Having Emitter Comprising One Or More Nonmonocrystalline Elements Of Group Iv (e.g., Amorphous Silicon) Alloys Comprising Group Iv Elements (epo) Patents (Class 257/E29.191)
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Patent number: 8581260Abstract: Plural kinds of thin film transistors having different film thicknesses of semiconductor layers are provided over a substrate having an insulating surface. A channel formation region of semiconductor layer in a thin film transistor for which high speed operation is required is made thinner than a channel formation region of a semiconductor layer of a thin film transistor for which high withstand voltage is required. A gate insulating layer of the thin film transistor for which high speed operation is required may be thinner than a gate insulating layer of the thin film transistor for which high withstand voltage is required.Type: GrantFiled: February 7, 2008Date of Patent: November 12, 2013Assignee: Semiconductor Energy Laboratory Co., Ltd.Inventors: Shunpei Yamazaki, Ikuko Kawamata, Yasuyuki Arai
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Patent number: 8558234Abstract: Highly efficient, low energy, low light level imagers and photodetectors are provided. In particular, a novel class of Della-Doped Electron Bombarded Array (DDEBA) photodetectors that will reduce the size, mass, power, complexity, and cost of conventional imaging systems while improving performance by using a thinned imager that is capable of detecting low-energy electrons, has high gain, and is of low noise.Type: GrantFiled: February 11, 2011Date of Patent: October 15, 2013Assignee: California Institute of TechnologyInventors: Shouleh Nikzad, Chris Martin, Michael E. Hoenk
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Patent number: 8227832Abstract: The present invention provides a multi-finger structure of a SiGe heterojunction bipolar transistor (HBT). It is consisted of plural SiGe HBT single cells. The multi-finger structure is in a form of C/BEBC/BEBC/.../C, wherein, C, B, E respectively stands for collector, base and emitter; CBEBC stands for a SiGe HBT single cell. The collector region is consisted of an n type ion implanted layer inside the active region. The bottom of the implanted layer is connected to two n type pseudo buried layers. The two pseudo buried layers are formed through implantation to the bottom of the shallow trenches that surround the collector active region. Two collectors are picked up by deep trench contact through the field oxide above the two pseudo buried layers. The present invention can reduce junction capacitance, decrease collector electrode output resistance, and improve device frequency characteristics.Type: GrantFiled: December 17, 2010Date of Patent: July 24, 2012Assignee: Shanghai Hua Hong NEC Electronics Co., Ltd.Inventors: Tzuyin Chiu, Zhengliang Zhou, Xiongbin Chen
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Patent number: 8193609Abstract: A heterojunction bipolar transistor (HBT) device and system having electrostatic discharge ruggedness, and methods for making the same, are disclosed. An HBT device having electrostatic discharge ruggedness may include one or more emitter fingers including an emitter layer, a transition layer formed over the emitter layer, and an emitter cap layer formed over the transition layer.Type: GrantFiled: May 15, 2008Date of Patent: June 5, 2012Assignee: TriQuint Semiconductor, Inc.Inventors: Timothy Henderson, Jeremy Middleton, John Hitt
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Publication number: 20110147793Abstract: The present invention provides a multi-finger structure of a SiGe heterojunction bipolar transistor (HBT). It is consisted of plural SiGe HBT single cells. The multi-finger structure is in a form of C/BEBC/BEBC/.../C, wherein, C, B, E respectively stands for collector, base and emitter; CBEBC stands for a SiGe HBT single cell. The collector region is consisted of an n type ion implanted layer inside the active region. The bottom of the implanted layer is connected to two n type pseudo buried layers. The two pseudo buried layers are formed through implantation to the bottom of the shallow trenches that surround the collector active region. Two collectors are picked up by deep trench contact through the field oxide above the two pseudo buried layers. The present invention can reduce junction capacitance, decrease collector electrode output resistance, and improve device frequency characteristics.Type: ApplicationFiled: December 17, 2010Publication date: June 23, 2011Applicant: SHANGHAI HUA HONG NEC ELECTRONICS CO., LTD.Inventors: Tzuyin CHIU, Zhengliang Zhou, Xiongbin Chen
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Patent number: 7906796Abstract: In a bipolar device, such as transistor or a thyristor, the emitter layer or the anode layer is formed of two high-doped and low-doped layers, a semiconductor region for suppressing recombination comprising an identical semiconductor having an impurity density identical with that of the low-doped layer is present being in contact with a base layer or a gate layer and a surface passivation layer, and the width of the semiconductor region for suppressing recombination is defined equal with or longer than the diffusion length of the carrier. This provides, among other things, an effect of attaining reduction in the size of the bipolar transistor or improvement of the switching frequency of the thyristor without deteriorating the performance.Type: GrantFiled: July 21, 2008Date of Patent: March 15, 2011Assignee: Hitachi, Ltd.Inventors: Kazuhiro Mochizuki, Hidekatsu Onose, Natsuki Yokoyama
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Patent number: 7800093Abstract: An integrated circuit including a memory cell includes a vertical bipolar select device including a base and an emitter. The memory cell includes a resistive memory element coupled to the emitter and a buried metallized word line contacting the base.Type: GrantFiled: February 1, 2007Date of Patent: September 21, 2010Assignee: Qimonda North America Corp.Inventors: Thomas Happ, Jan Boris Philipp
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Publication number: 20080230809Abstract: A sophisticated semiconductor device capable of being fabricated without introducing a high-precision exposure apparatus is obtained. This semiconductor device includes a conductive layer formed on a first conductivity type collector layer, a first conductivity type emitter electrode formed on the conductive layer and a protruding portion protruding from an outer side toward an inner side of the emitter electrode along an interface between the emitter electrode and the conductive layer. The conductive layer has a first conductivity type emitter diffusion layer in contact with the emitter electrode through the protruding portion and a second conductivity type base layer.Type: ApplicationFiled: February 28, 2008Publication date: September 25, 2008Inventor: Yoshikazu Ibara