초록 ▼

The present invention relates to a method for producing a micro-mirror actuator and the corresponding actuator. In the method, the actuator is generated from a layered construction made of at least three main layers (101, 103, 107), which are at least sectionally electrically insulated from one anot

The present invention relates to a method for producing a micro-mirror actuator and the corresponding actuator. In the method, the actuator is generated from a layered construction made of at least three main layers (101, 103, 107), which are at least sectionally electrically insulated from one another via intermediate layers (102, 104, 106). The layers are structured to form the micro-mirror element and the electrodes, the structuring being performed in such a way that a closed frame (310) is formed from at least the uppermost layer (107) around the inner area of the actuator, which allows a hermetic encapsulation of the inner area by application of a cover plate onto the frame. Furthermore, a conductor level (105), which is electrically insulated from these layers via the intermediate layers, is generated between at least two of the layers and structured to form conductor paths, via which one or more electrodes may be electrically contacted from outside the frame (310) after the formation of contact openings in one or more of the intermediate layers (102, 104, 106). A hermetically sealed encapsulation of the inner area of actuator may already be achieved easily at the wafer level using the method.

대표청구항 ▼

1. A method for producing a micro-mirror actuator, which has, in an inner area, at least one movable micro-mirror element and multiple finger-shaped or comb-shaped electrodes for activating the micro-mirror element, which are offset to one another in height, wherein a layered construction made of at

1. A method for producing a micro-mirror actuator, which has, in an inner area, at least one movable micro-mirror element and multiple finger-shaped or comb-shaped electrodes for activating the micro-mirror element, which are offset to one another in height, wherein a layered construction made of at least three main layers (101, 103, 107) is generated, which are at least sectionally electrically insulated from one another via intermediate layers (102, 104, 106), and the layers are designed and structured to form the micro-mirror element and the electrodes,the structuring of the layers being performed in such a way that a closed frame (310) is obtained from at least the uppermost layer (107), which encloses the inner area of the actuator and allows a hermetic encapsulation of the inner area by application of a cover plate on the frame (310), and, during the generation of the layered construction, a conductor level (105), which is electrically insulated from these main layers via the intermediate layers, is generated between at least two of the main layers and structured to form conductor paths, which allow electrical contact to one or more of the electrodes from outside the frame (310) after the formation of contact openings in one or more of the intermediate layers (102, 104, 106). 2. The method according to claim 1, wherein a top side of the frame (310) is polished after the structuring. 3. The method according to claim 1, wherein the production is performed on the wafer level by generating the layered construction for a plurality of micro-mirror actuators situated adjacent to one another on a wafer, which forms one of the main layers. 4. The method according to claim 3, wherein, after the structuring, a further wafer (108) or a substrate of the size of a wafer is applied as a cover plate to the layered construction and bonded hermetically sealed to the frame (310) of the micro-mirror actuators situated adjacent to one another. 5. The method according to claim 4, wherein a cover plate, which is transparent in at least one optical wavelength range, is used. 6. The method according to claim 4, wherein the cover plate is applied by anodic or eutectic bonding or by glass frit bonding. 7. The method according to claim 1, wherein the layers are designed and structured to form a single-axis or multiaxis movable micro-mirror plate (311) as the micro-mirror element. 8. A micro-mirror actuator, which, in an inner area, has at least one movable micro-mirror element and multiple finger-shaped or comb-shaped electrodes for activating the micro-mirror elements, which are offset to one another in height, wherein the actuator is formed from a layered construction made of at least three main layers (101, 103, 107), which are at least sectionally electrically insulated from one another via intermediate layers (102, 104, 106),the inner area is enclosed by a closed frame (310) made of at least the uppermost layer (107), which allows a hermetic encapsulation of the inner area by application of a cover plate onto the frame (310), anda conductor level (105), which is insulated from these main layers via the intermediate layers, is situated between at least two of the main layers, having conductor paths, which allow electrical contact to one or more of the electrodes from outside the frame (310) via contact openings in one or more of the intermediate layers (102, 104, 106). 9. The micro-mirror actuator according to claim 8, wherein the micro-mirror element is a single-axis or multiaxis movable micro-mirror plate (311). 10. The micro-mirror actuator according to claim 8, wherein a cover plate is applied hermetically sealed onto the frame (310). 11. The micro-mirror actuator according to claim 10, wherein the cover plate is transparent in at least one optical wavelength range.