A device for monitoring the status of a munition fuze is disclosed. The device includes a visible marker; an indicator strip, capable of actuation, from a first state to a second state; and a power source providing power to the munition initiation system, the visible marker and/or the indicator strip. The visible marker and indicator strip are positioned to be visible to an observer when the fuze has been fitted for use on said munition and activation of the power source causes switching of the visible marker from an off state to an on state and actuation of the indicator strip from a first state to a second state, such that the power source's activation is indicated by the actuation of the indicator strip to its second state. The visible marker remains in an on state only if there is sufficient power to operate the initiation system.

A device for monitoring the status of a munition fuze is disclosed. The device includes a visible marker; an indicator strip, capable of actuation, from a first state to a second state; and a power source providing power to the munition initiation system, the visible marker and/or the indicator strip. The visible marker and indicator strip are positioned to be visible to an observer when the fuze has been fitted for use on said munition and activation of the power source causes switching of the visible marker from an off state to an on state and actuation of the indicator strip from a first state to a second state, such that the power source's activation is indicated by the actuation of the indicator strip to its second state. The visible marker remains in an on state only if there is sufficient power to operate the initiation system.

The invention relates to the field of munition fuzes and is a device for monitoring the status of a munition fuze, said device comprising; a visible marker capable of being switched between an off state and an on state; an indicator strip, capable of actuation, from a first state to a second state; a power source, capable of activation, wherein the power source provides power to the munition initiation system, the visible marker and/or the indicator strip; wherein said visible marker and indicator strip are positioned to be visible to an observer when the fuze has been fitted for use on said munition; and wherein activation of the power source causes switching of the visible marker from an off state to an on state and actuation of the indicator strip from a first state to a second state, such that the power source's activation is indicated by the actuation of the indicator strip to its second state; and wherein the visible marker remains in an on state only if there is sufficient power to operate the initiation system.

The invention relates to the field of munition fuzes and is a device for monitoring the status of a munition fuze, said device comprising; a visible marker capable of being switched between an off state and an on state; an indicator strip, capable of actuation, from a first state to a second state; a power source, capable of activation, wherein the power source provides power to the munition initiation system, the visible marker and/or the indicator strip; wherein said visible marker and indicator strip are positioned to be visible to an observer when the fuze has been fitted for use on said munition; and wherein activation of the power source causes switching of the visible marker from an off state to an on state and actuation of the indicator strip from a first state to a second state, such that the power source's activation is indicated by the actuation of the indicator strip to its second state; and wherein the visible marker remains in an on state only if there is sufficient power to operate the initiation system.

A pyrotechnic projectile, an electronic controller for a pyrotechnic projectile, and a method of controlling a pyrotechnic projectile are provided. The pyrotechnic projectile comprises: a burst charge, configured to provide an a visual and/or audible effect upon activation thereof; an electronic match configured to activate the burst charge; and an electronic controller, coupled to the electronic match. The electronic controller is configured to determine an altitude of the pyrotechnic projectile and cause the electronic match to activate the burst charge at least in part according to the altitude of the pyrotechnic projectile.

Disclosed is a method for changing operation mode of a weapon that is connected to a maintenance device via an umbilical providing signals and power to the weapon. The method includes transmitting a mode change control signal to electronics in the weapon via a pin on an electrical interface connecting the umbilical to the weapon, and switching the weapon from an operational mode to a non-operational mode and vice versa after receiving the mode change control signal. Also disclosed is a weapon and system including a unit for performing the method.

In one embodiment, a squib simulation system includes a processor, sensors, and a firing point. The firing point receives electrical pulse information from a computer. The processor calculates electrical pulse information, including time information and current information. The processor determines a received current and determines whether the current exceeds a predetermined threshold necessary to ignite a squib. Upon a determination that the current exceeds the threshold, the processor determines a firing time that a squib would have fired given the current. The processor records and transfers the information to a user.

In one embodiment, a squib simulation system includes a processor, sensors, and a firing point. The firing point receives electrical pulse information from a computer. The processor calculates electrical pulse information, including time information and current information. The processor determines a received current and determines whether the current exceeds a predetermined threshold necessary to ignite a squib. Upon a determination that the current exceeds the threshold, the processor determines a firing time that a squib would have fired given the current. The processor records and transfers the information to a user.

A method for the validation of a fuse head in an electronic detonator is disclosed, the method including measuring at least once a first charge time; activating a switching means to a second position to replace a reference resistor in an RC circuit with the fuse head; measuring at least once a second charge time; and determining the deviation of the second charge time from the first charge time.

A method for the validation of a fuse head in an electronic detonator is disclosed, the method including measuring at least once a first charge time; activating a switching means to a second position to replace a reference resistor in an RC circuit with the fuse head; measuring at least once a second charge time; and determining the deviation of the second charge time from the first charge time.