In an embodiment, a self-defense system is disclosed. The self-defense system may include or comprise a material sized to conform to an appendage, and a defense unit coupled with the material and positioned to initiate a defense event in response to an input.

In an embodiment, a self-defense system is disclosed. The self-defense system may include or comprise a material sized to conform to an appendage, and a defense unit coupled with the material and positioned to initiate a defense event in response to an input.

There is disclosed herein, by way of example, a personal safety device having a main body having disposed therein a non-lethal defensive weapon (such as pepper spray, taser, or baton); a hand enclosure; a light; and a bottom attachment; wherein the main body is constructed with a size and shape to comfortably fit an average human female hand.

There is disclosed herein, by way of example, a personal safety device having a main body having disposed therein a non-lethal defensive weapon (such as pepper spray, taser, or baton); a hand enclosure; a light; and a bottom attachment; wherein the main body is constructed with a size and shape to comfortably fit an average human female hand.

A safety switch for a conducted electrical weapon (CEW) may be configured to operate between at least one fixed position and at least one momentary position. In response to the safety switch being operated into the at least one momentary position, the safety switch may return to the at least one fixed position. In the fixed position, the safety switch may be configured to perform a firing mode operation. In the momentary position, the safety switch may be configured to perform a non-firing mode operation.

A stun apparatus can include a shock box including a positive terminal electrically coupled to a positive current conductive strip; a negative terminal electrically coupled to a negative current conductive strip; and a stun sleeve having the positive current conductive strip and the negative current conductive strip located along the outside of the stun sleeve. The shock box and the stun sleeve are attached to a weapon. When the shock box is active, current will flow to the positive current conductive strip. If a person grabs onto or touches both the positive and negative current conductive strips, then the current will flow from the positive to the negative through the persons body, thus shocking or stunning the person. The stun apparatus can reduce the risk that the person is able to take the weapon away from a police or correctional officer or military members.

A stun apparatus can include a shock box including a positive terminal electrically coupled to a positive current conductive strip; a negative terminal electrically coupled to a negative current conductive strip; and a stun sleeve having the positive current conductive strip and the negative current conductive strip located along the outside of the stun sleeve. The shock box and the stun sleeve are attached to a weapon. When the shock box is active, current will flow to the positive current conductive strip. If a person grabs onto or touches both the positive and negative current conductive strips, then the current will flow from the positive to the negative through the persons body, thus shocking or stunning the person. The stun apparatus can reduce the risk that the person is able to take the weapon away from a police or correctional officer or military members.

A system for training animals includes a hand-held device and a remote device, where the remote device applies a stimulus when a user presses a button or trigger on the hand-held device. The amount of pressure applied is measured by a pressure sensitive transducer and transformed into proportional transducer signals. These transducer signals are transmitted to the remote device, which then applies a stimulus to an animal being trained. The amplitude of the applied stimulus corresponds to the amplitude of the transducer signals; a trainer can thus precisely control the intensity of the stimulus by applying and relieving pressure on the button. The type of stimulus applied is controlled based on the position of a rotary switch on the hand-held device. Sensor data generated by specialized sensors in the remote device may be transmitted to the hand-held device to provide the user with sensory feedback.