Ablation system, methods, and controllers

What is claimed is: 1. A method of beginning an ablation procedure using a multi-electrode ablation system, the method comprising: selectively coupling an output of a power supply to a first electrode of a plurality of electrodes to increase a temperature at the first electrode to a first temperature set-point and limit a rate of increase of the temperature at the first electrode to a predetermined first rate while the temperature at the first electrode is increasing to the first temperature set-point; and selectively coupling the output of the power supply to a second electrode of the plurality of electrodes to increase a temperature at the second electrode to a second temperature set-point and limit a rate of increase of the temperature at the second electrode to a predetermined second rate while the temperature at the second electrode is increasing to the second temperature set-point, wherein the predetermined second rate is not the same as the predetermined first rate, and wherein the temperature at the first electrode and the temperature at the second electrode are simultaneously increased to the first temperature set-point and second temperature set-point, respectively. 2. The method set forth in claim 1 further comprising selectively coupling the output of the power supply to the first electrode after the first electrode reaches the first temperature set-point to increase the temperature at the first electrode to a third temperature set-point and limit the rate of increase of the temperature at the first electrode to a predetermined third rate. 3. The method set forth in claim 1 further comprising selectively coupling the output of the power supply to the first electrode to maintain the temperature at the first electrode substantially at the first set-point for at least a first dwell period after the temperature reaches the first temperature set-point. 4. A multi-electrode ablation system comprising: a power supply configured to be coupled to a plurality of electrodes; and a controller coupled to the power supply, the controller configured to: selectively couple the output of the power supply to a first electrode of the plurality of electrodes to increase a temperature at the first electrode to a first temperature set-point and limit an increase of the temperature at the first electrode to a predetermined first rate while the temperature at the first electrode is increasing to the first temperature set-point; and selectively couple the output of the power supply to a second electrode of the plurality of electrodes to increase a temperature at the second electrode to a second temperature set-point and limit a rate of increase of the temperature at the second electrode to a predetermined second rate while the temperature at the second electrode is increasing to the second temperature set-point, wherein the predetermined second rate is not the same as the predetermined first rate, and wherein the controller is configured to simultaneously increase i) the temperature at the first electrode to the first temperature set-point and ii) the temperature at the second electrode to the second temperature set-point. 5. The system set forth in claim 4 wherein selectively coupling the output of the power supply to a second electrode comprises selectively coupling the output of the power supply to the second electrode a delay period after selectively coupling the output of the power supply to the first electrode. 6. The system set forth in claim 4 wherein the controller is further configured to selectively couple the output of the power supply to the first electrode after the first electrode reaches the first temperature set-point to increase the temperature at the first electrode to a third temperature set-point and limit the increase of the temperature at the first electrode to a predetermined third rate. 7. The system set forth in claim 4 wherein the controller is further configured to selectively couple the output of the power supply to the first electrode to maintain the temperature at the first electrode substantially at the first set-point for at least a first dwell period after the temperature reaches the first temperature set-point. 8. The system set forth in claim 7 wherein the controller is further configured to selectively couple the output of the power supply to the first electrode after the first dwell period to increase the temperature at the first electrode to a third temperature set-point and limit a rate of increase of the temperature at the first electrode to a predetermined third rate.