Electrosurgical generator for delivery of different types of energy to biological tissue

The invention claimed is: 1. An electrosurgical generator comprising: an electromagnetic signal supply unit for generating radiofrequency (RF) or microwave energy, wherein the electromagnetic signal supply unit comprises: 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; an output port configured to be connectable to a coaxial transmission line to convey the RF or microwave energy to a probe for delivering the RF or microwave energy from a distal end thereof; a feed structure for conveying the RF or microwave energy to the output port; and an electroporation waveform supply unit arranged to generate energy having an electroporation waveform for causing reversible or irreversible electroporation (IRE) of biological tissue, wherein the electroporation waveform supply unit comprises: a DC power supply that is independent of the electromagnetic signal supply unit for generating radiofrequency (RF) or microwave energy; and a pulse generator connected to the DC power supply and configured to output one or more pulses of DC power as the electroporation waveform, wherein the electroporation waveform supply unit is connected to the feed structure to convey the electroporation waveform to the output port for delivery to the probe, and wherein the feed structure comprises a common signal pathway for conveying the electroporation waveform and the RF or microwave energy to the output port, and wherein the electrosurgical generator further comprises a waveguide isolator connected to isolate the electroporation waveform supply unit from the microwave signal generator. 2. The electrosurgical generator of claim 1 , wherein the electroporation waveform comprises a plurality of pulses having a duty cycle equal to or less than 50%. 3. The electrosurgical generator of claim 1 , wherein the feed structure comprises an RF channel for connecting the output port to the RF signal generator, and a microwave channel for connecting the output port to the microwave signal generator, the RF channel and microwave channel comprises physically separate signal pathways from the RF signal generator and microwave signal generator respectively, and wherein the feed structure includes 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 transferring the RF EM radiation and the microwave EM radiation to the common signal pathway. 4. The electrosurgical generator of claim 3 comprising a waveguide isolator connected to isolate the microwave channel from the RF EM radiation. 5. The electrosurgical generator of claim 3 , wherein the electroporation waveform supply unit is connectable to the common signal pathway via the RF channel. 6. The electrosurgical generator of claim 5 comprising a switch connected on the RF channel, wherein the RF signal generator and the electroporation waveform supply unit are selectively connectable to the RF channel by the switch. 7. The electrosurgical generator of claim 1 including a pulse signal module connected to the pulse generator and arranged to transmit one or more pulse trigger signals to the pulse generator, wherein the pulse generator is configured to output a pulse of DC power upon receiving a pulse trigger signal. 8. The electrosurgical generator of claim 7 , wherein the pulse generator comprises a push-pull circuit. 9. The electrosurgical generator of claim 7 , wherein a duration of each pulse of DC power is set by the pulse trigger signal. 10. The electrosurgical generator of claim 9 , wherein the pulse signal module is controllable to permit adjustment of the duration of each pulse of DC power. 11. The electrosurgical generator of claim 9 , wherein the duration of each pulse of DC power is in the range 1 ns to 10 ms. 12. The electrosurgical generator of claim 7 , wherein the DC power supply comprises: an adjustable voltage supply; and a DC-DC converter for up-converting the voltage of the adjustable voltage supply, wherein an amplitude of each pulse of DC power is controllable via the adjustable voltage supply. 13. The electrosurgical generator of claim 12 , wherein a maximum amplitude of each pulse of DC power is in the range 10 V to 10 kV. 14. The electrosurgical generator of claim 13 , wherein the maximum amplitude of each pulse of DC power is equal to or greater than 400 V.