A conducted electrical weapon (“CEW”) launches wire-tethered electrodes to provide a current through a human or animal target to impede locomotion of the target. The current may ionize air in a gap. A gap may occur between terminals at a face of the CEW and/or between the electrodes positioned near target tissue. A CEW may include a detector to detect ionization of air in a gap. A CEW may use information related to detecting ionization to determine a location where the ionization occurred. Information regarding location of ionization may be used to determine whether the current was delivered through the target via the electrodes.

A conducted electrical weapon (“CEW”) launches wire-tethered electrodes to provide a current through a human or animal target to impede locomotion of the target. The current may ionize air in a gap. A gap may occur between terminals at a face of the CEW and/or between the electrodes positioned near target tissue. A CEW may include a detector to detect ionization of air in a gap. A CEW may use information related to detecting ionization to determine a location where the ionization occurred. Information regarding location of ionization may be used to determine whether the current was delivered through the target via the electrodes.

An agricultural system includes a controller comprising a memory and a processor. The controller is configured to receive a sensor signal, determine a current flow based on the sensor signal, determine whether the current flow exceeds a current threshold for a time threshold, and operate a drive system of the agricultural system in an alternative operation instead of a normal operation in response to determining the current flow exceeds the current threshold for the time threshold.

An agricultural system includes a controller comprising a memory and a processor. The controller is configured to receive a sensor signal, determine a current flow based on the sensor signal, determine whether the current flow exceeds a current threshold for a time threshold, and operate a drive system of the agricultural system in an alternative operation instead of a normal operation in response to determining the current flow exceeds the current threshold for the time threshold.

The present invention belongs to the field of devices to scare away birds in general, preferably gulls, pigeons and vultures using a variable electromagnetic field. More specifically, the invention teaches a system of bird repellence by sensorineural interaction, which works through the formation of an electromagnetic field. The system consists of a pulse generator (1) that is electrically connected to a mesh (2) consisting of a plurality of coils (4) arranged in insulating plugs (22) that induce an electromagnetic field that interacts with the birds' magnetic orientation system. Finally, a method of installation of the inductive mesh (4) is revealed.

An electric fence connection system includes a body formed with a slot have a predetermined depth. The slot may be formed to receive a polymer coated cable such that at least a portion of the polymer coated cable is surround by the body. The body may be formed to also include a first threaded aperture that extends through the body to the slot. A first threaded fastener may be sized to threadably engage the first threaded aperture. The first threaded fastener may include a head at a proximate end, a conical tip at a distal end and threads along a shaft of the fastener between the distal and the proximate end. The conical tip of the first threaded fastener may be formed to pierce the polymer coated cable positioned in the slot. The body may be formed with a second aperture formed to receive a power supply cable to supply electrical power to the polymer coated cable via the first threaded fastener.

An electric fence connection system includes a body formed with a slot have a predetermined depth. The slot may be formed to receive a polymer coated cable such that at least a portion of the polymer coated cable is surround by the body. The body may be formed to also include a first threaded aperture that extends through the body to the slot. A first threaded fastener may be sized to threadably engage the first threaded aperture. The first threaded fastener may include a head at a proximate end, a conical tip at a distal end and threads along a shaft of the fastener between the distal and the proximate end. The conical tip of the first threaded fastener may be formed to pierce the polymer coated cable positioned in the slot. The body may be formed with a second aperture formed to receive a power supply cable to supply electrical power to the polymer coated cable via the first threaded fastener.

An agricultural system includes a controller comprising a memory and a processor. The controller is configured to receive a sensor signal, determine a current flow based on the sensor signal, determine whether the current flow exceeds a current threshold for a time threshold, and operate a drive system of the agricultural system in an alternative operation instead of a normal operation in response to determining the current flow exceeds the current threshold for the time threshold.

The invention relates to a system comprising a remote control (21), a pull-out box (8) comprising an emitting and receiving RF chip (16), a switch (14) controlling the electrical power supply of the energiser (4), and a first electronic circuit (15) for operating the switch (14), exchanging RF signals with the RF chip (16). The system comprises a remote control (20) for reading and emitting signals conducted by the fence wire (2), a galvanic connection (9, 10) to the electric fence, and in the pull-out box, a second electronic circuit (19) for operating the switch (14) in connection with the remote control (20), and means for transforming signals conducted by the wire (2) into RF signals emitted by the RF chip (16).

The invention relates to a system comprising a remote control (21), a pull-out box (8) comprising an emitting and receiving RF chip (16), a switch (14) controlling the electrical power supply of the energiser (4), and a first electronic circuit (15) for operating the switch (14), exchanging RF signals with the RF chip (16). The system comprises a remote control (20) for reading and emitting signals conducted by the fence wire (2), a galvanic connection (9, 10) to the electric fence, and in the pull-out box, a second electronic circuit (19) for operating the switch (14) in connection with the remote control (20), and means for transforming signals conducted by the wire (2) into RF signals emitted by the RF chip (16).