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Abstrak :
Electronic Devices and Circuit Theory, Eleventh Edition, offers a complete, comprehensive survey, focusing on all the essentials you will need to succeed on the job. Setting the standard for nearly 30 years, this highly accurate text is supported by strong pedagogy and content that is ideal for new students of this rapidly changing field. The colorful layout with ample photographs and examples helps you better understand important topics. This text is an excellent reference work for anyone involved with electronic devices and other circuitry applications, such as electrical and technical engineers.

Abstrak :
This new book demonstrates how FGMOS transistors can be used in a low voltage and low power design context. The techniques used provide innovative solutions, often in situations where the limits of the technology in question have been pushed far below the values recommended by the manufacturer. Motivated by consumer demand for smaller, more portable electronic devices, which offer more features and operate for longer on their existing battery packs, cutting edge electronic circuits need to be even more power efficient. This requires the circuit designer to have an understanding of the latest low voltage and low power (LV/LP) techniques which makes use of the floating gate MOS (FGMOS) transistor.

Abstrak :
As implied in the title of this textbook, Biosensors: From Electric Circuits to Immunosensors , we are going to learn both electric circuitry (in relation to conventional sensors such as temperature sensors) and biosensors (such as antibody-based immunosensors), with equal emphasis on both. The overarching aim is to build an antibody-based immunosensor from scratch. Before we begin this textbook, let us defi ne two important terms: sensors and biosensors. Let us start with sensors. Literally, a sensor is a device used to sense a physical variable, which includes, but is not limited to: temperature, strain, humidity, pressure, mass, light, and voltage. To sense these variables, we need to convert them into a universal and easily accessible signal— usually a voltage . This voltage signal changes continuously with time, and is directly proportional to a corresponding physical variable. A component responsible for this conversion is a transducer . The resulting voltage signal is usually an analog signal. The analog voltage signal is usually transferred to a computer or a microprocessor, which recognizes digital signals only. An analog signal is converted into a series of high and low voltages (i.e., binary numbers), such that a small fl uctuation in the analog signal (i.e., noise) does not affect the overall digital signal. An analog-to-digital converter (A/D converter) performs this conversion. Today, all-in-one type sensors have become very popular. They incorporate a transducer, an A/D converter, a microprocessor, and a small liquid crystal display (LCD) panel. The signal can also be sent to a computer’ s universal serial bus (USB) from an A/D converter.

Abstrak :
This book provides detailed and accurate information on the history, structure, operation, benefits and advanced structures of silicon MESFET, along with modeling and analysis of the device. The authors explain the detailed physics that are important in modeling of SOI-MESFETs, and present the derivations of compact model expressions so that users can recognize the physical meaning of the model equations and parameters. The discussion also includes advanced structures for SOI-MESFET for submicron applications.

Abstrak :
This book describes methods to design distributed amplifiers useful for performing circuit functions such as duplexing, paraphrase amplification, phase shifting power splitting and power combiner applications. A CMOS bidirectional distributed amplifier is presented that combines for the first time device-level with circuit-level linearization, suppressing the third-order intermodulation distortion. It is implemented in 0.13um RF CMOS technology for use in highly-linear, low-cost UWB radio-over-fiber communication systems.