摘要:
A method of fabricating an epitaxial silicon-germanium layer for an integrated semiconductor device comprises the step of depositing an arsenic in-situ doped silicon-germanium layer, wherein arsenic and germanium are introduced subsequently into different regions of said silicon-germanium layer during deposition of said silicon-germanium layer. By separating arsenic from germanium any interaction between arsenic and germanium is avoided during deposition thereby allowing fabricating silicon-germanium layers with reproducible doping profiles.
摘要:
A method of fabricating an epitaxial silicon-germanium layer for an integrated semiconductor device comprises the step of depositing an arsenic in-situ doped silicon-germanium layer, wherein arsenic and germanium are introduced subsequently into different regions of said silicon-germanium layer during deposition of said silicon-germanium layer. By separating arsenic from germanium any interaction between arsenic and germanium is avoided during deposition thereby allowing fabricating silicon-germanium layers with reproducible doping profiles.
摘要:
In a method of fabricating complementary bipolar transistors with SiGe base regions the base regions of the NPN and PNP transistors are formed one after the other over two collector regions 20, 14 by epitaxial deposition of crystalline silicon-germanium layers 32a, 36a. With this method the germanium profile of the SiGe layers can be freely selected for both NPN and PNP transistors in thus enabling complementary transistor performance to be optimized individually. The SiGe layers 32a, 36a can be doped with an n-type or p-type dopant during or after deposition of the silicon-germanium layers 32a, 36a.
摘要:
In a method of fabricating complementary bipolar transistors with SiGe base regions the base regions of the NPN and PNP transistors are formed one after the other over two collector regions 20, 14 by epitaxial deposition of crystalline silicon-germanium layers 32a, 36a. With this method the germanium profile of the SiGe layers can be freely selected for both NPN and PNP transistors in thus enabling complementary transistor performance to be optimized individually. The SiGe layers 32a, 36a can be doped with an n-type or p-type dopant during or after deposition of the silicon-germanium layers 32a, 36a.
摘要:
In a method of fabricating an integrated silicon-germanium heterobipolar transistor a silicon dioxide layer arranged between a silicon-germanium base layer and a silicon emitter layer is formed by means of Rapid Thermal Processing (RTP) to ensure enhanced component properties of the integrated silicon-germanium heterobipolar transistor.
摘要:
In a method of fabricating an integrated silicon-germanium heterobipolar transistor a silicon dioxide layer arranged between a silicon-germanium base layer and a silicon emitter layer is formed by means of Rapid Thermal Processing (RTP) to ensure enhanced component properties of the integrated silicon-germanium heterobipolar transistor.
摘要:
An integrated circuit with gate self-protection comprises a MOS device and a bipolar device, wherein the integrated circuit further comprises a semiconductor layer with electrically active regions in which and on which the MOS device and the bipolar device are formed and electrically inactive regions for isolating the electrically active regions from each other. The MOS device comprises a gate structure and a body contacting structure, wherein the body contacting structure is formed of a base layer deposited in a selected region over an electrically active region of the semiconductor layer, and the body contacting structure is electrically connected with the gate structure. The base layer forming the body contacting structure also forms the base of the bipolar device. The present invention further relates to a method for fabricating such an integrated circuit.
摘要:
A method of producing a vertical bipolar PNP transistor is disclosed. The phosphorous profile in the base layer is controlled. Carbon that is incorporated in the base layer in the vicinity of the base-collector junction suppresses the diffusion of phosphorous deeper than implanted in a subsequent thermal step. PNP transistors with a narrow phosphorous-doped base can thus be manufactured with a cut-off frequency increased from 23 GHz to 30 GHz.
摘要:
An integrated BiCMOS semiconductor circuit has active moat areas in silicon. The active moat areas include electrically active components of the semiconductor circuit, which comprise active window structures for base and/or emitter windows. The integrated BiCMOS semiconductor circuit has zones where silicon is left to form dummy moat areas which do not include electrically active components, and has isolation trenches to separate the active moat areas from each other and from the dummy moat areas. The dummy moat areas comprise dummy window structures having geometrical dimensions and shapes similar to those of the active window structures for the base and/or emitter windows.
摘要:
Method of producing complementary SiGe bipolar transistors. In a method of producing complementary SiGe bipolar transistors, interface oxide layers (38, 58) for NPN and PNP emitters (44, 64), are separately formed and emitter polysilicon (40, 60) is separately patterned, allowing these layers to be optimized for the respective conductivity type.