A method for manufacturing a micromechanical device includes providing a silicon substrate having a front side and a rear side, where a first normal of the front side deviates by a first angle from the <111> direction of the silicon substrate; forming in the front side first and second trenches that are spaced apart from and essentially parallel to each other, with the first and second trenches extending along a direction of the deviation; forming on the front side a first etching mask that covers the front side except for a first opening area between the first and second trenches; and anisotropically etching the front side using the etching mask, thereby forming in the opening area an oblique surface having a second angle to the first normal, which approximately corresponds to the first angle.

A method of arranging a plurality of semiconductor structural elements on a carrier includes arranging at least some of the semiconductor structural elements in multiple groups G and at least one semiconductor structural element of a group G has a property E that determines the position of the respective group G of semiconductor structural elements on the carrier.

A method includes forming an alignment pattern over an insulating layer formed over a carrier. A die is mounted over the carrier and encapsulated. Connectors are formed and the structure is attached to a debond tape. The carrier is removed. A cutting device is aligned to a backside of the insulating layer using the alignment pattern. The first insulating layer and encapsulant are cut from the backside of the insulating layer. Another method includes scanning a backside of a packages structure for an alignment pattern in a first package area of the packages structure. A cutting device is aligned to a cut-line in a non-package area of the packages structure based on the alignment pattern and packages are singulated. An InFO package includes an insulating layer on the backside, the insulating layer having a laser marking thereon. The InFO package also includes an alignment pattern proximate to the insulating layer.