RF authoritative guide
Original Title: RF front-end: World Class designs Author: (US) Janine Sullivan love Translator: Li Zhonghua series name: Turing electronics and electrical engineering series Press: People's post and telecommunications Press ISBN: 9787115300621 mounting Date: May 2013 publication date: Opening: 16 open pages: 332 versions: 1-1 category: communication> Applications of radio and electronics more about the content of the RF authoritative guide the telecommunications book the RF authoritative guide is the essence of the most practical radio frequency technology books at present, this includes basic knowledge of radio emission, RF power amplifier, PA design, RF/If circuit, filter and impedance matching. This book has a clear structure, rich examples, and high practicability. The RF authoritative guide is suitable for electronic communication engineers. It can also be used as a reference guide for teachers and students of relevant majors in colleges and universities. Catalog RF authoritative guide Chapter 1 radio waves and propagation 1st Electric Field 11.1 magnetic field 11.2 radio waves 21.3 frequency to wavelength conversion 31.4 radio spectrum 41.5 polarization 51.6 how radio signals are transmitted 61.7 refraction, reflection and diffraction 71.9 reflection signal 91.10 + atmosphere 101.11 Ground Wave 131.12 day wave 131.13 propagation distance and Radiation Angle 151.14 multiple reflection 161.15 critical frequency 171.16 MUF 171.17 LUF 171.18 skip zone 18.1.19 lower-intensity zone State 181.20 fading 181.21 the propagation of 191.22 VLF signals in the elliptical disturbance 201.23 the signal above 201.24 the farther the signal 201.25 the farther the propagation distance the 211.26 trotters scattering 211.27 the scattered E layer 221.28 the meteor scattering 2nd 3 GHz or above the signal 23 Chapter RF front-end design 242.1 higher integration 252.2 basic receiver structure 262.2.1 am detection receiver 272.2.2 TRF receiver 292.2.3 direct conversion receiver 302.2.4 super-external receiver 312.2.5 front-end Amplifier 372.2.6 selective 382.3 module-to-analog converter impact on RF front-end design 392.4 Software Radio 402.5 case study-Modern Communication Receiver 40 chapter 1 Basic Principles of WLAN radio transmission 3rd definition of transmission capacity and throughput 453.1 bandwidth, radio and Shannon theorem 463.2.1 bandwidth is a analog measure 463.2.2 bandwidth of digital devices 463.2.3 shannon theorem: bandwidth and noise 473.2.4 relationship 473.3 bandwidth efficiency 473.3.1 Adaptive Modulation 483.3.2 balance between efficiency and robustness 493.4 forward correction 493.4.1 802.11a and 802.11g convolution code 493.4.2 FEC Overhead: 3/4 coding and 1/2 coding 493.4.3 other FEC technology 493.5 radio regulation 503.5.1 United States Federal Communications Commission (1934) 503.5.2 ITU-r 503.6 licensed and unlicensed radio spectrum 503.6.1 main licensed frequencies 503.6.2 us unlicensed frequencies: ISM and U-Nii frequencies 513.6.3 WLAN spectrum 513.7 other countries do not require licensed frequencies 523.7.1 European Union 5 GHz frequencies 523.7.2 International 5 GHz frequencies 523.8 wireless communication in common difficulties 533.8.1 distance and path loss 533.8.2 signal frequency 533.8.3 environmental obstacle 533.8.4 inter-floor transmission 543.8.5 multi-path and inter-code interference 543.8.6 same channel interference 553.8.7 Doppler effect 553.8.8 other environmental factors 553.9 802.11 basic features of WLAN 563.10 summary 56 chapter 2 advanced architecture 58 references 66 Chapter 2 RF Power Amplifier 4th working modes 675.1.1 Class A amplifiers operating modes 675.1.2 Class B amplifiers operating modes 685.1.3 class AB amplifiers Operating Modes 705.1.4 Class C amplifier operating method 705.1.5 use of various filters 715.1.6 IMD introduction 715.1.7 Class A amplifier performance 725.1.8 class a bias circuit 735.1.9 Class A amplifier limit 745.1.10 Class B amplifier performance 755.1.11 class AB amplifier performance 765.1.12 AB type offset circuit 775.1.13 Class C amplifier performance 785.1.14 amplifier type summary 795.2 conclusion 79 references 80 chapter 6th RF amplifier 816.1 noise and pre-selection/pre-amplifier 826.2 amplifier configuration 826.3 transistor gain 826.4 classification based on common components 836.4.1 co-emission pole circuit 846.4.2 co-collector circuit 846.4.3 co-base circuit 846.5 transistor offset 856.5.1 collector-base offset 856.5.2 emission pole offset or "self-offset" 866.6 frequency characteristic 866.7 JFET connect the 866.8 JFET presenter to the mos 876.9 VHF 896.10 906.11 926.12 MOS presenticers 936.13 voltage adjustable receivers broadband RF front Amplifier for VLF, lf, and am BCB push-pull RF Amplifiers 946.13.1 type of push-pull amplifier 946.13.2 actual circuit details 956.14 broadband RF amplifier (50 ω input and output) chapter 98 Pa Design Basics 7th Spectral Domain Analysis 1007.1 basic work types: a, AB, B, and C 1047.3 active device models 1107.4 high-frequency conduction angle 1137.5 nonlinear effect of collector capacitance 1187.6 push-pull power amplifier 1207.7 power gain and stability 1237.8 parameter oscillation 131 references 134 chapter 8th power amplifier 1368.1 safety considerations 1368.1.1 bismuth oxide 1368.1.2 High Temperature 1368.1.3 high RF Voltage 1368.2 initial design decision 1378.3 leveling device, vswrp and RF path switch 1378.4 design 1378.5 low-pass filter design 1388.5.1 kV filter 1388.5.2 elliptical filter 1388.5.3 capacitor selection 1398.5.4 inductor selection 1398.6 discrete PA 1408.6.1 output matching method 1408.6.2 maximum collector/drain voltage 1418.6.3 maximum collector/drain current 1418.6.4 collector/drain efficiency 1428.6.5 Power Transistor encapsulation gain expect heat dissipation design and heat sink 1448.6.8 bias 1458.6.9 feedback element selection 1488.6.10 input matching 1508.6.11 stability consideration 1538.6.12 layout consideration 1538.6.13 structure techniques 1548.6.14 performance measurement 154 references Chapter 156 RF/ if circuit 1579.1 mixer 1589.1.1 ideal mixer 1589.1.2 diode ring mixer 1609.1.3 basic operation of the active mixer 1629.2 tuner 1639.3 Analog Multiplier 1639.4 logarithm amplifier 1689.5 Tru-power detector 1739.6 VGA 1759.6.1 voltage control amplifier 1759.6.2 X-AMP 1769.6.3 digital control VGA 1799.7 Direct Digital synthesis 1799.7.1 DDS 1799.7.2 mixing of DDS system 1829.7.3 use the DDS system as the ADC clock driver 1839.7.4 am 1839.7.5 the dynamic range of the DDS system is 1849.8 PLL 1859.8.1 basic Construction module 1879.8.2 of PLL synthesizer refer to counter 188