摘要:
An optoelectronic transducer has a radiation-emitting and/or radiation-receiving body on a carrier unit. The carrier unit has a mounting surface provided with a number of terminal parts. The terminal parts are provided with electrical terminal areas defining a contacting plane. The distance of the contacting plane from the mounting surface is greater than a maximum height of the body from the mounting surface, including all optional electrical conductors and covers.
摘要:
An optoelectronic transducer includes a base plate, a radiation-emitting or transmitting semiconductor component disposed on the base plate, an optical lens system aimed at the semiconductor component and a spacer joined to the base plate for the lens system. The base plate, the spacer and the lens system are formed of materials with at least similar coefficients of thermal expansion. A method for producing an optoelectronic transducer includes forming indentations in a base plate for receiving semiconductor components, while leaving a land remaining on at least one side of each of the indentations. A first plate of the size of the base plate is placed on the lands and joined to the lands by material locking. The first plate is removed between the lands producing spacers joined to the base plate. A number of the semiconductor components are inserted into the indentations in accordance with a predetermined grid pattern and are joined to the base plate to form substrates. The substrates are covered with a second plate including a number of lens systems correspopnding to number of semiconductor components, while placing the lens systems of the second plate in the same grid pattern. The second plate is adjusted relative to the substrates for aiming each of the lens systems at a respective one of the semiconductor components. The second plate is secured to the substrates.
摘要:
A photo-optical transmitter assembly is produced in the following manner: a glass wafer is fixed onto a transparent submount and a V-shaped recess is subsequently created between optical prism elements using targeted sawcuts. A rod-shaped element with a reflective coating is inserted into the V-shaped recess. A laser beam from a semiconductor laser is thus deflected by 90° on the rod-shaped element with the reflective coating and traverses the submount.
摘要:
A radiation source has a field of semiconductor chips, which are disposed below a field of micro-lenses (8) disposed in a hexagonal lattice structure. The radiation source is distinguished by high radiation output and radiation density.
摘要:
A method for producing a lens mold suitable for manufacturing a field of micro-lenses is disclosed. The method includes the step of molding the lens mold from a sheaf of closely-packed balls held by a hexagonal mounting.
摘要:
In an optoelectronic component having a laser chip as a light transmitter and a lens coupling optics for defined emission of radiation generated in the laser chip, the lens coupling optics is arranged immediately in front of the laser chip and is adjusted and fixed in stable fashion in a simple way. The component is rationally manufactured in a wafer union. The laser chip is arranged on a common carrier between two carrier parts whose lateral surfaces neighboring the resonator faces of the laser chip are provided with mirror layers, and that are inclined at an angle of 45.degree. relative to the resonator faces. Thus the radiation generated in the laser chip is directed nearly perpendicularly upward to the surface of the common carrier and the lens coupling optics is arranged on at least the one carrier part such that the radiation generated in the laser chip impinges this lens optics nearly perpendicularly.
摘要:
A bidirectional transceiver module for message and signal transmission via a light waveguide is formed of a lens coupling optics, a laser chip as a light transmitter, a light receiver, and a beam splitter intervening in the beam path. These parts are at least partially surrounded by a housing. They are designed such that, given reduced manufacturing expense, a lens coupling optics arranged immediately in front of the laser chip can be adjusted in a simple way and can be fixed in stable fashion. The laser chip is arranged on a common carrier between two carrier parts whose lateral surfaces neighboring the resonator faces of the laser chip are provided with mirror layers and are inclined at an angle of approximately 45.degree. relative to the resonator faces for beam deflection onto the lens coupling optics secured above the laser chip on at least one carrier part. The mirror layer neighboring the front side of the laser chip is provided with the beam splitter. The light receiver or an optical coupling for this is provided at the underside of the common carrier.
摘要:
A method for encapsulating at least one organic light-emitting (OLED) device is disclosed. The method includes the step of forming a concave region on a plate by applying a negative pressure to a predetermined area of the plate. The plate is attached to a substrate including at least one active region such that the concave region of the plate spans over the active region.
摘要:
A method for encapsulating at least one organic light-emitting (OLED) device (22) comprising the step of forming a concave region (24) on a plate (6) by applying a negative pressure to a predetermined area of the plate. The plate is attached to a substrate (1) comprising at least one active region (23) such that the concave region (24) of the plate (6) spans over the active region (23). Also disclosed is a OLED device (22), in which at least a part of an encapsulation of the device is formed by applying a negative pressure to a predetermined area of a plate (6) forming a concave region (24) of the plate (6).
摘要:
A measuring arrangement for measuring product parameters of a component in the epitaxial layer (28) of a wafer comprises measuring probe (3) on whose contact side (23) a recess (24) is installed, into which an electrolyte can be poured. The electrolyte produces an electrical connection between a contact body (11), which is charged with a signal from a pulsed-current source, and the surface (22) of the wafer (2). A detector (16) serves for detecting the light which is emitted by the component.