| 000 | 00619nam a2200193Ia 4500 | ||
|---|---|---|---|
| 999 |
_c62915 _d62915 |
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| 003 | OSt | ||
| 005 | 20181023043908.0 | ||
| 008 | 24419b pe ||||| |||| 00| 0 spa d | ||
| 040 | _cTranscribing agency | ||
| 082 | _a621.382.GREB.00 | ||
| 100 | _aGrebennikov, Andrei | ||
| 100 | _eAutor | ||
| 245 | 0 | _aBroadband Rf And Microwave Amplifiers | |
| 250 | _a1A. ed | ||
| 260 | _aESTADOS UNIDOS | ||
| 260 | _bCRC PRESS | ||
| 260 | _c2016 | ||
| 300 | _a743 | ||
| 300 | _c25.5 | ||
| 505 | _aTwo-Port Network Parameters . -- Traditional Network Parameters . -- Scattering Parameters . -- Conversions Between Two-Port Parameters . -- Interconnections Of Two-Port Networks . -- Practical Two-Port Networks . -- Three-Port Network With Common Terminal . -- Lumped Elements . -- Transmission Line . -- Noise Figure . -- References . -- Power Amplifier Design Principles . -- Basic Classes Of Operation: A, Ab, B, And C . -- Load Line And Output Impedance . -- Nonlinear Active Device Models . -- Power Gain And Stability . -- Push–Pull And Balanced Power Amplifiers . -- Transmission-Line Transformers And Combiners . -- References . -- Lossless Matched Broadband Power Amplifiers . -- Impedance Matching . -- Bode–Fano Criterion . -- Broadband-Matching Networks With Lumped Elements . -- Broadband-Matching Networks With Mixed Lumped And Distributed Elements . -- Matching Networks With Transmission Lines . -- Matching Technique With Prescribed Amplitude–Frequency Response . -- Practical Examples Of Broadband Rf And Microwave Power Amplifiers . -- Broadband Millimeter-Wave Power Amplifiers . -- References . -- Lossy Matched And Feedback Broadband Power Amplifiers . -- Amplifiers With Lossy Compensation Networks . -- Feedback Amplifiers . -- Graphical Design Of Gain-Compensating And Feedback Lossy Networks . -- Decomposition Synthesis Method . -- References . -- Design Of Wideband Rf And Microwave Amplifiers Employing Real Frequency Techniques . -- Real Frequency Line Segment Technique . -- Generation Of Minimum Immittance Function From Its Real Part . -- Optimization Of Tpg Using a Parametric Approach . -- High-Precision Ladder Synthesis Of Positive Real Functions . -- Automated Real Frequency Design Of Lossless Two-Ports For Single Matching Problems . -- Computation Of Actual Elements . -- Automated Design Of Matching Networks With Lumped Elements . -- Design Of Interstage Equalizers: Double Matching Problem . -- Matching Networks Constructed With Commensurate Transmission Lines . -- Generation Of Realizable Positive Real Function In Richards’S Domain . -- Integration Of Richards’S High-Precision Synthesis Module With Real Frequency Matching Algorithm . -- Srfts To Design Rf And Microwave Amplifiers . -- Srft To Design Microwave Amplifiers . -- Srft Single-Stage Microwave Amplifier Design Algorithm . -- Design Of An Ultra-Wideband Microwave Amplifier Using Commensurate Transmission Lines . -- Physical Realization Of Characteristic Impedance . -- Practical Design Of Matching Networks With Mixed Lumped And Distributed Elements . -- Physical Realization Of a Single Inductor . -- Appendices . -- References . -- High-Efficiency Broadband Class-E Power Amplifiers . -- Reactance Compensation Technique . -- High-Efficiency Switching Class-E Modes . -- Broadband Class e With Shunt Capacitance . -- Broadband Parallel-Circuit Class E . -- High-Power Rf Class-E Power Amplifiers . -- Microwave Monolithic Class-E Power Amplifiers . -- Cmos Class-E Power Amplifiers . -- References . -- Broadband And Multiband Doherty Amplifiers . -- Historical Aspect And Conventional Doherty Architectures . -- Inverted Doherty Amplifiers . -- Integration . -- Digitally-Driven Doherty Amplifier . -- Multiband And Broadband Capability . -- References . -- Low-Noise Broadband Amplifiers . -- Basic Principles Of Low-Noise Amplifier Design . -- Lossless Matched Broadband Low-Noise Amplifiers . -- Lossy Feedback Broadband Low-Noise Amplifiers . -- Cascode Broadband Low-Noise Amplifiers . -- Graphical Design Technique . -- Broadband Millimeter-Wave Low-Noise Amplifiers . -- References . -- Distributed Amplifiers . -- Basic Principles Of Distributed Amplification . -- Microwave Gaas Fet Distributed Amplifiers . -- Cascode Distributed Amplifiers . -- Extended Resonance Technique . -- Cascaded Distributed Amplifiers . -- Matrix Distributed Amplifiers . -- Cmos Distributed Amplifiers . -- Noise In Distributed Amplifiers . -- References . -- Cmos Amplifiers For Uwb Applications . -- Uwb Transceiver Architectures . -- Distributed Cmos Amplifiers . -- Common-Gate Cmos Amplifiers . -- Cmos Amplifiers With Lossy Compensation Circuits . -- Feedback Cmos Amplifiers . -- Noise-Canceling Technique . -- References | ||
| 650 | _aINGENIERIA ELECTRONICA | ||
| 700 | _aKumar, Narendra | ||
| 700 | _aYarman, Binboga S. | ||
| 942 |
_cTM001 _2ddc |
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