Car control device wake up for electrically controlled pneumatic train braking systems

What is claimed is: 1. A system for activating a car control device of an electrically controlled pneumatic braking system, comprising: a supercapacitor capable of outputting a predetermined voltage; a pressure switch responsive to a source of brake pipe pressure to move to a closed position in response to a predetermined amount of pressure; a first circuit coupled to the supercapacitor via the pressure switch and configured to boost the predetermined voltage of the supercapacitor to a boosted voltage; a relay coupled to the first circuit to selectively provide the boosted voltage to a power input of the car control device; a second circuit coupled to the supercapacitor and the relay that is configured to control the relay to select when the boosted voltage is provided to the power input of the car control device; and a third circuit coupled to the supercapacitor via the pressure switch that is configured to selectively provide power to the first circuit and the second circuit based on whether the car control device is to receive the boosted voltage. 2. The system of claim 1 , wherein the second circuit comprises a delay configured to provide time for the first circuit to be fully energized prior to the second circuit being fully energized. 3. The system of claim 2 , wherein the second circuit further comprises a comparator coupled to the delay and configured to monitor the predetermined voltage of the supercapacitor. 4. The system of claim 3 , wherein the second circuit further comprising a one shot timer coupled to the comparator. 5. The system of claim 4 , wherein the third circuit comprises a power circuit configured to provide power to the first circuit and to the second circuit, and a feedback circuit that can enable or disable the power circuit based on a feedback output from the car control device. 6. The system of claim 5 , wherein the feedback output is configured to be powered by a power output from the car control device. 7. The system of claim 6 , wherein the feedback output from the car control device comprises a signal that the car control device is awake. 8. The system of claim 7 , wherein the feedback input from the car control device comprises a signal that the car control device is in a fault condition. 9. A method of waking up a car control device of an electrically controlled pneumatic braking system, comprising the steps of: providing a pressure switch configured to close in response a threshold amount of brake pipe pressure; coupling a supercapacitor capable of outputting a predetermined voltage to a first circuit via closing of the pressure switch, wherein the first circuit is configured to boost the predetermined voltage of the supercapacitor to a boosted voltage and to provide the boosted voltage to a relay; coupling the supercapacitor to a second circuit via closing of the pressure switch, wherein the second circuit is configured to control the relay to select when the boosted voltage is provide to a power input of the car control device; coupling the supercapacitor to a third circuit via closing of the pressure switch, wherein the third circuit is configured to selectively provide power to the first circuit and the second circuit based on whether the car control device is to receive the boosted voltage; and checking whether the car control device is to be woken up and, if so, controlling the relay with the second circuit to provide the boosted voltage of the first circuit to the power input of the car control device. 10. The method of claim 9 , further comprising the step of checking to determine whether the car control device is not be woken up and, if so, using the third circuit to remove power from the first circuit and the second circuit. 11. The method of claim 10 , wherein the second circuit comprises a delay configured to provide time for the first circuit to be fully energized prior to the second circuit being fully energized, a comparator coupled to the delay and configured to monitor the predetermined voltage of the supercapacitor, and a one shot timer coupled to the comparator. 12. The method of claim 11 , wherein the third circuit comprises a power circuit configured to provide power to the first circuit and to the second circuit, and a feedback circuit that can enable or disable the power circuit based on a feedback output from the car control device. 13. The method of claim 12 , wherein the feedback circuit is configured to be powered by a power output from the car control device. 14. The method of claim 13 , wherein the feedback output from the car control device comprises a signal indicating that the car control device is awake or indicating that the car control device is in a fault condition.