Position detection systems and methods

What is claimed is: 1. A system for detecting a position of a dual solenoid device, comprising: a device configured to move between at least a first position and a second position; and a controller having a first monitoring circuit in operable communication with a first channel, wherein the first channel is in operable communication with a first solenoid, and wherein the controller includes a second monitoring circuit in operable communication with a second channel, wherein the second channel is in operable communication with a second solenoid, wherein each solenoid is configured to selectively operate as an active solenoid to move the device when the solenoid and the channel it is in operable communication with are in an active mode, wherein each solenoid is configured to selectively operate as a passive solenoid when the solenoid and the channel it is in operable communication with are in a passive mode to passively move with the active solenoid, each of the monitoring circuits being configured to determine a position of the device when the channel the monitoring circuit is associated with is operating in the passive mode by monitoring an electrical parameter of the passive solenoid associated with that channel, wherein movement of the device from the first position to the second position is detected by monitoring the presence of an induced voltage across the passive solenoid when the device is moving, and wherein the presence of the induced voltage across the passive solenoid is measured by a high speed analog/digital convertor. 2. A system as recited in claim 1 , wherein the first and second solenoids are mechanically coupled to the device. 3. A system as recited in claim 1 , wherein each channel has a discrete switch associated with the controller for activating the channel. 4. A system as recited in claim 1 , wherein the device is at least one of a valve or actuator. 5. A system for detecting a position of a dual solenoid device, comprising: a device configured to move between at least a first position and a second position; and a controller having a first monitoring circuit in operable communication with a first channel, wherein the first channel is in operable communication with a first solenoid, and wherein the controller includes a second monitoring circuit in operable communication with a second channel, wherein the second channel is in operable communication with a second solenoid, wherein each solenoid is configured to selectively operate as an active solenoid to move the device when the solenoid and the channel it is in operable communication with are in an active mode, wherein each solenoid is configured to selectively operate as a passive solenoid when the solenoid and the channel it is in operable communication with are in a passive mode to passively move with the active solenoid, each of the monitoring circuits being configured to determine a position of the device when the channel the monitoring circuit is associated with is operating in the passive mode by monitoring an electrical parameter of the passive solenoid associated with that channel, wherein movement of the device from the first position to the second position is detected by monitoring a change in inductance in the passive solenoid. 6. A system as recited in claim 5 , wherein the change in inductance in the passive solenoid is measured by applying an AC waveform to the channel in operable communication with the passive solenoid at a frequency and current level that will not engage the passive solenoid. 7. A system as recited in claim 6 , wherein the frequency level of the AC waveform applied to the channel in operable communication with the passive solenoid ranges from 3 to 10 kH. 8. A system as recited in claim 5 , wherein the first and second solenoids are mechanically coupled to the device. 9. A system as recited in claim 5 , wherein each channel has a discrete switch associated with the controller for activating the channel. 10. A system as recited in claim 5 , wherein the device is at least one of a valve or actuator. 11. A method of determining a position of a dual solenoid device comprising: designating one of a first channel and a second channel as an active channel and the other channel as a passive channel, both channels being in operable communication with a respective solenoid, wherein each solenoid is in operable communication with a device and configured to move the device in response to being the active channel and to monitor a position of the device in response to being the passive channel; and determining the position of the device by monitoring an electrical parameter of the solenoid in operable communication with the passive channel, wherein the solenoid in operable communication with the passive channel is a passive solenoid, wherein monitoring the electrical parameter of the passive solenoid comprises monitoring the presence of an induced voltage across the passive solenoid; and measuring the presence of an induced voltage across the passive solenoid with a high speed analog/digital convertor. 12. A method as recited in claim 11 , wherein the device is at least one of a valve or actuator. 13. A method of determining a position of a dual solenoid device comprising: designating one of a first channel and a second channel as an active channel and the other channel as a passive channel, both channels being in operable communication with a respective solenoid, wherein each solenoid is in operable communication with a device and configured to move the device in response to being the active channel and to monitor a position of the device in response to being the passive channel; and determining the position of the device by monitoring an electrical parameter of the solenoid in operable communication with the passive channel, wherein the solenoid in operable communication with the passive channel is a passive solenoid, wherein monitoring the electrical parameter of the passive solenoid comprises monitoring a change in inductance in the passive solenoid. 14. A method as recited in claim 13 , wherein monitoring the change in inductance in the passive solenoid comprises applying an AC waveform to an associated channel at a frequency and current level that will not engage the passive solenoid. 15. A method as recited in claim 13 , wherein the device is at least one of a valve or actuator.