Detection of stuck in range sensor and method

The invention claimed is: 1. A method of diagnosing a stuck in range sensor, the method comprising: receiving a monitored signal from a monitored sensor; receiving a correlated signal from a correlated sensor; wherein the correlated signal is correlated to the monitored signal; determining a variation value of the monitored signal; determining a variation value of the correlated signal; and determining a state of the monitored sensor based on a magnitude of a difference between the variation value of the monitored signal and the variation value of the correlated signal. 2. The method of claim 1 , wherein the difference in magnitude between the variation value of the monitored signal and the variation value of the correlated signal is determined over a diagnostic period which is the same diagnostic period for: determining the variation value of the monitored signal; and determining the variation value of the correlated signal. 3. The method of claim 1 , wherein: determining the variation value of the monitored signal further comprises: determining a first monitored signal deviation and a second monitored signal deviation; and determining the variation value of the correlated signal further comprises: determining a first correlated signal deviation and a second correlated signal deviation. 4. The method of claim 3 , wherein: the variation value of the monitored signal is defined by a sum of the first and the second monitored signal deviations; and the variation value of the correlated signal is defined by a sum of the first and the second correlated signal deviations. 5. The method of claim 3 , wherein: the variation value of the monitored signal is defined by an average of the first and the second monitored signal deviations; and the variation value of the correlated signal is defined by an average of the first and the second correlated signal deviations. 6. The method of claim 3 , wherein: the first monitored signal deviation is determined over a first monitored sample time period; the first correlated signal deviation is determined over a first correlated sample time period; wherein the first monitored sample time period and the first correlated sample time period are synchronized; the second monitored signal deviation is determined over a second monitored sample time period; the second correlated signal deviation is determined over a second correlated sample time period; and wherein the second monitored sample time period and the second correlated sample time period are synchronized. 7. The method of claim 6 , wherein: the first monitored sample time period and the first correlated sample time period are the same time period; and the second monitored sample time period and the second correlated sample time period are the same time period. 8. The method of claim 3 , wherein: the first monitored signal deviation is based on a magnitude of a difference between a first monitored signal value sampled at a first monitored sample time and a second monitored signal value sampled at a second monitored sample time, wherein the second monitored sample time is different than the first monitored sample time; the second monitored signal deviation is based on a magnitude of a difference between the second monitored signal value and a third monitored signal value sampled at a third monitored sample time; the third monitored sample time is different than the second monitored sample time; the first correlated signal deviation is based on a magnitude of a difference between a first correlated signal value sampled at a first correlated sample time and a second correlated signal value sampled at a second correlated sample time; and the second correlated signal deviation is based on a magnitude of a difference between the second correlated signal value and a third correlated signal value sampled at a third correlated sample time; wherein the first, second and third correlated sample times are different times. 9. The method of claim 1 , further comprising: determining a stuck in range state when the magnitude of the difference between the variation value of the monitored signal value and the variation value of the correlated signal value is greater than or equal to a fault threshold. 10. The method of claim 1 , further comprising: diagnosing a stuck in range sensor of a vehicle, the vehicle comprising: a control module including a variation determination module that generates the variation values of each of the monitored sensor and the correlated sensor; the monitored sensor sensing a first condition of the vehicle; the correlated sensor sensing a second condition of the vehicle; and wherein the first condition and the second condition are different conditions of the vehicle. 11. The method of claim 1 , further comprising: the monitored sensor sensing one of: an inverter input voltage of an inverter; and a battery voltage of a battery; wherein the inverter is operatively connected to the battery such that the inverter input voltage and the battery voltage are correlated to each other during operation of the inverter and the battery; and the correlated sensor sensing the other of the inverter input voltage and the battery voltage.