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Linear Electronics

Linear Electronics

A considerable amount of effort has been devoted both in industry and academia towards the design performance analysis and evaluation of amplification schemes and filters to be used in control systems audio/video equipment instrumentation and communication systems. This book is intended to serve as a complementary textbook for courses dealing with Linear Amplification but also as a professional book for engineers who need to update their knowledge in the electronics control and communications areas. The book is suitable for the undergraduate as well as the initial graduate levels of Electrical Engineering courses and is useful for the professional who wants to review or get acquainted with amplification theory. The book presents essential concepts in plain language and covers the most important applications of amplifier circuits. The book has four appendices an appendix to detail the operational amplifier model an appendix with specification data sheets an appendix on Fourier transform and signal spectrum including the concepts of convolution autocorrelation and power spectral density for deterministic signals and a final one that presents and explains the usual electronics acronyms. | Linear Electronics

GBP 94.99
1

Serial Communication Protocols and Standards

Serial Communication Protocols and Standards

Data communication standards are comprised of two components: The “protocol” and “Signal/data/port specifications for the devices involved”. The protocol describes the format of the message and the meaning of each part of the message. To connect any device to the bus an external device must be used as an interface which will put the message in a form which fulfills all the electrical specifications of the port. These specifications are called the “Standard”. The most famous such serial communication standard is the RS-232. In IT technology Communication can be serial or parallel. Serial communication is used for transmitting data over long distances. It is much cheaper to run the single core cable needed for serial communication over a long distance than the multicore cables that would be needed for parallel communication. It is the same in wireless communication: Serial communication needs one channel while parallel needs multichannel. Serial Communication can also be classified in many other ways for example synchronous and asynchronous; it can also be classified as simplex duplex and half duplex. Because of the wide spread of serial communication from home automation to sensor and controller networks there is a need for a very large number of serial communication standards and protocols. These have been developed over recent decades and range from the simple to the highly complicated. This large number of protocols was necessary to guarantee the optimum performance for the targeted applications. It is important for communication engineers to have enough knowledge to match the right protocol and standard with the right application. The main aim of this book is to provide the reader with that knowledgeThe book also provides the reader with detailed information about:- Serial Communication- Universal Asynchronous Receiver Transmitter (UART)- Universal Synchronous/Asynchronous Receiver Transmitter (USART - Serial Peripheral Interface (SPI) - eSPI- Universal Serial Bus (USB)- Wi-Fi- WiMax- InsteonThe details of each technology including specification operation security related matters and many other topics are covered. The book allocates three chapters to the main communication standards. These chapters cover everything related to the most famous standard RS-232 and all its variants. Other protocols such as: I2C CAN ZigBee Z-Wave Bluetooth and others are the subject of the authors separate book “Microcontroller and Smart Home Networks”. | Serial Communication Protocols and Standards

GBP 94.99
1