KRAYESKI, Paul, D. (11195 Stone Creek Street, Wellington, FL, 33467, US)
ABBATE, Michael (7280 Anadale Circle, Lake Worth, FL, 33467, US)
HARTIGAN, Michael, J. (1260 SW 14th Drive, Boca Raton, FL, 33486, US)
NGUYEN, Anh (10454 Muirfield Road, Boynton Beach, FL, 33436, US)
MARKO, Paul (6320 SW 6 Street, Pembroke Pines, FL, 33023, US)
KRAYESKI, Paul, D. (11195 Stone Creek Street, Wellington, FL, 33467, US)
ABBATE, Michael (7280 Anadale Circle, Lake Worth, FL, 33467, US)
HARTIGAN, Michael, J. (1260 SW 14th Drive, Boca Raton, FL, 33486, US)
NGUYEN, Anh (10454 Muirfield Road, Boynton Beach, FL, 33436, US)
| We claim:
CLAIMS
1. An antenna arrangement for a frequency modulated modulator that intentionally modulates and transmits a source signal to a frequency modulated radio receiver in a vehicle, comprising: a portable audio source; a frequency modulator coupled to the audio source; a coaxial transmission line coupled to the frequency modulator; and a frequency modulated antenna coupled to the coaxial transmission line, wherein the coaxial transmission line is of sufficient length to enable the placement of the frequency modulated antenna substantially close to a frequency modulated radio receive antenna coupled to the frequency modulated radio receiver in the vehicle.
2. The antenna arrangement of claim 1, wherein the portable audio source and the frequency modulator are co- located in a single unit.
3. The antenna arrangement of claim 1, wherein the antenna arrangement further comprises a control unit coupled to the portable audio source.
4. The antenna arrangement of claim 3, wherein the portable audio source, the frequency modulator, and the control unit are co-located in a single unit.
5. The antenna arrangement of claim 1, wherein the portable audio source is a satellite radio receiver or a portable digital music player and recording device.
6. The antenna arrangement of claim 1, wherein the coaxial transmission line comprises a satellite digital radio receiver antenna and the frequency modulated antenna is in the form of a loop antenna that radiates the source signal .
7. The antenna arrangement of claim 1, wherein the coaxial transmission line comprises at least a first portion that splits and forms a satellite digital radio receiver antenna and a second portion that splits and forms the frequency modulated antenna that radiates the source signal.
8. The antenna arrangement of claim 1, wherein the antenna arrangement further comprises a ferrite choke on the coaxial transmission line.
9. The antenna arrangement of claim 1, wherein the frequency modulated antenna is placed on a front or rear windshield near a radio frequency modulated receive antenna embedded within the front or rear windshield.
10. The antenna arrangement of claim 1, wherein the frequency modulated antenna is placed on a front or rear windshield of the vehicle near an external radio frequency modulated received antenna.
11. The antenna arrangement of claim 1, wherein the antenna arrangement further comprises a cigarette lighter adaptor that provides power to the frequency modulator and the portable audio source and further provides audio signals from the audio source to the frequency modulator.
12. An antenna arrangement for a frequency modulated modulator that intentionally modulates and transmits a source signal to a frequency modulated radio receiver in a vehicle, comprising: a satellite radio receiver; a frequency modulator coupled to the satellite radio receiver; a cigarette lighter adaptor that provides power to the frequency modulator and the satellite radio receiver and provides audio signals from the satellite radio receiver to the frequency modulator; a coaxial transmission line coupled to the frequency modulator; and a frequency modulated antenna coupled to the coaxial transmission line, wherein the coaxial transmission line is of sufficient length to enable the placement of the frequency modulated antenna substantially close to a frequency modulated radio receive antenna coupled to the frequency modulated radio receiver in the vehicle.
13. The antenna arrangement of claim 12, wherein the coaxial transmission line comprises a satellite digital radio receiver antenna and the frequency modulated antenna is in the form of a loop antenna that radiates the source signal .
14. The antenna arrangement of claim 13, wherein the cigarette lighter adapter further provides audio signals from the satellite digital radio receiver antenna to the satellite radio receiver.
15. The antenna arrangement of claim 12, wherein the coaxial transmission line comprises at least a first portion that splits and forms a satellite digital radio receiver antenna and a second portion that splits and forms the frequency modulated antenna that radiates the source signal.
16. The antenna arrangement of claim 12, wherein the antenna arrangement is intended to be user installable within the vehicle.
17. The antenna arrangement of claim 12, wherein the frequency modulated antenna is placed on a front or rear windshield near a radio frequency modulated receive antenna embedded within the front or rear windshield.
18. The antenna arrangement of claim 12, wherein the frequency modulated antenna is placed on a front or rear windshield of the vehicle near an external radio frequency modulated received antenna.
19. A method of frequency modulating an audio source in a vehicle environment toward a frequency modulated receive antenna forming a part of the vehicle environment, comprising the steps of: intentionally frequency modulating the audio source forming a modulated signal at a frequency modulator; radiating the modulated signal from a frequency modulated transmit antenna at a location remote from the frequency modulator; and placing the frequency modulated transmit antenna in substantially close proximity to the frequency modulated receive antenna.
20. The method of claim 19, wherein the method further comprises receiving a satellite radio signal that provides the audio source at a satellite radio antenna coupled to the frequency modulated transmit antenna. |
REMOTE FM MODULATION ANTENNA ARRANGEMENT
FIELD OF THE INVENTION
[0001] The invention relates generally to antenna arrangements, and more particularly to an antenna arrangement for use with frequency modulated (FM) modulators in a vehicle environment.
BACKGROUND OF THE INVENTION
[0002] Intentional FM radiators must meet FCC emissions limit of 48dBuV/m at 3 meters. One way to achieve these limits is to reduce the radiated power from the modulator. Typical wireless FM modulators either integrate the FM radiating antenna with the audio source device or utilize the device wiring as the FM radiating antenna. The problem with these approaches is that the FM modulator is normally co-located with the audio source and mounting location of the device which is within reach of the driver. This approach does not allow for optimally locating the FM radiating antenna in close proximity to the FM radio receive antenna to maximize FM capture.
[0003] Devices that currently serve as audio sources for FM modulators include MP3 players and satellite radios among other devices. Satellite radio operators are providing digital radio broadcast services covering the entire continental United States. These services offer
approximately 100 channels that include music, news, sports, talk and data channels. Digital radio may also be available in the near future from conventional analog radio broadcasters that will provide a terrestrial based system using signals co-located in the AM and FM bands. Satellite radios typically use a quadrifilar type antenna that needs to have direct exposure to a signal transmitted from a satellite .
SUMMARY OF THE INVENTION
[0004] Thus, embodiments in accordance with the invention attempt to achieve a lower path loss between the intentional FM radiation source and the vehicle FM radio antenna to maximize the opportunity for signal capture at the FM receiver. Such embodiments can include a simplified end user installation scheme .
[0005] In a first aspect of the present invention, an antenna arrangement for a frequency modulated modulator that intentionally modulates and transmits a source signal to a frequency modulated radio receiver in a vehicle can include a portable audio source, a frequency modulator coupled to the audio source, a coaxial transmission line coupled to the frequency modulator, and a frequency modulated antenna coupled to the coaxial transmission line where the coaxial transmission line is of sufficient length to enable the placement of the frequency modulated antenna substantially close to a frequency modulated radio receive antenna coupled to the frequency modulated radio receiver in the vehicle. The portable audio source and the frequency modulator can be co-located in a single unit. The antenna arrangement can further include a control unit coupled to the portable audio
source that can also be co-located with the portable audio source and the frequency modulator in a single unit. The portable audio source can be a satellite radio receiver or a portable digital music player and recording device. The coaxial transmission line can be a satellite digital radio receiver antenna and the frequency modulated antenna can be a loop antenna that radiates the source signal. The coaxial transmission line can be at least a first portion that splits and forms a satellite digital radio receiver antenna and a second portion that splits and forms the frequency modulated antenna that radiates the source signal. As noted above, the antenna arrangement can be user installable within the vehicle. The antenna arrangement can include a ferrite choke on the coaxial transmission line. The frequency modulated antenna can be placed on a front or rear windshield near a radio frequency modulated receive antenna embedded within the front or rear windshield.
Alternatively, the frequency modulated antenna can be placed on a front or rear windshield of the vehicle near an external radio frequency modulated received antenna. The antenna arrangement can further include a cigarette lighter adaptor that provides power to the frequency modulator and the portable audio source and further provides audio signals from the audio source to the frequency modulator. [0006] In a second aspect of the present invention, an antenna arrangement for a frequency modulated modulator that intentionally modulates and transmits a source signal to a frequency modulated radio receiver in a vehicle can include a satellite radio receiver, a frequency modulator coupled to the satellite radio receiver, a cigarette lighter adaptor that provides power to the frequency modulator and the
satellite radio receiver and provides audio signals from the satellite radio receiver to the frequency modulator, a coaxial transmission line coupled to the frequency modulator, and a frequency modulated antenna coupled to the coaxial transmission line where the coaxial transmission line is of sufficient length to enable the placement of the frequency modulated antenna substantially close to a frequency modulated radio receive antenna coupled to the frequency modulated radio receiver in the vehicle. The coaxial transmission line can be a satellite digital radio receiver antenna and the frequency modulated antenna can be in the form of a loop antenna that radiates the source signal. The coaxial transmission line can be at least a first portion that splits and forms a satellite digital radio receiver antenna and a second portion that splits and forms the frequency modulated antenna that radiates the source signal. The cigarette lighter adapter can provide audio signals from the satellite digital radio receiver antenna to the satellite radio receiver. As noted above, the antenna arrangement can be user installable within the vehicle. The frequency modulated antenna can be placed on a front or rear windshield near a radio frequency modulated receive antenna embedded within the front or rear windshield or the frequency modulated antenna can be placed on a front or rear windshield of the vehicle near an external radio frequency modulated received antenna.
[0007] In a third aspect of the present invention, a method of frequency modulating an audio source in a vehicle environment toward a frequency modulated receive antenna forming a part of the vehicle environment can include the steps of intentionally frequency modulating the audio source
forming a modulated signal at a frequency modulator, radiating the modulated signal from a frequency modulated transmit antenna at a location remote from the frequency modulator, and placing the frequency modulated transmit antenna in substantially close proximity to the frequency modulated receive antenna. The method can further include the step of receiving a satellite radio signal that provides the audio source at a satellite radio antenna coupled to the frequency modulated transmit antenna.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008] FIG. 1 illustrates a block diagram of a frequency modulated modulator in accordance with an embodiment of the present invention.
[0009] FIG. 2 illustrates an antenna arrangement in accordance with an embodiment of the present invention. [0010] FIG. 3 illustrates another antenna arrangement in accordance with an embodiment of the present invention. [0011] FIG. 4 is a block diagram of an antenna arrangement using a cigarette lighter adaptor in accordance with an embodiment of the present invention.
[0012] FIG. 5 is the antenna arrangement of FIG. 3 in a car as applied to an FM receive antenna embedded in a rear window in accordance with an embodiment of the present invention .
[0013] FIG. 6 is the antenna arrangement of FIG. 3 in a car as applied to an external FM receive antenna on a front portion of the car in accordance with an embodiment of the present invention.
[0014] FIG. 7 is the antenna arrangement of FIG. 3 in a car as applied to an external FM receive antenna on a rear
portion of the car in accordance with an embodiment of the present invention.
[0015] FIG. 8 is a flow chart illustrating a method of frequency modulating an audio source in a vehicle environment toward a frequency modulated receive antenna in accordance with an embodiment of the present invention.
DETAILED DESCRIPTION OF THE DRAWINGS
[0016] Referring to FIG. 1, a block diagram of an FM frequency modulator 10 as can be used with embodiments of the present invention is shown. The modulator 10 can include a digital audio input and interface 12 that can receive digital audio from an audio source such as an MP3 player or a satellite radio. The interface 12 can provide left and right inputs to a stereo modulator 14 which provides an output to an oscillator 16 that can be controlled by a frequency controlled FM frequency synthesizer 15. The output of the oscillator 16 can be amplified by amplifier 18 to provide an FM modulated output of the source signal or digital audio input. [0017] Referring to FIG. 2, the frequency modulator 10 is shown coupled to a portable audio source 22 in an antenna arrangement 20. The portable audio source can be a satellite radio having a user interface that an provide an audio signal as well as control signals for controlling the frequency of the modulator 10. The antenna arrangement 20 can further include a coaxial transmission line 23 coupling the FM modulator 10 to a remote FM transmit or radiating antenna 24. The antenna 24 can include a meandering line antenna suitable for transmitting in the FM range. As discussed above, previous antenna arrangements used just the
coaxial transmission line as the radiating element that generally radiated from all portions of the coaxial transmission line. Instead, the embodiment herein can reduce splattering transmissions from the coaxial transmission line 23 by utilizing a ferrite core or choke 21 to enable the desired coupling and enable focused radiation by the antenna 24. The FM transmit antenna 24 can be strategically placed near an FM vehicle receive antenna 26 in order to achieve a lower path loss between the intentional FM radiation source and the vehicle FM radio antenna and to maximize the opportunity for signal capture at the FM receiver 28. As shown, the FM receive antenna 26 can be coupled to the FM receiver 28 via another coaxial transmission line 25. Optionally, in the context of a satellite radio, the antenna arrangement can further include another coaxial transmission line 39 coupled to a satellite receive antenna 31. In this regard, the antenna 24 can include additional circuitry that amplifies the FM modulated signal (e.g., a linear amplifier) for transmission to the FM receive antenna 26 and that further amplifies the received satellite signal received at antenna 31 and send back via transmission lines 39 and 23 towards the device 22 (when the device 22 is a satellite radio receiver) .
[0018] Referring to FIG. 3, a similar antenna arrangement 30 to antenna arrangement 20 includes an audio source 32 having integrated therein the FM modulator 10 and a satellite receiver or tuner 34 serving as the source signal. The audio source 32 can also include an FM loop antenna 36 for radiating the source signal after it has been modulated. To reduce the chances of splatter by the internal FM loop antenna 36, the modulator 10 can be coupled to an
attenuator. Optionally, the attenuator can be made to significantly attenuate the FM modulated signal from antenna 36 when the audio source 32 is coupled to a car docking station 38 and when the car docking station 38 is coupled to the coaxial transmission line 23. The coaxial transmission line 23 can split into another coaxial transmission line portion 39 coupled to the satellite receive antenna 31 and split to another FM loop antenna 24 that can be strategically placed in close proximity to the vehicle FM receive antenna 26. The vehicle FM receive antenna 26 is coupled to the vehicle headunit 28 via transmission line 25.
The vehicle headunit can include an FM radio station tuner and complementary controls for changing such stations, altering the volume, equalizing, and performing other common functions found in car stereos.
[0019] Referring to FIG. 4, yet another antenna arrangement 40 is shown. In this embodiment, an audio source in the form of a satellite receiver 42 includes a power port 44 and audio port 46 that couples via a multi-wire connection to a satellite receive antenna 56 and an FM loop antenna 54 and modulator 54 via a cigarette lighter adaptor (CLA) 48. The CLA 48 can power the satellite receiver 42 via power port 44 and can serve to provide received signals from the satellite receive antenna 56 back to the satellite receiver 42 via audio port 46. Furthermore, the audio port 46 and CLA 48 can further provide audio signals to the FM modulator 52 for transmission via the FM loop antenna 54. Note, in this instance, that a transmission line 50 between the CLA 48 and the antennas 56 and 54 split off forming the satellite receive antenna 56 in one direction and the FM modulator 52 and FM loop antenna 54 in another direction. With this
embodiment, the FM modulator 52 and FM loop antenna 54 can be strategically place next to a vehicle FM receive antenna (not shown) . The antenna arrangement 40 can further include tunable capacitors or varactors 57 that can help tune the modulated signal from the FM modulator 52 to a desired frequency for reception by the vehicle FM receiver. [0020] Referring to FIGs. 5 through 7, various configurations of the antenna arrangement 30 are shown on a vehicle 50. In FIG. 5, the antenna arrangement 30 includes the audio source 32 coupled to the FM transmit or radiating antenna 24 via transmission line 23. The antenna 24 is strategically placed close to an FM receive antenna 26 that is embedded in a rear windshield 52 of the vehicle 50. The audio source 32 can also be coupled to a satellite receive antenna 31 via the coaxial transmission lines 23 and 39. Note, the coaxial transmission line 39 splits off from the coaxial transmission line 23 at the FM transmit antenna 24. As mentioned above, the FM transmit antenna 24 can include amplifiers for amplifying the FM modulated signal as well as the satellite receive signal. In FIG. 6, the audio source 32 is again coupled to the FM transmit antenna 24 via transmission line 23. In this instance, the antenna 24 is placed on a front windshield 54 of the vehicle 50 near an external FM receive antenna 26. In FIG. 7, similar to FIG. 5, the antenna arrangement 30 includes the audio source 32 coupled to the FM transmit antenna 24 via transmission line 23. The antenna 24 is strategically placed close to an FM receive antenna 26 that is near the rear windshield 52 of the vehicle 50 in the form of an aerial antenna. The audio source 32 can also be coupled to a satellite receive antenna 31 via the coaxial transmission lines 23 and 39. As before,
the coaxial transmission line 39 splits off from the coaxial transmission line 23 at the FM transmit antenna 24. [0021] Referring to FIG. 8, a method 80 of frequency modulating an audio source in a vehicle environment toward a frequency modulated receive antenna forming a part of the vehicle environment can include the step 82 of intentionally frequency modulating the audio source forming a modulated signal at a frequency modulator, radiating the modulated signal from a frequency modulated transmit antenna at a location remote from the frequency modulator at step 84, and placing the frequency modulated transmit antenna in substantially close proximity to the frequency modulated receive antenna at step 86. The method 80 can further include the step 88 of receiving a satellite radio signal that provides the audio source at a satellite radio antenna coupled to the frequency modulated transmit antenna. [0022] It should be realized that embodiments in accordance with the present invention can be realized in hardware, software, or a combination of hardware and software. In light of the foregoing description, it should also be recognized that embodiments in accordance with the present invention can be realized in numerous configurations contemplated to be within the scope and spirit of the claims. Additionally, the description above is intended by way of example only and is not intended to limit the present invention in any way, except as set forth in the following claims .
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