External Microphone Combined with a Heating System

Abstract

A surface vehicle includes a microphone detecting sounds originating outside of the surface vehicle. A heating element is mounted in association with the microphone and provides heat for preventing accumulation of ice near the microphone wherein the ice accumulation would degrade an ability of the microphone to detect sounds originating outside of the surface vehicle.

Claims

1. A surface vehicle, comprising: a microphone configured to detect sounds originating outside of the surface vehicle; and a heating element mounted in association with the microphone and configured to provide heat for preventing accumulation of ice near the microphone wherein the ice accumulation would degrade an ability of the microphone to detect sounds originating outside of the surface vehicle.

2. The surface vehicle of claim 1 wherein the heating element comprises an electrical heating element.

3. The surface vehicle of claim 1 further comprising a vehicle body, the microphone and heating element being disposed within the body, the body including a through-hole, the microphone being configured to receive the sounds originating outside of the surface vehicle via the through-hole, the heating element being configured to provide heat for preventing accumulation of ice in the through-hole.

4. The surface vehicle of claim 3 further comprising a microphone membrane disposed between the microphone and the vehicle body.

5. The surface vehicle of claim 1 further comprising a housing enclosing the microphone, the heating element being embedded within a wall of the housing.

6. The surface vehicle of claim 1 further comprising a printed circuit board electrically connected to both the microphone and to the heating element, the printed circuit board being disposed between the microphone and the heating element.

7. The surface vehicle of claim 6 wherein the printed circuit board includes a through-hole, the microphone being configured to receive the sounds originating outside of the surface vehicle via the through-hole.

8. A method of operating a microphone in a surface vehicle, the method comprising: using the microphone to detect sounds originating outside of the surface vehicle; mounting a heating element in association with the microphone; and energizing the heating element to provide heat that prevents accumulation of ice near the microphone wherein the ice accumulation would degrade an ability of the microphone to detect sounds originating outside of the surface vehicle.

9. The method of claim 8 wherein the heating element comprises an electrical heating element.

10. The method of claim 8 further comprising: installing the microphone and heating element within a body of the surface vehicle, the body including a through-hole; receiving the sounds originating outside of the surface vehicle at the microphone via the through-hole, the heating element providing heat for preventing accumulation of ice in the through-hole.

11. The method of claim 10 further comprising providing a microphone membrane between the microphone and the vehicle body.

12. The method of claim 8 further comprising enclosing the microphone in a housing, the heating element being embedded within a wall of the housing.

13. The method of claim 8 further comprising electrically connecting a printed circuit board to both the microphone and to the heating element, the printed circuit board being disposed between the microphone and the heating element.

14. The method of claim 13 wherein the printed circuit board includes a through-hole, the microphone receiving the sounds originating outside of the surface vehicle via the through-hole.

15. A microphone arrangement for a surface vehicle, the microphone arrangement comprising: a microphone configured to detect sounds originating outside of the surface vehicle; a printed circuit board electrically connected to the microphone; and a housing substantially enclosing the microphone and the printed circuit board, the housing including a wall having a heating element embedded therein, the printed circuit board being disposed between the microphone and the wall having the heating element embedded therein.

16. The surface vehicle of claim 15 wherein the heating element comprises an electrical heating element.

17. The surface vehicle of claim 15 further comprising a vehicle body, the microphone, printed circuit board and housing being disposed within the body, the body including a through-hole, the microphone being configured to receive the sounds originating outside of the surface vehicle via the through-hole, the heating element being configured to provide heat for preventing accumulation of ice in the through-hole.

18. The surface vehicle of claim 17 further comprising a microphone membrane disposed between the microphone and the vehicle body.

19. The surface vehicle of claim 15 wherein the printed circuit board is electrically connected to the heating element.

20. The surface vehicle of claim 15 wherein the printed circuit board includes a through-hole, the microphone being configured to receive the sounds originating outside of the surface vehicle via the through-hole.

21. A microphone arrangement for a surface vehicle, the microphone arrangement comprising: a microphone configured to detect sounds originating outside of the surface vehicle; and a printed circuit board electrically connected to the microphone, the printed circuit board having a heating element attached thereto.

22. The surface vehicle of claim 21 wherein the heating element comprises an electrical coil heating element.

23. The surface vehicle of claim 22 wherein the electrical coil heating element is arranged substantially concentrically around the microphone.

24. The surface vehicle of claim 21 further comprising a vehicle body, the microphone and printed circuit board being disposed within the body, the body including a through-hole, the microphone being configured to receive the sounds originating outside of the surface vehicle via the through-hole, the heating element being configured to provide heat for preventing accumulation of ice in the through-hole.

25. The surface vehicle of claim 24 further comprising a microphone membrane disposed between the microphone and the vehicle body.

26. The surface vehicle of claim 21 wherein the printed circuit board includes a through-hole, the microphone being configured to receive the sounds originating outside of the surface vehicle via the through-hole.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] The above-mentioned and other features and objects of this invention, and the manner of attaining them, will become more apparent and the invention itself will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings, wherein:

[0011] FIG. 1 is a schematic diagram of one embodiment of a surface vehicle including a heated microphone arrangement of the present invention.

[0012] FIG. 2 is a cross-sectional schematic diagram of the heated microphone arrangement of the surface vehicle of FIG. 1.

[0013] FIG. 3 is a perspective view of another embodiment of the circuit board of the arrangement of FIG. 2, wherein the heating element is embedded within the circuit board.

[0014] FIG. 4 is a cross-sectional schematic diagram of another embodiment of a heated microphone arrangement of the present invention incorporating the circuit board of FIG. 3.

[0015] FIG. 5 is a flow chart of one embodiment of a method of the present invention for operating a microphone in a surface vehicle.

DETAILED DESCRIPTION

[0016] The embodiments hereinafter disclosed are not intended to be exhaustive or limit the invention to the precise forms disclosed in the following description. Rather the embodiments are chosen and described so that others skilled in the art may utilize its teachings.

[0017] FIG. 1 illustrates one embodiment of a surface vehicle 10 including a heated microphone arrangement 12 of the present invention. Surface vehicle 10 also includes an electronic processor 14 communicatively coupled to heated microphone arrangement 12 and to a higher-level control unit 38. Surface vehicle 10 further includes a body 16 within which electronic processor 14 and heated microphone arrangement 12 may be contained. Heated microphone arrangement 12 may include one or more heating elements 28 associated with a microphone 18.

[0018] FIG. 2 illustrates heated microphone arrangement 12 in more detail.

[0019] Heated microphone arrangement 12 includes microphone 18 attached to a printed circuit board 20 having a through-hole 21. Both microphone 18 and printed circuit board 20 are enclosed within a housing or case 22 having an upper housing 24 and a lower housing 26. Although housing 26 is referred to herein as a “lower housing”, and housing 24 is referred to herein as an “upper housing”, lower housing 26 is shown in the embodiment of FIG. 2 as being disposed in a laterally outward direction relative to upper housing 24. Embedded in lower housing 26 may be one or more heating elements 28, which may be one or more heating wires. Heating wire(s) 28 may wind through lower housing 26 in a serpentine pattern, for example. Heating wire(s) 28 may receive electrical current from a battery or other voltage and current source (not shown) of vehicle 10 via printed circuit board 20. Heating wire(s) 28 may be electrically connected to or controlled by processor 14.

[0020] Body 16 separates and protects heated microphone arrangement 12 from an ambient environment 30 which may be cold, icy and/or wet. Body 16 may also retain the heat from heating elements 28 on an inner side 32 of body 16. Body 16 may include a through-hole in the form of a microphone port 34 through which microphone 18 may receive sound from the ambient environment. A microphone membrane 36 interfaces between and interconnects outer wall 26 and body 16 and protects microphone 18 from direct exposure to the outside environment.

[0021] During use, microphone 18 receives sound from outside vehicle 10 via microphone port 34, through membrane 36, through a through-hole 33 in lower housing 26, and through through-hole 21. In response to detecting the sound, microphone 18 transmits microphone signals to processor 14, wherein the signals are indicative of the sounds that microphone 18 detects through microphone port 34. In the event that processor 14 recognizes the sound of a siren in the microphone signals, processor 14 may send the sensor data to higher-level control unit 38, where the siren data is processed and decisions are made to yield to an emergency vehicle.

[0022] In one embodiment, heating element(s) 28 operate (e.g., draw current from a battery of vehicle 10) continuously while the ignition switch (not shown) is ON. In another embodiment, processor 14 turns ON heating element(s) 28 only when an ambient temperature sensor (not shown) indicates to processor 14 that the ambient temperature is at or below freezing (32 degrees Fahrenheit). In either embodiment, heating element(s) 28 may provide enough heat to body 16 to prevent any ice or snow from accumulating in, or blocking, microphone port 34 down to an ambient temperature of about −40 degrees Fahrenheit.

[0023] In another embodiment, the heating element is attached to the printed circuit board rather than being embedded in the housing. FIG. 3 illustrates an embodiment of such a printed circuit board 320 wherein a heating element 328 may be embedded within circuit board 320. Heating element 328 is applied to an underside of printed circuit board 320 (e.g., a side of printed circuit board 320 that is visible in FIG. 3 and that is opposite from the side to which the microphone is attached and is electrically connected). Circuit board 320 includes a hole or port 340 for receiving a microphone element (not shown). The microphone element may receive sounds from outside the vehicle through port 340. A positive voltage trace 342 is arranged in a helical pattern around port 340 and the microphone therein. A ground return trace 344 is also arranged in a helical pattern around port 340 and the microphone therein. A junction point 346 is where positive voltage trace 342 and ground return trace 344 are co-terminated (e.g., are electrically connected together).

[0024] Printed circuit board 320 may be incorporated in a heated microphone arrangement 312 (FIG. 4) including a microphone 318 attached to printed circuit board 320 and receiving acoustic input through port 340. Both microphone 318 and printed circuit board 320 are enclosed within a housing or case 322 having an upper housing 324 and a lower housing 326. Although housing 326 is referred to herein as a “lower housing”, and housing 324 is referred to herein as an “upper housing”, lower housing 326 is shown in the embodiment of FIG. 4 as being disposed in a laterally outward direction relative to upper housing 324. The sound transmission path to microphone 318 begins outside the vehicle body 316, enters through port 334, passes through membrane 336, through a through-hole 333 in lower housing 326, and through through-hole 340.

[0025] FIG. 5 illustrates one embodiment of a method 500 of the present invention for operating a microphone in a surface vehicle. In a first step 502, the microphone is used to detect sounds originating outside of the surface vehicle. For example, microphone 18 may receive sound from the ambient environment through microphone port 34.

[0026] Next, in step 504, a heating element is mounted in association with the microphone. For example, heating element 28 is embedded in lower housing 26 of a case 22 that contains microphone 18.

[0027] In a final step 506, the heating element is energized to provide heat that prevents accumulation of ice near the microphone wherein the ice accumulation would degrade an ability of the microphone to detect sounds originating outside of the surface vehicle. For example, heating element 28 may be electrically energized by a battery of the surface vehicle to provide heat that prevents accumulation of ice in through-holes 21, 33 and 34. Ice accumulation in through-holes 21, 33 and 34 would block sounds from the ambient environment from reaching microphone 18.

[0028] While this invention has been described as having an exemplary design, the present invention may be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains.