Patent application number | Description | Published |
20080310836 | Manufacturing System and Method Using IR Communications Link - An automated test system for testing devices being manufactured comprises an infrared communications link for free space communications between a host and a device under test. The communications link is asymmetric and instructions from the host are acknowledged by the device. The instructions cause the device to operate, and the output of the device is monitored, logged, and compared to acceptance criteria. The host can then generate calibration messages to the device, to change the device operating characteristics as appropriate. The communications link uses an unmodulated data stream together with asynchronous handshaking and a robust checksum algorithm to ensure accurate communication. | 12-18-2008 |
20090043294 | Capacitive Sensing Method and Device for Detecting Skin - A skin proximity sensor and method are disclosed in a dermatologic treatment device that includes a bezel or similar surface, and a treatment source capable of being activated to supply a dermatologic treatment through the bezel or surface, such as a window or similar port. A plurality of contacts leading to remotely located capacitors, in some embodiments, or a plurality of capacitive sensors in other embodiments, is positioned in or under the bezel and around the window, and control circuitry coupled to the plurality of capacitors senses the change in capacitance due to skin and inhibits activation of the dermatologic treatment device unless the proximity of skin is sensed. The presence of skin is detected, for example, by measuring changes in charge and discharge times, indicating a variation in capacitance. | 02-12-2009 |
20090097513 | Failure Protection Apparatus and System - A safety and interlock circuit for use with devices which could cause injury if an error condition causes improper operation. A control program executing on a processor monitors a variety of device conditions, including pulse over-duration threshold, diode over-current threshold, pulse lock-out duration, temperature threshold, and pulse repetition frequency limit, and prevents the laser from firing if an error condition is detected. In addition, the error conditions are logged in a persistent memory to facilitate subsequent diagnosis and correction. | 04-16-2009 |
20090125006 | Optical Sensor and Method for Identifying the Presence of Skin - A sensor for detecting the presence of skin is disclosed, one configuration of which uses multiple light emitting diodes, each of a unique wavelength band, and a broad-band photodetector to measure the remission of light at multiple wavelengths from a material being analyzed. Characteristics of the spectral remission of the material are used to discriminate human skin from materials that are not human skin. Further, an aesthetic medical device utilizing such a sensor in which the device is inhibited from operation if skin has not been detected. The incorporation of a skin sensor improves the safety of devices that emit radiation that otherwise would pose a hazard if not directed onto skin. | 05-14-2009 |
20090204109 | Eye-Safe Dermatologic Treatment Apparatus and Method - A dermatologic treatment apparatus is disclosed which includes one or more housings with at least one housing configured for manipulation in a dermatologic treatment procedure, a light source, and an electrical circuit. The circuit energizes the light source to produce output light pulses. A light path includes an aperture through which eye-safe light pulses are propagated having properties sufficient for providing efficacious treatment. An optical diffuser is disposed along the light path to reduce the integrated radiance to an eye-safe level. The apparatus produces an output fluence not less than 4 J/cm | 08-13-2009 |
20090270848 | Optical Sensor and Method for Identifying the Presence of Skin and the Pigmentation of Skin - Apparatus and methods are provided to control a device, such as a light emitting dermatologic or cosmetic treatment device, and ensure that the device is in contact with skin while also determining the pigmentation level of skin. One or more light sources contact the skin and one or more detectors measure spectral remission from the skin. The obtained remission measurements are compared with known skin spectral remission values, and calibration allows measurements of absolute remission to be converted to fractional remission values. Skin pigmentation levels are compared to known base-line levels to determine and control appropriate treatment parameters. A temperature sensor allows correction for temperature variations. The apparatus may or may not be incorporated into the treatment device. | 10-29-2009 |
20100069898 | Acne Treatment Method, System and Device - An acne treatment system, device and method includes optical visualization means for identifying areas of skin colonized by the | 03-18-2010 |
20110098789 | Phototherapy Device Thermal Control Apparatus and Method - A phototherapy device includes a light source; a light emanation block; and a heat exchanger for the dissipation of heat from one or more heat loads associated with the device. Heat may be transferred via the heat exchanger from the light source independently of the dissipation of heat from one or more of the other device heat loads. Substantially thermally isolated heat transfer regions may be provided, and such regions may be maintained at different operating temperatures, to control the transfer of heat in conjunction with a phototherapy method and to promote efficient and enhanced device operation and performance. | 04-28-2011 |
20120226268 | Radiation-Based Dermatological Devices and Methods - A self-contained, hand-held device for providing radiation-based dermatological treatments includes a device body configured to be handheld by a user; a laser supported in the device body, the laser including a laser beam source configured to emit a laser beam; an application end configured to be manually moved across the skin during a treatment session; and electronics configured to control the laser beam source to deliver the laser beam to the skin at a delivered radiation intensity at the skin sufficient to provide an effective dermatological treatment. The device may exclude any optics downstream of the laser beam source, and may provide Class 1M or better eye safety classification per the IEC 60825-1 Class 1M AEL (Accessible Emission Limit) specification | 09-06-2012 |
20120232536 | Radiation-Based Dermatological Devices and Methods - A device for providing radiation-based dermatological treatments includes a device body configured to be handheld by a user; a VCSEL laser supported in the device body, the VCSEL laser including multiple spaced-apart VCSEL beam sources configured to generate multiple discrete laser beams for generating multiple discrete treatment spots on the skin; an application end configured to be manually moved across the surface of the skin during a treatment session; and electronics configured to control the multiple VCSEL beam sources to emit the multiple discrete laser beams toward the skin to provide a dermatological treatment. | 09-13-2012 |
20120232537 | Radiation-Based Dermatological Devices and Methods - A self-contained, hand-held device for delivering fractional radiation-based treatment to the skin includes a device body configured to be handheld by a user; a radiation source supported in the device body, the radiation source including a beam source configured to generate an energy beam; an application end configured to be manually moved across the surface of the skin during a treatment session; and electronics configured to control the radiation source during the treatment session such that the beam source emits a sequence of pulsed energy beams to the skin to generate an array of treatment spots on the skin, wherein adjacent treatment spots generated on the skin are spaced apart from each other by areas of non-treated skin between the adjacent treatment spots. Each energy beam emitted by the pulsed beam source has the same, fixed propagation path with respect to the device body. | 09-13-2012 |
20120232538 | RADIATION-BASED DERMATOLOGICAL DEVICES AND METHODS - A self-contained, hand-held device for providing fractional treatment to the skin includes a device body configured to be handheld by a user; a radiation source supported in the device body, the radiation source including a single beam source configured to emit a single energy beam; an application end configured to be manually moved across the skin during a treatment session; and electronics configured to pulse the single beam source to emit a sequence of pulsed energy beams to the skin while the application end is manually moved across the skin, thereby generating an array of treatment spots on the skin, wherein adjacent treatment spots generated on the skin are spaced apart from each other by areas of non-treated skin between the adjacent treatment spots, thereby providing a fractional treatment. Each pulsed energy beam emitted by the beam source has the same, fixed propagation path with respect to the device body. | 09-13-2012 |
20120232539 | Radiation-Based Dermatological Devices and Methods - A self-contained, hand-held device for providing a dermatological treatment includes a device body configured to be handheld by a user; a radiation source supported in the device body, the radiation source including a beam source configured to generate an energy beam; an application end configured to be manually moved across the surface of the skin during a treatment session; electronics configured to pulse the radiation source during the treatment session such that the beam source emits pulsed energy beams to the skin; and a displacement control system including a displacement sensor configured to determine a displacement of the device relative to the skin, and electronics configured to control at least one operational parameter of the device based on the determined displacement of the device relative to the skin. | 09-13-2012 |
20120239016 | Radiation-Based Dermatological Devices and Methods - A self-contained, hand-held device for providing radiation-based dermatological treatments includes a device body configured to be handheld by a user; a laser device supported in the device body, the laser device including a laser beam source configured to emit laser radiation; an application end configured to be manually moved across the surface of the skin during a treatment session; and electronics configured to control the laser beam source to emit laser radiation toward the skin to provide a dermatological treatment; wherein the device includes no optics downstream of the laser source. | 09-20-2012 |
20120253331 | Dermatological Treatment Device with One or More Laser Diode Bar - A dermatological treatment device includes a device body; a laser diode bar configured to generate laser radiation for delivery to a target area of tissue, the laser diode bar having a fill factor of at least 50%; a power source; and control electronics configured to provide power from the power source to the laser diode bar such that the laser diode bar generates a laser beam; wherein the device is configured for delivering the generated laser beam to the target area of tissue to provide a dermatological treatment. | 10-04-2012 |
20130253487 | Dermatological Treatment Device with One or More Vertical Cavity Surface Emitting Lasers (VCSEL) - A device for providing laser-based dermatological treatments may include a device body having an application end, a VCSEL laser supported in the device body and including multiple emitter zones, each emitter zone comprising one or more micro-emitters, each micro-emitter configured to emit a micro-beam, wherein at least two of the multiple emitter zones are configured such that the micro-beam emitted by the micro-emitters of the at least two emitter zones form a combined beam through the application end of the device to provide a treatment spot on the skin, and electronics coupled to the at least two emitter zones and configured to control the at least two emitter zones independently. | 09-26-2013 |
20140005756 | Radiation-Based Dermatological Devices and Methods | 01-02-2014 |
20140114299 | Eye-Safe Dermatologic Treatment Apparatus and Method - A dermatologic treatment apparatus is disclosed which includes one or more housings with at least one housing configured for manipulation in a dermatologic treatment procedure, a light source, and an electrical circuit. The circuit energizes the light source to produce output light pulses. A light path includes an aperture through which eye-safe light pulses are propagated having properties sufficient for providing efficacious treatment. An optical diffuser is disposed along the light path to reduce the integrated radiance to an eye-safe level. The apparatus produces an output fluence not less than 4 J/cm | 04-24-2014 |
20140155876 | SELF-CONTAINED, EYE-SAFE HAIR-REGROWTH-INHIBITION APPARATUS AND METHOD - A dermatologic hair-regrowth-inhibiting apparatus is disclosed which is cordless and sufficiently compact as to be hand-held. A self-contained housing is configured for gripping by a person's hand for cordless manipulation in a hair-regrowth-inhibiting procedure. A light source and electrical circuit are contained within the housing. The circuit includes one or more batteries for energizing the light source to produce output light pulses. A light path within the housing includes an aperture through which eye-safe light pulses are propagated out of the housing having properties sufficient for at least temporary hair-regrowth inhibition. A diffuser is disposed along the light path to reduce the integrated radiance to an eye-safe level. | 06-05-2014 |
20140171929 | Phototherapy Device Thermal Control Apparatus and Method - A cordless, hand-held dermatologic hair-regrowth-inhibiting apparatus may include: a self-contained housing configured for gripping by a person's hand for cordless manipulation in a hair-regrowth-inhibiting procedure; a light source comprising one or more diode laser bars within the housing; a direct drive electrical circuit within the housing comprising one or more batteries for energizing the light source to produce output light pulses, wherein the electrical circuit does not include any storage capacitors that energize the light source by capacitor discharge; and a light path within the housing including an aperture through which the output light pulses are propagated out of the housing having properties sufficient for at least temporary hair-regrowth inhibition. | 06-19-2014 |
20150057725 | PHOTOTHERAPY DEVICE THERMAL CONTROL APPARATUS AND METHOD - A phototherapy device includes an outlet end to be placed in contact with a person's skin, a heat exchanger, an optical structure arranged between the heat exchanger and the outlet end, and a light source arranged between the heat exchanger and the outlet end, and configured to emit light for delivery to the skin through or adjacent the optical structure. The heat exchanger may include a first heat transfer portion thermally coupled to the light source for dissipating heat from the light source, and a second heat transfer portion thermally coupled to the optical structure for dissipating heat from the optical structure. The first and second heat transfer portions of the heat exchanger may be substantially thermally isolated from each other, e.g., partially or completely physically separated from each other. | 02-26-2015 |