System and method to map active RF channels to respective pump heads for cooled radiofrequency ablation

What is claimed is: 1. A method to map active radiofrequency channels to respective pump assemblies for cooled radiofrequency ablation, the method comprising steps of: providing a pump system having a plurality of pump assemblies, a radiofrequency generator unit, and a plurality of cooled radiofrequency probes, wherein each cooled radiofrequency probe comprises a cable-tubing assembly having a radiofrequency cable and fluid tubing; connecting the cable of each cable-tubing assembly to an RF channel of the radiofrequency generator; connecting the fluid tubing of each cable-tubing assembly to a cooling fluid source; activating each pump assembly of the plurality of pump assemblies individually in sequence; mapping each cooled radiofrequency probe to a respective pump assembly connected thereto by measuring a temperature drop delay time for each cooled radio frequency probe, wherein the temperature drop delay time is the amount of time for cooling fluid to reach a tip of the cooled radiofrequency ablation probe and initiate a temperature decrease at the tip of the cooled radiofrequency ablation probe after activation of a first pump assembly of the plurality of pump assemblies; and confirming the mapping of each cooled radiofrequency probe to the respective pump assembly by comparing the measured temperature drop delay time to an expected temperature drop delay time for each cooled radiofrequency probe, wherein expected temperature drop delay time is calculated using a recorded activation time of each cooled radiofrequency probe. 2. The method of claim 1 , wherein the step of activating each pump assembly of the plurality of pump assemblies individually in sequence comprises activating each pump assembly individually in sequence with a pump activation time delay between the activation of each pump assembly. 3. The method of claim 2 , wherein the pump activation time delay is from about 5 seconds to about 10 seconds. 4. The method of claim 1 , wherein each radiofrequency probe comprises a thermocouple at the tip of the probe configured to measure the temperature at the tip of the probe, the method further comprising a step of measuring the temperature at the tip of the probe. 5. The method of claim 4 , wherein the temperature drop delay time is measured between the time of activation of the first pump assembly and the time cooling fluid reaches the tip of the first radiofrequency ablation probe exhibiting a temperature decrease of at least 0.5 degrees Celsius. 6. The method of claim 1 , wherein each pump assembly is mapped to the radiofrequency ablation probe that measures the temperature drop delay time soonest after the recorded activation time of each pump assembly. 7. The method of claim 1 , wherein the plurality of pump assemblies comprises from two to four pump assemblies, further wherein the plurality of cooled radiofrequency probes comprises from two to four cooled radiofrequency ablation probes. 8. The method of claim 1 , wherein the step of mapping each cooled radiofrequency probe to a respective pump assembly connected thereto further comprises detecting the presence or absence of daisy-chained cooled radiofrequency probes, wherein daisy-chained cooled radiofrequency probes comprise two or more cooled radiofrequency probes associated with one pump assembly of the plurality of pump assemblies. 9. A method of providing cooled radiofrequency ablation treatment to a patient, the method comprising steps of: providing a pump system having a plurality of pump assemblies, a radiofrequency generator unit, and a plurality of cooled radiofrequency probes, wherein each cooled radiofrequency probe comprises a cable-tubing assembly having a radiofrequency cable and fluid tubing; connecting the cable of each cable-tubing assembly to an RF channel of the radiofrequency generator unit; connecting the fluid tubing of each cable-tubing assembly to a cooling fluid source; activating each pump assembly of the plurality of pump assemblies individually in sequence; mapping each cooled radiofrequency probe to a respective pump assembly connected thereto by measuring a temperature drop delay time for each cooled radio frequency probe, wherein the temperature drop delay time is the amount of time for cooling fluid to reach a tip of the cooled radiofrequency ablation probe and initiate a temperature decrease at the tip of the cooled radiofrequency ablation probe after activation of a first pump assembly of the plurality of pump assemblies; confirming the mapping of each cooled radiofrequency probe to the respective pump assembly by comparing the measured temperature drop delay time to an expected temperature drop delay time for each cooled radiofrequency probe, wherein expected temperature drop delay time is calculated using a recorded activation time and of each cooled radiofrequency probe; inserting each cooled radiofrequency ablation probe into a target tissue area of the patient; and independently controlling each cooled radiofrequency probe to deliver cooled radiofrequency ablation treatment. 10. The method of claim 9 , wherein the step of activating each pump assembly of the plurality of pump assemblies individually in sequence comprises activating each pump assembly individually in sequence with a pump activation time delay between the activation of each pump assembly. 11. The method of claim 10 , wherein the pump activation time delay is from about 5 seconds to about 10 seconds. 12. The method of claim 9 , wherein each radiofrequency probe comprises a thermocouple at the tip of the probe configured to measure the temperature at the tip of the probe, the method further comprising a step of measuring the temperature at the tip of the probe. 13. The method of claim 9 , wherein the step of mapping each cooled radiofrequency probe to a respective pump assembly connected thereto further comprises detecting the presence or absence of daisy-chained cooled radiofrequency probes, wherein daisy-chained cooled radiofrequency probes comprise two or more cooled radiofrequency probes associated with one pump assembly of the plurality of pump assemblies. 14. The method of claim 9 , wherein the step of independently controlling each cooled radiofrequency probe to deliver cooled radiofrequency ablation treatment comprises independently controlling one or more of the respective pump assembly mapped to each cooled radiofrequency probe and the RF channel mapped to each cooled radiofrequency probe. 15. A cooled radiofrequency ablation system comprising: a pump system having a plurality of pump assemblies; a radiofrequency generator unit having a plurality of RF channels; and a plurality of cooled radiofrequency probes, wherein each cooled radiofrequency probe comprises a cable-tubing assembly having a radiofrequency cable and fluid tubing; wherein the radiofrequency generator unit comprises a controller having a memory device storing instructions which, when executed, cause the controller to: (i) activate each of the pump assemblies individually in sequence with a pump activation time delay between the activation of each pump assembly; (ii) measure the pump activation time delay of each of the plurality of pump assemblies; (iii) measure the temperature drop delay time of each of the plurality of cooled radiofrequency ablation probes; (iv) compare the pump activation delay time of each of the plurality of pump assemblies with the temperature drop delay time of each of the cooled radiofrequency probes; (v) map each respective pump assembly to a corresponding cooled radiofrequency ablation probe based on the comparison; and (vi) confirm the