Abstract: The methods of the present disclosure are generally directed to controlling noise and performance associated with a vacuum system for retrieving and dispensing dispensable units, such as pills. By way of example and not limitation, such methods may be useful for addressing the particular challenges associated with automated dispensing of pills (or other dispensable units) in environments—such as many household or point-of-care environments—that are sensitive to noise and/or in environments in which the retrieval device is generally operated by users without specialized training in maintaining the retrieval device.

Abstract: A method for recording information within first-party cookies on a web browser, including propagating recorded information from a second cookie associated with a second domain to a first cookie associated with a first domain, wherein the first cookie and the second cookie are each first-party cookies, such that a first web resource of the first domain and a second web resource of the second domain each have access to the recorded information via its associated first-party cookie, and corresponding server and system.

Abstract: Features relating to a laser etching and/or tag writing machine are provided. The machine may include a tray assembly including a tray and a nest. The tray may hold an array of vaporizer cartridges. The tray may allow for a laser-etching operation to be performed by the machine on at least one or two sides of the vaporizer cartridges held by the tray. The tray may allow for the array of vaporizer cartridges to be rotated at the same time between laser etching operations. The tray may additionally and/or alternatively allow for the machine, such as via an antenna, to write data to an NFC tag of a corresponding vaporizer cartridge before, during, and/or after each laser etching operation.

Abstract: Features relating to a cartridge for use with a vaporizer body are provided. The cartridge mates with the vaporizer body in a cartridge receptacle. The cartridge may include a cartridge body defining a reservoir configured to contain vaporizable material; a mouthpiece coupled to a proximal end region of the cartridge body; at least one proximal absorbent pad wedged within an internal volume of the mouthpiece; a mouthpiece seal with sealing ribs; a cannula defining a vaporization chamber extending through the cartridge body; a resistive heating element; a porous wick configured to draw the vaporizable material in the reservoir towards the vaporization chamber; an internal sealing gasket positioned in a distal end region of the cartridge body; a lower support structure positioned in the distal end region of the cartridge body; and at least one distal absorbent pad configured to wedge within a recess located in the lower support structure.

Abstract: Features relating to a vaporizer body are provided. The vaporizer body may include an outer shell that includes an inner region defined by an outer shell sidewall. A support structure is configured to fit within the inner region of the outer shell. The support structure includes a storage region defined by a top support structure, a bottom support structure, a bottom cap, and a gasket. An integrated board assembly is configured to fit within the storage region of the support structure. The integrated board assembly may include a printed circuit board assembly formed of multiple layers that form a rigid structure and that include an inner, flexible layer. A first antenna is integrated at a proximal end of the flexible layer, and a second antenna is integrated at a distal end of the flexible layer.

Abstract: A vaporizer device may include a controller and a heater control circuitry. The controller may generate, based at least on a temperature of a heating coil in a cartridge coupled with the vaporizer device, an output signal for controlling a discharge of a battery of the vaporizer device. The battery may be discharged to the heating coil to increase the temperature of the heating coil and cause a vaporization of a vaporizable material contained in the cartridge. The heater control circuitry may determine the temperature of the heating coil. The heater control circuitry may further control, based on the output signal from the controller, the discharge of the battery to the heating coil. The heater control circuitry may be powered by a voltage rail coupled to a voltage regulator configured to regulate an output voltage of the battery.

Abstract: A vaporizer device may include a pressure sensor and an ambient pressure sensor. The pressure sensor may be configured to measure a first pressure in an air flow path in the vaporizer device. The ambient pressure sensor may be configured to measure a second pressure corresponding to an atmospheric pressure. The vaporizer device may further include a controller. The controller may be configured to transition the vaporizer device to a first standby mode when the first pressure is equal to or greater than the second pressure for a first threshold quantity of time. While the vaporizer device is in the first standby mode, the controller may be further configured to transition the vaporizer device to a second standby mode when the second pressure is a threshold quantity greater than the first pressure and no motion event is detected for a second threshold quantity of time.

Abstract: Features relating to a vaporizer device including a vaporizer body and a cartridge for connecting to the vaporizer body are provided. The cartridge includes a wireless transceiver positioned proximate a distal end of the cartridge. The wireless transceiver is configured to transmit, receive, and/or store data and to communicate with a subset of remote devices, which may include the vaporizer body and one or more additional devices such as manufacturing, assembly, and filling equipment. The vaporizer body includes wireless communication circuitry that enables communication with remote devices, which may include the cartridge and user devices such as a wireless device. The vaporizer body is configured to identify the cartridge and implement operational instructions and/or apply configuration parameters received from an application and/or based on preset configuration parameters associated with the cartridge.

Abstract: The invention refers to the area of control of a limb device in the form of an artificial limb for a human or a robot limb.

Abstract: The invention refers to the area of control of a limb device in the form of an artificial limb for a human or a robot limb.

Abstract: The invention refers to the area of control of a limb device in the form of an artificial limb for a human or a robot limb.

Abstract: A new mechanism of therapeutic action of electromagnetic fields, based upon systemic effect, applies selected EMF signals to cause efficacious therapeutic effects at sites distant from the point of application. The method of generating specific EMF waveshape and application of this exogeneous signal for therapeutic purposes allows the benefit to be achieved via the systemic effect. The EMF signals take the form of a repetitive sequence of semi sinewaves, resulting in a pulsating waveform occurring at a frequency in the range of from about 50 to about 300 pulses per second. Bridge rectification is applied to a sinusoidal signal, and a resultant therapy signal takes the form of a repetitive sequence of semi sinewaves of up to about 300 pps with a periodically recurring DC component. The shape of alternating pulses in the resultant therapy signal is modified under computer control to achieve therapeutic effects. Flux densities in the range of several hundred Gauss up to several thousand Gauss are generated.

Abstract: An automotive door panel fastener assembly is provided including a substrate and a doghouse structure molded thereon. The doghouse structure includes a doghouse floor, a doghouse ceiling, a first doghouse sidewall having a first forward end and a first rearward end, a second doghouse sidewall having a second forward end and a second rearward end, a doghouse endwall, and a doghouse insertion opening. A pin chamber is formed through the doghouse ceiling. An entrance slot is formed in the doghouse ceiling to provide a path from the doghouse insertion opening to the pin chamber. The entrance slot has a first slot side and a second slot side. A first flexible arm has a first fixed end and a first free end. The first flexible arm is flexible in response to an inward force and is rigid in response to an outward force.

Abstract: An automotive door panel fastener assembly is provided including a substrate and a doghouse structure molded thereon. The doghouse structure includes a doghouse floor, a doghouse ceiling, a first doghouse sidewall having a first forward end and a first rearward end, a second doghouse sidewall having a second forward end and a second rearward end, a doghouse endwall, and a doghouse insertion opening. A pin chamber is formed through the doghouse ceiling. An entrance slot is formed in the doghouse ceiling to provide a path from the doghouse insertion opening to the pin chamber. The entrance slot has a first slot side and a second slot side. A first flexible arm has a first fixed end and a first free end. The first flexible arm is flexible in response to an inward force and is rigid in response to an outward force.

Abstract: An apparatus and method for determining the biological amplitude and frequency windows of magnetic fields. The method for determining the biological window for the field metrics of a magnetic field is described with particular reference to a chemical system and method using myosin light chain kinase, calmodulin, and magnetic fields. The process is designed to calculate and measure the number of radioactive events (i.e., Cherenkov emissions) of a specimen or sample wherein such events are indicative of the relative biological effectiveness as will be described herein below.