A novel system for protecting one or more circuits during a dose rate event is presented. A clamping circuit is utilized that outputs a voltage signal that may be used to control prevent circuits from receiving input signals during a dose rate event. The clamping circuit comprises a photocurrent generating device that creates a current as a function of dose rate event strength. This current is used to control a grounding switch, which pulls the clamping circuit output to ground when a substantial current is created by the photocurrent generating device. The clamping circuit output may control a coupling switch that permits external input signal current flow when the clamping circuit output is above a threshold voltage level, and may prevent current flow when the output is grounded. The photocurrent generating device may be a PMOS device, while the coupling switch and clamping switch may be realized by NMOS devices.