An embodiment of an IGBT device is integrated in a chip of semiconductor material including a substrate of a first type of conductivity, an active layer of a second type of conductivity formed on an inner surface of the substrate, a body region of the first type of conductivity extending within the
An embodiment of an IGBT device is integrated in a chip of semiconductor material including a substrate of a first type of conductivity, an active layer of a second type of conductivity formed on an inner surface of the substrate, a body region of the first type of conductivity extending within the active layer from a front surface thereof opposite the inner surface, a source region of the second type of conductivity extending within the body region from the front surface, a channel region being defined within the body region between the source region and the active layer, a gate element insulated from the front surface extending over the channel region, a collector terminal contacting the substrate on a rear surface thereof opposite the inner surface, an emitter terminal contacting the source region and the body region on the front surface, and a gate terminal contacting the gate element.
대표청구항▼
1. An IGBT device integrated in a chip of semiconductor material including: a substrate of a first type of conductivity,an active layer of a second type of conductivity formed on an inner surface of the substrate,a body region of the first type of conductivity extending within the active layer from
1. An IGBT device integrated in a chip of semiconductor material including: a substrate of a first type of conductivity,an active layer of a second type of conductivity formed on an inner surface of the substrate,a body region of the first type of conductivity extending within the active layer from a front surface thereof opposite the inner surface,a source region of the second type of conductivity extending within the body region from the front surface,a channel region being defined within the body region between the source region and the active layer, a gate element insulated from the front surface extending over the channel region,a collector terminal contacting the substrate on a rear surface thereof opposite the inner surface,an emitter terminal contacting the source region and the body region on the front surface,a gate terminal contacting the gate element, andat least one buried emitter region of the first type of conductivity with a concentration of impurities higher than a concentration of impurities of the substrate being formed in a portion of the substrate, said at least one buried emitter region having lateral sides and a bottom in contact with the substrate of the first type of conductivity,wherein a further portion of the substrate is interposed between the bottom of the at least one buried emitter region and the collector terminal defining an emitter resistor. 2. The IGBT device according to claim 1, wherein the at least one buried emitter region extends within the portion of the substrate from the inner surface. 3. The IGBT device according to claim 1, wherein the concentration of impurities of the at least one buried emitter region is higher, by at least two decades, than the concentration of impurities of the substrate. 4. The IGBT device according to claim 1, wherein the at least one buried emitter region is a single buried emitter region. 5. The IGBT device according to claim 1, wherein each buried emitter region has an extent in plan view, in any plane parallel to the front surface, lower than an extent of the body region. 6. The IGBT device according to claim 1, wherein each buried emitter region has a regular polygon-shaped section in plan view. 7. An IGBT complex structure including a plurality of IGBT devices according to claim 1, wherein the chip of semiconductor material with the substrate and the active layer is common to all the IGBT devices, the body region of each IGBT device is common with at least one adjacent IGBT device, the gate element of each IGBT device is common with at least another adjacent IGBT device, the collector terminal, the emitter terminal and the gate terminal is common to all the IGBT devices, and the at least one buried emitter region of each IGBT device is common with the at least another adjacent IGBT device. 8. The IGBT complex structure according to claim 7, wherein the at least one emitter region of each IGBT device and of the at least another adjacent IGBT device is arranged in plan view between the corresponding body regions. 9. The IGBT complex structure according to claim 7, wherein the buried emitter regions have a uniform distribution in plan view. 10. A method for integrating an IGBT device in a chip of semiconductor material, the method including the steps of: providing a substrate of a first type of conductivity,forming an active layer of a second type of conductivity on an inner surface of the substrate,forming a body region of the first type of conductivity extending within the active layer from a front surface thereof opposite the inner surface,forming a source region of the second type of conductivity extending within the body region from the front surface, a channel region being defined within the body region between the source region and the active layer,forming a gate element insulated from the front surface extending over the channel region,forming a collector terminal contacting the substrate on a rear surface thereof opposite the inner surface,forming an emitter terminal contacting the source region and the body region on the front surface,forming a gate terminal contacting the gate element, andforming at least one buried emitter region of the first type of conductivity with a concentration of impurities higher than a concentration of impurities of the substrate within a portion of the substrate, said at least one buried emitter region having lateral sides and a bottom in contact with the substrate of the first type of conductivity,wherein a further portion of the substrate is interposed between the bottom of the at least one buried emitter region and the collector terminal defining an emitter resistor.
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이 특허에 인용된 특허 (15)
Yasuhiko Kohno JP; Mutsuhiro Mori JP; Junpei Uruno JP, Circuit incorporated IGBT and power conversion device using the same.
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