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    • 5. 发明申请
    • Self-aligned lateral heterojunction bipolar transistor
    • 自对准横向异质结双极晶体管
    • US20050196931A1
    • 2005-09-08
    • US11123748
    • 2005-05-04
    • Jian LiLap ChanPurakh VermaJia ZhengShao-fu Chu
    • Jian LiLap ChanPurakh VermaJia ZhengShao-fu Chu
    • H01L21/331H01L29/737
    • H01L29/66242H01L29/737
    • A lateral heterojunction bipolar transistor (HBT), comprising a semiconductor substrate having having a first insulating layer over the semiconductor substrate. A base trench is formed in a first silicon layer over the first insulating layer to form a collector layer over an exposed portion of the semiconductor substrate and an emitter layer over the first insulating layer. A semiconductive layer is formed on the sidewalls of the base trench to form a collector structure in contact with the collector layer and an emitter structure in contact with the emitter layer. A base structure is formed in the base trench. A plurality of connections is formed through an interlevel dielectric layer to the collector layer, the emitter layer, and the base structure. The base structure preferably is a compound semiconductive material of silicon and at least one of silicon-germanium, silicon-germanium-carbon, and combinations thereof.
    • 一种横向异质结双极晶体管(HBT),包括在半导体衬底上具有第一绝缘层的半导体衬底。 基底沟槽形成在第一绝缘层上的第一硅层中,以在半导体衬底的暴露部分和第一绝缘层上的发射极层之上形成集电极层。 半导体层形成在基底沟槽的侧壁上,以形成与集电极层接触的集电极结构和与发射极层接触的发射极结构。 基底结构形成在基底沟槽中。 通过层间电介质层到集电极层,发射极层和基底结构形成多个连接。 基底结构优选是硅的化合物半导体材料和硅 - 锗,硅 - 锗 - 碳及其组合中的至少一种。
    • 7. 发明申请
    • SELF-ALIGNED LATERAL HETEROJUNCTION BIPOLAR TRANSISTOR
    • 自对准侧向异相双极晶体管
    • US20050101096A1
    • 2005-05-12
    • US10703284
    • 2003-11-06
    • Jian LiLap ChanPurakh VermaJia ZhengShao-Fu Chu
    • Jian LiLap ChanPurakh VermaJia ZhengShao-Fu Chu
    • H01L21/331H01L29/737H01L21/8222
    • H01L29/66242H01L29/737
    • A method for manufacturing a lateral heterojunction bipolar transistor (HBT) is provided comprising a semiconductor substrate having a first insulating layer over the semiconductor substrate. A base trench is formed in a first silicon layer over the first insulating layer to form a collector layer over an exposed portion of the semiconductor substrate and an emitter layer over the first insulating layer. A semiconductive layer is formed on the sidewalls of the base trench to form a collector structure in contact with the collector layer and an emitter structure in contact with the emitter layer. A base structure is formed in the base trench. A plurality of connections is formed through an interlevel dielectric layer to the collector layer, the emitter layer, and the base structure. The base structure preferably is a compound semiconductive material of silicon and at least one of silicon-germanium, silicon-germanium-carbon, and combinations thereof.
    • 提供一种用于制造横向异质结双极晶体管(HBT)的方法,包括半导体衬底上的第一绝缘层的半导体衬底。 基底沟槽形成在第一绝缘层上的第一硅层中,以在半导体衬底的暴露部分和第一绝缘层上的发射极层之上形成集电极层。 半导体层形成在基底沟槽的侧壁上,以形成与集电极层接触的集电极结构和与发射极层接触的发射极结构。 基底结构形成在基底沟槽中。 通过层间电介质层到集电极层,发射极层和基底结构形成多个连接。 基底结构优选是硅的化合物半导体材料和硅 - 锗,硅 - 锗 - 碳及其组合中的至少一种。
    • 8. 发明申请
    • Process to reduce substrate effects by forming channels under inductor devices and around analog blocks
    • 通过在电感器件和模拟块周围形成沟道来减少衬底效应的过程
    • US20050009357A1
    • 2005-01-13
    • US10909523
    • 2004-08-02
    • Lap ChanSanford ChuChit NgPurakh VermaJia ZhengJohnny ChewChoon Sia
    • Lap ChanSanford ChuChit NgPurakh VermaJia ZhengJohnny ChewChoon Sia
    • H01L21/20H01L21/265H01L21/302H01L21/461H01L21/764
    • H01L21/764H01L21/26506
    • A first method of reducing semiconductor device substrate effects comprising the following steps. O+or O2+are selectively implanted into a silicon substrate to form a silicon-damaged silicon oxide region. One or more devices are formed over the silicon substrate proximate the silicon-damaged silicon oxide region within at least one upper dielectric layer. A passivation layer is formed over the at least one upper dielectric layer. The passivation layer and the at least one upper dielectric layer are patterned to form a trench exposing a portion of the silicon substrate over the silicon-damaged silicon oxide region. The silicon-damaged silicon oxide region is selectively etched to form a channel continuous and contiguous with the trench whereby the channel reduces the substrate effects of the one or more semiconductor devices. A second method of reducing substrate effects under analog devices includes forming an analog device on a SOI substrate and then selectively etching the silicon oxide layer of the SOI substrate to form a channel at least partially underlying the analog device.
    • 降低半导体器件衬底效应的第一种方法包括以下步骤。 O +或O 2 +被选择性地注入到硅衬底中以形成硅损坏的氧化硅区域。 在硅衬底附近,在至少一个上部电介质层内的硅损坏的氧化硅区域附近形成一个或多个器件。 在所述至少一个上介电层上形成钝化层。 图案化钝化层和至少一个上电介质层以形成在硅损坏的氧化硅区域上暴露硅衬底的一部分的沟槽。 选择性地蚀刻硅损坏的氧化硅区域以形成与沟槽连续且邻接的沟道,由此沟道减小了一个或多个半导体器件的衬底效应。 减少模拟器件下的衬底效应的第二种方法包括在SOI衬底上形成模拟器件,然后选择性地蚀刻SOI衬底的氧化硅层,以形成至少部分在模拟器件下面的沟道。
    • 9. 发明申请
    • METHOD OF MAKING DIRECT CONTACT ON GATE BY USING DIELECTRIC STOP LAYER
    • 通过使用介质停止层在门上制造直接接触的方法
    • US20050059216A1
    • 2005-03-17
    • US10664211
    • 2003-09-17
    • Purakh VermaSanford ChuLap ChanYelehanka Ramachandramurthy PradeepKai ShaoJia Zheng
    • Purakh VermaSanford ChuLap ChanYelehanka Ramachandramurthy PradeepKai ShaoJia Zheng
    • H01L21/00H01L21/3205H01L21/336H01L21/4763H01L21/768H01L21/84H01L29/76H01L29/94H01L31/062H01L31/113H01L31/119
    • H01L21/76802H01L21/76829
    • A CMOS RF device and a method to fabricate said device with low gate contact resistance are described. Conventional MOS transistor is first formed with isolation regions, poly-silicon gate structure, sidewall spacers around poly gate, and implanted source/drain with lightly and heavily doped regions. A silicon dioxide layer such as TEOS is deposited, planarized with chemical mechanical polishing (CMP) to expose the gate and treated with dilute HF etchant to recess the silicon dioxide layer below the surface of the gate. Silicon nitride is then deposited and planarized with CMP and then etched except around the gates, using a oversize poly-silicon gate mask. Inter-level dielectric mask is then deposited, contact holes etched, and contact metal is deposited to form the transistor. During contact hole etch over poly-silicon gate, silicon nitride around the poly gate acts as an etch stop. Resulting structure with direct gate contact achieves significantly reduced gate resistance and thereby improved noise performance at high frequency operation, increased unit power gain frequency (f.,), and reduced gate delay.
    • 描述CMOS RF器件和制造具有低栅极接触电阻的所述器件的方法。 传统的MOS晶体管首先形成有隔离区域,多晶硅栅极结构,围绕多晶硅栅极的侧壁隔离物以及具有轻掺杂和重掺杂区域的注入源极/漏极。 沉积诸如TEOS的二氧化硅层,通过化学机械抛光(CMP)平坦化以暴露栅极,并用稀的HF蚀刻剂处理以使位于栅极表面下方的二氧化硅层凹陷。 然后将氮化硅沉积并用CMP平坦化,然后使用超大型多晶硅栅极掩模在栅极周围进行蚀刻。 然后沉积层间电介质掩模,蚀刻接触孔,并沉积接触金属以形成晶体管。 在多晶硅栅极的接触孔蚀刻期间,多晶硅周围的氮化硅作为蚀刻停止。 具有直接栅极接触的所得结构实现了显着降低的栅极电阻,从而改善了高频操作时的噪声性能,增加的单位功率增益频率(f。)和减小的栅极延迟。