Wideband Low Noise Amplifiers Exploiting Thermal Noise Cancellation Contributor(s): Bruccoleri, Federico (Author), Klumperink, Eric (Author), Nauta, Bram (Author) |
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ISBN: 1441952667 ISBN-13: 9781441952660 Publisher: Springer OUR PRICE: $189.99 Product Type: Paperback - Other Formats Published: January 2011 |
Additional Information |
BISAC Categories: - Technology & Engineering | Electronics - Microelectronics - Technology & Engineering | Electrical - Technology & Engineering | Mechanical |
Dewey: 620 |
Series: Springer International Series in Engineering and Computer Sc |
Physical Information: 0.41" H x 6.14" W x 9.21" (0.61 lbs) 182 pages |
Descriptions, Reviews, Etc. |
Publisher Description: Low Noise Amplifiers (LNAs) are commonly used to amplify signals that are too weak for direct processing for example in radio or cable receivers. Traditionally, low noise amplifiers are implemented via tuned amplifiers, exploiting inductors and capacitors in resonating LC-circuits. This can render very low noise but only in a relatively narrow frequency band close to resonance. There is a clear trend to use more bandwidth for communication, both via cables (e.g. cable TV, internet) and wireless links (e.g. satellite links and Ultra Wideband Band). Hence wideband low-noise amplifier techniques are very much needed. Wideband Low Noise Amplifiers Exploiting Thermal Noise Cancellation explores techniques to realize wideband amplifiers, capable of impedance matching and still achieving a low noise figure well below 3dB. This can be achieved with a new noise cancelling technique as described in this book. By using this technique, the thermal noise of the input transistor of the LNA can be cancelled while the wanted signal is amplified The book gives a detailed analysis of this technique and presents several new amplifier circuits. This book is directly relevant for IC designers and researchers working on integrated transceivers. Although the focus is on CMOS circuits, the techniques can just as well be applied to other IC technologies, e.g. bipolar and GaAs, and even in discrete component technologies. |