Dissolved gas analysis devices, systems, and methods

The invention claimed is: 1. A transformer comprising: at least one electrical winding, a fluid system including fluid for insulating the at least one electrical winding, and a gas analysis system for determining characteristics of gas dissolved in the fluid of the fluid system, the gas analysis system including an extraction probe having gas-permeable material for receiving dissolved gas from the fluid and a gas analyzer including at least two channels, wherein at least one channel of the at least two channels is arranged to determine characteristics of gas extracted from the fluid, and wherein at least one other channel of the at least two channels is arranged to determine characteristics of ambient gas. 2. The transformer of claim 1 , wherein the at least two channels are arranged to receive light propagated from the same light source. 3. The transformer of claim 1 , wherein the at least one channel is arranged to propagate light through a gas cell containing gas extracted from the fluid for reception by a cell detector of the at least one channel. 4. The transformer of claim 3 , wherein a cell light distance is defined between a reference source point of light of the light source and the cell detector, and wherein the cell light distance corresponds to a reference light distance defined between the reference source point and a reference detector of at least one other channel of the at least two channels. 5. The transformer of claim 4 , wherein the reference source point includes a beam splitter arranged to divide light from the light source into at least two beams, one of the at least two beams for propagation through the gas cell and another of the at least two beams for propagation through ambient space. 6. The transformer of claim 5 , wherein the cell light detector is arranged to receive light from the beam propagated through the gas cell that has not been absorbed by gas, and wherein the reference light detector is arranged to receive light from the beam propagated through the ambient space that has not been absorbed by gas within the ambient space. 7. The transformer of claim 6 , wherein each of the cell detector and the reference detector provide a signal indicating a spectrum corresponding to light received by that detector. 8. The transformer of claim 1 , wherein the gas analyzer includes a gas cell fluidly connected with the extraction probe to form a gas circuit. 9. The transformer of claim 1 , wherein the extraction probe includes an extraction coil. 10. The transformer of claim 9 , wherein the extraction coil includes a number of coil turns arranged in contact with the fluid. 11. A transformer comprising: at least one electrical winding, a transformer fluid system including fluid for insulating the at least one electrical winding, a gas analysis system for determining characteristics of gas dissolved in the fluid of the fluid system, the gas analysis system including an extraction probe having gas-permeable material for receiving dissolved gas from the fluid and a gas analyzer including at least two channels, wherein at least one channel of the at least two channels is arranged to determine characteristics of gas received from the fluid, and wherein at least one other channel of the at least two channels is arranged to determine characteristics of ambient gas, and a gas circuit defined at least partially by the extraction probe and the gas analyzer for circulating gas extracted from the fluid. 12. The transformer of claim 11 , wherein the gas analyzer includes a gas cell fluidly connected with the extraction probe to form the gas circuit. 13. The transformer of claim 12 , wherein the gas analyzer propagates light through gas within the gas cell for reception by a detector of the at least one channel. 14. The transformer of claim 11 , wherein the at least two channels are arranged to receive light propagated from the same light source. 15. The transformer of claim 11 , wherein the at least one channel is arranged to propagate light through a gas cell containing gas extracted from the fluid for reception by a cell detector of the at least one channel. 16. The transformer of claim 15 , wherein a cell light distance is defined between a reference source point of light of the light source and the cell detector, and wherein the cell light distance corresponds to a reference light distance defined between the reference source point and a reference detector of at least one other channel of the at least two channels. 17. The transformer of claim 16 , wherein the reference source point includes a beam splitter arranged to divide light from the light source into at least two beams, one of the at least two beams for propagation through the gas cell and another of the at least two beams for propagation through ambient space. 18. The transformer of claim 3 , wherein the cell detector of the at least one channel is arranged to receive light propagated from the light source through a span that contains ambient gas. 19. The transformer of claim 4 , wherein the cell light distance includes a distance from the reference source point through each of the gas cell and at least one span having ambient gas, to the light detector. 20. The transformer of claim 15 , wherein the reference light distance is equal to a length of the at least one span having ambient gas.