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    • 2. 发明申请
    • INDUCTIVELY-HEATED APPLICATOR SYSTEM
    • 电感加热器系统
    • US20090289055A1
    • 2009-11-26
    • US12126190
    • 2008-05-23
    • David W. BaarmanRichard BylsmaThomas Jay LeppienJesse C. LeverettSteve O. Mork
    • David W. BaarmanRichard BylsmaThomas Jay LeppienJesse C. LeverettSteve O. Mork
    • H05B6/04
    • B05C17/001A45D34/041A45D40/261A45D2200/055A45D2200/056A45D2200/155B05C1/00B05C1/003H05B6/105
    • An inductively-heated applicator system including a heating module and an applicator, such as an applicator pen. The heating module include a dock for seating the applicator. The heating module includes circuitry to selectively generate an electromagnetic field to wirelessly provide energy to the applicator when it is positioned in the dock. The heating module may also include temperature control circuitry to monitor and/or control the temperature of the applicator. The applicator pen includes a heating element that it heated through energy provided by the electromagnetic field. The heating element may be directly inductively heated by the electromagnetic field. The heating element may be a roller element that heats and applies the product. Alternatively, the applicator may include a secondary in which electrical power is induced when the electromagnetic field is present. In this alternative, the power may be applied to the heating element to produce resistive heat.
    • 一种感应加热的施加器系统,其包括加热模块和施加器,例如施加器笔。 加热模块包括用于安放敷贴器的底座。 加热模块包括用于选择性地产生电磁场的电路,以便当定位在基座中时向施加器无线地提供能量。 加热模块还可以包括温度控制电路以监测和/或控制施加器的温度。 涂抹笔包括通过由电磁场提供的能量加热的加热元件。 加热元件可以被电磁场直接感应加热。 加热元件可以是加热和施加产品的辊元件。 或者,施加器可以包括次级,其中当存在电磁场时,其中引入电功率。 在这种替代方案中,可以将功率施加到加热元件以产生电阻热。
    • 3. 发明申请
    • Illumination source including photoluminescent material and a filter, and an apparatus including same
    • 包括光致发光材料和滤光器的照明源及其包括的装置
    • US20070262714A1
    • 2007-11-15
    • US11434601
    • 2006-05-15
    • Richard Bylsma
    • Richard Bylsma
    • H01J1/62H01J63/04
    • G01J3/10G01J1/58G01N21/278G01N21/31H01L33/44H01L33/507H01L2224/48091H01L2224/73265H01L2924/00014
    • A illumination source comprising (i) a light emitting device, (ii) at least one photoluminescent material layer, and (iii) a filter between the light emitting device and the photoluminescent material layer. The light emitting device may comprise one or more LEDs, one or more lasers, one or more laser diodes, one or more lamps, or a combination of these things. The photoluminescent material layer may comprise quantum dot material and/or phosphors, and it may absorb light emitted from the light emitting device and convert the wavelengths of at least a portion of the photons emitted from the light emitting device to longer wavelengths. The filter may be substantially transmissive of light emitted by the light emitting device and substantially reflective of light emitted by the photoluminescent material layer, which may be omnidirectional. That way, light emitted from the light emitting device and the photoluminescent material layer may be directed in a common direction that is generally away from the light emitting device. The properties of the photoluminescent material layer may be chosen to achieve a desired emission spectra for the illumination source
    • 一种照明源,包括(i)发光器件,(ii)至少一个光致发光材料层,和(iii)在所述发光器件和所述光致发光材料层之间的滤光器。 发光器件可以包括一个或多个LED,一个或多个激光器,一个或多个激光二极管,一个或多个灯或这些物体的组合。 光致发光材料层可以包括量子点材料和/或磷光体,并且其可以吸收从发光器件发射的光并将从发光器件发射的光子的至少一部分的波长转换成更长的波长。 滤光器可以基本上透射由发光器件发射的光并且基本上反射由光致发光材料层发射的光,其可以是全向的。 这样,从发光器件和光致发光材料层发出的光可以沿着通常远离发光器件的公共方向被引导。 可以选择光致发光材料层的性质以实现用于照明源的期望的发射光谱
    • 4. 发明申请
    • Light source including quantum dot material and apparatus including same
    • 光源包括量子点材料和包括其的设备
    • US20070262294A1
    • 2007-11-15
    • US11433991
    • 2006-05-15
    • Steven PetersonRichard Bylsma
    • Steven PetersonRichard Bylsma
    • H01L31/00
    • G01J3/10B82Y30/00G01J1/58G01N21/278G01N21/31
    • A light source comprising a light emitting device and quantum dot material is disclosed. According to various embodiments, the quantum dot material is positioned relative to the light emitting device such that the quantum dot material absorbs light emitted from the light emitting device and converts the wavelengths of photons emitted from the light emitting device to longer wavelengths. Judicious selection of the quantum dot material allows the emission spectra of the light source to be tailored to meet the needs of a particular illumination application, and avoids the drawbacks associated with the use of interference filters because the quantum dot material can upconvert the wavelengths emitted from the light emitting device such that the emission spectra of the light source can include wavelengths that are not emitted by the light emitting device itself.
    • 公开了一种包括发光器件和量子点材料的光源。 根据各种实施例,量子点材料相对于发光器件定位,使得量子点材料吸收从发光器件发射的光并将从发光器件发射的光子的波长转换为更长的波长。 量子点材料的可靠选择允许光源的发射光谱被定制以满足特定照明应用的需要,并且避免与使用干涉滤光器相关联的缺点,因为量子点材料可以上变频从 发光装置使得光源的发射光谱可以包括不被发光装置本身发射的波长。