Claims
- 1. A fluid level sensor, comprising:a flexible printed circuit member rolled to form a cylinder having a seam where opposing rolled up ends of the flexible printed circuit member meet, and having substantially parallel, electrically isolated, annular conductive traces on the inner surface of the cylinder; an electrically conductive rod mounted within and substantially parallel to the cylinder; a buoyant member slidably mounted on the rod; a contact member mounted on the buoyant member and in abutting contact with the inner surface of the cylinder, wherein upon movement of the buoyant member the contact member contacts a conductive trace having a predetermined resistance.
- 2. The fuel level sensor of claim 1, the contact member includes a contact finger abutting the electrically conductive rod.
- 3. The fuel level sensor of claim 1, wherein the flexible printed circuit member includes resistive material electrically connected to the conductive traces.
- 4. The fuel level sensor of claim 1, wherein the flexible printed circuit member is composed of a polyimide film.
- 5. The fuel level sensor of claim 4, wherein the flexible printed circuit member is composed of a polyimide.
- 6. The fuel level sensor of claim 1, wherein the buoyant member is a nitrile rubber ebonite material.
- 7. The fuel level sensor of claim 6, wherein the buoyant member is composed of a nitrile rubber ebonite formulation.
- 8. The fuel level sensor of claim 1, wherein the contact member includes a first contact finger at a first end and a second contact finger at a second end, and the first contact finger and the second contact finger abut against the conductive traces.
- 9. The fuel level sensor of claim 1, wherein the conductive traces are formed with a gap distance between the conductive traces of approximately 0.010 inch.
- 10. The fuel level sensor of claim 1, wherein the resistive material includes a ceramic flip chip mounted to the cylinder.
- 11. The fuel level sensor of claim 10, wherein the flip chip includes a network of resistors forming multiple resistance values.
- 12. The fuel level sensor of claim 11, further comprising a plurality of flip chips.
- 13. The fuel level sensor of claim 12, wherein a single flip chip is electrically connected to a plurality of conductive traces, and each conductive trace attached thereto has a unique resistance due to electrical connection to the flip chip.
- 14. A method of making a fuel level sensor, comprising the steps of:providing a flexible, substantially flat, circuit member; forming a plurality of parallel, linear conductive traces on a surface of the circuit member; rolling up the circuit member parallel to the conductive traces to form a cylinder having annular conductive traces on the inner surface; attaching a network of resistive material to the circuit member and in electrical contact with the conductive traces so as to cause each conductive trace to have a different electrical resistance value; mounting a conductive rod within and parallel to the cylinder; mounting a slidable float onto the conductive rod; and attaching a contact member to the slidable float so that the contact member is in electrical contact with the conductive traces as the float slides along the conductive road.
- 15. A fluid level sensor, comprising:a rolled up flexible printed circuit member forming a cylinder; a plurality of substantially parallel, electrically isolated, annular conductive traces on the inner surface of the cylinder, an electrically conductive rod mounted within and substantially parallel to the cylinder and perpendicular to the plurality of conductive traces; a buoyant member slidably mounted on the conductive rod; a contact member mounted on the buoyant member that abuts the conductive traces as the buoyant member slides along the conductive rod; and a resistive network mounted to the cylinder and in electrical contact with the plurality of conductive traces so as to cause each conductive trace to have a different electrical resistance value.
- 16. The fluid level sensor of claim 15, wherein the resistive network comprises thick film resistors.
- 17. The fluid level sensor of claim 15, wherein each conductive trace is electrically connected to a resistive material giving each conductive trace a unique resistance.
- 18. The fluid level sensor of claim 15, wherein the resistive network comprises a plurality of flip-chips.
- 19. The fluid level sensor of claim 15, further comprising:a contact clip electrically connected to the conductive rod.
- 20. The fluid level sensor of claims 15, wherein said fluid level sensor is located inside a gas tank of an automotive vehicle.
Parent Case Info
This is a continuation application of application having Ser. No. 09/224,626, filed on Dec. 31, 1998, which has been abandoned.
US Referenced Citations (5)
Continuations (1)
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Number |
Date |
Country |
Parent |
09/224626 |
Dec 1998 |
US |
Child |
09/791326 |
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US |