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Author: Christopher James Nassar Publisher: ISBN: Category : Thin film transistors Languages : en Pages : 292
Book Description
"The semiconductor industry, now entering its seventh decade, continues to innovate and evolve at a breakneck pace. E.O. Wilson, the famous Harvard biologist who is an expert on ants, estimates that there are 1017 ants on earth. The semiconductor industry is now shipping 100 transistors per ant every year. In addition, the pace of growth means we are building more electronics in a year than existed on January 1st of that year! A major driver for this growth in recent years is the portable consumer electronics market which includes cell phones, personal digital assistants, and tablets. The focus of this dissertation is centered on a new thin-film silicon technology on glass introduced by Corning Inc., and targeted to meet the needs of the portable product display market. The work presented in this dissertation revolves around a new technology developed by Corning Inc. known as Silicon on Glass of SiOG which permits the transfer of a thin single-crystal silicon film to a glass substrate. This technology coupled with a low-temperature CMOS process has the potential to create devices with performance characteristics rivaling those developed using conventional bulk CMOS processes. These higher performing devices permit an increased level of circuit integration directly on the glass substrate and have the potential to enable new display technologies such as OLED (Organic Light Emitting Diode). The SiOG CMOS devices are distinctly different from traditional thin-film, silicon-on-insulator, and bulk CMOS devices in that they rely on both surface and bulk conduction. Furthermore, their current-voltage characteristics are heavily influenced by fringing electric fields in the glass substrate. This dissertation presents an overview of display technology as well as a review of computer-aided design tools for integrated circuit development with a focus on compact modeling. In addition, some early work on developing advanced OLED display driver circuits using SiOG technology is presented. The bulk of this dissertation is focused on the development of compact models which properly describe the electrical characteristics of SiOG CMOS devices. For all but the most trivial cases, the set of coupled nonlinear partial differential equations that describe semiconductor device behavior has not been solved analytically. Even when the semiconductor equations that represent current flow, charge distribution, and potential distribution are decoupled and device-specific simplifications are applied, analytic solutions remain elusive. Two different methods for developing compact models for the SiOG CMOS devices are presented with distinct methods for developing approximate solutions. In addition, a model for the fringing electric field is developed using conformal mapping techniques, and its effect on drain current is explored. Finally, a new technique for solving the nonlinear semiconductor equations is explored. The application of a new mathematical technique known as the Homotopy Analysis Method (HAM) is presented as it relates to the general Poisson's equation for semiconductor devices."--Abstract.
Author: Christopher James Nassar Publisher: ISBN: Category : Thin film transistors Languages : en Pages : 292
Book Description
"The semiconductor industry, now entering its seventh decade, continues to innovate and evolve at a breakneck pace. E.O. Wilson, the famous Harvard biologist who is an expert on ants, estimates that there are 1017 ants on earth. The semiconductor industry is now shipping 100 transistors per ant every year. In addition, the pace of growth means we are building more electronics in a year than existed on January 1st of that year! A major driver for this growth in recent years is the portable consumer electronics market which includes cell phones, personal digital assistants, and tablets. The focus of this dissertation is centered on a new thin-film silicon technology on glass introduced by Corning Inc., and targeted to meet the needs of the portable product display market. The work presented in this dissertation revolves around a new technology developed by Corning Inc. known as Silicon on Glass of SiOG which permits the transfer of a thin single-crystal silicon film to a glass substrate. This technology coupled with a low-temperature CMOS process has the potential to create devices with performance characteristics rivaling those developed using conventional bulk CMOS processes. These higher performing devices permit an increased level of circuit integration directly on the glass substrate and have the potential to enable new display technologies such as OLED (Organic Light Emitting Diode). The SiOG CMOS devices are distinctly different from traditional thin-film, silicon-on-insulator, and bulk CMOS devices in that they rely on both surface and bulk conduction. Furthermore, their current-voltage characteristics are heavily influenced by fringing electric fields in the glass substrate. This dissertation presents an overview of display technology as well as a review of computer-aided design tools for integrated circuit development with a focus on compact modeling. In addition, some early work on developing advanced OLED display driver circuits using SiOG technology is presented. The bulk of this dissertation is focused on the development of compact models which properly describe the electrical characteristics of SiOG CMOS devices. For all but the most trivial cases, the set of coupled nonlinear partial differential equations that describe semiconductor device behavior has not been solved analytically. Even when the semiconductor equations that represent current flow, charge distribution, and potential distribution are decoupled and device-specific simplifications are applied, analytic solutions remain elusive. Two different methods for developing compact models for the SiOG CMOS devices are presented with distinct methods for developing approximate solutions. In addition, a model for the fringing electric field is developed using conformal mapping techniques, and its effect on drain current is explored. Finally, a new technique for solving the nonlinear semiconductor equations is explored. The application of a new mathematical technique known as the Homotopy Analysis Method (HAM) is presented as it relates to the general Poisson's equation for semiconductor devices."--Abstract.
Author: Yue Kuo Publisher: Springer Science & Business Media ISBN: 9781402075063 Category : Thin film transistors Languages : en Pages : 528
Book Description
This is the first reference on amorphous silicon and polycrystalline silicon thin film transistors that gives a systematic global review of all major topics in the field. These volumes include sections on basic materials and substrates properties, fundamental device physics, critical fabrication processes (structures, a-Si: H, dielectric, metallization, catalytic CVD), and existing and new applications. The chapters are written by leading researchers who have extensive experience with reputed track records. Thin Film Transistors provides practical information on preparing individual functional a-Si: H TFTs and poly-Si TFTs as well as large-area TFT arrays. Also covered are basic theories on the a-Si: H TFT operations and unique material characteristics. Readers are also exposed to a wide range of existing and new applications in industries.
Author: Tarek Zaki Publisher: ISBN: 9783319188973 Category : Languages : en Pages :
Book Description
This work takes advantage of high-resolution silicon stencil masks to build air-stable complementary OTFTs using a low-temperature fabrication process. Plastic electronics based on organic thin-film transistors (OTFTs) pave the way for cheap, flexible and large-area products. Over the past few years, OTFTs have undergone remarkable advances in terms of reliability, performance and scale of integration. Many factors contribute to the allure of this technology; the masks exhibit excellent stiffness and stability, thus allowing OTFTs with submicrometer channel lengths and superb device uniformity to be patterned. Furthermore, the OTFTs employ an ultra-thin gate dielectric that provides a sufficiently high capacitance to enable the transistors to operate at voltages as low as 3 V. The critical challenges in this development are the subtle mechanisms that govern the properties of aggressively scaled OTFTs. These mechanisms, dictated by device physics, are well described and implemented into circuit-design tools to ensure adequate simulation accuracy.
Author: Yue Kuo Publisher: Springer Science & Business Media ISBN: 9781402075056 Category : Thin film transistors Languages : en Pages : 538
Book Description
This is the first reference on amorphous silicon and polycrystalline silicon thin film transistors that gives a systematic global review of all major topics in the field. These volumes include sections on basic materials and substrates properties, fundamental device physics, critical fabrication processes (structures, a-Si: H, dielectric, metallization, catalytic CVD), and existing and new applications. The chapters are written by leading researchers who have extensive experience with reputed track records. Thin Film Transistors provides practical information on preparing individual functional a-Si: H TFTs and poly-Si TFTs as well as large-area TFT arrays. Also covered are basic theories on the a-Si: H TFT operations and unique material characteristics. Readers are also exposed to a wide range of existing and new applications in industries.
Author: Cherie R. Kagan Publisher: CRC Press ISBN: 0203911776 Category : Technology & Engineering Languages : en Pages : 543
Book Description
This is a single-source treatment of developments in TFT production from international specialists. It interweaves overlapping areas in multiple disciplines pertinent to transistor fabrication and explores the killer application of amorphous silicon transistors in active matrix liquid crystal displays. It evaluates the preparation of polycrystallin
Author: Christopher James Nassar
Author: Christopher James Nassar
Author: Rahul Shringarpure
Author: Yue Kuo
Author: Tarek Zaki
Author: Yue Kuo
Author: Yue Kuo
Author: Yue Kuo
Author: Cherie R. Kagan
Author: Gerold W. Neudeck
Author: