Abstract: Methods and apparatus for detecting a magnitude of a voltage at a face of a conducted electrical weapon (“CEW”). The magnitude of the voltage may be used to determine whether a pulse of a stimulus signal was delivered to a target. Structures for detecting the magnitude of the voltage may include structures that provide a stimulus voltage.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human target by providing a stimulus signal through the target via one or more electrodes. A propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The electrodes may be mechanically and electrically coupled to a deployment unit by a filament. An electrode may cooperate with a winding machine to wind the filament into a winding. The winding may be positioned inside the body of the electrode for deployment during launch.

Abstract: Methods and apparatus for detecting a magnitude of a voltage at a face of a conducted electrical weapon (“CEW”). The magnitude of the voltage may be used to determine whether a pulse of a stimulus signal was delivered to a target. Structures for detecting the magnitude of the voltage may include structures that provide a stimulus voltage.

Abstract: A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a stimulus signal through a human or animal target to impede locomotion of the target. The CEW may detect the quality of the electrical coupling (e.g., connection) of pairs of electrodes with the target. In accordance with the quality of the connections, the CEW may provide pulses of a stimulus signal to the various connections between electrode pairs in accordance with a sequence. The sequence may provide pulses at a first maximum pulse rate to any one connection to increase the likelihood of inducing neuromuscular incapacitation (“NMI”) and to save energy. The sequence may provide pulses to all connections at a second maximum pulse rate to increase the likelihood of inducing NMI and to save energy.

Abstract: A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a stimulus signal through a human or animal target to impede locomotion of the target. The CEW may detect the quality of the electrical coupling (e.g., connection) of pairs of electrodes with the target. In accordance with the quality of the connections, the CEW may provide pulses of a stimulus signal to the various connections between electrode pairs in accordance with a sequence. The sequence may provide pulses at a first maximum pulse rate to any one connection to increase the likelihood of inducing neuromuscular incapacitation (“NMI”) and to save energy. The sequence may provide pulses to all connections at a second maximum pulse rate to increase the likelihood of inducing NMI and to save energy.

Abstract: The number of pulses of a stimulus signal provided by a conducted electrical weapon (“CEW”) between launch and establishing an electrical circuit with a human or animal target may be counted to determine the distance between the CEW and the target and the distance between electrodes launched by the CEW toward the target while positioned in or near target tissue.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human target by providing a stimulus signal through the target via one or more electrodes. A propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The electrodes may be mechanically and electrically coupled to a deployment unit by a filament. An electrode may cooperate with a winding machine to wind the filament into a winding. The winding may be positioned inside the body of the electrode for deployment during launch.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human target by providing a stimulus signal through the target via one or more electrodes. A propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The electrodes may be mechanically and electrically coupled to a deployment unit by a filament. An electrode may cooperate with a winding machine to wind the filament into a winding. The winding may be positioned inside the body of the electrode for deployment during launch.

Abstract: A shield cooperates with a detector to determine the distance between a conducted electrical weapon (“CEW”) and a target. The CEW includes a laser for aiming the CEW. The shield cooperates with the detector to block or pass laser light that reflects from a target. The position of the shield with respect to the detector may be used to determine the distance between the CEW and the target. The detected distance between a CEW and a target may be used to select a deployment unit with a suitable range for launching electrodes toward a target. The detected distance between a CEW and a target may be used to determine a spread between launched electrodes at the target. The spread may be used to determine a likely effectiveness of a stimulus signal on the target. The detected distance, and any information associated with the detected distance may be stored in a memory.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human or animal target by providing a stimulus signal through the target via one or more electrodes. The CEW includes a propulsion system. The propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The propulsion system includes a canister of pressurized gas, an anvil, and a manifold. The canister releases the pressurized gas. The manifold delivers the pressurized gas to the electrodes to launch the electrodes. The canister has a cavity and an opening. A lid seals the opening to retain the pressurized gas in the cavity of the canister. The lid includes notches to fill the cavity with the pressurized gas.

Abstract: Systems and methods for calibrating, operating, and setting the magnitude of the power of light provided by a laser diode in a conducted electrical weapon (“CEW”). The light of the laser diode assists in targeting by providing a visible indication of the projected point of impact of the tethered electrode of the CEW. The calibration process enables laser diode of a CEW to operate within regional guidelines of the maximum output power of light permitted by a laser. The method further permits the magnitude of the power of the light provided by a laser diode to be set and operated in changing environmental conditions in the field.

Abstract: Systems and methods for calibrating, operating, and setting the magnitude of the power of light provided by a laser diode in a conducted electrical weapon (“CEW”). The light of the laser diode assists in targeting by providing a visible indication of the projected point of impact of the tethered electrode of the CEW. The calibration process enables laser diode of a CEW to operate within regional guidelines of the maximum output power of light permitted by a laser. The method further permits the magnitude of the power of the light provided by a laser diode to be set and operated in changing environmental conditions in the field.

Abstract: The number of pulses of a stimulus signal provided by a conducted electrical weapon (“CEW”) between launch and establishing an electrical circuit with a human or animal target may be counted to determine the distance between the CEW and the target and the distance between electrodes launched by the CEW toward the target while positioned in or near target tissue.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human or animal target by providing a stimulus signal through the target via one or more electrodes. The CEW includes a propulsion system. The propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The propulsion system includes a canister of pressurized gas, an anvil, and a manifold. The canister releases the pressurized gas. The manifold delivers the pressurized gas to the electrodes to launch the electrodes. The manifold may be formed of flexible material. The manifold may be formed as a single piece. A single-piece manifold reduces loss of pressurized air. The housing of the deployment unit supports the manifold against structural failure of the manifold.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human or animal target by providing a stimulus signal through the target via one or more electrodes. The CEW includes a propulsion system. The propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The propulsion system includes a canister of pressurized gas, an anvil, and a manifold. The canister releases the pressurized gas. The manifold delivers the pressurized gas to the electrodes to launch the electrodes. The canister has a cavity and an opening. A lid seals the opening to retain the pressurized gas in the cavity of the canister. The lid includes notches to fill the cavity with the pressurized gas.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human or animal target by providing a stimulus signal through the target via one or more electrodes. The CEW includes a propulsion system. The propulsion system provides a force that launches the one or more electrodes toward the target to deliver the stimulus signal. The propulsion system includes a canister of pressurized gas, an anvil, and a manifold. The canister releases the pressurized gas. The manifold delivers the pressurized gas to the electrodes to launch the electrodes. The manifold may be formed of flexible material. The manifold may be formed as a single piece. A single-piece manifold reduces loss of pressurized air. The housing of the deployment unit supports the manifold against structural failure of the manifold.

Abstract: Methods and apparatus for detecting a magnitude of a voltage at a face of a conducted electrical weapon (“CEW”). The magnitude of the voltage may be used to determine whether a pulse of a stimulus signal was delivered to a target. Structures for detecting the magnitude of the voltage may include structures that provide a stimulus voltage.

Abstract: Systems and methods for calibrating, operating, and setting the magnitude of the power of light provided by a laser diode in a conducted electrical weapon (“CEW”). The light of the laser diode assists in targeting by providing a visible indication of the projected point of impact of the tethered electrode of the CEW. The calibration process enables laser diode of a CEW to operate within regional guidelines of the maximum output power of light permitted by a laser. The method further permits the magnitude of the power of the light provided by a laser diode to be set and operated in changing environmental conditions in the field.

Abstract: A conducted electrical weapon (“CEW”) impedes locomotion of a human or animal target by providing a stimulus signal through one or more electrodes and through the target. The CEW includes a high voltage signal generator, a propulsion system, one or more electrodes, and a filament coupled to each electrode. The signal generator provides the stimulus signal, the propulsion system provides a force that launches the electrodes toward the target, and the filament delivers the stimulus signal from the signal generator to the electrode and through the target. The electrode of the CEW includes a body, detachably coupled to a front wall, a spear, a rear wall with an opening, and a filament. The spear and an end portion of the filament are coupled to the front wall. The filament is wound into a winding positioned in a cavity within the body of the electrode. As the electrode flies toward the target, the filament deploys through the opening in the rear wall.

Abstract: A deployment unit for use with a handle of a conducted electrical weapon (“CEW”). The deployment unit includes wire-tethered electrodes for launching toward a human or animal target for providing a current through the target to impede locomotion of the target. The deployment unit includes a barrier that prior to use with the handle protects the deployment unit from electrostatic discharge. Prior to use of the deployment unit, the barrier may further protect the deployment unit from ingress of dirt and/or moisture into the deployment unit. While the deployment unit is inserted into a handle, the barrier shields conductors of the handle and the deployment unit to facilitate delivery of a launch signal from the handle to the deployment unit to launch the wire-tethered electrodes.