摘要:
Systems and methods for purchasing credits are described. The system includes a plurality of electronic transaction terminals, an activity table, a computing device, a financial account server, and a credit system. The electronic transaction terminals include a handheld device that receives patron input and are located at an activity table. The electronic transaction terminals are in electronic communication with the computing device and provide an electronic transaction request instruction. The system generates from the electronic transaction request instruction, an electronic transaction request that is communicated from the computing device to the financial account server. The computing device then receives an electronic transaction approval from the financial account server and generates an authorization to dispense credits to a patron. The computing device then communicates the authorization to dispense credits to the credit system associated with the activity table so that the patron receives the credits at the activity table.
摘要:
A client device, a system and a method for enabling financial transactions for an electronic gaming machine is described. The client device includes an electronic gaming machine processor, a printer, a printer sharing module and a controller. The printer sharing module is electrically coupled to the printer and the electronic gaming machine processor. The controller is electrically coupled to the printer sharing module. The controller reroutes the communications between the electronic gaming machine processor and the printer and allows the controller to communicate with the printer so that the controller instructs the printer to print a voucher. The system also includes a wireless communications module that enables communications with at least one other wireless communication module over short distances using point to point or broadcast packets that allow for bi-directional data transmission between each client device located on a casino gaming floor.
摘要:
A light emitting device includes a stack of semiconductor layers defining a light emitting pn junction and a dielectric layer disposed over the stack of semiconductor layers. The dielectric layer has a refractive index substantially matching a refractive index of the stack of semiconductor layers. The dielectric layer has a principal surface distal from the stack of semiconductor layers. The distal principal surface includes patterning, roughening, or texturing configured to promote extraction of light generated in the stack of semiconductor layers.
摘要:
A light emitting package includes a support (12, 112, 212) defining a support surface (14). A first light emitting diode chip (20, 120, 220) is secured to the supporting surface and is configured to emit light having a first spectral distribution. A second light emitting diode chip (22, 122, 123, 222) is secured to the first light emitting diode chip. The second light emitting diode chip is configured to emit light having a second spectral distribution different from the first spectral distribution. Optionally, a third light emitting diode chip (223) is disposed on the second light emitting diode chip (222).
摘要:
A light emitting chip is disposed on a support surface. A plurality of bonding bumps are disposed in a gap between the light emitting chip and the support surface. The plurality of bonding bumps provide at least one electrical power input path to the light emitting chip. An underfill comprising underfill material is disposed in the gap between the light emitting chip and the support surface such that the underfill substantially fills the gap but does not form a fillet extending outside the gap over sidewalls of the light emitting chip. The underfill is configured to provide at least one of (i) mechanical support for the light emitting chip and (ii) a thermal conduction path from the light emitting chip to the support surface.
摘要:
A light emitting device (A) includes a semiconductor die (100). The semiconductor die includes: an epitaxial structure (120) arranged on a substrate (160), the epitaxial structure forming an active light generating region (140) between a first layer (120n) on a first side of the active region and having a first conductivity type, and a second layer (120p) on a second side of the active region and having a second conductivity type, the second side of the active region being opposite the first side of the active region and the second conductivity type being different that the first conductivity type; a first contact (180n) in operative electrical communication with the active region via the first layer in the epitaxial structure, the first contact being arranged on a side of the epitaxial structure opposite the substrate; a second contact (180p) in operative electrical communication with the active region via the second layer in the epitaxial structure, the second contact being arranged on a side of the epitaxial structure opposite the substrate; a first contact trace corresponding to the first contact and defined at a surface thereof distal from the substrate, the first trace including at least one area designated for bonding (320n); and, a second contact trace corresponding the second contact and defined at a surface thereof distal from the substrate, the second trace including at least one area (320p) designated for bonding. Suitably, the first contact trace is substantially enclosed within the second contact trace.
摘要:
A light emitting chip is disposed on a support surface. A plurality of bonding bumps are disposed in a gap between the light emitting chip and the support surface. The plurality of bonding bumps provide at least one electrical power input path to the light emitting chip. An underfill comprising underfill material is disposed in the gap between the light emitting chip and the support surface such that the underfill substantially fills the gap but does not form a fillet extending outside the gap over sidewalls of the light emitting chip. The underfill is configured to provide at least one of (i) mechanical support for the light emitting chip and (ii) a thermal conduction path from the light emitting chip to the support surface.
摘要:
A surface mount LED package having a tight footprint and small vertical image size is fabricated by a method comprising: forming light emitting diode chips each having a substrate and a plurality of layers configured to emit electroluminescence responsive to electrical energizing; forming electrical vias in a sub mount, the electrical vias passing from a front side of the sub-mount to a back-side of the sub-mount; flip chip bonding the light emitting diode chips on the front-side of the sub mount such that each light emitting diode chip electrically contacts selected electrical vias; thinning or removing the substrates of the flip-chip bonded light emitting diode chips; and after the thinning, disposing a phosphor over the flip chip bonded light emitting diode chips.
摘要:
In a method for fabricating a flip-chip light emitting diode device, a submount wafer is populated with a plurality of the light emitting diode dies. Each device die is flip-chip bonded to the submount. Subsequent to the flip-chip bonding, a growth substrate is removed. The entire submount is immersed in the etchant solution, exposed to the light for a prespecified period of time, removed from the solution, dried and diced into a plurality of LEDs., The LEDs are immediately packaged without any further processing.
摘要:
In a light emitting package fabrication process, a plurality of light emitting chips (10) are attached on a sub-mount wafer (14). The attached light emitting chips (10) are encapsulated. Fracture-initiating trenches (30, 32) are laser cut into the sub-mount wafer (14) between the attached light emitting chips (10) using a laser. The sub-mount wafer (14) is fractured along the fracture initiating trenches (30, 32).