Encrypting pin pad

What is claimed is: 1. An Encrypting PIN Pad (EPP) comprising: a keyboard body for supporting a plurality of keys including at least one actuator member extending inwardly from the keyboard body; a first layer comprising at least two electrode elements separated by a space; a second layer between the first layer and the keyboard body comprising at least one bridge element; wherein the actuator member applies pressure to the bridge element in a normal state, causing the bridge element to electrically bridge the space between the at least two electrode elements, wherein the bridge element fails to electrically bridge the space during a tamper state resulting from unauthorized separation of the keyboard body from the first layer; and a controller for detecting the tamper state by monitoring resistance of the bridge element wherein a failure of the bridge element to electrically bridge the at least two electrode elements is identified when the resistance increases above a threshold resistance. 2. The EPP as claimed in claim 1 , wherein the second layer comprises a composite layer, comprising electrically conductive particles combined with an elastomeric binder, to provide the at least one bridge element. 3. The EPP as claimed in claim 2 , wherein the composite layer comprises Quantum Tunnelling Composite (QTC™) material. 4. The EPP as claimed in claim 2 , wherein the second layer further comprises a rubber layer for supporting the composite layer. 5. The EPP as claimed in claim 1 , wherein the at least two spaced apart electrode elements comprise a first electrode surrounding a second electrode. 6. The EPP as claimed in claim 1 , wherein the first layer comprises a plurality of electrical tracks printed on a flexible support, wherein a first and further track of the plurality of tracks each comprising a respective one of the two electrode elements. 7. The EPP as claimed in claim 1 , further comprising an intermediate layer located between the at least one actuator member and the first layer. 8. The EPP as claimed in claim 1 , wherein the first and second layers are urged together when the first layer is urged towards the second layer, or the second layer is urged towards the first layer, or the first layer and the second layer are both urged towards each other. 9. A Self-Service Terminal (SST) comprising an EPP as claimed in claim 1 . 10. An Encrypting PIN Pad (EPP comprising: a housing defining (i) a plurality of key apertures and (ii) a plurality of pins extending from a lower surface; a plurality of keys, each key being located within a respective one of the plurality of key apertures; a support plate mounted to the lower surface of the housing and defining (i) a plurality of key apertures, each key aperture being disposed in registration with a respective one of the plurality of keys and (ii) a plurality of pin apertures, each aperture being disposed in registration with a respective one of the plurality of pins; an elastomeric mat mounted to the support plate; a multi-layer keyboard printed circuit board comprising a plurality of key domes, each key dome being disposed in registration with a respective key, and a plurality of separation switches, each separation switch being activated by pressure from a respective one of the plurality of pins during a normal mode of operation and being deactivated during a tamper mode of operation when the housing is separated from the multi-layer keyboard printed circuit board; a backplate mounted on the multi-layer keyboard printed circuit board and secured to the housing; a cryptographic printed circuit board coupled to the keyboard printed circuit board via an elongate connector; and a cover mounted on the cryptographic printed circuit board and secured to the housing to maintain the keys, the support plate, the elastomeric mat, the keyboard printed circuit board, the backplate, and the cryptographic printed circuit board in position as an integrated unit.