Multiple liquid loop cooling for electronics

What is claimed is: 1. A liquid-cooled system for a platform with air cooling, comprising: an electrical system comprising first and second electrical assemblies, the first electrical assembly comprising a first electrical component, the second electrical assembly comprising a second electrical component; a cooling unit housing comprising an air inlet duct, an air outlet duct, a first heat exchanger comprising a first air inlet and a first air outlet, and a second heat exchanger comprising a second air inlet and a second air outlet, the second heat exchanger being arranged in series with the first heat exchanger, wherein air from the air inlet duct flows into the first air inlet of the first heat exchanger and out of the first air outlet of the first heat exchanger, and wherein air from the first air outlet of the first heat exchanger flows into the second air inlet of the second heat exchanger and out of the second air outlet of the second heat exchanger to the air outlet duct; a first liquid loop passing through the first heat exchanger and the first electrical assembly; a first controllable pump for causing fluid circulation throughout the first liquid loop and the first electrical assembly; a second liquid loop passing through the second heat exchanger and the second electrical assembly; a second controllable pump for causing fluid circulation throughout the second liquid loop and the second electrical assembly; and a thermal barrier comprising a non-metal material between the first and second heat exchangers, the thermal barrier being separate from the air inlet duct and the air outlet duct, the thermal barrier defining a passage configured to contain and direct air flow between the first outlet of the first heat exchanger and the second inlet of the second heat exchanger, the thermal barrier comprising a portion extending continuously from the passage to a position between the first and second controllable pumps, wherein the first electrical component is more thermally sensitive than the second electrical component, wherein the first electrical component and the first heat exchanger are proximate to the air inlet duct and the second electrical component and the second heat exchanger are proximate to the air outlet duct, and wherein the first liquid loop is substantially thermally isolated from the second liquid loop by the thermal barrier. 2. The liquid-cooled system of claim 1 , wherein the first liquid loop comprises a first coolant that is cooled to a first temperature, and the second liquid loop comprises a second coolant that is cooled to a second temperature, and wherein the first temperature is less than the second temperature. 3. The liquid-cooled system of claim 2 , wherein the first temperature is at least 20° C. less than the second temperature. 4. The liquid-cooled system of claim 1 , wherein the first electrical assembly comprises a plurality of electrical assemblies through which the first liquid loop passes in series. 5. The liquid-cooled system of claim 1 , wherein the first electrical assembly comprises a plurality of electrical assemblies through which the first liquid loop passes in parallel. 6. The liquid-cooled system of claim 1 , wherein the first electrical assembly comprises a plurality of electrical assemblies through which the first liquid loop passes in both series and parallel. 7. The liquid-cooled system of claim 1 , wherein the electrical system further comprises a third electrical assembly, and wherein the cooling unit housing further comprises a third heat exchanger in the air flow path downstream of the second heat exchanger, and further comprising a third liquid loop passing through the third heat exchanger and the third electrical assembly, and wherein the third liquid loop is substantially thermally isolated from the first and second liquid loops. 8. The liquid-cooled system of claim 1 , wherein the cooling unit housing further comprises first and second flow control units through which the first and second liquid loops pass in series with the first and second heat exchangers, respectively. 9. The liquid-cooled system of claim 8 , wherein the first and second flow control units each comprise the first or second controllable pump and at least one of a filter or an accumulator. 10. A liquid cooling unit housing for an electrical system having first and second electrical assemblies on an air-cooled platform, the liquid cooling unit housing comprising: an air inlet duct; an air outlet duct; a first liquid inlet and a first liquid outlet, for connection to such first electrical assembly; a second liquid inlet and a second liquid outlet, for connection to such second electrical assembly; a first heat exchanger comprising a first air inlet and a first air outlet; a second heat exchanger comprising a second air inlet and a second air outlet, the second heat exchanger being arranged in series with the first heat exchanger, wherein air from the air inlet duct flows into the first air inlet of the first heat exchanger and out of the first air outlet of the first heat exchanger, and wherein air from the first air outlet of the first heat exchanger flows into the second air inlet of the second heat exchanger and out of the second air outlet of the second heat exchanger to the air outlet duct; a first liquid flow path from the first liquid inlet through the first heat exchanger to the first liquid outlet; a first controllable pump for causing fluid circulation throughout the first liquid flow path and the first electrical assembly; a second liquid flow path from the second liquid inlet through the second heat exchanger to the second liquid outlet; a second controllable pump for causing fluid circulation throughout the second liquid flow path and the second electrical assembly; and a thermal barrier comprising a non-metal material between the first and second heat exchangers, the thermal barrier being separate from the air inlet duct and the air outlet duct, the thermal barrier defining a passage configured to contain and direct the air flow between the first outlet of the first heat exchanger and the second inlet of the second heat exchanger, the barrier comprising a portion extending continuously from the passage to a position between the first and second controllable pumps, wherein the first liquid flow path is substantially thermally isolated from the second liquid flow path by the thermal barrier. 11. The liquid cooling housing unit of claim 10 , further comprising first and second flow control units in the first and second liquid flow paths, respectively. 12. A method for cooling a liquid-cooled electrical system on a platform with air cooling, comprising: providing an electrical system comprising first and second electrical assemblies, the first electrical assembly comprising a first electrical component, the second electrical assembly comprising a second electrical component; providing a cooling unit housing comprising an air inlet duct and an air outlet duct; passing a first liquid coolant through a first liquid loop and through the first electrical assembly using a first controllable pump; passing a second liquid coolant through a second liquid loop and through the second electrical assembly using a second controllable pump; and passing an air flow through the air flow path of the cooling unit housing, wherein the air flow path passes over the first liquid loop and the second liquid loop in series, with the second liquid loop downstream of the first liquid loop, and wherein the first liquid loop is substantially thermally isolated from the second liquid loop by a thermal barrier comprising a non-metal material betwe