Patent application number | Description | Published |
20140209973 | Reverse Blocking Semiconductor Device, Semiconductor Device with Local Emitter Efficiency Modification and Method of Manufacturing a Reverse Blocking Semiconductor Device - A reverse blocking semiconductor device includes a base region of a first conductivity type and a body region of a second, complementary conductivity type, wherein the base and body regions form a pn junction. Between the base region and a collector electrode an emitter layer is arranged that includes emitter zones of the second conductivity type and at least one channel of the first conductivity type. The channels extend through the emitter layer between the base region and the collector electrode and reduce the leakage current in a forward blocking state. | 07-31-2014 |
20150076554 | Insulated Gate Bipolar Transistor with Mesa Sections Between Cell Trench Structures and Method of Manufacturing - An IGBT includes a mesa section that extends between two cell trench structures from a first surface of a semiconductor portion to a layer section of the semiconductor portion. A source region, which is electrically connected to an emitter electrode, is formed in the mesa section. A doped region, which is separated from the source region by a body region of a complementary conductivity type, includes a first portion with a first mean net impurity concentration and a second portion with a second mean net impurity concentration exceeding at least ten times the first mean net impurity concentration. In the mesa section the first portion extends from the body region to the layer section. The second portions of the doped region virtually narrow the mesa sections in a normal on-state of the IGBT. | 03-19-2015 |
20150091051 | Semiconductor Device and Method for Forming a Semiconductor Device - A semiconductor device includes an insulated gate bipolar transistor (IGBT) arrangement. The IGBT arrangement includes a carrier confinement reduction region laterally arranged between a cell region and a sensitive region. The IGBT arrangement is configured or formed so that the cell region has a first average density of free charge carriers in an on-state of the IGBT arrangement, the carrier confinement reduction region has a second average density of free charge carriers in the on-state of the IGBT arrangement and the sensitive region has a third average density of free charge carriers in the on-state of the IGBT arrangement. The first average density of free charge carriers is larger than the second average density of free charge carriers and the second average density of free charge carriers is larger than the third average density of free charge carriers. | 04-02-2015 |
20150091052 | Semiconductor Device and Method for Forming a Semiconductor Device - A semiconductor device includes an insulated gate bipolar transistor (IGBT) arrangement. The IGBT arrangement includes a first configuration region of emitter-side insulated gate bipolar transistor structures and a second configuration region of emitter-side insulated gate bipolar transistor structures. The first configuration region and the second configuration region are arranged at a main surface of a semiconductor substrate of the semiconductor device. Further, the IGBT arrangement includes a collector layer and a drift layer. The collector layer is arranged at a backside surface of the semiconductor substrate and the drift layer is arranged between the collector layer and the emitter-side IGBT structures of the first configuration region and the second configuration region. Additionally, the collector layer includes at least a first doping region laterally adjacent to a second doping region. The first doping region and second doping region include different charge carrier life times, different conductivity types or different doping concentrations. | 04-02-2015 |
20150144988 | Semiconductor Device and Insulated Gate Bipolar Transistor with Barrier Regions - In a semiconductor device a barrier region is sandwiched between a drift region and a charge carrier transfer region. The barrier and charge carrier transfer regions form a pn junction. The barrier and drift regions form a homojunction. A mean impurity concentration in the barrier region is at least ten times as high as an impurity concentration in the drift region. A control structure is arranged to form an inversion layer in the drift and barrier regions in an inversion state. No inversion layer is formed in the drift and barrier regions in a non-inversion state. | 05-28-2015 |
20150162406 | Semiconductor Device with Recombination Region - A semiconductor device includes a pn junction between a drift zone and a charge-carrier transfer region in a semiconductor body. An access channel provides a permanent charge carrier path connecting the drift zone with a recombination region through a separation region between the drift zone and the recombination region. The access channel adjusts a plasma density in the drift zone and the recombination region. | 06-11-2015 |
20150162407 | Semiconductor Device with Recombination Region - A semiconductor device includes a drift zone in a semiconductor body. A charge-carrier transfer region forms a pn junction with the drift zone in the semiconductor body. A control structure electrically connects a recombination region to the drift zone during a desaturation cycle and disconnects the recombination region from the drift zone outside the desaturation cycle. During the desaturation cycle the recombination region reduces a charge carrier plasma in the drift zone and reduces reverse recovery losses without adversely affecting blocking characteristics. | 06-11-2015 |