Fuze setter adapter systems and techniques

What is claimed is: 1. A fuze setter adapter, comprising: a first interface adapted to couple with a fuze; a second interface adapted to couple with a fuze setter, where the fuze setter is incompatible with the fuze; and a processor control operatively engaged with the first interface and the second interface; wherein programming provided in the processor control establishes communication between the fuze and the fuze setter and enables fuze setting to occur. 2. The fuze setter adapter according to claim 1 , wherein each of the first interface and the second interface is one or more of an electrical signal interface, an electrical power interface, and a communications interface. 3. The fuze setter adapter according to claim 1 , wherein each of the first interface and the second interface is one or more of a wireless interface and a direct connect interface. 4. The fuze setter adapter according to claim 3 , wherein the wireless interface is one of an inductive coil, a Radio Frequency (RF) transceiver, a Height of Burst (HoB) sensor, and an optical transceiver. 5. The fuze setter adapter according to claim 3 , wherein the direct connect interface is one of a contact pad, a continuous contact ring, a segmented contact ring, and a contact pin. 6. The fuze setter adapter according to claim 1 , further comprising: a first mechanical interface adapted to engage the fuze; and a second mechanical interface adapted to engage the fuze setter. 7. A fuze setting method comprising: engaging a fuze setter adapter between a fuze setter and a fuze, where the fuze setter and the fuze are incompatible with each other; establishing communication between the fuze setter adapter and both the fuze setter and the fuze; transferring fuze setting data from the fuze setter to the fuze setter adapter; and transferring the fuze setting data from the fuze setter adapter to the fuze. 8. The method according to claim 7 , wherein the transferring of the fuze setting data from the fuze setter to the fuze setter adapter further comprises: encoding the fuze setting data into waveforms; and transferring the waveforms of the encoded fuze setting data from the fuze setter to the fuze setter adapter. 9. The method according to claim 8 , further comprising: receiving the waveforms of the encoded fuze setting data; decoding the fuze setting data from the waveforms; encoding the decoded fuze setting data into a fuze-compatible format; and transferring the fuze-compatible format of the fuze setting data from the fuze setter adapter to the fuze. 10. The method according to claim 9 , further comprising: transferring the waveforms of the encoded fuze setting data from the fuze setter to the fuze setter adapter via a first interface; and transferring the fuze-compatible format of the fuze setting data from the fuze setter adapter to the fuze via a second interface. 11. The method according to claim 7 , further comprising utilizing one of a direct connect interface and a wireless interface as one or both of the first interface and the second interface. 12. The method according to claim 7 , further comprising: applying electrical power from the fuze setter to the fuze setter adapter; generating fuze-compatible electrical power; and applying the fuze-compatible electrical power to the fuze. 13. The method according to claim 7 , further comprising: sending a discrete electrical signal from the fuze setter to the fuze setter adapter; converting the discrete electrical signal to a fuze-compatible format; and sending the converted discrete electrical signal from the fuze setter adapter to the fuze. 14. The method according to claim 7 , further comprising: sending a fuze discrete electrical signal from the fuze to the fuze setter adapter; converting the fuze discrete electrical signal to a fuze-setter-compatible format; and sending the converted fuze discrete electrical signal from the fuze setter adapter to the fuze setter. 15. The method according to claim 7 , further comprising: engaging the fuze with the fuze setter adapter via a first mechanical interface; and engaging the fuze setter adapter with the fuze setter via a second mechanical interface. 16. The method according to claim 7 , further comprising: utilizing programming provided in a processor control of the fuze setter adapter to perform one or more of an electrical signal conversion, a communications conversion, and a communications translation on the fuze setting data prior to transferring the fuze setting data from the fuze setter adapter to the fuze. 17. A fuze setting system, comprising: a fuze adapted to be engaged with a projectile; a fuze setter; wherein the fuze and the fuze setter are incompatible in at least one way that prevents fuze setting; and a fuze setter adapter configured to matingly engage with the fuze and the fuze setter; said fuze setter adapter including a processor control that establishes communication between the fuze and the fuze setter such that fuze setting occurs. 18. The fuze setting system according to claim 17 , further comprising: a fuze interface provided on the fuze; a fuze setter interface provided on the fuze setter; wherein the fuze interface and the fuze setter interface are incompatible; a first interface provided on the fuze setter adapter that couples with the fuze interface; and a second interface provided on the fuze setter adapter that couples with the fuze setter interface; and wherein the processor control is engaged with the first and second interface. 19. The fuze setting system according to claim 18 , wherein the fuze interface, the fuze setter interface, the first interface, and the second interface are all electrical signal interfaces and the processor control enables bi-directional communication between the fuze setter and the fuze. 20. The fuze setting system according to claim 18 , wherein the fuze interface, the fuze setter interface, the first interface, and the second interface are all electrical power interfaces; and the processor control enables electrical power to be transferred from the fuze setter to the fuze.