Isolation device for electrosurgical apparatus

The invention claimed is: 1. A combined isolator-diplexer device comprising: a combining circuit having a first input connectable to receive radiofrequency (RF) electromagnetic (EM) radiation having a first frequency from an RF channel, a second input connectable to receive microwave EM radiation having a second frequency that is higher than the first frequency from a microwave channel, and an output in communication with the first and second inputs for conveying the RF EM radiation and the microwave EM radiation to a common signal pathway, and a waveguide isolator connected to isolate the microwave channel from the RF EM radiation, wherein the waveguide isolator comprises: a conductive input section, a conductive output section, a conductive intermediate section, the intermediate section having a first end which mates with the input section, and a second end which mates with the output section, a first DC isolation barrier arranged between the input section and the intermediate section, and a second DC isolation barrier arranged between the intermediate section and the output section, wherein the input section, intermediate section and output section together enclose a waveguide cavity, wherein the output from the combining circuit includes a signal conductor and a ground conductor, and wherein the first DC isolation barrier and the second DC isolation barrier provide a pair of series-connected capacitive structures between the ground conductor of the output from the combining circuit and the conductive input section of the waveguide isolator, the capacitive structure being arranged to inhibit coupling of the RF EM energy and leakage of the microwave EM energy. 2. A combined isolator-diplexer device according to claim 1 including an insulating layer disposed between the input section and the intermediate section at the first DC isolation barrier. 3. A combined isolator-diplexer device according to claim 1 including an insulating layer disposed between the output section and the intermediate section at the second DC isolation barrier. 4. A combined isolator-diplexer device according to claim 1 , wherein the waveguide cavity is cylindrical. 5. A combined isolator-diplexer device according to claim 1 , wherein the input section, intermediate section and output section are disposed in sequence along a longitudinal direction, wherein the intermediate section overlaps with the input section in the longitudinal direction at the first DC isolation barrier, and wherein the intermediate, section overlaps with the output section in the longitudinal direction at the second DC isolation barrier. 6. A combined isolator-diplexer device according to claim 5 , wherein the waveguide isolator comprises a plurality of tuning stubs that are adjustably insertable into the waveguide cavity along the longitudinal direction. 7. A combined isolator-diplexer device according to claim 6 , wherein the plurality of tuning stubs comprise a first tuning stub insertable through a longitudinal end face of the input section, and a second tuning stub insertable through a longitudinal end face of the output section. 8. A combined isolator-diplexer device according to claim 5 , wherein: the output connected to common signal pathway includes an output probe mounted on the output section of the waveguide isolator, the output probe having a first coupling conductor extending into the waveguide isolator to couple the microwave EM energy therefrom, the second input includes an input probe mounted on the input section of the waveguide isolator, the input probe having a second coupling conductor extending into the waveguide isolator to couple the microwave EM energy into the cavity, and the first coupling conductor and second coupling conductor extend in a direction that is orthogonal to the longitudinal direction. 9. A combined isolator-diplexer device according to claim 8 , wherein the first coupling conductor and second coupling conductor extend into the waveguide cavity from opposite directions. 10. A combined isolator-diplexer device according to claim 8 , wherein the first input includes an RF connector mounted on the waveguide isolator, the RF connector having a signal conductor that extends into the waveguide cavity to electrically contact the coupling conductor of the output probe, wherein the signal conductor extends in the longitudinal direction, and wherein the signal conductor is positioned to substantially align with an equipotential of the microwave EM energy within the waveguide isolator. 11. A combined isolator-diplexer device according to claim 10 , wherein the RF connector comprises a coaxial filter connected to the output section and configured to inhibit microwave EM energy from leaking out of the waveguide isolator through the signal conductor of the RF connector. 12. A combined isolator-diplexer device according to claim 11 , wherein the coaxial filter comprises a two section re-entrant coaxial filter. 13. Electrosurgical apparatus for resection of biological tissue, the apparatus comprising: a radiofrequency (RF) signal generator for generating RF electromagnetic (EM radiation having a first frequency; a microwave signal generator for generating microwave EM radiation having a second frequency that is higher than the first frequency; a probe arranged to deliver the RF EM radiation and the microwave EM radiation separately or simultaneously from a distal end thereof; and a feed structure for conveying the RF EM radiation and the microwave EM radiation to the probe, the feed structure comprising an RF channel for connecting the probe to the RF signal generator, and a microwave channel for connecting the probe to the microwave signal generator, wherein the RF channel and microwave channel comprise physically separate signal pathways from the RF signal generator and microwave signal generator respectively, wherein the feed structure includes an isolator-diplexer device comprising: a combining circuit having a first input connected to receive the RF EM radiation from the RF channel, a second input connected to receive the microwave EM radiation from the microwave channel, and an output in communication with the first and second inputs for conveying the RF EM radiation and the microwave EM radiation to the probe along a common signal pathway, and a waveguide isolator connected to isolate the microwave channel from the RF EM radiation, wherein the waveguide isolator comprises: a conductive input section, a conductive output section, a conductive intermediate section, the intermediate section having a first end which mates with the input section, and a second end which mates with the output section, a first DC isolation barrier arranged between the input section and the intermediate section, and a second DC isolation barrier arranged between the intermediate section and the output section, wherein the input section, intermediate section and output section together enclose a waveguide cavity, wherein the output from the combining circuit includes a signal conductor and a ground conductor, and wherein the first DC isolation barrier and the second DC isolation barrier provide a pair of series-connected capacitive structures between the ground conductor of the output from the combining circuit and the conductive input section of the waveguide isolator, the capacitive structure being arranged to inhibit coupling of the RF EM energy and leakage of the microwave EM energy. 14. Electrosurgical apparatus according to claim 13 , wherein the isolator-diplexer device comprises: the combining circuit having the first input connectable to