Abstract: Embodiments herein relate to ear-wearable devices and systems that can detect a risk of infection in a device wearer. In a first aspect, an ear-wearable infection sensor device is included having a control circuit, a microphone, a sensor package, and an electroacoustic transducer, wherein the electroacoustic transducer is in electrical communication with the control circuit. The ear-wearable infection sensor device can be configured to analyze data from the sensor package to determine physiological parameters of a device wearer and evaluate the physiological parameters to detect the risk of an infection. Other embodiments are also included herein.

Abstract: An example system includes an ear-wearable device comprising a housing and a rechargeable battery located within the housing; a supplemental power storage device configured to provide electrical energy; and circuitry configured to transfer, responsive to occurrence of an event, electrical energy from the supplemental power storage device to the rechargeable battery prior to an initial use of the ear-wearable device.

Abstract: A system may have a rechargeable hearing instrument with a power source, an ultraviolet (UV) sensor configured to convert received UV light into electrical power and charging circuitry coupled to the UV sensor and to the power source. The charging circuitry may use the electrical power to charge the power source. A charger may have a charging cavity configured to receive the rechargeable hearing instrument. A power source within the charger powers a UV light source located within the charger configured to provide UV light to the UV sensor of the rechargeable hearing instrument when the rechargeable hearing instrument is placed within the charging cavity.

Abstract: The present invention describes a process to isomerize industrial hemp derived Cannabidiol (CBD) to a pure ?8-tetrahydrocannabinol (?8-THC) extract. This procedure will produce ?8-tetrahydrocannabinol that is essentially free from any detectable levels of ?9-tetrahydrocannabinol (?9-THC). Included in this filing are methods and processes to scale the reaction from the lab to process to large scale manufacturing. Additionally, the resulting extract from said methods and processes consists of higher purity than previously reported in the art and greater efficiency compared to prior art.

Abstract: A hearing assistance device may be turned on or off in response to a change in magnetic field or detection of a gesture. A magnetic sensor may be used to identify a change in a magnetic field. An inertial measurement unit or other force sensor may be used to detect a gesture. In response to the magnetic field change or gesture, a hearing assistance device may be caused to change a device function or change a device power mode.

Abstract: Disclosed herein, among other things, are apparatus and methods for a hearing assistance device housing for biometric sensing. In various embodiments, a hearing assistance device for a wearer includes a housing customized to conform to a continuous section of an inner portion of an ear of the wearer and to extend radially to one or more edges of a conchal bowl of the ear. The housing is configured to be placed in the inner portion of the ear of the wearer, and a biometric sensor is included on a surface of the housing. According to various embodiments, the housing is configured to maintain contact of the biometric sensor with the inner portion of the ear of the wearer during activity of the wearer, to enhance accuracy of biometric sensing.

Abstract: An electro-optical physiologic sensor comprises a printed circuit board (PCB) and a light emitter and a photodetector respectively mounted to the PCB. A first sensor element is disposed on the PCB and comprises a first electrode configured to contact tissue of a subject and a first light channel co-located with the first electrode, the first light channel optically coupled to the light emitter and configured to direct light into the subject's tissue. A second sensor element is disposed on the PCB and comprises a second electrode configured to contact the subject's tissue and a second light channel co-located with the second electrode, the second light channel optically coupled to the photodetector and configured to receive light from the tissue of the subject resulting from the light generated by the light emitter.

Abstract: Examples of this disclosure relate to an accessory device for a hearing instrument. The accessory device comprises a connector tip that comprises a first wire segment and a second wire segment. The first and second wire segments are electrically conductive and electrically insulated from each other. The connector tip also comprises a first set of bristles and a second set of bristles. The first and second sets of bristles are electrically conductive. The first set of bristles is electrically connected to the first wire segment and electrically insulated from the second wire segment. The second set of bristles is electrically connected to the second wire segment and electrically insulated from the first wire segment. The first set of bristles is spaced sufficiently far from the second set of bristles as to prevent a short circuit between the first and second sets of bristles.

Abstract: A system includes a hearing device comprising a rechargeable power source, power management circuitry, and a first charging interface comprising a first cathode contact and a first anode contact spaced apart from the first cathode contact. A charging module comprises a second charging interface configured to detachably couple with the first charging interface of the hearing device. The second charging interface comprises a second anode contact having a contact surface and a displaceable second cathode contact. An arrangement is configured to displace at least a portion of the second cathode contact above the contact surface to facilitate electrical contact between the first and second cathode contacts prior to electrical contact between the first and second anode contacts. Charging circuitry of the charging module is coupled to the second charging interface and configured to charge the rechargeable power source of the hearing device.

Abstract: An ear-worn electronic device comprises a housing configured to be worn in, at or about an ear of a wearer. Audio processing circuitry is disposed in or supported by the housing and comprises one or more microphones and a speaker or a receiver. A controller is disposed in the housing and coupled to the audio processing circuity. A rechargeable power source and charging circuitry are disposed in the housing. The charging circuitry is coupled to the controller and comprises first and second charge contacts situated at a wall of the housing. A user-actuatable control is coupled to the controller and comprises a touch sensor. The touch sensor comprises the first and second charge contacts.

Abstract: The present invention describes a process to isomerize industrial hemp derived Cannabidiol (CBD) to a pure ?8-tetrahydrocannabinol (?8-THC) extract. This procedure will produce ?8-tetrahydrocannabinol that is essentially free from any detectable levels of ?9-tetrahydrocannabinol (?9-THC). Included in this filing are methods and processes to scale the reaction from the lab to process to large scale manufacturing. Additionally, the resulting extract from said methods and processes consists of higher purity than previously reported in the art and greater efficiency compared to prior art.

Abstract: An electronic device comprises an enclosure configured for insertion into the ear canal and comprising a distal end configured to extend at least beyond a first bend of the ear canal. A distal temperature sensor is situated at a location of the enclosure that faces a tragus-side of the ear canal between the first and second bends when the enclosure is fully inserted into the ear canal. A proximal temperature sensor is situated on the enclosure at a location spaced apart from a surface of the ear canal and proximal of the distal temperature sensor in an outer ear direction when the enclosure is fully inserted into the ear canal. A processor, coupled to the distal and proximal temperature sensors and to memory, is configured to calculate an absolute core body temperature using a heat balance equation stored in the memory and the first and second temperature signals.

Abstract: Various embodiments of a hearing device and a system of using such device are disclosed. The hearing device includes a housing, electronic components disposed within the housing, and an earpiece adapted to be disposed in an ear canal of the ear of the wearer. The device also includes a sensor adapted to be in contact with a portion of the ear of the wearer, where the sensor is further adapted to detect a physiological characteristic of the wearer and generate a sensor signal based on the physiological characteristic that is received by a controller of the electronic components disposed within the housing; and a cable that operatively connects the sensor to the earpiece, where the cable is biased to maintain contact between the sensor and the portion of the ear of the wearer when the earpiece is disposed in the ear canal of the wearer.

Abstract: An electronic device comprises an enclosure configured for insertion into the ear canal and comprising a distal end configured to extend at least beyond a first bend of the ear canal. A distal temperature sensor is situated at a location of the enclosure that faces a tragus-side of the ear canal between the first and second bends when the enclosure is fully inserted into the ear canal. A proximal temperature sensor is situated on the enclosure at a location spaced apart from a surface of the ear canal and proximal of the distal temperature sensor in an outer ear direction when the enclosure is fully inserted into the ear canal. A processor, coupled to the distal and proximal temperature sensors and to memory, is configured to calculate an absolute core body temperature using a heat balance equation stored in the memory and the first and second temperature signals.

Abstract: Techniques to detect a non-alert state of a user may include receiving sensor data from an ear-worn electronic device disposed at least partially in the ear of a user, determining an alertness state of the user based on the sensor data, and providing alert data in response to the alertness state comprising a non-alert state to a user stimulation interface of the ear-worn electronic device or to an external device.

Abstract: Techniques to detect a non-alert state of a user may include receiving sensor data from an ear-worn electronic device worn by a user, automatically determining whether to initiate an alertness mode of the ear-worn electronic device based on the sensor data, and determining an alertness state of the user in response to determining to initiate the alertness mode.

Abstract: According to the instant one or more embodiments, there is provided new soybean cultivars designated FTE 2009, FTE 3049, and FTE 3140. The one or more embodiments thus relate to the seeds of soybean cultivars FTE 2009, FTE 3049, and FTE 3140, to the plants of soybean cultivars FTE 2009, FTE 3049, and FTE 3140, to plant parts of soybean cultivars FTE 2009, FTE 3049, and FTE 3140, and to processes for producing a soybean plant produced by crossing soybean cultivars FTE 2009, FTE 3049, and FTE 3140 with itself or with another soybean cultivar, and the creation of variants by mutagenesis or transformation of soybean cultivars FTE 2009, FTE 3049, and FTE 3140. The one or more embodiments also relate to the commercial commodity products from the seeds of soybean cultivars FTE 2009, FTE 3049, and FTE 3140, and the food products comprising these commercial commodity products.

Abstract: A recharging system includes a contact pad charger having a compressible contact pad conformable to a rechargeable device body for charging a power storage device in the rechargeable device body. The contact pad charger includes a power supply configured to provide a supply voltage. The compressible contact pad is electrically coupled to the power supply and defines a first variable resistance in response to a first conductor compression. The rechargeable device body includes a power manager electrically coupled to the power supply and is configured to receive a variable input voltage in response to a first variable voltage drop across the first conductor and to provide a regulated output voltage in response to the received variable input voltage. The regulated output voltage is less than the supply voltage. The power storage device is electrically coupled to the power manager and configured to receive the regulated output voltage for charging.

Abstract: A new field pea cultivar designated PP-1804-4, seeds of field pea cultivar PP-1804-4, plants of field pea cultivar PP-1804-4, plant parts of field pea cultivar PP-1804-4, and methods for producing a field pea plant produced by crossing field pea cultivar PP-1804-4 with itself or with another field pea cultivar, and the creation of variants by mutagenesis or transformation of field pea cultivar PP-1804-4 are disclosed. Commercial commodity products from the seeds of field pea cultivar PP-1804-4, food products comprising these commercial commodity products, and methods for making the same are also disclosed.

Abstract: First and second hearing assistance devices each comprise a rechargeable power source and power management circuitry configured to control charging of the power sources. A portable charging unit comprises an interface configured to receive a connector of a power cable or a power and data cable, a rechargeable power source coupled to the interface, first and second charge ports configured to receive the first and second hearing assistance devices, and charging circuitry coupled to the first and second charge ports and to the rechargeable power source of the charging unit. The power management circuitry and the charging circuitry cooperate to partially charge the power sources of the hearing assistance devices at an accelerated charge rate above 1.0C when a state of charge (SoC) of the power sources is within a predetermined SoC range.