BiMOS device with a fully self-aligned emitter-silicon and method for manufacturing the same

The invention claimed is: 1. A BiMOS device, comprising: a substrate; a MOS device arranged on a surface region of the substrate in a MOS region; a layer stack arranged on the surface region of the substrate and on the MOS device in the MOS region, wherein the layer stack comprises a first isolation layer arranged on the surface region of the substrate and in the MOS region on the MOS device, a contact layer arranged on the first isolation layer and a second isolation layer arranged on the contact layer, wherein the layer stack comprises in a bipolar region, different from the MOS region, a window formed in the layer stack through the second isolation layer, the contact layer and the first isolation layer up to the surface region of the substrate; and a bipolar junction transistor arranged on the surface region of the substrate in the bipolar region, wherein the bipolar junction transistor comprises a collector layer arranged on the substrate within the window of the layer stack, a base layer arranged on the collector layer within the window of the layer stack, and an emitter layer or an emitter layer stack comprising the emitter layer arranged on the base layer within the window of the layer stack; wherein a distance between the surface region of the substrate and an upper surface region of the emitter layer or emitter layer stack of the bipolar junction transistor is smaller than a sum of a distance between the surface region of the substrate and an upper surface region of the contact layer in the bipolar region and a distance between the surface region of the substrate and an upper surface region of the MOS device in the MOS region. 2. The BiMOS device according to claim 1 , wherein a distance between the surface region of the substrate and an upper surface region of the emitter layer or emitter layer stack of the bipolar junction transistor is smaller than a sum of a distance between the surface region of the substrate and an upper surface region of the first isolation layer in the bipolar region and a distance between the surface region of the substrate and the upper surface region of the MOS device in the MOS region. 3. The BiMOS device according to claim 1 , wherein a distance between the surface region of the substrate and an upper region of the emitter layer or emitter layer stack of the bipolar junction transistor is smaller than or equal to a distance between the surface region of the substrate and an upper surface region of the MOS device. 4. The BiMOS device according to claim 1 , wherein a distance between a face of the window facing the MOS device and a face of a gate of the MOS device facing the bipolar junction transistor is equal to or smaller than 3 μm. 5. The BiMOS device according to claim 1 , wherein a distance between a face of the window facing the MOS device and a face of a gate of the MOS device facing the bipolar junction transistor is equal to or smaller than 1,5 μm. 6. The BiMOS device according to claim 1 , wherein a distance between a face of the window facing the MOS device and a face of a gate of the MOS device facing the bipolar junction transistor is equal to or smaller than 1 μm. 7. The BiMOS device according to claim 1 , wherein a distance between a face of the window facing the MOS device and a face of a gate of the MOS device facing the bipolar junction transistor is equal to or smaller than 500 nm. 8. The BiMOS device according to claim 1 , wherein a distance between a face of the window facing the MOS device and a face of a gate of the MOS device facing the bipolar junction transistor is equal to or smaller than 200 nm. 9. The BiMOS device according to claim 1 , wherein the collector layer is of a first semi-conductor type, the emitter layer is of the first semi-conductor type, and the base layer is of a second semi-conductor type.