Patent application number | Description | Published |
20130161172 | Keyboard with Position Sensing Mechanism - An input device configured to communicate with a computing device includes at least one keycap, a support mechanism operably connected to the keycap and configured to move the keycap from a first position to a second position, a feature plate operably connected to the support mechanism, and a sensing member. The sensing member is configured to detect at least one of a change of position of the at least one keycap, a speed of the at least one keycap, an amount of force applied to the at least one keycap, or a location of a finger. The sensing member may be a capacitive sensor. In some embodiments, the input device may not include the support mechanism and the sensing member may be configured to detect the location of a finger regardless whether or not the keycap moves. | 06-27-2013 |
20130162450 | Illuminated Keyboard - In a first embodiment, an input device includes at least one keycap, a support mechanism configured to move the keycap from a first position to a second position, a feature plate having at least one anchoring mechanism operably connected to the support mechanism, and an illumination panel. The illumination panel is positioned between the at least one keycap and the feature plate. The at least one anchoring member extends through a portion of the illumination panel. In a second embodiment, an input device includes a keycap, a support mechanism configured to move the keycap, a support plate operably connected to the support mechanism, and an illumination panel. The illumination panel includes a light source, a light guide, and a frame substantially surrounding the light guide. Light illuminated from the light source is directed by the light guide and the frame towards the keycap. | 06-27-2013 |
Patent application number | Description | Published |
20130076286 | REDUCING TONAL EXCITATIONS IN A COMPUTER SYSTEM - The described embodiments relate generally to control of rotational components in a computer system. In one embodiment, the rotational component includes a cooling fan, the cooling fan being controlled in accordance with data tailored to reduce the acoustic noise produced by the cooling fan. In one embodiment, the cooling fan is operated with non-uniform pulse width modulated signals. The non-uniform pulse width modulated signals can be a function of desired rotation speed and can include fundamental and harmonic components. | 03-28-2013 |
20130079933 | CIRCUMVENTING FREQUENCY EXCITATIONS IN A COMPUTER SYSTEM - The described embodiments relate generally to control of rotational components in a computer system. In one embodiment, the rotational component includes a cooling fan assembly, the cooling fan assembly being controlled in accordance with resonant frequency avoidance data. The resonant frequency avoidance data being characteristic of the computer system such that when the cooling fan assembly operates in accordance with the resonant frequency avoidance data, the cooling fan assembly does not operate at a fan speed that is coincident with a natural resonant frequency of the computer system. | 03-28-2013 |
20130278170 | DETECTION CIRCUIT FOR KEYBOARD CABLE - One embodiment of a display backlight driver integrated circuit can be configured for operation in at least two different ways. A first method transfers data from an EEPROM to hardware registers prior to regular operation. A second method also transfers data from an EEPROM to registers. However, hardware registers can be overwritten with data accepted from a control bus, prior to regular operation. A keyboard driver IC can detect the presence or absence of a cable to an LED. If the cable is absent, the driver IC will not supply power for the LED. One embodiment of a keyboard and display backlight control system can be configured to allow substantially independent operation. | 10-24-2013 |
20130278171 | DISPLAY BACKLIGHT DRIVER IC CONFIGURATION - One embodiment of a display backlight driver integrated circuit can be configured for operation in at least two different ways. A first method transfers data from an EEPROM to hardware registers prior to regular operation. A second method also transfers data from an EEPROM to registers. However, hardware registers can be overwritten with data accepted from a control bus, prior to regular operation. A keyboard driver IC can detect the presence or absence of a cable to an LED. If the cable is absent, the driver IC will not supply power for the LED. One embodiment of a keyboard and display backlight control system can be configured to allow substantially independent operation. | 10-24-2013 |
20140265963 | METHOD OF CONTROLLING START-UP NOISE IN BLDC (BRUSHLESS DIRECT CURRENT) FAN MOTORS - A method to reduce acoustic noise in a cooling fan motor is disclosed. The method includes reducing the slew rate of a PWM (pulse width modulation) voltage waveform applied to energize a coil of the fan motor. This slew rate reduction results in lower mechanical vibrations and acoustic noise in the fan motor. In one embodiment, the slew rate reduction is performed during startup of the fan motor, when the motor is spinning slowly and there is little air flow noise. In another embodiment, the slew rate reduction is not performed during high speed operation of the fan motor, when the fan motor is spinning very fast and air flow noise masks the motor noise. In one embodiment, there is variable slew rate control depending on the speed of the fan motor. | 09-18-2014 |
Patent application number | Description | Published |
20130090636 | SYSTEMS AND METHODS FOR COMBINED FEMTO-PHACO CATARACT SURGERY - Devices to perform femtolaser ablation and phacoemulsification are physically and/or operationally combined. In some embodiments the femtolaser ablation and phacoemulsification are housed together, and in other embodiments they are housed separately, but operated through a common display screen. At least some software can be shared by the femtolaser ablation and phacoemulsification functionalities. A non-transitory computer-readable memory can provide data that can be used to operate each of at least one femtolaser ablation functionality and at least one phacoemulsification functionality. | 04-11-2013 |
20130286642 | Systems and Methods for Generating a Flickering Flame Effect in an Electric Candle - Systems and methods are described for generating chaotic movement in a movable flame element of an electric light. A signal generator can cause a drive mechanism of the electric light to provide kinetic motion to the flame element via a magnetic field, air pressure or otherwise. | 10-31-2013 |
20140104812 | Electric Candles for Use in Light Sockets - Various embodiments of electric lights are described, particularly those capable of being inserted and powered by a light socket. The electric lights can include a base that can electrically couple with a light socket and a housing coupled to the base. A flame element can at least partially extend from the housing and be illuminated via a light source that is configured to emit light on to an outer surface of the flame element. To ensure proper orientation of the flame element with respect to a viewer, the housing can rotate with respect to the base, such that a front surface of the flame element can be reoriented as needed while the base is electrically coupled to the light socket. | 04-17-2014 |
20140313694 | Electric Candles - Various embodiments of electric lights are described, including those capable of being inserted and powered by a light socket. The electric lights can include a base that can be rotatably coupled to a housing coupled to the base. A flame element can at least partially extend from the housing and be illuminated via a light source that is configured to emit light on to an outer surface of the flame element. | 10-23-2014 |
20150016086 | Electric Candles With Luminescent Material - Electric lighting devices are described that include one or more luminescent materials configured to help create a flickering flame effect. The luminescent material(s) could be disposed within, under, or on an outer surface of the device's body or as part of the flame element extending from the body. | 01-15-2015 |
20150190281 | Systems & Methods for Combined Femto-Phaco Cataract Surgery - Devices to perform femtolaser ablation and phacoemulsification are physically and/or operationally combined. In some embodiments the femtolaser ablation and phacoemulsification are housed together, and in other embodiments they are housed separately, but operated through a common display screen. At least some software can be shared by the femtolaser ablation and phacoemulsification functionalities. A non-transitory computer-readable memory can provide data that can be used to operate each of at least one femtolaser ablation functionality and at least one phacoemulsification functionality. | 07-09-2015 |
20150338042 | Electric Lighting Devices Having a Non-Homologous Projection Screen - Various embodiments of electric lighting devices having projection screens are described. Some embodiments include a housing, a projection screen coupled to the housing and comprising a first region that is translucent or transparent and a set of light sources configured to emit light onto a surface of the projection screen and include a projection screen having a laminate structure, while other embodiments include a video screen that is embedded within the projection screen. | 11-26-2015 |
20150338086 | Candle Flame Simulation Using a Projection System - Electric candles are described having a candle-shaped housing, a flame element extending from the housing and one ore more projectors disposed within the candle-shaped housing such that a media file can be projected on to a first surface of the flame element using the pico projector. The flame element could be fixed or move with respect to the housing. The flame element could be transient and only exist when the candle is on. | 11-26-2015 |
20150354769 | Electric Lighting Devices Having Multiple Light Sources to Simulate a Flame - Electric lighting devices are described that utilize three or more light sources to generate a flickering flame effect. The light sources can emit light at different colors to more closely simulate the look of a flame. A projection system having a matrix of LEDs could be used to project an image of a flame on to a projection surface without the need or cost associated with a traditional or pico projector. | 12-10-2015 |
20150362142 | Electric Lighting Devices that Simulate a Flickering Flame - Various embodiments of electric lighting devices, and especially electric candles, are described. The devices include a projection screen onto which light can be emitted. Advantageously, the projection screen can move with respect to the device's housing to thereby create a flickering flame effect. The device can include one or more magnets disposed outside of the housing that can interact with an electromagnetic field generated by the device to thereby move the projection screen. | 12-17-2015 |
20150373815 | Systems and Methods for Controlling a Plurality of Electric Candles - Systems and methods are described for controlling a plurality of electric lighting devices and in some embodiments preventing the theft of those devices. A microprocessor can be used to analyze information about the devices and send one or more commands to the devices. A user interface allows a user to send a command to at least one of the electric lighting devices, which may alter at least one of a brightness of light emitted, a color of light emitted or other effects of the devices. | 12-24-2015 |
Patent application number | Description | Published |
20110019422 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 01-27-2011 |
20110110073 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 05-12-2011 |
20110127914 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 06-02-2011 |
20130100686 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 04-25-2013 |
20130147391 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 06-13-2013 |
20130148353 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 06-13-2013 |
20130242579 | KINETIC FLAME DEVICE - An apparatus for creating flickering flame effects. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 09-19-2013 |
20130335971 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 12-19-2013 |
20140009948 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 01-09-2014 |
20140218929 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 08-07-2014 |
20150285453 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 10-08-2015 |
20150292698 | KINETIC FLAME DEVICE - An apparatus creating a flickering flame effect. The apparatus includes a housing with an interior space with first and second stages. A drive mechanism generates a time varying electromagnetic field extending into the first stage. A first pendulum member is pivotally mounted in the interior space of the first stage and includes first and second magnets on first and second ends, with the first end proximate to the drive mechanism such that the first magnet interacts with the varying electromagnetic field to cause movement of the pendulum member. The apparatus includes a second pendulum member pivotally mounted in the second stage with a magnet on a first end proximate to the second end of the first pendulum member. A flame silhouette element extends from the second pendulum member, and a light source transmits light onto the flame silhouette, which is moving due to the magnetic coupling of the pendulum members. | 10-15-2015 |
Patent application number | Description | Published |
20150034355 | Method and Apparatus For Mounting Solar Panels - Solar panel array with a plurality of solar panels on support system attached at corners or off such corners for foundation structure needs and irregularities secured to roof by lag bolt with mount channel and flashing pre-assembled into mount by crimp for positive seal and mount riser height adjustable can include bilateral or quadrilateral mounts, a coupler seat to affix panel to mount and lateral movement seat for solar panel. An intercalative junctionpiece, nut, or washer has tines for grounding, a dissociation guide and flexture and keeps off the surface for association and perforation to clamp panel firmly via different clamps including wedge clamps, top restraints, lip end clamps, side support clamps, compression clamps, etc. | 02-05-2015 |
20150207451 | PORTABLE SOLAR PANEL KIT - A portable solar panel kit is provided herein. In one embodiment, the portable solar panel kit comprises at least one encasement having a solar panel rotatably coupled to and disposed within the at least one encasement; and a power converter coupled to a backside of the solar panel, wherein the solar panel is moveable between a first position in which the solar panel is parallel to the at least one encasement, and a second position, in which the solar panel is disposed at a predetermined angle to the at least one encasement. | 07-23-2015 |
20150244308 | Lateral Movement Solar Panel Mounting System - Solar panel array with a plurality of solar panels on support system attached at corners or off such corners for foundation structure needs and irregularities secured to roof by lag bolt with mount channel and flashing pre-assembled into mount by crimp for positive seal and mount riser height adjustable can include bilateral or quadrilateral mounts, a coupler seat to affix panel to mount and lateral movement seat for solar panel, and different clamps including wedge clamps, top restraints, lip end clamps, side support clamps, compression clamps, etc. | 08-27-2015 |
Patent application number | Description | Published |
20110168170 | PRESERVATIVE FREE INSULIN FORMULATIONS AND SYSTEMS AND METHODS FOR AEROSOLIZING - One embodiment describes an insulin formulation that is specifically adapted for aerosolization. The formulation comprises a major amount of water and a minor amount of insulin. Further, the formulation is preservative free, without meta-cresol, cresol or phenol, to permit the formulation to be aerosolized using a vibrating aperture plate without substantial foaming of the insulin formulation. | 07-14-2011 |
20110168172 | PRESERVATIVE-FREE SINGLE DOSE INHALER SYSTEMS - An aerosolization system includes a squeezable container having a resilient container body. The container is configured to deliver a unit dosage of a liquid when squeezed a single time. The system also includes an aerosolizer that is constructed of a housing defining a mouthpiece, and an aerosol generator disposed in the housing. The aerosol generator comprises a vibratable membrane having a front face and a rear face, and a vibratable element used to vibrate the membrane. Further, the housing includes an opening that is adapted to receive a unit dosage of the liquid from the container. The opening provides a liquid path to the rear face of the vibratable membrane. | 07-14-2011 |
20140041653 | PRESERVATIVE-FREE SINGLE DOSE INHALER SYSTEMS - An aerosolization system includes a container that is configured to deliver a unit dosage of a liquid when squeezed a single time. The system also includes an aerosolizer that is constructed of a housing defining a mouthpiece, and an aerosol generator disposed in the housing. The aerosol generator includes a vibratable membrane having a front face and a rear face, and a vibratable element used to vibrate the membrane. Further, the housing includes an opening that is adapted to receive a unit dosage of the liquid from the container. The opening provides a liquid path to the rear face of the vibratable membrane. | 02-13-2014 |
20150196721 | PRESERVATIVE-FREE SINGLE DOSE INHALER SYSTEMS - An aerosolization system includes a container that is configured to deliver a unit dosage of a liquid when squeezed a single time. The system also includes an aerosolizer that is constructed of a housing defining a mouthpiece, and an aerosol generator disposed in the housing. The aerosol generator includes a vibratable membrane having a front face and a rear face, and a vibratable element used to vibrate the membrane. Further, the housing includes an opening that is adapted to receive a unit dosage of the liquid from the container. The opening provides a liquid path to the rear face of the vibratable membrane. | 07-16-2015 |
Patent application number | Description | Published |
20110168170 | PRESERVATIVE FREE INSULIN FORMULATIONS AND SYSTEMS AND METHODS FOR AEROSOLIZING - One embodiment describes an insulin formulation that is specifically adapted for aerosolization. The formulation comprises a major amount of water and a minor amount of insulin. Further, the formulation is preservative free, without meta-cresol, cresol or phenol, to permit the formulation to be aerosolized using a vibrating aperture plate without substantial foaming of the insulin formulation. | 07-14-2011 |
20110168172 | PRESERVATIVE-FREE SINGLE DOSE INHALER SYSTEMS - An aerosolization system includes a squeezable container having a resilient container body. The container is configured to deliver a unit dosage of a liquid when squeezed a single time. The system also includes an aerosolizer that is constructed of a housing defining a mouthpiece, and an aerosol generator disposed in the housing. The aerosol generator comprises a vibratable membrane having a front face and a rear face, and a vibratable element used to vibrate the membrane. Further, the housing includes an opening that is adapted to receive a unit dosage of the liquid from the container. The opening provides a liquid path to the rear face of the vibratable membrane. | 07-14-2011 |
20130269684 | METHODS AND SYSTEMS FOR SUPPLYING AEROSOLIZATION DEVICES WITH LIQUID MEDICAMENTS - A method is described for supplying a metered amount of a liquid medicament to an aerosolizing device. The method utilizes a dispenser comprising an elongate dispenser body having a proximal end and a tip at a distal end through which a liquid medicament is dispensed. The dispenser further comprises a dispensing mechanism that operates to dispense a metered quantity of the liquid medicament from the tip each time the dispenser body is compressed. The dispenser is grasped with one hand such that the fingers wrap around the dispenser body, with the thumb closest to the proximal end and the last finger closest to the tip. The tip is inserted into an opening of an inhaler and the elongate body is forced toward the tip to cause the dispenser body to compress, thereby operating the dispensing mechanism and causing a metered quantity of the liquid medicament to eject into the inhaler. | 10-17-2013 |
20130269694 | INHALER CONTROLLED BY MOBILE DEVICE - An apparatus for providing nebulized medicant to a user is disclosed. The apparatus may include an air intake for drawing an air flow into the inhalation device. The apparatus may also include a medicant reservoir for receiving liquid medicant. The apparatus may further include a nebulizer for nebulizing the liquid medicant into the air flow. The apparatus may additionally include a mouthpiece for delivering the air flow with nebulized medicant to the user. The apparatus may furthermore include a communication interface configured to receive at least a first signal from a mobile device causing activation of the nebulizer. | 10-17-2013 |
20140041653 | PRESERVATIVE-FREE SINGLE DOSE INHALER SYSTEMS - An aerosolization system includes a container that is configured to deliver a unit dosage of a liquid when squeezed a single time. The system also includes an aerosolizer that is constructed of a housing defining a mouthpiece, and an aerosol generator disposed in the housing. The aerosol generator includes a vibratable membrane having a front face and a rear face, and a vibratable element used to vibrate the membrane. Further, the housing includes an opening that is adapted to receive a unit dosage of the liquid from the container. The opening provides a liquid path to the rear face of the vibratable membrane. | 02-13-2014 |
20150196721 | PRESERVATIVE-FREE SINGLE DOSE INHALER SYSTEMS - An aerosolization system includes a container that is configured to deliver a unit dosage of a liquid when squeezed a single time. The system also includes an aerosolizer that is constructed of a housing defining a mouthpiece, and an aerosol generator disposed in the housing. The aerosol generator includes a vibratable membrane having a front face and a rear face, and a vibratable element used to vibrate the membrane. Further, the housing includes an opening that is adapted to receive a unit dosage of the liquid from the container. The opening provides a liquid path to the rear face of the vibratable membrane. | 07-16-2015 |