Transition between a SIW and a waveguide interface

The invention claimed is: 1. An apparatus adapted to provide a signal transition between a substrate integrated waveguide (SIW) to a waveguide interface, the SIW comprising a dielectric material, a first metal layer, a second metal layer, and an electric wall element arrangement, the dielectric material having a layer thickness and being positioned between the first metal layer and the second metal layer, the electric wall element arrangement comprising a first electric wall element and a second electric wall element, the first electric wall element and the second electric wall element at least partly running mutually parallel, separated by an SIW width, in an SIW longitudinal extension and electrically connecting the first metal layer with the second metal layer, microwave signals being arranged to propagate along the SIW longitudinal extension in a confinement limited by at least the first metal layer, the second metal layer, the first electric wall element, and the second electric wall element, the apparatus comprising: a coupling aperture in the first metal layer; a third wall element running between the first electric wall element and the second electric wall element, across the SIW longitudinal extension; and an at least partly electrically conducting intermediate transition element comprising: a first main surface, a second main surface, and a transition aperture, wherein the transition aperture comprises a first opening with a first width in the first main surface, and a second opening with a second width in the second main surface, the first and second widths extending along the SIW longitudinal extension, the intermediate transition element is mounted to the first metal layer such that the first opening faces the coupling aperture, and at least partially covers the coupling aperture, the first width exceeds the second width, and a transition from the first width to the second width takes place between the first opening and the second opening in two steps: a first intermediate step and a second intermediate step, wherein cross-sectional thickness of the first intermediate step is lesser than cross-sectional thickness of the second intermediate step, and wherein the second opening faces the waveguide interface, and is mounted to the waveguide interface such that a waveguide interface opening partly covers the second opening, the waveguide interface opening being offset relative to the second opening towards the third wall element such that a front step is formed on a part of the second main surface that falls within the waveguide interface opening. 2. The apparatus according to claim 1 , wherein the waveguide interface has an interface surface that faces to, and makes electrical contact with, the second main surface, and wherein the waveguide interface opening is offset relative to the second opening towards the third wall element such that a part of the interface surface covers a part of the second opening that faces away from the third wall element, an overlap step being formed by said part of the interface surface. 3. The apparatus according to claim 1 , wherein at least one of the waveguide interface and the intermediate transition element is formed in a plastic material and is covered by an electrically conducting coating. 4. The apparatus according to claim 1 , wherein the waveguide interface comprises a waveguide flange that is attached to the intermediate transition element by means of screws. 5. The apparatus according to claim 1 , wherein the electric wall element arrangement comprises a plurality of via connections electrically connecting the first metal layer to the second metal layer. 6. The apparatus according to claim 1 , wherein the electric wall element arrangement comprises plated slots running through the dielectric material, electrically connecting the first metal layer to the second metal layer. 7. An apparatus adapted to provide a signal transition between a substrate integrated waveguide (SIW) to a waveguide interface, the SIW comprising a dielectric material, a first metal layer, a second metal layer, and an electric wall element arrangement, the dielectric material having a layer thickness and being positioned between the first metal layer and the second metal layer, the electric wall element arrangement comprising a first electric wall element and a second electric wall element, the first electric wall element and the second electric wall element at least partly running mutually parallel, separated by an SIW width, in an SIW longitudinal extension and electrically connecting the first metal layer with the second metal layer, microwave signals being arranged to propagate along the SIW longitudinal extension in a confinement limited by at least the first metal layer, the second metal layer, the first electric wall element, and the second electric wall element, the apparatus comprising: a coupling aperture in the first metal layer; a third wall element running between the first electric wall element and the second electric wall element, across the SIW longitudinal extension; an at least partly electrically conducting intermediate transition element comprising: a first main surface, a second main surface, and a transition aperture; the transition aperture comprises a first opening with a first width in the first main surface, and a second opening with a second width in the second main surface, the first and second widths extending along the SIW longitudinal extension, wherein a transition from the first width to the second width takes place between the first opening and the second opening in two steps: a first intermediate step and a second intermediate step, and wherein cross-sectional thickness of the first intermediate step is lesser than cross-sectional thickness of the second intermediate step; and the waveguide interface having an opening that partly covers the second opening of the transition aperture, the waveguide interface opening being offset relative to the second opening towards the third wall element such that a front step is formed on a part of the second main surface that falls within the waveguide interface opening. 8. An apparatus adapted to provide a signal transition between a substrate integrated waveguide (SIW) to a waveguide interface, the SIW comprising a dielectric material, a first metal layer, a second metal layer, and an electric wall element arrangement, the dielectric material having a layer thickness and being positioned between the first metal layer and the second metal layer, the electric wall element arrangement comprising a first electric wall element and a second electric wall element, the first electric wall element and the second electric wall element at least partly running mutually parallel, separated by an SIW width, in an SIW longitudinal extension and electrically connecting the first metal layer with the second metal layer, microwave signals being arranged to propagate along the SIW longitudinal extension in a confinement limited by at least the first metal layer, the second metal layer, the first electric wall element, and the second electric wall element, the apparatus comprising: a coupling aperture in the first metal layer; a third wall element running between the first electric wall element and the second electric wall element, across the SIW longitudinal extension; an at least partly electrically conducting intermediate transition element comprising: a first main surface, a second main surface, and a transition aperture; the transition aperture comprises a first opening with a first width in the first main surface, and a second opening with a second width in the second main surface, the first and second widths extending along the SIW longitudinal extension, wherein a transition fro