Vibrotactile devices, systems, and related methods

What is claimed is: 1 . A flexible vibrotactile device, comprising: a dielectric support material including at least one hole therethrough for securing the flexible vibrotactile device to a textile by threading at least one fiber through the at least one hole; at least one flexible electroactive element coupled to the dielectric support material and comprising a first flexible electroactive element and a second flexible electroactive element; a first conductive electrode material positioned adjacent to and in electrical contact with the first flexible electroactive element; and a second conductive electrode material positioned adjacent to and in electrical contact with the second flexible electroactive element opposite the first flexible electroactive element, wherein the first conductive electrode material is configured to apply a first voltage across the first flexible electroactive element, and the second conductive electrode material is configured to apply a second voltage across the second flexible electroactive element, wherein the second voltage is 180-degree phase shifted from the first voltage to induce movement in the at least one flexible electroactive element. 2 . The flexible vibrotactile device of claim 1 , wherein the first flexible electroactive element and the second flexible electroactive element together define a bimorph structure. 3 . The flexible vibrotactile device of claim 2 , wherein: the first conductive electrode material is positioned adjacent to a first side of the first flexible electroactive element; the second conductive electrode material comprises a common electrode positioned adjacent to a second, opposite side of the first flexible electroactive element and between the first flexible electroactive element and the second flexible electroactive element; and the flexible vibrotactile device further comprises a third conductive electrode material positioned adjacent to a side of the second flexible electroactive element opposite the second conductive electrode material and opposite the first flexible electroactive element. 4 . The flexible vibrotactile device of claim 2 , wherein: the first conductive electrode material is positioned adjacent to a first side of the first flexible electroactive element; the second conductive electrode material is positioned adjacent to a second, opposite side of the first flexible electroactive element and between the first flexible electroactive element and the second flexible electroactive element; and the flexible vibrotactile device further comprises: a third conductive electrode material positioned adjacent to a first side of the second flexible electroactive element and between the first flexible electroactive element and the second flexible electroactive element; a fourth conductive electrode material positioned adjacent to a second, opposite side of the second flexible electroactive element; and a central insulating material positioned between the second conductive electrode material and the third conductive electrode material. 5 . The flexible vibrotactile device of claim 2 , further comprising: a first insulating material positioned over the first conductive electrode material to provide a protective coating over the first conductive electrode material; and a second insulating material positioned over the second conductive electrode material to provide a protective coating over the second conductive electrode material. 6 . The flexible vibrotactile device of claim 2 , wherein each of the first flexible electroactive element and the second flexible electroactive element has a thickness of about 150 µm or less. 7 . The flexible vibrotactile device of claim 1 , wherein the at least one flexible electroactive element comprises at least one of: an electroactive polymer material; a dielectric elastomer material; a relaxor ferroelectric material; a piezoelectric ceramic material; or a piezoelectric single-crystal material. 8 . The flexible vibrotactile device of claim 1 , wherein the at least one flexible electroactive element comprises lead zirconate titanate (PZT). 9 . The flexible vibrotactile device of claim 1 , wherein at least one flexible electroactive element comprises lead magnesium niobite-lead titanate (PMN-PT). 10 . The flexible vibrotactile device of claim 1 , wherein each of the first conductive electrode material and the second conductive electrode material comprises copper. 11 . The flexible vibrotactile device of claim 1 , wherein each of the first flexible electroactive element and the second flexible electroactive element comprises a plurality of strips of flexible electroactive material positioned adjacent to and parallel to each other. 12 . The flexible vibrotactile device of claim 1 , wherein the dielectric support material has a rectangular shape with at least two rounded corners to facilitate positioning at least a portion of the flexible vibrotactile device within a pocket of the textile. 13 . The flexible vibrotactile device of claim 1 , wherein the at least one hole through the dielectric support material comprise: at least one upper hole through an upper portion of the dielectric support material; and at least one lower hole through a lower portion of the dielectric support material on an opposite side of the at least one flexible electroactive element from the at least one upper hole. 14 . The flexible vibrotactile device of claim 1 , further comprising: a first conductive terminal for providing electrical access to the first conductive electrode material; and a second conductive terminal for providing electrical access to the second conductive electrode material. 15 . The flexible vibrotactile device of claim 1 , wherein the flexible vibrotactile device has a thickness of about 0.29 mm or less. 16 . A vibrotactile system, comprising: a flexible wearable textile material shaped and configured for positioning against a body part of a user of the vibrotactile system, wherein the flexible wearable textile material includes at least one pocket; a flexible vibrotactile device coupled to the flexible wearable textile material and positioned at least partially within the at least one pocket to apply a vibration to the body part of the user when in use, wherein the flexible vibrotactile device comprises: a dielectric support material including at least one hole therethrough, wherein the flexible vibrotactile device is secured to the flexible wearable textile material via a fiber threaded through the at least one hole; at least one flexible electroactive element coupled to the dielectric support material and comprising a first flexible electroactive element and a second flexible electroactive element; and a first conductive electrode material positioned adjacent to the first flexible electroactive element and a second conductive electrode material positioned adjacent to the second flexible electroactive element, wherein the first conductive electrode material configured to apply a first voltage across the first flexible electroactive element and the second conductive electrode material is configured to apply a second voltage across the second flexible electroactive element, wherein the second voltage is 180-degree phase shifted from the first voltage to induce movement in the at least one flexible electroactive element; a power source electrically coupled to at least one of the first conductive electrode material or the second conductive electrode material to apply the first voltage and the second voltage; and a communications interface in e