Variator control with torque protection

The invention claimed is: 1. An electro-hydraulic controller for a multi-mode transmission including a variator having an output, the electro-hydraulic controller comprising a control circuit including a plurality of speed sensors, wherein each speed sensor is configured to produce a signal indicative of a speed of a corresponding component of the transmission, a processor operatively coupled to the control circuit, a memory device operatively coupled to the processor, the memory device including instructions that, when executed by the processor, cause the electro-hydraulic controller to (i) monitor the signals produced by the speed sensors, (ii) determine a torque applied to the output of the variator based on the signals produced by the speed sensors, and (iii) control a pressure of hydraulic fluid supplied to the variator to respond to the torque applied to the output of the variator. 2. The electro-hydraulic controller of claim 1 , wherein the electro-hydraulic controller includes a variator logic section, the variator logic section operable to vary the flow path of hydraulic fluid to the variator. 3. The electro-hydraulic controller of claim 2 , wherein the electro-hydraulic controller further comprises a variator trim section to control the magnitude of pressure in the fluid supplied to the variator through the variator logic section. 4. The electro-hydraulic controller of claim 3 , wherein the variator logic section comprises at least one variator logic valve assembly movable between a plurality of positions to vary the flow path of fluid to the variator. 5. The electro-hydraulic controller of claim 4 , wherein the processor is operatively coupled to the at least one variator logic valve assembly and the memory device includes further instructions that, when executed by the processor, cause the electro-hydraulic controller to change the position of the at least one variator logic valve assembly in response to a change in torque at the variator output. 6. The electro-hydraulic controller of claim 5 , wherein the electro-hydraulic controller includes (i) a first pressure sensor positioned to determine if the at least one variator logic valve assembly is in a first position and (ii) a second pressure sensor positioned to determine if the at least one variator logic valve assembly is in a second position. 7. The electro-hydraulic controller of claim 2 , wherein the variator logic section comprises at least one variator logic valve assembly movable between a plurality of positions to vary the flow path of fluid to the variator. 8. The electro-hydraulic controller of claim 7 , wherein the processor is operatively coupled to the at least one variator logic valve assembly and the memory device includes further instructions that, when executed by the processor, cause the electro-hydraulic controller to change the position of the at least one variator logic valve assembly in response to a change in torque at the variator output. 9. The electro-hydraulic controller of claim 8 , wherein the electro-hydraulic controller includes (i) a first pressure sensor positioned to determine if the at least one variator logic valve assembly is in a first position and (ii) a second pressure sensor positioned to determine if the at least one variator logic valve assembly is in a second position. 10. The electro-hydraulic controller of claim 1 , wherein the electro-hydraulic controller further comprises (i) a variator trim section operatively coupled to the processor and including at least two variator trim valves operable to control the pressure of hydraulic fluid supplied to the variator and (ii) a variator logic section operatively coupled to the processor and including at least two variator logic valves operable to control the flow path of hydraulic fluid supplied to the variator. 11. The electro-hydraulic controller of claim 10 , wherein the memory device includes instructions that, when executed by the processor, cause the electro-hydraulic controller to change the operation of the variator trim section and the variator logic section to control the pressure of hydraulic fluid supplied to the variator to respond to the torque applied to the output of the variator.