Interface apparatus and methods

What is claimed is: 1. An apparatus comprising: an interface layer configured and arranged to flex in response to an input signal presented to the interface in the form of pressure; an elastomer including a plurality of elastomer regions separated by one another by gaps, wherein at least one of the plurality of elastomer regions has at least one cross-section of less than 50 microns in terms of width dimension, and is shaped and sized to compress at the cross-section thereof and thereby exhibits a changed dielectric constant in response to an applied pressure or a change in pressure of less than 1 kPa, and the plurality of elastomer regions have width and thickness dimensions and are configured and arranged to, in response to an application of pressure or a change in pressure exhibit a changed dielectric constant corresponding to a state of compression of the elastomer; and a sense circuit, including a portion of the elastomer, configured and arranged to respond to the changed dielectric constant by providing an electrical output indicative of the pressure applied or the change in pressure applied to the elastomer. 2. An apparatus comprising: an interface layer configured and arranged to flex in response to an input signal presented to the interface in the form of pressure; an elastomer including a plurality of elastomer regions separated by one another by gaps, wherein the plurality of elastomer regions have width and thickness dimensions and are configured and arranged to, in response to an application of pressure or a change in pressure exhibit a changed dielectric constant corresponding to a state of compression of the elastomer; and a sense circuit, including a portion of the elastomer and including opposing, electrodes which are separated by the portion of the elastomer by a distance of less than 100 um before the state of compression, and the plurality of elastomer regions are shaped and sized to compress at a cross-section thereof and thereby exhibit the changed dielectric constant in response to sequential applications of pressure, and recover from each application of pressure in less than 300 msec, the sense circuit being configured to respond to the changed dielectric constant by providing an electrical output indicative of the pressure applied or the change in pressure applied to the elastomer. 3. An apparatus comprising: an elastomer including a plurality of elastomer regions separated from one another by gaps, wherein the plurality of elastomer regions have width and thickness dimensions and are shaped and sized to compress at a cross-section thereof and are configured and arranged to respond to a change in pressure applied to the elastomer of less than 1 kPa and thereby exhibit a changed dielectric constant corresponding to a state of compression of the elastomer; and a sense circuit, including a portion of the elastomer and having opposing electrodes separated by the portion of the elastomer, the sense circuit configured and arranged to respond to the changed dielectric constant by providing an indication of the pressure applied to the portion of the elastomer between the opposing electrodes of the sense circuit. 4. The apparatus of claim 3 , wherein the elastomer and the sense circuit are configured and arranged to sense pulsed signals by tactile engagement with skin of a user and respond to the changed dielectric constant by providing the indication of the pressure applied to the portion of the elastomer at each of a plurality of sequential applications of pressure. 5. The apparatus of claim 3 , wherein the sense circuit further includes a plurality of pairs of opposing electrodes arranged on a planar substrate, and the elastomer is configured and arranged to compress between at least one of the pairs of opposing electrodes in response to pressure applied to the portion of the elastomer over the at least one of the electrodes. 6. The apparatus of claim 3 , wherein the sense circuit includes a plurality of opposing electrodes, each opposing electrode being configured and arranged to respond to a change in the dielectric constant of one of the plurality of elastomer regions of the elastomer immediately adjacent the opposing electrode, relative to elastomer regions adjacent other opposing electrodes, therein providing an indication of both the pressure applied to the elastomer and a position of the applied pressure. 7. The apparatus of claim 6 , further including a logic circuit connected to the opposing electrodes and configured and arranged to process outputs from the opposing electrodes to determine pressure applied to the elastomer region immediately adjacent at least one of the opposing electrodes and a location of the applied pressure, and wherein the elastomer includes conductors therein, the conductors being arranged as address and data lines through which the outputs from the opposing electrodes are accessible. 8. The apparatus of claim 3 , wherein respective ones of the plurality of elastomer regions are differently-shaped with differently sized cross-sections and are configured and arranged to set different pressure-sensing characteristics for different portions of the elastomer. 9. The apparatus of claim 3 , wherein the opposing electrodes are separated by the portion of the elastomer by a distance of less than 100 um before the state of compression.