Female snap connector as well as associated devices and methods

The invention claimed is: 1. A female snap connector comprising: a base; a cap opposing the base for forming a depth for the female snap connector, and a socket formed into the cap for receiving a stud of a co-operational male snap connector, which socket is configured to undergo elastic deformation so as to comply to the passage of the complementary shape of the stud within the socket during insertion and removal of the stud in the depth dimension of the female snap connector, an external side for interaction with the male snap connector, and an internal side opposing the external side, wherein base material of the female snap connector is or comprises a conductive elastomer, wherein the socket comprises: a relieved entrance surface provided to the cap on the external side, a pinch connected to the entrance surface, an opening, the narrowest part of which being defined by the pinch, and a rim on the internal side surrounding the opening, and the female snap connector comprises a peripheral recess between the rim and the base for increasing the flexibility of the socket. 2. The female snap connector according to claim 1 , wherein the base and the cap are formed as an integral component. 3. The female snap connector according to claim 1 , wherein a matrix of the conductive elastomer is selected from the group consisting of natural rubber, thermoplastic polyurethane (TPU), thermoplastic elastomer (TPE), silicone, particularly polydimethylsiloxane (PDMS), EPDM rubber, and styrene-butadiene rubber (SBR). 4. The female snap connector according to claim 1 , wherein the base material comprises conductive particles, wherein the material of the conductive particles is selected from the group consisting of carbon; poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS), silver, metals, carbon black, graphite, graphene, carbon nano particles, polyacetylene (PA), polyaniline (PANI), polypyrrole (PPY), poly(3,4-ethylenedioxythiophene):poly(styrene sulfonic acid) (PEDOT:PSS), nanoparticles of silver, gold, copper, nickel, and alloys of any of the above. 5. The female snap connector according to claim 1 , wherein the cap is divided into several parts by one or more gap(s) between the parts for increasing the elasticity of the cap. 6. An electrode unit comprising: an electrode; a female snap connector; a body mechanically connecting the electrode to the female snap connector, and a conductive passageway formed to the body for electrically connecting the electrode to the female snap connector, wherein the female snap connector is one according to claim 1 . 7. A telemetric device comprising: an enclosure, and a circuit board contained in the enclosure, further comprising a female snap connector according to claim 1 mechanically and electrically connected to the circuit board and extending through the enclosure. 8. The telemetric device according to claim 7 , wherein: the enclosure comprises two cooperative enclosure parts, and wherein the telemetric device comprises an electro-mechanical interface including one or more of said female snap connectors and a sealing member incorporating the one or more of said female snap connectors, which sealing member seals the enclosure parts to each other. 9. The telemetric device according to claim 7 , wherein the sealing member is configured to produce a watertight seal between the enclosure parts of the enclosure. 10. A wearable device comprising: a host garment configured to be worn by a user; a first electrode unit according to claim 6 incorporated to the host garment, and a second electrode unit according to claim 6 incorporated to the host garment and positioned such that the female snap connectors are set adjacent to each other so as to receive cooperative male snap connectors of an associated telemetric device. 11. The wearable device according to claim 10 , wherein the wearable device comprises a telemetric device comprising cooperative male snap connectors connected to the host garment through the female snap connectors of the first and second electrode assemblies. 12. A method for manufacturing a female snap connector according to claim 1 , further comprising producing the base and the cap with an additive manufacturing method into an integral component. 13. A method for manufacturing an electrode unit, which comprises: an electrode; a female snap connector; a body mechanically connecting the electrode to the female snap connector, and a conductive passageway formed to the body for electrically connecting the electrode to the female snap connector, which female snap connector comprises: a base; a cap opposing the base for forming a depth for the female snap connector, and a socket formed into the cap for receiving a stud of a co-operational male snap connector, which socket is configured to undergo elastic deformation so as to comply to the passage of the complementary shape of the stud within the socket during insertion and removal of the stud in the depth dimension of the female snap connector, which socket comprises: a relieved entrance surface provided to the cap on the external side, a pinch connected to the entrance surface, an opening, the narrowest part of which being defined by the pinch, and a rim on the internal side surrounding the opening, an external side for interaction with the male snap connector, an internal side opposing the external side, a peripheral recess between the rim and the base for increasing the flexibility of the socket, wherein base material of the female snap connector is or comprises a conductive elastomer, wherein the method comprises: providing the electrode and the body; producing the female snap connector with a method, in which the base and the cap are produced with an additive manufacturing method into an integral component, and in providing the conductive passageway between the female snap connector and the electrode by bonding the body, the female snap connector, and the electrode together as an integral component, wherein the conductive passageway is formed at least partly by: the body comprising an electrically conductive base material connecting the snap connector to the electrode, or by the body comprising an electrically conductive layer connecting the snap connector to the electrode. 14. The method according to claim 13 , wherein said bonding comprises casting, ultrasonic welding, heat heading, high frequency welding, gluing with conductive adhesive, or thermal bonding of the female snap connector and the electrode together as an integral component.