in that the first inductor pattern formed on one side of the lower side of the PCB substrate having an inductor component and the first to second capacitor patterns formed on both sides of the lower side of the PCB substrate and having a capacitor component Automotive PCB Antenna Unit with Microstrip Line Filter The method of claim 2, wherein the first inductor pattern and the first to second capacitor pattern,
A PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference, which is electrically connected to the lower end of the PCB board via a via hole provided in a feeder formed as a conductor.
The method according to claim 3,
The first capacitor pattern is formed in a rectangular pattern on the lower side of the PCB substrate, the second capacitor pattern is formed in a loop-shaped pattern that is open at both ends and symmetrical on the other side of the lower side of the PCB substrate. Automotive PCB antenna device with a microstrip line filter for preventing signal interference
The method of claim 4,
A PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference, characterized in that the capacitor capacity is adjusted by adjusting the height of the left-right symmetrical loop-shaped pattern forming the second capacitor pattern.
The method according to any one of claims 1 to 5,
A low frequency bandpass filter unit is formed between the antenna patterns including the band blocking filter unit to block a signal operating in a high frequency band relatively close to a digital satellite radio frequency band signal among dual frequency bands in which the antenna pattern operates. Automotive PCB antenna device having a microstrip line filter for preventing signal interference, characterized in that
The method of claim 6, wherein the low frequency bandpass filter unit,
Signal interference prevention, characterized in that the second to third inductor pattern formed on the upper both sides of the PCB substrate having an inductor component and the third capacitor pattern formed on the upper surface of the PCB substrate having a capacitor component Automotive PCB Antenna Unit with Microstrip Line Filter
The method of claim 7, wherein the second to third inductor pattern and the third capacitor pattern,
A PCB antenna device for a vehicle having a microstrip line filter for preventing signal interference, which is electrically connected through a via hole provided on an upper side of the PCB board.
The method according to claim 8,
The second inductor pattern and the third inductor pattern are formed in a loop-shaped pattern in which both ends with different opening directions are opened on both upper sides of the PCB substrate, and are connected to each other via the via holes to form a spiral pattern as a whole. Automotive PCB antenna device having a micro-strip line filter for preventing signal interference, characterized in that
The method of claim 1, wherein the antenna pattern operating in the dual frequency band,
Automotive PCB antenna device with microstrip line filter for signal interference prevention, characterized in that operating in the cellular frequency band (824MHz ~ 894MHz) and US-PCS frequency band (1.850GHz ~ 1.990GHz)

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