Simultaneous ion sensing and gas sampling in combustion engine cylinders and other combustion systems

We claim: 1. A probe for gas sampling and ionization sensing, the probe comprising a tube having a first end exposed within a combustion chamber, the first end having an opening configured to receive gas from the combustion chamber and transfer the gas through the tube to a gas analyzer, a sleeve being located around the tube, an electric insulator being located between the sleeve and the tube, where an ion current measuring circuit is connected to the tube and the sleeve such that the electric insulator allows an ion current signal on one of the sleeve or tube to be electrically insulated from a voltage source of the ion current measuring circuit, wherein an opening of the tube is co-located with an ion current measuring surface within the combustion chamber to provide simultaneous measurement of ion current by the ion current measuring circuit and gas analysis by the gas analyzer. 2. The probe of claim 1 , wherein the ion current measuring circuit includes an electrical power source and a resistor connected between the tube and the sleeve and the ion current measuring circuit measures the ion current passing through the resistor. 3. The probe of claim 1 , wherein the electric insulator is a coating in form of ceramic, paint or any material that has high temperature electric insulation. 4. The probe of claim 3 , wherein the electric insulator is applied to the tube. 5. The probe of claim 1 , wherein the tube and the sleeve are comprised of metal. 6. A probe for gas sampling and ionization sensing, the probe comprising a tube having a first end exposed within a combustion chamber, the first end having an opening configured to receive gas from the combustion chamber and transfer the gas through the tube to a gas analyzer, an electric insulator being located around the tube, where an ion current measuring circuit is connected to the tube and a metal enclosure of a combustion system, such that the electric insulator allows an ion current signal on one of the metal enclosure or tube to be electrically insulated from a voltage source of the ion current circuit, wherein an opening of the tube is co-located with an ion current measuring surface in the combustion chamber to provide simultaneous measurement of ion current by the ion current measuring circuit and gas analysis by the gas analyzer. 7. The probe of claim 6 , wherein the ion current measuring circuit includes an electrical power source and a resistor connected between the tube and the metal enclosure of the combustion system and the ion current measuring circuit measures the ion current passing through the resistor. 8. The probe of claim 6 , wherein the electric insulator comprises ceramic. 9. The probe of claim 8 , wherein the electric insulator is attached to the tube. 10. The probe of claim 6 , wherein the tube is comprised of metal. 11. A system that enables gas analyzers to obtain gas samples and additionally measure ionization data, the system comprising: a probe and an ion current measuring circuit, the probe comprising a tube having a first end exposed within a combustion chamber, the first end having an opening configured to receive gas from the combustion chamber and transfer the gas through the tube to a gas analyzer, a sleeve being located around the tube, an electric insulator being located between the sleeve and the tube, where the ion current measuring circuit is connected to the tube and the sleeve such that the electric insulator allows an ion current signal on one of the sleeve or tube to be electrically insulated from a voltage source of the ion current measuring circuit, wherein the opening of the tube is co-located with an ion current measuring surface within the combustion chamber to provide simultaneous measurement of the ion current by the ion current measuring circuit and gas analysis by the gas analyzer. 12. The system of claim 11 , further comprising a processing unit in communication with the ion current measuring circuit and the gas analyzer, the processing unit being configured to receive simultaneously acquired ion current data from the ion current sensing circuit and a gas analysis data from the gas analyzer. 13. The system of claim 11 , wherein the processing unit is configured to synchronize the ion current data and the gas analysis data. 14. The system of claim 11 , further comprising a processing unit in communication with the ion current measuring circuit and the gas analyzer, the processing unit being configured to control operating parameters based on an ion current measurement from the ion current sensing circuit and a gas analysis measurement from the gas analyzer. 15. A method for performing simultaneous ionization sensing and gas sampling, the method comprising the steps of: sensing ionization through a gas sampling probe having electric conductivity, the gas sampling probe having a tube, a sleeve and an electrical insulator, the electric insulator allowing an ion current signal on one of the sleeve or tube to be electrically insulated from a voltage source of an ion current measuring circuit; sampling the gas at a same location in a combustion chamber as ion current sensing of the probe using the tube; analyzing the gas provided by the tube using a gas analyzer simultaneously with the ion current sensing. 16. The method of claim 15 , further comprising the step of providing a potential to the conductive probe. 17. The method of claim 15 , wherein the ionization is measured by an ion current circuit to produce ion current data and the gas sampled to the gas analyzer produces gas analysis data, further comprising the step of synchronizing the ion current data and the gas analysis data. 18. The method of claim 15 , wherein the steps of determining ion current and analyzing the gas are performed concurrently. 19. In a non-transitory computer readable storage medium having stored therein instructions executable by a programmed processor for performing ion current measurement and gas analysis, the storage medium comprising instructions for: determining ion current through a gas with a conductive probe, the conductive probe having a tube, a sleeve and an electrical insulator, the electric insulator allowing an ion current signal on one of the sleeve or tube to be electrically insulated from a voltage source of an ion current measuring circuit; sampling the gas at a same location as ion current sensing of the conductive probe; analyzing the gas using a gas analyzer simultaneously with the ion current sensing. 20. The non-transitory computer readable storage medium of claim 19 , wherein the ion current is analyzed by an ion current circuit to produce ion current data and the gas analyzer produces gas analysis data, further comprising the step of synchronizing the ion current data and the gas analysis data.