Transient voltage suppressor having built-in-test capability for solid state power controllers

The invention claimed is: 1. A transient protection circuit configured for use in a solid state power controller (SSPC) comprising a plurality of power channels, the transient protection circuit comprising: a shared transient voltage suppressor communicatively coupled to ground; and a shared protection line communicatively coupled to the shared transient voltage suppressor; wherein the shared protection line is configured to be communicatively coupled to and shared by the plurality of power channels; wherein the plurality of power channels are communicatively coupled to a shared feed line; wherein each of the plurality of power channels is communicatively coupled to a non-shared load line; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, positive pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels are dissipated through the any one of the plurality of power channels to the shared feed line; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, negative pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels are dissipated through the shared protection line and the shared transient voltage suppressor. 2. The circuit of claim 1 further comprising: a built-in-test (BIT) circuit communicatively coupled to the shared protection line and configured to test the shared transient voltage suppressor to detect a dormant failure of the shared transient voltage suppressor. 3. The circuit of claim 1 further comprising: a plurality of channel diodes, wherein the shared protection line is communicatively coupled through one of the plurality of channel diodes to the non-shared load line of any one of the plurality of power channels; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, the negative pulses above the threshold originated from the non-shared load line of any one of the plurality of power channels also pass through a non-shared one of the plurality of the channel diodes according to the following: the non-shared one of the plurality of channel diodes passes the negative pulses to the shared protection line; and based on the shared protection line reaching a breakdown voltage of the shared transient voltage suppressor, the shared transient voltage suppressor starts to conduct and carries current through the shared transient voltage suppressor, over the shared protection line, through the non-shared one of the plurality of channel diodes, and to the non-shared load line. 4. The circuit of claim 1 , wherein the pulses above the threshold are induced by a lightning strike. 5. The circuit of claim 1 , wherein: the shared transient voltage suppressor comprises a shared transient voltage suppression (TVS) diode. 6. The circuit of claim 5 , wherein the lightning protection circuit further comprises: a built-in-test (BIT) circuit communicatively coupled to the shared protection line and configured to test the shared TVS diode to detect a dormant failure of the shared TVS diode. 7. A transient protection circuit configured for use in a solid state power controller (SSPC) comprising a feed line communicatively coupled to a plurality of power channels, the transient protection circuit comprising: a shared transient voltage suppressor communicatively coupled to ground; a transient voltage suppression circuit comprising a transient voltage suppression (TVS) diode in series with a non-TVS diode, wherein the TVS diode is coupled to ground and the non-TVS diode is coupled to a shared feed line; and a shared protection line communicatively coupled to the shared transient voltage suppressor; wherein the shared protection line is configured to be communicatively coupled to and shared by the plurality of power channels; wherein the plurality of power channels are communicatively coupled to the shared feed line; wherein each of the plurality of power channels is communicatively coupled to a non-shared load line; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, positive pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels is dissipated through the any one of the plurality of power channels and the shared feed line to the transient voltage suppression circuit; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, negative pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels are dissipated through the shared protection line and the shared transient voltage suppressor. 8. The circuit of claim 7 further comprising: a first built-in-test (BIT) circuit communicatively coupled to the shared protection line and configured to test the shared transient voltage suppressor to detect a dormant failure of the shared transient voltage suppressor; and a second BIT circuit communicatively coupled to the TVS diode and configured to test the TVS diode to detect a dormant failure of the TVS diode. 9. A method of forming a transient protection circuit configured for use in a solid state power controller (SSPC) comprising a plurality of power channels, the method comprising: forming a shared transient voltage suppressor communicatively coupled to ground; forming a shared protection line communicatively coupled to the shared transient voltage suppressor; and configuring the shared protection line to be communicatively coupled to and shared by the plurality of power channels; configuring the plurality of power channels to be communicatively coupled to a shared feed line; configuring each of the plurality of power channels to be communicatively coupled to a non-shared load line; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, positive pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels are dissipated through the any one of the plurality of power channels to the shared feed line; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, negative pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels are dissipated through the shared protection line and the shared transient voltage suppressor. 10. The method of claim 9 further comprising: forming a built-in-test (BIT) circuit; configuring the BIT circuit to be communicatively coupled to the shared protection line; and further configuring the BIT circuit to test the shared transient voltage suppressor to detect a dormant failure of the shared transient voltage suppressor. 11. The method of claim 9 further comprising: communicatively coupling a feed line to the plurality of power channels; forming a transient voltage suppression (TVS) diode in series with a non-TVS diode; and communicatively coupling the non-TVS diode to the feed line; wherein, when the shared protection line is communicatively coupled to and shared by the plurality of power channels, positive pulses above a threshold originated from the non-shared load line of any one of the plurality of power channels are dissipated through the any one of the plurality of power channels through the shared feed line to the non-TVS diode in series with the TVS diode. 12. The method