Perspiration sensor

The invention claimed is: 1. A perspiration sensor comprising: a first electrode positioned a predefined distance from a second electrode defining a dielectric space between the first electrode and the second electrode; a moisture absorbent dielectric material positioned in the dielectric space between the first electrode and the second electrode; at least one inlet enabling moisture from outside the dielectric space to enter the dielectric space and become absorbed by the moisture absorbent material; a skin electrode and an adhesive layer configured for adhering the skin electrode to a skin portion of a user whereby the skin electrode is capacitively coupled to the skin portion of the user, and wherein the skin electrode is electrically connected to the moisture absorbent material; a polymer material encapsulating at least a portion of the perspiration sensor; and wherein the perspiration sensor includes one or more loops extending from a peripheral edge of the perspiration sensor and the polymer material at least partially extends into an opening in at least one loop. 2. The perspiration sensor according to claim 1 wherein the moisture absorbent material includes a tufted microfiber cloth. 3. The perspiration sensor according to claim 1 wherein the moisture includes perspiration. 4. The perspiration sensor according to claim 1 wherein the polymer material forms channels in at least one surface of the perspiration sensor to direct moisture to the at least one inlet of the perspiration sensor. 5. The perspiration sensor according to claim 1 wherein the polymer material includes silicone. 6. A perspiration sensor comprising: a first electrode positioned a predefined distance from a second electrode defining a dielectric space between the first electrode and the second electrode wherein: the first electrode is mounted to a non-conducting first substrate layer; the second electrode is mounted to a non-conducting third substrate layer; and the first substrate layer is separated from the third substrate layer by a non-conducting second substrate layer; a moisture absorbent dielectric material positioned in the dielectric space between the first electrode and the second electrode; at least one inlet enabling moisture from outside the dielectric space to enter the dielectric space and become absorbed by the moisture absorbent material; and a skin electrode and an adhesive layer configured for adhering the skin electrode to a skin portion of a user whereby the skin electrode is capacitively coupled to the skin portion of the user, and wherein the second substrate layer includes a third electrode and the third electrode connects the skin electrode to the moisture absorbent material in the dielectric space. 7. The perspiration sensor according to claim 6 wherein the second substrate layer has a predefined thickness that defines a distance between the first electrode and the second electrode. 8. The perspiration sensor according to claim 6 wherein the non-conducting first substrate layer includes an epoxy fiberglass material, the non-conducting second substrate layer includes an epoxy fiberglass material, and the non-conducting third substrate layer includes an epoxy fiberglass material. 9. The perspiration sensor according to claim 6 wherein the non-conducting first substrate layer includes a polyimide material, the non-conducting second substrate layer includes a polyimide material, and the non-conducting third substrate layer includes a polyimide material. 10. The perspiration sensor according to claim 6 wherein the second substrate layer forms a ring that defines the dielectric space. 11. The perspiration sensor according to claim 6 wherein at least one of the first substrate layer and the second substrate layer include an outlet to enable air contained in the dielectric space to escape as moisture enters the dielectric space. 12. The perspiration sensor according to claim 6 further comprising an integrated circuit coupled to the first substrate layer and electrically connected to the first electrode and the second electrode; and wherein the integrated circuit receives a signal from the first electrode and the second electrode and outputs a digital signal as a function of the received signal. 13. A perspiration sensor comprising: a first electrode positioned a predefined distance from a second electrode defining a dielectric space between the first electrode and the second electrode wherein: the first electrode is mounted to a non-conducting first substrate layer; the second electrode is mounted to a non-conducting third substrate layer; and the first substrate layer is separated from the third substrate layer by a non-conducting second substrate layer; a moisture absorbent dielectric material positioned in the dielectric space between the first electrode and the second electrode; at least one inlet enabling moisture from outside the dielectric space to enter the dielectric space and become absorbed by the moisture absorbent material; and a skin electrode and an adhesive layer configured for adhering the skin electrode to a skin portion of a user whereby the skin electrode is capacitively coupled to the skin portion of the user, and wherein the skin electrode is electrically connected to the moisture absorbent material; and wherein the first substrate layer includes an insulating mask that enables the first electrode to be in intimate contact with the moisture absorbent material and the second substrate layer includes an insulating mask that enables the second electrode to be in intimate contact with the moisture absorbent material. 14. The perspiration sensor according to claim 13 wherein the second substrate layer has a predefined thickness that defines a distance between the first electrode and the second electrode. 15. The perspiration sensor according to claim 13 wherein the non-conducting first substrate layer includes an epoxy fiberglass material, the non-conducting second substrate layer includes an epoxy fiberglass material, and the non-conducting third substrate layer includes an epoxy fiberglass material. 16. The perspiration sensor according to claim 13 wherein the non-conducting first substrate layer includes a polyimide material, the non-conducting second substrate layer includes a polyimide material, and the non-conducting third substrate layer includes a polyimide material. 17. The perspiration sensor according to claim 13 wherein the second substrate layer forms a ring that defines the dielectric space. 18. The perspiration sensor according to claim 13 wherein at least one of the first substrate layer and the second substrate layer include an outlet to enable air contained in the dielectric space to escape as moisture enters the dielectric space. 19. The perspiration sensor according to claim 13 further comprising an integrated circuit coupled to the first substrate layer and electrically connected to the first electrode and the second electrode; and wherein the integrated circuit receives a signal from the first electrode and the second electrode and outputs a digital signal as a function of the received signal.