Systems and methods for testing arm and fire devices

What is claimed: 1 . A system comprising: an arm and fire device (AFD) arm/fire module; a monitoring module coupled to the AFD arm/fire module through a plurality of means of isolation and communication, wherein the monitoring module is powered by a first power supply, the monitoring module includes one or more circuit monitors for monitoring continuity of at least one signal to the AFD arm/fire module and for monitoring at least one circuit in the AFD arm/fire module, and wherein the monitoring module includes a first switch for controlling power from the first power supply to circuits in the monitor module; and a second supply coupled to the AFD arm/fire module to provide arming power to the AFD arm/fire module. 2 . The system of claim 1 , wherein the plurality of means of isolation and communication comprise: a first means of isolation and communication disposed between a first circuit monitor in the monitoring module and a first mating circuit in the AFD arm/fire module; and a second means of isolation and communication disposed between a second circuit monitor in the monitoring module and a second mating circuit in the AFD arm/fire module. 3 . The system of claim 2 , wherein: the first means of isolation and communication is configured to isolate the first circuit monitor from the first mating circuit in the AFD arm/fire module; and the second means of isolation and communication is configured to isolate the second circuit monitor from the second mating circuit in the AFD arm/fire module. 4 . The system of claim 2 , wherein: the first means of isolation and communication is configured to provide communication of input data to the first mating circuit in the AFD arm/fire module; and the second means of isolation and communication is configured to provide communication of input data to the second mating circuit in the AFD arm/fire module. 5 . The system of claim 1 , wherein the monitoring module is coupled to an external circuit and the first power supply is provided from the external circuit to the monitoring module. 6 . The system of claim 5 , wherein a first switch controls application of the first power supply to at least one of the one or more circuit monitors in the monitoring module. 7 . The system of claim 1 , further comprising a voltage inversion circuit to generate a continuity signal having a voltage polarity different from the polarity of a control signal to the AFD arm/fire module. 8 . The system of claim 5 , further comprising one or more voltage steering devices to provide at least one path for measuring continuity to at least one external circuit to the AFD arm/fire module and prevent a continuity signal from activating at least one AFD circuit. 9 . The system of claim 1 , wherein the monitoring module is configured to control activation of the second power supply to the AFD arm/fire module as a result of a first test of at least one continuity, a second test of at least one AFD circuit, or combination of both. 10 . The system of claim 1 , further comprising a second switch coupled to the second power supply and a start launch sequence monitor coupled to the second switch, wherein the start launch sequence monitor is configured to control operation of the second switch responsive to a result of a test of at least one or more monitor circuits. 11 . The system of claim 1 , further comprising a high voltage monitor coupled to a AFD monitor module, wherein the high voltage module is configured to detect a status of a capacitor coupled to an initiator in the AFD arm/fire module. 12 . The system of claim 1 , wherein the AFD includes at least one of a fuze, an Electronic Safe and Arm Device (ESAD), an Electronic Safe, Arm and Fire device (ESAF), an Ignition Safety Device (ISD), and a Safe and Arm Device (SAD). 13 . The system of claim 1 , wherein one or more circuits comprises: an intent to launch detector configured to detect an intent to launch condition; and a power delay module coupled to the intent to launch detector, wherein the power delay module is configured to delay the first power supply to the AFD arm/fire module until after a launch event; and an intent to launch control switch coupled to an input to the monitoring module, wherein the intent to launch control switch is configured to control application of the arm power supply to one or more arm control circuit. 14 . The system of claim 12 , wherein the plurality of means of isolation and communication comprises: a third means of isolation and communication disposed between the intent to launch detector in the monitoring module and a post launch detector in the AFD arm/fire module; and a fourth means of isolation and communication disposed between the power delay module in the monitoring module and a second intent to launch detector in the AFD arm/fire module. 15 . A method for testing an Arm and Fire Device (AFD), the method comprising: employing one or more means of isolation and communication disposed between an AFD arm/fire module and a monitoring module, wherein the one or more means of isolation and communications are configured to couple the AFD arm/fire module to the monitoring module in a closed position and isolate the AFD arm/fire module from the monitoring module in an open position; providing a continuity signal via a signal path to the monitoring module responsive to employing the one or more means of isolation and communication, wherein the AFD arm/fire module and the monitoring module are coupled to the signal path, and wherein the one or more means of isolation and communication prevents the continuity signal from powering the AFD arm/fire module; and verifying a connection to the monitoring module using the continuity signal. 16 . The method of claim 15 , further comprising generating the continuity signal with said voltage polarity to performing a continuity test between the monitoring module and an external circuit to the AFD. 17 . The method of claim 16 , further comprising providing a power signal to the external circuit via the signal path, wherein the power signal has a second polarity, and wherein the second polarity is opposite the first polarity. 18 . The method of claim 17 , further comprising controlling activation of the power signal to the Arm/fire module responsive to a result of the continuity test between the monitoring module and an external circuit to the AFD, an input to the AFD, or combination of them. 19 . The method of claim 15 , wherein employing the one or more means of isolation further comprises: isolating a power supply provided to the monitoring module from a first arm detector in the AFD arm/fire module; isolating a second environment sensor in the monitoring module from a second arm environment detector in the AFD arm/fire module; and isolating a built in test and monitor module in the monitoring module from the AFD arm/fire module. 20 . The method of claim 15 , further comprising providing a power supply to the monitoring module via the signal path responsive to opening the one or more means of isolation, wherein the one or more means of isolation prevents the power supply from powering the AFD arm/fire module. 21 . The method of claim 15 , further comprising controlling a direction of the continuity signal along the signal path using one or more voltage steering devices. 22 . The method of claim 15 , further comprising monitoring a status of a capacitor coupled to a foil initiator in the A