Implementations of conductive energy weapons (CEWs) may include a shock generating circuit configured to couple to a power source, two electrodes operatively coupled to the shock generating circuit, and a safety circuit operatively coupled to the shock generating circuit. The shock generating circuit may be configured to generate a first pulse train and deliver the first pulse train to a target, and may be configured to generate at least a second pulse train and deliver the at least second pulse train to a target. The safety circuit may be configured to prevent the CEW from applying pulse trains to the target after a predetermined number of pulse trains. The first pulse train may include two or more pulses having waveforms substantially identical with each other, each of the waveforms of the two or more pulses having both a positive voltage segment and a negative voltage segment.

Self-defense devices with multiple tools that can be deployed for use in a defensive capacity.

A conducted electrical weapon may deploy a first electrode. Deploying the first electrode may include deploying fewer electrodes than a minimum number required by the conducted electrical weapon to provide the stimulus signal at a remote location. The first electrode may be deployed in response to a first activation signal of a plurality of activation signals. The conducted electrical weapon may deploy a second electrode in response to a second activation signal of the plurality of activation signals. A signal generator of the conducted electrical weapon may provide a stimulus signal between the first electrode and the second electrode.

The present invention relates to an electrified riot protection shield for keeping law enforcement officers safe while deterring rioters. The shield is designed as a multi-person shield and can be used by a plurality of security officers to shield their bodies, such that when one or more protestors touch a front surface of the shield, a non-lethal electric shock is administered to the protestor's body to deter the protestor or rioter. The shield can be held in front of the officers' bodies by grasping the insulated handles disposed on a rear surface of the device and an electric supply is provided to a metal plate from an integrated battery for providing the electric shock. A trigger is actuated to enable the electric supply to the metal plate and the trigger can be actuated when the metal plate is pushed or touched by a protestor.

A magazine for a conducted electrical weapon may include a bore configured to receive a cartridge. The bore may be sized and shaped to receive a cartridge having a specific cartridge type. A cartridge may comprise a cartridge identifier coupled to an outer surface of the cartridge. The cartridge identifier may include a physical property indicating a cartridge type of the cartridge. The cartridge identifier may allow the cartridge to be correctly received into the bore of the magazine.

The invention relates to a non-lethal remote-acting electroshock weapon with electrical stunning means for use by law enforcement agencies and for civilian self-defense. The result achieved is the creation of a small remote-acting electroshock weapon capable of displaying an electrical spark discharge and operating in direct contact when loaded with a firing cartridge, and of allowing rapid reloading of the weapon with increased safety for the user. A small remote-acting electroshock weapon comprising a non-conductive housing with a cavity for a firing cartridge activated by a low voltage and having launchable current-conducting wires and a pyrotechnic device arranged inside the firing cartridge for releasing the firing cartridge from the housing of the weapon, a source of electrical energy, and a high-voltage stunning pulse generator having an electrical deactivation switch, is characterized in that it has: a movable mechanical safety trigger which can be controlled by a finger of a hand holding the weapon and interacts with the electrical deactivation switch of the high-voltage stunning pulse generator and with an additional electrical switch for preventing firing of the firing cartridge; a safety lock for preventing movement of the safety trigger in the event of unauthorized movement thereof and for locking the firing cartridge in the housing during firing; and a catch for locking the firing cartridge in the housing, said catch being controllable by the hand with which the user is holding the weapon.

According to one embodiment an electric shock self-defence cartridge is provided that includes a distal body in which one or more application means is housed, and a proximal body in which a wire is housed. The proximal body includes coupling means and electric connection means for being joined with the electric shock self-defence device. Compression means is arranged between the distal body and the proximal body for keeping the distal body shifted towards a rest position. The application means is housed in the distal body, such that in use, when the distal body is in contact with an assailant, the distal body shifts with respect to the proximal body from the rest position towards an actuation position in which the application means projects from the distal body to be adhered to the assailant's body.

A conducted electrical weapon may deploy a single electrode. The single electrode may be deployed in response to a first activation signal of a sequence of activation signals. The conducted electrical weapon may deploy a second electrode in response to a second activation signal of the sequence of activation signals. A signal generator of the conducted electrical weapon may provide a stimulus signal between the single electrode and the second electrode. Deploying the single electrode may include deploying fewer electrodes than a minimum number required by the conducted electrical weapon to provide the stimulus signal at a remote location.

A conducted electrical weapon may deploy a single electrode. The single electrode may be deployed in response to a first activation signal of a sequence of activation signals. The conducted electrical weapon may deploy a second electrode in response to a second activation signal of the sequence of activation signals. A signal generator of the conducted electrical weapon may provide a stimulus signal between the single electrode and the second electrode. Deploying the single electrode may include deploying fewer electrodes than a minimum number required by the conducted electrical weapon to provide the stimulus signal at a remote location.

The present invention relates to a push-out type miniature electric shock flashlight capable of automatically resetting, comprising a flashlight body shell, a plastic main body part, an integrated circuit board assembly and a base plate, an open slot; the plastic main body part comprises an operating member and a power control member, an LED lamp and electric shock sheets are provided inside the operating member, an ignition coil and a polymer lithium battery are provided inside the power control member, and a guide slot is also provided on a bottom surface of the power control member; the circuit board assembly is arranged between the polymer lithium battery and the plastic main body part and comprises a lighting switch, an electric shock/lighting change-over switch, a charging indicator, a USB interface and an electric shock switch; a joint pin and a guide block.