Driving system for switching element

What is claimed is: 1. A driving system for driving a switching element, the driving system comprising: a first controller installed in a first system and configured to control the switching element; a temperature measuring module installed in a second system different from the first system and configured to measure a temperature of the switching element, and output a first signal representing the measured temperature of the switching element; a state determining module installed in the second system and comprising a first comparator configured to: compare the measured temperature of the switching element with a first threshold temperature based on the first signal; determine whether the switching element is in a specified temperature state based on a result of the comparison by the first comparator, and output a second signal representing a result of the determination to the first controller; a communication medium that communicably connects between the first system and the second system, the second signal output from the state determining module being transferred to the first controller via the communication medium, the first controller being configured to determine how to drive the switching element based on the second signal transferred thereto via the communication medium; a second comparator installed in the second system and configured to compare the measured temperature of the switching element with a second threshold temperature based on the first signal; and a second controller installed in the second system and configured to locally disable drive of the switching element if the measured temperature of the switching element is lower than the second threshold temperature based on a result of the comparison by the second comparator. 2. The driving system according to claim 1 , wherein: the first signal has first information representing the measured temperature of the switching element, and the second signal has second information representing the result of the determination, and an amount of the second information in the second signal is smaller than an amount of the first information in the first signal. 3. The driving system according to claim 1 , wherein: the state determining module is configured to output, as the second signal, a binary signal including, as the result of the determination, one of: a first logical level representing that the switching element is in the specified temperature state; and a second logical level representing that the switching element is not in the specified temperature state. 4. The driving system according to claim 1 , wherein: the state determining module is configured to: determine that the switching element is in the specified temperature state upon the measured temperature of the switching element included in the first signal passing through a threshold temperature, and output the second signal representing that the switching element is in the specified temperature state as the result of the determination. 5. The driving system according to claim 4 , wherein: the state determiner is configured to: determine that the switching element is, as the specified temperature state, in a first temperature state in which drive of the switching element need be limited upon the measured temperature of the switching element included in the first signal being higher than the threshold temperature, and output the second signal representing that the switching element is in the first temperature state as the result of the determination, and the controller is configured to limit drive of the switching element based on the second signal being transferred thereto via the communication medium, the second signal representing that the switching element is in the first temperature state. 6. The driving system according to claim 5 , wherein: an upper limit of the temperature of the switching element at which the switching element is drivable based on the limitation of drive of the switching element is defined as a specified temperature, and the threshold temperature is set to be lower than a value, the value being obtained by subtracting, from the specified temperature, a low-temperature error due to an individual variability of the temperature measuring module, the low-temperature error being included in the measured temperature of the switching element at a low-temperature side relative to an actual temperature of the switching element. 7. The driving system according to claim 5 , wherein: the state determiner is configured to: determine that the switching element is, as the specified temperature state, in the first temperature state upon the measured temperature of the switching element included in the first signal being higher than the threshold temperature, start outputting the second signal representing that the switching element is in the first temperature state as the result of the determination, and stop the output of the second signal upon the measured temperature of the switching element included in the first signal being equal to or lower than a predetermined temperature, the predetermined temperature being lower than the threshold temperature, and the controller is configured to continuously limit drive of the switching element during transfer of the second signal, representing that the switching element is in the first temperature state, to the controller via the communication medium. 8. The driving system according to claim 5 , wherein: the threshold temperature is referred to as a first threshold temperature, the driving system further comprising: a disabling module configured to: determine whether the measured temperature of the switching element is higher than a second threshold temperature, the second threshold temperature being higher than the first threshold temperature; and disable drive of the switching element upon determination that the measured temperature of the switching element is higher than the second threshold temperature. 9. The driving system according to claim 8 , wherein: the state determining module is configured to: output a third signal representing that the switching element is in a second temperature state as the result of the determination upon drive of the switching element being disabled by the disabling module, the second temperature state being different from the first temperature state. 10. The driving system according to claim 5 , wherein: the state determining module further comprises: a fault determining module configured to determine whether there is an open fault in the driving system, the open fault affecting on the temperature measuring module, and the fault determining module being configured to: output a fourth signal representing that the switching element is in a third temperature state as the result of the determination upon determination that there is an open fault in the driving system, the third temperature state being different from the first temperature state. 11. The driving system according to claim 5 , wherein: the switching element is provided in plurality, and the plurality of switching elements constitute a power converter for converting power and transferring converted power between a rotary machine and a DC power source, and the controller is configured to disable the limitation of drive of the switching element upon an external signal indicative of disabling limitation of a controlled variable of the rotary machine being input thereto. 12. The driving system according to claim 4 , wherein: the state determiner is configured to: determine that the switching element is not in the specified temperature state upon the meas