Abstract: A sensing device for detecting a broken conductor. The sensing device comprises a first sensor for sensing a parameter of a conductor, a communication interface including a transceiver, and an electronic processor. The electronic processor is configured to receive the parameter of the conductor from the first sensor, determine a jerk of the conductor based on the parameter, compare the jerk to a first predetermined threshold value, and transmit, with the transceiver, at least one of a first signal to a utility manager and a second signal to a pole sensing device.

Abstract: A system includes a number of sensor units and a local controls station. The sensor units include one or more conductor sensors configured to monitor one or more parameters of a conductor in a power distribution system. The local control station includes a communication interface for communicating with the sensor units and a controller. The controller is configured to receive data from the sensing units, determine whether an event associated with one or more components of a power distribution network occurred based on the received data, and then determine whether the event requires protective action in response to determining that the event occurred. The controller determines whether the event occurred downstream of the local control station, and, in response to determining that the event requires protective action and occurred downstream of the local control station, control the one or more protective devices to perform a protective action.

Abstract: Devices, systems, and methods incorporate the most-used functions of an electrical stimulator's controller into a small, thin pocket controller that is not only comfortable to carry in a pocket, but can also be attached to a key ring, lanyard, or other such carrying device for ease of daily use. A separate patient controller charger is used to charge and control the implanted medical device.

Abstract: Methods and devices for improving pelvic floor dysfunction in a patient suffering therefrom by electrically modulating neural tissue in a minimally invasive fashion using an electrical micro stimulator are provided.

Abstract: Methods, devices and systems for improving pelvic floor dysfunction in a patient suffering therefrom by electrically modulating neural tissue in a minimally invasive fashion using an electrical microstimulator are provided. Methods include inserting an electrical microstimulator having a re-deployable fixation member through skin of a patient's leg and advancing the electrical microstimulator through the skin along tissue of a surgical pathway to an area of the patient's leg. A target implant site can be identified that is above deep fascia and below the skin and that is adjacent to a target nerve associated with pelvic floor function. The electrical microstimulator can be anchored to the target implant site via the re-deployable fixation member or re-positioned, if necessary. A therapy electrical signal can be delivered to the target nerve from the target implant site.

Abstract: Systems, methods, and apparatus are described herein for obtaining medical diagnostic measurements from implanted sensors. In various embodiments, a spinal implant-monitoring apparatus may include: a bridge defining a first hermetically-sealed interior and two or more legs; one or more strain gauges contained within the first hermetically-sealed interior of the bridge to provide a signal indicative of strain measured between the legs of the bridge; a housing defining a second hermetically-sealed interior, the housing mounted on a surface of the bridge; and control circuitry contained within the second hermetically-sealed interior. The control circuitry may be in communication with the one or more strain gauges and may be configured to convert the signal into digital data representative of the signal. Methods of using such apparatus are also disclosed.

Abstract: Devices, systems, and methods incorporate the most-used functions of an electrical stimulator's controller into a small, thin pocket controller that is not only comfortable to carry in a pocket, but can also be attached to a key ring, lanyard, or other such carrying device for ease of daily use. A separate patient controller charger is used to charge and control the implanted medical device.

Abstract: Methods, devices and systems for improving pelvic floor dysfunction in a patient suffering therefrom by electrically modulating neural tissue in a minimally invasive fashion using an electrical microstimulator are provided. Methods include inserting an electrical microstimulator having a re-deployable fixation member through skin of a patient's leg and advancing the electrical microstimulator through the skin along tissue of a surgical pathway to an area of the patient's leg. A target implant site can be identified that is above deep fascia and below the skin and that is adjacent to a target nerve associated with pelvic floor function. The electrical microstimulator can be anchored to the target implant site via the re-deployable fixation member or re-positioned, if necessary. A therapy electrical signal can be delivered to the target nerve from the target implant site.

Abstract: Methods and devices for improving pelvic floor dysfunction in a patient suffering therefrom by electrically modulating neural tissue in a minimally invasive fashion using an electrical micro stimulator are provided.

Abstract: A patient programmer has a housing having a key-fob-sized form factor. The patient programmer has electrical circuitry implemented inside the housing. The electrical circuitry includes a communication module configured to conduct wireless communications with an implantable pulse generator. The patient programmer has a user display implemented on the housing. The user display is configured to display one or more statuses of the implantable pulse generator. The implantable pulse generator is configured to generate an electrical stimulation therapy. The patient programmer has one or more buttons implemented on the housing. The one or more buttons are configured to send instructions, via the communication module, to the implantable pulse generator to adjust a stimulation parameter of the electrical stimulation therapy.

Abstract: Disclosed herein is a method including manufacturing a barrier opening system comprising a barrier operator, and at least one wireless transmitter for wirelessly transmitting commands to the barrier operator. Prior to delivery of the barrier opening system to an end user, an authorization code is programmed into the at least one wireless transmitter. Also prior to delivery of the barrier opening system to the end user, the barrier operator is placed into a learn mode. The authorization code is then transmitted to the barrier operator while the barrier operator is in the learn mode, using a transmitter external to the barrier opening system. The barrier operator then exits the learn mode. The barrier operator is thereafter packaged together the at least one wireless transmitter.

Abstract: The present disclosure provides a barrier operator system in which a remotely located transceiver type controller is in wireless communication with a transceiver type adapter connected to a barrier operator, and in electronic communication with the barrier operator's microcontroller. The controller is operable to wirelessly transmit door operator status inquiries to the adapter. This may be effected automatically in connection with the transmission and receipt by the adapter of door toggle commands or separate and apart from same. The status information is wirelessly transmitted by the adapter in broadcast form without source or destination address to the remote device in a signal that is non-addressed broadcast door operator (and, indirectly, door) status information by relying upon the receipt of the message by the remote within the specific time limit of the reception window of the remote.

Abstract: Systems, methods, computer-readable media (e.g., transitory and non-transitory) and apparatus are described herein for obtaining medical diagnostic measurements that are accurate and/or consistent over time.

Abstract: The present disclosure provides a barrier operator system in which a remotely located transceiver type controller is in wireless communication with a transceiver type adapter connected to a barrier operator, and in electronic communication with the barrier operator's microcontroller. The controller is operable to wirelessly transmit door operator status inquiries to the adapter. This may be effected automatically in connection with the transmission and receipt by the adapter of door toggle commands or separate and apart from same. The status information is wirelessly transmitted by the adapter in broadcast form without source or destination address to the remote device in a signal that is non-addressed broadcast door operator (and, indirectly, door) status information by relying upon the receipt of the message by the remote within the specific time limit of the reception window of the remote.

Abstract: A patient programmer has a housing having a key-fob-sized form factor. The patient programmer has electrical circuitry implemented inside the housing. The electrical circuitry includes a communication module configured to conduct wireless communications with an implantable pulse generator. The patient programmer has a user display implemented on the housing. The user display is configured to display one or more statuses of the implantable pulse generator. The implantable pulse generator is configured to generate an electrical stimulation therapy. The patient programmer has one or more buttons implemented on the housing. The one or more buttons are configured to send instructions, via the communication module, to the implantable pulse generator to adjust a stimulation parameter of the electrical stimulation therapy.

Abstract: The present disclosure provides a barrier operator system in which a remotely located transceiver type controller is in wireless communication with a transceiver type adapter connected to a barrier operator, and in electronic communication with the barrier operator's microcontroller. The controller is operable to wirelessly transmit door operator status inquiries to the adapter. This may be effected automatically in connection with the transmission and receipt by the adapter of door toggle commands or separate and apart from same. The status information is wirelessly transmitted by the adapter in broadcast form without source or destination address to the remote device in a signal that is non-addressed broadcast door operator (and, indirectly, door) status information by relying upon the receipt of the message by the remote within the specific time limit of the reception window of the remote.

Abstract: Disclosed herein is a method including manufacturing a barrier opening system comprising a barrier operator, and at least one wireless transmitter for wirelessly transmitting commands to the barrier operator. Prior to delivery of the barrier opening system to an end user, an authorization code is programmed into the at least one wireless transmitter. Also prior to delivery of the barrier opening system to the end user, the barrier operator is placed into a learn mode. The authorization code is then transmitted to the barrier operator while the barrier operator is in the learn mode, using a transmitter external to the barrier opening system. The barrier operator then exits the learn mode. The barrier operator is thereafter packaged together the at least one wireless transmitter.

Abstract: A stimulation system, such as a spinal cord stimulation (SCS) system, having a programmer with a user interface. The programmer determines a position of an implanted medical lead with respect to a patient's spinal column. The programmer overlays the medical lead, an initial stimulation field, and an initial target stimulation area within the initial stimulation field on an image of the spinal column. A user enters, via the user interface, graphical manipulations of displayed boundaries of the initial stimulation field and the initial target stimulation area. The graphical manipulations of the stimulation field and the target stimulation field are independent of each other and they may move and/or alter the shape of the boundaries. The programmer then determines stimulation parameters to drive the implanted medical lead to generate the displayed stimulation field and target stimulation field as manipulated by the user.

Abstract: Systems, methods, and apparatus are described herein for obtaining medical diagnostic measurements from implanted sensors. In various embodiments, a spinal implant-monitoring apparatus may include: a bridge defining a first hermetically-sealed interior and two or more legs; one or more strain gauges contained within the first hermetically-sealed interior of the bridge to provide a signal indicative of strain measured between the legs of the bridge; a housing defining a second hermetically-sealed interior, the housing mounted on a surface of the bridge; and control circuitry contained within the second hermetically-sealed interior. The control circuitry may be in communication with the one or more strain gauges and may be configured to convert the signal into digital data representative of the signal. Methods of using such apparatus are also disclosed.

Abstract: Disclosed herein is a process for pairing one or more wireless transmitters with a power head unit of a barrier opening system prior to delivering the system to the end user. In one facility, an authorization code of a wireless transmitter is received and passed to a printer that prints an encoded label with indicia corresponding to the authorization code. The so-encoded label is affixed to the wireless transmitter or its packaging or pallet. In another facility, the encoded label is thereafter scanned, and the authorization code is deciphered and stored in a database. The power head is programmed with the identical code by placing the power head into a learn mode, retrieving the deciphered authorization code from the database, and transmitting the retrieved code to the power head using a test transmitter while the power head is in the learn mode, with the power head thereafter moved out of the learn mode, thereby pairing the transmitter with the power head.