The present disclosure proposes an improved apparatus and method for counting of sea lice by providing a stable and controlled light environment which ensures counting of sea lice reliably and independent of weather conditions and an optimized spectral power distribution and intensity of the light for improved observation (detectability) of sea lice with respect to fish skin. An embodiment of the disclosed light system comprises multiple LEDs, at least two LEDs providing a light colour with peaks in the range 490- 540nm (Cyan/Green) respectively 620-660nm (Red).
A light emitting device (1) comprising at least one light source (2) adapted for, in operation, emitting first light (13) with a first spectral distribution, a light guide (4) made of a luminescent material and comprising a light input surface (41) and a light exit surface (42) extending in an angle different from zero to one another, the light guide further comprising a first further surface (46) extending parallel to and arranged opposite to the light exit surface, wherein the light guide is adapted for receiving the first light (13) with the first spectral distribution at the light input surface, converting at least a part of the first light with the first spectral distribution to second light (14) with a second spectral distribution, guiding the second light with the second spectral distribution to the light exit surface and coupling the second light with the second spectral distribution out of the light exit surface. The light emitting device further comprises a phosphor element (77) arranged adjacent to the first further surface and a reflective element (76) arranged adjacent the phosphor element opposite to the first further surface (46). The phosphor element is adapted for converting light incident from the light guide to third light (17) with a third spectral distribution and the light guide (40) is furthermore adapted for receiving the third light (17) with the third spectral distribution at the first further surface (46), guiding the third light (46) with the third spectral distribution to the light exit surface (42) and coupling the third light with the third spectral distribution out of the light exit surface.
F21K 9/61 - Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction using light guides
F21V 29/70 - Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks
F21K 9/64 - Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction using wavelength conversion means distinct or spaced from the light-generating element, e.g. a remote phosphor layer
A fish lighting system has an input interface (10) which receives instructions corresponding to a desired fish behavioral and/or physiological response (12). This is converted into a lighting control signal (RGB, t) for driving a lighting arrangement (18), with the intensity and color of the output from the lighting arrangement selected to obtain the desired fish behavioral and/or physiological response.
The present invention relates to an LED retrofit lamp adapted for operation with an alternating current. The LED lamp comprises an LED unit, first and second switching devices (e.g., first and second relays), a startup voltage supply unit (1010) coupled in parallel to the first switching device, an ignition detection unit (1020) coupled in parallel to the second switching device, and a switch drive unit (1030) for setting the first and second switching devices to a conducting state. If one of the first and second switching devices is shorted either no startup supply voltage or no detection signal is provided, such that the failure is indicated externally to a user.
The invention relates to a power distribution system comprising a power providing device (3) for providing power and a powered device (4, 5, 6) like a luminaire to be powered by the power providing device. The power providing device and the powered device are operable in a maximum power mode and a normal operation mode, wherein in the maximum power mode the powered device consumes an amount of power maximally consumable by the powered device and the power providing device measures the power consumed by the powered device. This measured power allows for an allocation of an amount of power in the operational mode, which is really maximally needed, wherein it is not necessary to allocate a larger amount of power, which is large enough to consider, for instance, a maximally assumed length of an electrical connection (8) connecting the devices, thereby improving the power budget allocation.
A driver (100) supplies power to drive at least one light source(130). The driver includes: a current regulator (140) connected in series with the at least one light source; and a conditioning circuit (120) configured to receive an AC supply voltage(110)having a primary frequency of between about 50 Hz to 60 Hz, and further configured to condition the received AC supply voltage to supply power to the at least one light source, wherein the conditioned voltage has a non-zero DC component and an AC component, and wherein a magnitude of the AC component at a frequency that is four times the primary frequency is greater than a magnitude of the AC component at the primary frequency, and is also greater than a magnitude of the AC component at a second harmonic of the primary frequency.
The invention provides a user interaction system (100) and a method of controlling a lighting system. The user interaction system (100) comprises a display (106), a means for receiving a location indication (102), a location identification means (104) and an overlay image creator (108). The display (106) displays a subarea image and an overlay image. The subarea image is an image of a specific subarea of the environment. The location identification means (104) detects which specific location in the environment is indicated by the location indication. The overlay image creator (108) generates the overlay image. The overlay image comprises information related to a lighting effect which is obtainable by the lighting system at the specific location. The obtainable effect is an effect of at least two controllable light sources of the lighting system. The information which is related to the obtainable lighting effect is based on a lighting system model (110) which represents effects that are obtainable in the environment by controllable light sources of the lighting system.
A switched capacitor array having a plurality of capacitors arranged in a plurality of branches having different numbers of capacitors, and a plurality of switches connected to selectively couple the capacitors across the input or the output may be used for powering a variety of loads. A switched LED array may be dynamically configured based on a voltage supplied thereto, which may be supplied by a switched capacitor array. A lighting apparatus may be provided with first and second blocks, each block comprising a switched capacitor array, a switched LED array, and a control system.
The invention describes an adaptive circuit (1, 1') for driving a lower- voltage DC load (2) from a rectified higher-voltage AC supply(3), which adaptive circuit (1, 1') comprises a charge-storage circuit (21, 21'), which charge storage circuit (21, 21') comprises a first capacitor (C1) and a second capacitor (C2) connected essentially in series, wherein the second capacitor (C2) is connected at least in parallel with the load (2); and an active switch (22, 22') realised as a controlled current source (22, 22') for controlling a load current (I load ) through the load (2) such that, in a closed switch state, load current (I load ) is drawn essentially from the first capacitor (C1) of the charge-storage circuit (21, 21'), and, during an open switch state, load current (I load ) is drawn essentially from the second capacitor (C2).The invention also describes an LED retrofit lamp (4) comprising a connecting means (40) for connecting the lamp (4) to a higher-voltage mains supply signal (U PS );an LED device (2) rated for a lower-voltage supply; and such an adaptive circuit (1, 1') for adapting the higher-voltage mains supply signal(U PS ) to a low-voltage signal (U C2 ) for driving the lower-voltage LED device (2). The invention also describes a method of driving a lower-voltage DC load (2) from a rectified higher-voltage AC supply (3).
H02M 3/07 - Conversion of dc power input into dc power output without intermediate conversion into ac by static converters using resistors or capacitors, e.g. potential divider using capacitors charged and discharged alternately by semiconductor devices with control electrode
10.
METHOD AND APPARATUS FOR ADJUSTING LIGHT OUTPUT RANGE OF SOLID STATE LIGHTING LOAD BASED ON MAXIMUM AND MINIMUM DIMMER SETTINGS
A method is provided for controlling a power converter (220) to provide a uniform dimming range to a solid state lighting load (240) independent of a type of dimmer. The method includes detecting maximum and minimum phase angles of a dimmer (204) connected to the power converter (220) during operation of the solid state lighting load (240), and dynamically adjusting an output power of the power converter based on the detected maximum and minimum phase angles of the dimmer. The adjusted output power of the power converter adjusts a high end level of light output by the solid state lighting load at the maximum phase angle to match a predetermined high end value and adjusts a low end level of light output by the solid state lighting load at the minimum phase angle to match a predetermined low end value.
11.
METHOD AND APPARATUS FOR DETECTING DIMMER PHASE ANGLE AND SELECTIVELY DETERMINING UNIVERSAL INPUT VOLTAGE FOR SOLID STATE LIGHTING FIXTURES
A device for detecting a dimmer phase angle set by operation of a dimmer for a solid state lighting load includes a processor having a digital input, a first diode connected between the digital input and a voltage source and a second diode connected between the digital input and ground. The device further includes a first capacitor connected between the digital input and a detection node, a second capacitor connected between the detection node and ground, and a resistance connected between the detection node and a rectified voltage node, which receives a rectified voltage from the dimmer. The processor is configured to sample digital pulses at the digital input based on the rectified voltage and to identify the dimmer phase angle based on lengths of the sampled digital pulses.
The present invention refers to a lighting system comprising ambient light sources and task light sources, and occupancy sensors for detecting occupancy in a number of occupancy zones and for controlling the ambient light sources and task light sources. Each occupancy sensor is provided to communicate wirelessly with other occupancy sensors. On the detection of occupancy of at least one zone, the occupancy sensors detecting the occupancy active at least one ambient light source and send a control signal to other occupancy sensors to active other ambient light sources, and the intensity of a group of task light sources illuminating the occupied zone is set to a level higher than the intensity of the remaining task light sources. The invention also refers to a respective method for controlling a lighting system of this kind.
13.
METHOD AND APPARATUS FOR CONTROLLING DIMMING LEVELS OF LEDS
Circuits useful in achieving efficient current control of LEDs based on a dimming control input are described. The circuits use a combination of PWM dimming and analog dimming to achieve a highly efficient LED driver over a wide range of dimming from near 0% to 100% light output.
A system and method are described for controlling a plurality of devices (150) by a remote control apparatus (105). The remote control apparatus (105) transmits a same sequence of commands individually to each of the plurality of devices (150) to execute a relative increase or decrease of a parameter thereof with a certain value. There is two-way communication between the remote control apparatus (105) and the devices (150). The devices (150) acknowledge the correct reception of a command by transmitting an acknowledgement message to the remote control apparatus (105). The remote control apparatus (105) repeats the transmission of a command to a device (150) in case of not receiving an acknowledgement message from the device (150). In this way, it is guaranteed that all controlled devices (150) receive the same commands and the controlled parameters thereof are kept in synchronization.
G08C 25/02 - Arrangements for preventing or correcting errors; Monitoring arrangements by signalling back from receiving station to transmitting station
H04Q 9/04 - Arrangements for synchronous operation
An automation system for providing activity-adapted automation in an environment, comprising at least one controllable appliance (1), and a sensor (3) arranged to collect sensor data associated with user activities in the environment. A controller includes a user behavior analyzer (6), arranged to recognize, based on the sensor data, user activities and to identify unique combinations of simultaneously performed activities, and a user interface (4), arranged to display the unique combinations of simultaneously performed activities and representations of the predefined automation settings, and to allow the user to associate each unique combination with a desired setting. The controller is further adapted to subsequently control the appliance according to the predefined automation setting associated with a currently recognized combination of user activities. This provides activity-based automation of the environment, in accordance with preprogrammed preferences of the user, without requiring any programming experience.
16.
SYSTEMS AND METHODS FOR MANAGING INTERACTION WITH CONTROLLABLE LIGHTING NETWORKS
Systems and methods for managing interaction with controllable lighting networks are disclosed. Particularly, a user's input regarding the user's preferred level of interaction with a controllable lighting network is used in conjunction with memories and processors, to selectively allow the controllable lighting network access to the user's personal data such as the user's identity or the user's personal lighting preferences. A user's preferred level of interaction with a controllable lighting network is also used, in conjunction with personal mobile electronic communication devices, to allow the user to control lighting within controllable lighting networks.
A lighting control device for controlling one or more lighting parameters of each of one or more light sources is disclosed. The lighting control device comprises at least a first user interaction element, an element appearance control unit, a light setting control unit, and a memory for saving at least a first light setting, the first light setting comprising values of the one or more lighting parameters. The light setting control unit is adapted to set the lighting parameters according to the first light setting in response to an input via the first user interaction element. The element appearance control unit is adapted to set a first appearance associated with the first user interaction element based on at least one of the lighting parameters of the first light setting. Corresponding system, use, methods and computer program product are also disclosed.
The invention provides an illumination device comprising an envelope enclosing a light source, preferably a LED, and a luminescent material. The envelope comprises a transmissive part, and a reflective part, wherein the reflective part compris-es a reflective ceramic material. The ceramic material can be used for heat dissipation.
F21K 9/23 - Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings
F21K 9/233 - Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings specially adapted for generating a spot light distribution, e.g. for substitution of reflector lamps
F21K 9/64 - Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction using wavelength conversion means distinct or spaced from the light-generating element, e.g. a remote phosphor layer
A lighting arrangement for presentation of a first object is disclosed. The arrangement comprises an accent lighting assembly and a decoration lighting assembly. The accent lighting assembly is arranged to provide illumination of the first object, has at least one accent light characteristic, and comprises at least one accent light generating device. The decoration lighting assembly is arranged to provide background lighting of the first object, has at least one decoration light characteristic, and comprises at least one decoration light generating device. The arrangement also comprises at least one sensor, arranged to detect a distance between the sensor and a second object and to generate a signal value representing the distance, and a controller arranged to receive the signal value from the at least one sensor and to adapt the accent light characteristic and the decoration light characteristic based on the signal value. Corresponding use, method and computer program product are also disclosed.
20.
CONTROLLING A SHADING DEVICE BY MEANS OF IMAGE RECOGNITION
The invention describes a system for controlling a shading device with a plurality of controllable shading elements. To provide a system for controlling a shading device, which reduces direct sunlight transmission and enhances thermal comfort and lighting conditions, the system comprises at least one detector unit for providing an image signal of a shading area and a control unit (5) being configured to receive said image signal, determine from said signal, whether a characteristic pattern is present in said shading area and in case said characteristic pattern is determined, control said shading elements to reduce said characteristic pattern.
Coded light has been proposed to enable advanced control of light sources and transmit information using light sources. It is based on invisibly embedding of data and identifiers in their light output. Methods, devices and systems configured to efficient assignment of addresses in a coded lighting system, still allowing for unique identification, are proposed. More specifically, the assignment of addresses occurs in two phases, where in the initial phase wide area unique addresses are used, while in the second phase only local area unique addresses are used. Also, methods, devices and systems configured to efficiently distribute a set of addresses over a set of light sources in this second phase, to maximize the performance of the illumination contribution estimation, and positioning, are disclosed.
22.
LUMINESCENT CONVERTER FOR A PHOSPHOR-ENHANCED LIGHT SOURCE COMPRISING ORGANIC AND INORGANIC PHOSPHORS
The invention relates to a luminescent converter (10, 12) for a phosphor- enhanced light source (100, 102, 104). The luminescent converter comprises a first luminescent material (20) configured for absorbing at least a part of excitation light (hvO) emitted by a light emitter (40, 42) of the phosphor-enhanced light source, and for converting at least a part of the absorbed excitation light into first emission light (hv1) comprising a longer wavelength compared to the excitation light. The luminescent converter further comprising a second luminescent material (30) comprising organic luminescent material (30) and configured for absorbing at least a part of the first emission light emitted by the first luminescent material, and for converting at least a part of the absorbed first emission light into second emission light (hv2) having a longer wavelength compared to the first emission light. An effect of the luminescent converter according to the invention is that the two-step light conversion according to the invention generates a relatively small Stokes shift of the light emitted by the organic luminescent material. The inventors have found that by reducing the Stokes shift of the organic luminescent material, the width of the spectrum of the second emission light is limited to reduce an infrared part in the emission spectrum. As such, the efficiency is improved.
A wireless convenience lighting system, comprises a base unit, the base unit connectable to an AC power supply, the base unit having a transmitter structure emitting at least one signal indicating one of an AC power loss or the AC power on, a remote lighting unit having a light source, and auxiliary power supply and a receiver structure, the receiver structure receiving the signal from the base unit, the base unit wirelessly activating the light source of the remote lighting unit when the AC power is lost.
H05B 47/19 - Controlling the light source by remote control via wireless transmission
F21S 9/02 - Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator
G08C 17/02 - Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
H02J 9/02 - Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which an auxiliary distribution system and its associated lamps are brought into service
The invention relates to automatically configuring of a lighting, particularly to creating a lighting, which follows a person, with a networked lighting system. A basic idea of the invention is to configure lighting in a network of lamps in that a lamp of the network adjusts its light emission depending on presence detection in its own direct environment and the presence detected in the environment of other lamps of the network. An embodiment of the invention relates to a system (10) for automatically configuring a lighting, wherein the system comprises - a network of lamps (12), in which every lamp is coupled to a presence detector (14) and can receive signals from other lamps in the network, wherein a received signal indicates an activity detected by the presence detector coupled to the lamp, which transmits the signal, and wherein - every lamp adjusts its light emission depending on the signal received from other lamps and the measurement of its presence detector. The invention allows automatically configuring a lighting with a network of lamps for a certain area in that lights go on before a person gets to a certain area.
25.
METHOD FOR A PERSONAL MOBILE DEVICE COMMUNICATION OF SERVICE ORDERS
Light-based systems for communicating information associated with service orders and/or the identification of personal objects are disclosed. A personal mobile electronic communication device is used in conjunction with a communication network and a lighting controller to communicate service orders by lighting with one or more individually controllable luminaires in a lighting network. A personal mobile electronic communication device is, alternatively or additionally, used in conjunction with a communication network, a memory, and a lighting controller controlling to indicate by lighting whether there is an association between the personal mobile electronic communication device and a personal item.
26.
METHOD FOR A PERSONAL MOBILE DEVICE COMMUNICATION OF SERVICE ORDERS
Light-based systems for communicating information associated with service orders and/or the identification of personal objects are disclosed. A personal mobile electronic communication device is used in conjunction with a communication network and a lighting controller to communicate service orders by lighting with one or more individually controllable luminaires in a lighting network. A personal mobile electronic communication device is, alternatively or additionally, used in conjunction with a communication network, a memory, and a lighting controller controlling to indicate by lighting whether there is an association between the personal mobile electronic communication device and a personal item.
G01S 1/00 - Beacons or beacon systems transmitting signals having a characteristic or characteristics capable of being detected by non-directional receivers and defining directions, positions, or position lines fixed relatively to the beacon transmitters; Receivers co-operating therewith
H04W 4/02 - Services making use of location information
H05B 45/10 - Controlling the intensity of the light
H05B 47/105 - Controlling the light source in response to determined parameters
A recessed fixture having a junction box positioned adjacent at least one ceiling support structure comprises a recessed luminaire fixture, the junction box mounted to the recessed luminaire frame, the junction box being horizontally oriented, the junction box having a first facing junction box door and a second junction box door, the first junction box door and the second junction box door being oppositely positioned and pivotally connected to a junction box housing, the first and second junction doors being in a substantially horizontal orientation in a closed position, one of the first junction box door and the second junction box door facing substantially upwardly and the other of the first junction box door and the second junction box door facing substantially downwardly, wherein the horizontal orientation allows the junction box doors to be positioned adjacent a ceiling structure without limiting opening of the junction box doors.
A controller, method and system, for controlling lighting responsive to ambient lighting conditions are described. In particular, disclosed is illumination controller (110) for controlling illumination of a workspace near a display (253). The illu-mination controller includes a memory device (113) storing a user's preference for illumination of the workspace; a processor (111) accessing the user's preference in the memory device; and an interface (112) between the processor and an electronic sensor (231) located proximate to the display, which collects a reading from the electronic sensor. The processor compares the reading with the user's preference, and sends a command to at least one luminaire (241) to adjust the illumination of the workspace. The electronic sensor can be, for example, a photosensor, an occupancy sensor, an orientation sensor, or a location sensor. In some embodiments, the interface collects the reading from the electronic sensor via a wireless communication link.
The application discloses a method and apparatus for providing a desired warning signal for a lighting unit. A cod-ed warning system is provided employing a detection module (320) and a signal generating module (330), wherein the detection module is configured to obtain information regarding the detection of one or more operating parameters of the lighting unit and the signal generating module generates a desired warning signal (331) selected from a plurality of warning signals, upon determi-nation that one or more of the operating parameters are abnormal operating parameters. Each warning signal of the plurality of warning signals is indicative of a specific abnormal operating parameter or a known combination of specific abnormal operating parameters.
30.
A SYSTEM AND METHOD FOR COPYING SETTINGS OF A DEVICE TO ANOTHER DEVICE, PARTICULARLY FOR COPYING SETTINGS BETWEEN LAMPS
The invention relates to copying of settings of a device to another device so that a user does not have to set up each device of a network of devices, such as to set up each lamp of a lighting system with a network of lamps. A basic idea of the in-vention is to equip a device such as a lamp with a network transmitter and receiver with a form of proximity detection in order to enable a user to easily copy the settings of one device to another device within their proximity. An embodiment of the invention provides a system for copying settings of one device to another device, comprising - a network transmitter (10) coupled to a first device (12), - a network receiver (14) coupled to a second device (16), wherein - the network transmitter and the network receiver may establish a network connection (18) if their distance is essentially equal or less than a predetermined distance (20), - the net-work transmitter is adapted to read device settings of the first device and to transmit the read device settings over the established network connection, and - the network receiver is adapted to receive the device settings, being transmitted by the network transmitter over the established network connection, and to configure the second device in accordance with the received device set-tings.
An air-handling luminaire comprises a recessed troffer housing having a first pair of opposed walls and a second pair of opposed walls, the housing having a light output opening and a lens extending across the light output opening, at least one of the walls of the first pair of opposed walls and the second pair of opposed walls being substantially vertical and having at least one flow through opening for fluid communication from a volume beneath the recessed troffer housing to a plenum above the recessed troffer housing and, a rail extending from near a lower edge of the recessed troffer housing upwardly within the recessed troffer housing and adjacent the at least one flow through and concealing the at least one flow through opening.
F21S 8/02 - Lighting devices intended for fixed installation of recess-mounted type, e.g. downlighters
F21V 29/60 - Cooling arrangements characterised by the use of a forced flow of gas, e.g. air
F21V 33/00 - Structural combinations of lighting devices with other articles, not otherwise provided for
F24F 3/056 - Systems in which all treatment is given in the central station, i.e. all-air systems the air at least partially flowing over lighting fixtures, the heat of which is dissipated or used
F24F 13/078 - Outlets for directing or distributing air into rooms or spaces, e.g. ceiling air diffuser combined with lighting fixtures
A conventional acorn style globe is described incorporating the utilization of LED's as an illumination source. A supporting heat dissipation plate is provided which extends to the exterior periphery of the acorn style luminaire allowing heat to transfer from the LED's directly to the exterior of the acorn style luminaire while maintaining the integrity of an acorn style globe construction. A plurality of individually orientable lenses on each of the LED's positioned within the interior of the globe allow for efficient downlight and desirable optical characteristics. Interior access may be provided through removal of the globe top to thereby provide accessibility to the LED board mounted on the heat transfer plate.
A mounting surface for mounting a plurality of LEDs has a plurality of orientable lenses each individually affixed about a single LED. Each orientable lens has a primary reflector and a refracting lens that direct light emitted from a single LED to a reflective surface of the orientable lens that reflects the light off a primary LED light output axis.
A light control device implemented as a luminaire (10) exhibits an ultra-wide batwing luminous intensity distribution in an upper hemisphere (102) that provides substantially uniform illumination of a ceiling surface (44), even when the luminaire is mounted very close to the ceiling. Luminous side panel diffusers (78, 80) facilitate blending the luminaire with the ceiling surface as they create a batwing luminous intensity distribution in a lower hemisphere (100) to evenly illuminate a work plane (104).
A low upright cutoff classification acorn style luminaire is described. The acorn style luminaire has a globe which has a top positioned thereon and which is mounted to a pole. Integrated within the luminaire is the lamp support and lamp, the lamp substantially surrounded and enclosed by a reflector. The interior surface of the globe has a plurality of substantially vertically extending prisms along a curved surface thereof, the prisms working in conjunction with the reflector to provide cutoff classification for the acorn style luminaire.
The present invention provides a method and apparatus for adaptive control of a solid-state lighting system consisting of one or more groups of one or more light-emitting elements The invention comprises a voltage control device to provide each group with an independently controllable voltage A feedback system to detect and generate a signal representative of drive currents through the one or more groups A computing device then adaptively evaluates, based on the signal, a required voltage that achieves a desired respective drive current in each of the one or more groups.
Disclosed is a light fixture device comprising an elongate housing, the housing having a pair of opposed edge faces, a first central longitudinal region and a pair of second longitudinal regions, the first longitudinal region being centrally located therebetween, the first and second longitudinal regions extending between the two edge faces, the central first longitudinal region including at least one light emitting portion, one of the second longitudinal regions including at least one sensor portion, the at least one sensor portion being positioned at a location which is optimally selected relative to a work station in a room space below the light fixture device and/or relative to one or more ambient light sources near the light fixture device, the location being one of a plurality of possible locations along a substantially continuous location line extending between the two edge faces.
The present invention provides an electronic device package that can be fabricated using standard package fabrication technologies while providing a desired level of thermal transfer capability to an attachable thermal management system. The electronic device package according to the present invention comprises a housing that is specifically designed to couple with an evaporator portion of a thermal management system, for example a heat pipe. One or more electronic devices are mounted in thermal contact with the evaporator portion of the thermal management system. Upon completion of the fabrication of the package using standard techniques, the evaporator portion of the electronic device package is operatively coupled with a secondary portion of the thermal management system. In this manner the electronic device package can be fabricated to incorporate a desired thermal management system, while being fabricated using standard package fabrication processes and machinery.