Cable for conveying radiofrequency and/or microwave frequency energy to an electrosurgical instrument

The invention claimed is: 1. A cable for conveying radiofrequency and/or microwave frequency energy to an electrosurgical instrument at a first end of the cable, the cable comprising: a hollow tube comprising inner and outer electrically conductive layers separated by dielectric material to form a transmission line, the hollow tube having a central channel extending along its length; a first terminal at the first end of the cable, the first terminal being arranged to form an electrical connection between the inner conductive layer and a first cooperating terminal of the electrosurgical instrument; and a second terminal at the first end of the cable, the second terminal being arranged to form an electrical connection between the outer conductive layer and a second cooperating terminal of the electrosurgical instrument, wherein the first terminal comprises a first electrically conductive protrusion extending in an axial direction from the first end of the cable and electrically connected to the inner conductive layer; and/or wherein the second terminal comprises a second electrically conductive protrusion extending in an axial direction from the first end of the cable and electrically connected to the outer conductive layer. 2. The cable according to claim 1 , wherein the first conductive protrusion and/or the second conductive protrusion is rigid. 3. The cable according to claim 1 , wherein the first conductive protrusion and/or the second conductive protrusion comprises a conductive tab, a conductive fin, a conductive rod, a conductive pin, or a conductive wire. 4. The cable according to claim 1 , wherein the first terminal and the second terminal are located on opposite sides of the cable relative to a central axis of the cable. 5. The cable according to claim 1 , in which the first terminal comprises the first electrically conductive protrusion, wherein the first conductive protrusion extends in the axial direction from an electrically conductive strip positioned around the inner conductive layer and electrically connected to the inner conductive layer, and wherein the first conductive protrusion is integral with the electrically conductive strip. 6. The cable according to claim 5 , wherein the first conductive protrusion, and/or the second conductive protrusion, and the integral conductive strip comprise conductive foil. 7. The cable according to claim 1 , in which the second terminal comprises the second electrically conductive protrusion, wherein the second conductive protrusion extends in the axial direction from an electrically conductive strip positioned around the outer conductive layer and electrically connected to the outer conductive layer, and wherein the second conductive protrusion is integral with the electrically conductive strip. 8. The cable according to claim 1 , in which the cable comprises the first conductive protrusion and the second conductive protrusion, wherein the first conductive protrusion and the second conductive protrusion are supported by a tube segment connected to the first end of the cable. 9. The cable according to claim 1 , in which the first terminal comprises the first electrically conductive protrusion, wherein the first conductive protrusion is electrically connected to the inner conductive layer in a region where the dielectric material and outer conductive layer are omitted. 10. The cable according to claim 1 , in which the second terminal comprises the second electrically conductive protrusion, wherein the second conductive protrusion is electrically connected to the outer conductive layer in a region where the dielectric material and inner conductive layer are omitted. 11. The cable according to claim 1 , wherein the geometries of the first terminal and the second terminal are configured to match the impedance of the cable to a predetermined impedance at one or more microwave frequencies. 12. The cable according to claim 1 , wherein the cable comprises a conductor positioned in the hollow tube and extending along the hollow tube for conveying radiofrequency energy to the electrosurgical instrument with the transmission line. 13. The cable according to claim 1 , wherein the dielectric material comprises: a solid tube of dielectric material; or a tube of dielectric material having a porous structure. 14. The cable according to claim 1 , wherein the inner conductive layer and/or the outer conductive layer comprises: a conductive coating on the inside or outside of a tube of material; a solid tube of conductive material positioned against the inside or outside of a tube of material; or a layer of braided conductive material formed on, or embedded in, a tube of material. 15. The cable according to claim 1 , wherein the cable comprises: a hollow tube of the inner conductive layer; a tube of the dielectric material on an outer surface of the hollow tube of the inner conductive layer; and a tube of the outer conductive layer on an outer surface of the tube of the dielectric material. 16. An electrosurgical apparatus comprising the cable according to claim 1 and an electrosurgical instrument, wherein: a first cooperating terminal of the electrosurgical instrument is electrically connected to the first terminal, so that an electrical connection is formed between the inner conductive layer and the first cooperating terminal; and a second cooperating terminal of the electrosurgical instrument is electrically connected to the second terminal, so that an electrical connection is formed between the outer conductive layer and the second cooperating terminal. 17. A cable for conveying radiofrequency and/or microwave frequency energy to an electrosurgical instrument at a first end of the cable, the cable comprising: a hollow tube comprising inner and outer electrically conductive layers separated by dielectric material to form a transmission line, the hollow tube having a central channel extending along its length; a first terminal at the first end of the cable, the first terminal being arranged to form an electrical connection between the inner conductive layer and a first cooperating terminal of the electrosurgical instrument; and a second terminal at the first end of the cable, the second terminal being arranged to form an electrical connection between the outer conductive layer and a second cooperating terminal of the electrosurgical instrument; wherein the first terminal comprises a first area of electrically conductive material located on a circumferential surface of the cable; and wherein the first area of electrically conductive material is located on an outer side of the dielectric material and is electrically connected to the inner conductive layer by an electrical connection that passes through, or around, the dielectric material. 18. The cable according to claim 17 , wherein the first area of electrically conductive material is exposed at an end face of the cable. 19. The cable according to claim 17 , wherein the first area of electrically conductive material comprises a portion of the outer electrically conductive layer that is electrically isolated from the remainder of the outer electrically conductive layer. 20. The cable according to claim 17 , wherein the electrical connection comprises a conductive material positioned in a hole through the dielectric material, or a conductive material positioned around an edge of the dielectric material. 21. The cable according to claim 17 , wherein the second terminal comprises a second area of e