DE102015106858A1 - Collinear AM / FM and DSRC antenna - Google Patents

Abstract

A rod antenna assembly for a vehicle comprising an AM / FM rod antenna element for AM / FM signals and a WiFi or DSRC antenna element positioned at a tip of the rod, the antenna assembly mounted to a vehicle roof, and wherein the WiFi or DSRC antenna element extends over a roofline of the vehicle.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of US Provisional Patent Application Serial No. 61 / 987,729 entitled "Co-Linear AM / FM and DSRC Antenna", filed May 2, 2014.

BACKGROUND OF THE INVENTION

Field of the invention

This invention relates generally to a combined AM / FM and WiFi antenna assembly, and more particularly to a combined AM / FM and Dedicated Short Range Communications (DSRC) rod antenna assembly for a vehicle, wherein the rod antenna assembly is mounted on a vehicle roof is located and the DSRC system antenna is placed on top of the rod antenna assembly.

Discussion of the Prior Art

Traffic accidents and congested roads can pose significant problems for a vehicle ride. Active safety and driver assistance systems based on an ad hoc network for vehicles are known, which a vehicle communication system, for. Dedicated Short Range Communications (DSRC) systems, for example, allow sending messages to other vehicles in a particular area with warnings about dangerous road conditions, driving events, accidents, etc. These systems typically use Multihop geocast routing protocols to extend the reach of alerts; H. to submit active messages as part of a one-time multi-hop broadcasting process to vehicles a few miles away from the roadside condition. In other words, a first message informing drivers of a potentially dangerous road condition is sent from vehicle to vehicle using a geogast routing protocol so that significantly distant vehicles receive the messages because the range of a vehicle's transmission range is usually relatively short is.

Vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication systems collectively known as V2X of the type described herein require at least one entity to send information to another entity. For example, many vehicle-to-vehicle safety applications may be performed on a vehicle by simply receiving emitted messages from an adjacent vehicle. These messages are not directed to a specific vehicle, but are to be shared with a vehicle population. If collision avoidance is desirable because two or more vehicles are communicating with one another and a collision is likely to occur, the systems may alert the vehicle drivers or, where appropriate, perform evasive maneuvers for the driver in these types of applications, e.g. B. an actuation of the brakes. Similarly, traffic monitoring units can monitor the transmission of information and generate traffic flow statistics at a particular intersection or road.

Modern vehicles use various and many types of antennas to receive and transmit signals for various communication systems, such as terrestrial radio (AM / FM), mobile telephone, satellite radio, DSRC, GPS, etc. Frequently, antennas used for these systems are mounted on a roof of a vehicle to provide maximum receive power. In addition, many of these antennas are often integrated into a common structure and housing mounted to the roof of the vehicle.

The design and style of a vehicle often requires a vehicle roof with a curved configuration. It is known to mount the antenna for a DSRC system on the rear part of the vehicle roof. In this configuration, the DSRC antenna may be at least partially obstructed by a forward view due to a raised center portion of the vehicle roof, thereby reducing antenna performance as more radiation comes from the antenna from the rear of the vehicle and less radiation from the front of the vehicle.

BRIEF SUMMARY OF THE INVENTION

The present invention describes a rod antenna assembly for a vehicle including an AM / FM rod antenna for AM / FM signals and a WiFi antenna element such as a DSRC antenna element disposed on a tip of the rod antenna assembly, the antenna assembly on a vehicle roof is attached and wherein the DSRC antenna element extends over a roof line of the vehicle.

Further features of the present invention will become apparent from the following description and the appended claims, taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

1 Figure 11 is an isometric rear view of a vehicle incorporating a known antenna assembly with an AM / FM rod antenna.

2 FIG. 12 is a side profile of a vehicle-mounted antenna assembly including an AM / FM rod antenna and a DSRC antenna element positioned at the tip of the rod; FIG. and

3 FIG. 12 is a side view of a DSRC antenna element that is different from the one in FIG 2 is separated antenna assembly.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The following discussion of the embodiments of the invention directed to an antenna assembly comprising an AM / FM rod antenna and a WiFi antenna, such as an antenna. A DSRC antenna attached to a tip of the wand is merely exemplary and is not intended to limit the invention or its applications or uses in any way. For example, the discussion herein is specific to a vehicle antenna assembly. However, the antenna assembly may find application on other mobile platforms.

1 is an isometric rear view of a vehicle 10 , which is a curved vehicle roof 12 contains, with a front and a rear section of the roof 12 lower than a middle section of the roof 12 are. An antenna assembly 14 is at the rear section of the roof 12 directly above a rear window 16 of the vehicle 10 appropriate. The antenna assembly 14 contains a base section 18 and a staff 20 , In some of the known antenna designs with this configuration, the wand contains 20 usually a radiating antenna element for AM / FM radio reception and may be the base section 18 to record one or more other antenna elements that support mobile phones, satellite radio, GPS, DSRC, etc. The rod 20 extends over the roof 12 of the vehicle 10 and therefore has a good line of sight to the front of the vehicle 10 about the curvature of the vehicle 12 , The base section 18 However, it is in close proximity to the roof 12 attached and therefore can be under the highest part of the roof 12 lie, causing the antenna radiation to the front of the vehicle 10 possibly blocked. For those antenna elements whose antenna pattern is directed upwards for transmission and reception, e.g. B. satellite radio and GPS, represents the curvature of the roof 12 may not be a performance issue. For those terrestrial-based applications, such as As mobile phones that operate at a relatively low frequency, the curvature of the roof affects 12 less on a blockade of the antenna radiation pattern. For those antennas such. B. WiFi and DSRC antennas, with other vehicles on the same road and infrastructure along the road with a relatively low frequency such. B. 5.9 GHz in V2X communication systems communicate, the curved vehicle roof 12 the radiation effect of the antenna in a forward direction of the vehicle 10 reduce, which could lead to performance problems. It is noted that the DSRC protocol is also called IEEE 802.11p is known, the part of the IEEE 802.11 "WiFi" -Drahtlosprotokolls is. Although the present invention is described herein with specific reference to the DSRC protocol ( IEEE 802.11p ), the invention is not limited to this specific wireless protocol and is found in others IEEE 802.11 WiFi protocols Application.

2 is a side view of an antenna assembly 30 standing at a roof tile 32 a vehicle is mounted, wherein the antenna assembly 30 with respect to the forward direction of the vehicle at a certain angle such. B. 70 ° is inclined backwards. The antenna assembly 30 is inside an opening 34 in the roof panel 32 attached, for example using a seal 36 , an O-ring or a washer 38 , the outside of the roof panel 32 is positioned, and a fastening nut 40 that are inside the roof gap 32 the vehicle is positioned as shown. The antenna assembly 30 contains a base section 50 , the seal 36 is attached adjacent, and a wide rod portion 52 , the opposite of the seal 36 at the base section 50 attached as shown. A narrow bar section 54 is opposite the base section 50 at the broad stipe section 52 attached and a top section 56 is opposite the wide bar section 52 at the narrow bar section 54 appropriate.

The antenna assembly 30 includes a number of antenna elements configured and positioned to receive and transmit signals at the desired wavelength for the particular application. For example, the base section takes 50 one or more radiating antenna elements for any combination of mobile telephone antenna elements, GPS antenna elements, satellite radio antenna elements, etc., all of which are patch-type antenna elements that support the particular frequency band for the application. In one non-limiting embodiment, the wide rod section takes 52 a digital audio broadcast (DAB) antenna element of suitable length for DAB signals as may be used in Europe. The narrow bar section 54 encloses a rod antenna element such as a unipolar or bipolar Antenna of suitable length for broadcasting in terrestrial AM and / or FM radio. The top section 56 picks up a WiFi antenna element such as a DSRC antenna element and therefore extends far enough over the roof panel 32 so that the DSRC antenna element is visible on reasonably curved vehicle roofs from the front of the vehicle. In an alternative embodiment, the DAB antenna element may be placed on top of the AM / FM antenna element so that it is adjacent to the DSRC antenna element.

It is noted that the antenna assembly of the present invention is discussed herein as being mounted to the vehicle roof. However, rod antennas are sometimes also on other vehicle structures such. B. vehicle bumpers attached. The present invention applies to other types of bar antennas mounted on various vehicle structures, with the DSRC antenna within the wide bar section 52 or narrow bar section 54 is appropriate.

The antenna elements are inside the antenna assembly 30 and the outer case packaged and configured accordingly for the particular application. Each antenna element would be electrically connected to a suitable conductor so that signals to be transmitted are provided to the particular antenna element, and signals received from the particular antenna element are transmitted to the receiver (not shown). For example, a connector assembly 60 provided for the DAB antenna element is a connector assembly 62 for the AM / FM antenna element and is a connector assembly 64 provided for the DSRC antenna element. Although not specifically shown, connections would also be provided for any or all of the mobile telephone antenna element, GPS antenna element and satellite radio antenna element. A connector 66 is also used to provide a voltage potential to a low noise amplifier (LNA) (not shown) for the AM / FM antenna element. Other coaxial cables and / or wires may also be used for other wireless services, such as: GPS or SiriusXM ^™ satellite radio.

It is known in the art that various DSRC and WiFi technologies implement multiple antennas. Such antennas may support additional radio or support myriad different functions for a single radio. In addition to the antennas discussed above, the antenna assembly 30 also support a secondary or diversity antenna element for these purposes. The diversity or secondary DSRC / WiFi antenna element may be in any of the base section 50 , of the broad bar section 52 and the narrow bar section 54 be arranged. A separate coaxial cable (not shown) may be provided from the diversity or secondary antenna element to the separate radio or to a secondary or diversity antenna input of the DSRC radio. The secondary input to the DSRC radio could also be used for a non-safety channel of the DSRC system, while the primary antenna element is dedicated to a safety only channel of the DSRC system.

The diversity or secondary antenna element for the DSRC radio may also be used in a transmit mode when the secondary antenna element is used to fill radiation gaps that may occur due to radiation limitations of the primary antenna element. The combination of two antenna elements allows the DSRC system to optimize radiated power levels while meeting all power requirements.

The WiFi or primary and secondary DSRC antenna elements may be any suitable antenna element for the purposes discussed herein, e.g. For example, an antenna element operating at 5.9 GHz for a V2X communication system. 3 is a side view of a coaxial Sperrtopfantenne 70 , which is suitable for a DSRC antenna element, wherein the antenna 70 within the top section 56 would be appropriate. The antenna 70 contains a coaxial cable 72 working on an antenna base 74 is attached, the cable 72 an outer conductor 76 and an inner conductor 78 contains, which is different from the carrier 74 extends as shown. The length of the inner conductor 78 that is different from the carrier 74 extends, forms the radiating element of the antenna 70 and is set to the desired length for the particular frequency band of interest.

As those skilled in the art will appreciate, I can refer to the several and various steps and processes discussed herein to describe the invention to operations performed by a computer, processor, or other electronic computing device that uses data manipulate and / or transform the electrical phenomenon. These computers and electronic devices may utilize various volatile and / or non-volatile memory, including a non-transitory computer-readable medium having stored therein an executable program containing various codes or executable instructions that may be executed by the computer or processor. wherein the memory and / or the computer-readable medium may comprise all forms and types of memories and other computer-readable medium.

The foregoing discussion discloses and describes merely exemplary embodiments of the present invention. Those skilled in the art will readily recognize from the discussion and accompanying drawings and claims that various changes, modifications and variations can be made therein without departing from the spirit and scope of the invention as defined in the following claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• IEEE 802.11p [0013]
• IEEE 802.11 "WiFi" wireless protocol [0013]
• IEEE 802.11p [0013]
• IEEE 802.11 WiFi protocols [0013]

Claims (10)

An antenna assembly operable to be mounted on a structure, the antenna assembly comprising: A base portion configured to be attached adjacent to the structure; A rod including a lower end attached to this base portion and an upper end facing the base portion, the rod including at least one AM and / or FM antenna element; and A tip portion, which is connected to the base portion opposite to the rod, wherein the tip portion includes a primary WiFi antenna element.  The antenna assembly of claim 1, wherein the primary WiFi antenna element is a Dedicated Short Range Communications (DSRC) system antenna element.  The antenna assembly of claim 1, wherein the primary WiFi antenna element is a coaxial baffle antenna element.  The antenna assembly of claim 1, wherein the base portion includes at least one antenna element.  The antenna assembly of claim 4, wherein the base portion includes a plurality of antenna elements.  The antenna assembly of claim 5, wherein the plurality of antenna elements comprises one or more of a mobile telephone antenna element, a satellite radio antenna element, a GPS antenna element, and a secondary WiFi antenna element.  The antenna assembly of claim 1, further comprising a secondary WiFi antenna element.  The antenna assembly of claim 7, wherein the secondary WiFi antenna element is a diversity antenna element.  The antenna assembly of claim 1, wherein the rod includes a first rod portion and a second rod portion, wherein the first rod portion includes the AM / FM antenna element and the second rod portion includes a digital audio broadcast (DAB) antenna element.  The antenna assembly of claim 9, wherein the first rod portion is connected to the base portion, the second rod portion is connected to the first rod portion, and the tip portion is connected to the second rod portion.

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