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2012023393 contributor B12454276.
2012023393 created "2012.".
2012023393 date "2012".
2012023393 date "2012.".
2012023393 dateCopyrighted "2012.".
2012023393 description "Description based on print version record and CIP data provided by publisher; resource not viewed.".
2012023393 description "Includes bibliographical references and index.".
2012023393 description "Machine generated contents note: 1 Chapter 1: Introduction to Communication System- On-Chip, RF analog front-end, OFDM modulation, and performance metrics 1.1 Communication System-on-Chip 1.1.1 Introduction 1.1.2 CMOS technology 1.1.3 Coexistence Issues 1.2 RF Analog Front-End Overview 1.2.1 Introduction 1.2.2 Super-heterodyne transceiver 1.2.3 Homodyne transceiver 1.2.4 Low-IF transceiver 1.2.5 Analog baseband Filter order vs. ADC dynamic range 1.2.6 Digital compensation of RF Analog Front-End imperfections 1.3 OFDM modulation 1.3.1 OFDM as a Multicarrier modulation 1.3.2 Fourier Transform and Orthogonal Subcarriers 1.3.3 Channel estimation and equalization in frequency domain 1.3.4 Pilot-tones 1.3.5 Guard interval 1.3.6 Windowed OFDM 1.3.7 Adaptive Transmission 1.3.8 OFDMA for Multiple Access 1.3.9 Scalable OFDMA 1.3.10 OFDM digital baseband architecture 1.3.11 OFDM-based standards 1.4 SNR, EVM, and Eb/N0 definitions and relationship 1.4.1 Bit error rate 1.4.2 SNR vs. EVM 1.4.3 SNR vs. Eb/N0 1.4.4 Complex baseband representation 2 Chapter 2: RF Analog impairments description and modeling 2.1 Introduction 2.2 Thermal Noise 2.2.1 Additive White Gaussian Noise 2.2.2 Noise Figure and Sensitivity 2.2.3 Cascaded noise voltage in IC design 2.2.4 AWGN in simulations 2.2.5 Flicker Noise and AWGN modeling 2.3 Oscillator Phase Noise 2.3.1 Description and Impact on the system 2.3.2 Phase Noise Modeling in Frequency Domain 2.3.3 Simulation in Temporal Domain 2.3.4 SNR limitation due to the phase noise 2.3.5 Impact of phase noise in OFDM 2.4 Sampling jitter 2.4.1 Jitter definitions 2.4.2 Sampling jitter and phase noise relationship 2.4.3 SNR limitation due to sampling jitter 2.4.4 Impact of sampling jitter in OFDM 2.4.5 Sampling jitter modeling 2.5 Carrier Frequency Offset 2.5.1 Description 2.5.2 Impact of Carrier Frequency Offset in OFDM 2.6 Sampling Frequency Offset 2.6.1 Description 2.6.2 Impact of Sampling Frequency Offset in OFDM 2.7 I&Q mismatch 2.7.1 Description 2.7.2 IQ mismatch modeling 2.7.3 SNR limitation due to IQ mismatch 2.7.4 Impact of IQ mismatch in OFDM 2.8 DAC/ADC quantization noise and clipping 2.8.1 SNR limitation due to the quantization noise and clipping level 2.8.2 Impact of converter clipping level in OFDM 2.8.3 DAC and ADC dynamic range in OFDM 2.8.4 DAC and ADC modeling 2.9 IP2 and IP3: 2nd and 3rd Order non-linearities 2.9.1 Harmonics (Single-tone test) 2.9.2 Intermodulation Distortion (Two-tone test) 2.9.3 Receiver performance degradation due to the non-linearities 3 Chapter 3: Simulation of the RF Analog impairments impact on real OFDM-based transceivers performance 3.1 Introduction 3.2 WLAN and mobile WIMAX PHY overview 3.2.1 WLAN: Standard IEEE 802.11a/g 3.2.2 Mobile WiMAX: Standard IEEE 802.16e 3.3 Simulation bench overview 3.3.1 WiFi and WiMAX OFDM transceiver modeling 3.3.2 EVM estimation as performance metric 3.3.3 EVM vs. SNR simulations in AWGN channel 3.4 WiFi OFDM and mobile WiMAX signals PAPR 3.5 Transmitter impairments simulation 3.5.1 Introduction 3.5.2 DAC clipping and resolution 3.5.3 I&Q mismatch 3.5.4 RF oscillator phase noise 3.5.5 Power amplifier distortion 3.5.6 Transmitter complete simulation 3.6 Receiver impairments simulation 3.6.1 Introduction 3.6.2 Carrier Frequency Offset 3.6.3 Sampling Frequency Offset 3.6.4 Linearity: IIP2 and IIP3 3.6.5 I&Q mismatch 3.6.6 RF oscillator phase noise and reciprocal mixing 3.6.7 Sampling jitter 3.6.8 ADC clipping and resolution 3.6.9 Receiver complete simulation 3.7 Adaptive modulation illustration 3.8 Summary 4 Chapter 4: Digital Compensation of RF analog Impairments 4.1 Introduction 4.2 Carrier Frequency Offset Estimation and Correction 4.2.1 CFO estimation principle 4.2.2 CFO estimation in time domain 4.2.3 CFO estimation in frequency domain 4.2.4 CFO correction 4.3 Sampling Frequency Offset Estimation and Correction 4.3.1 SFO estimation principle 4.3.2 SFO estimation 4.3.3 SFO correction 4.3.4 Joint SFO and CFO estimation 4.4 IQ mismatch estimation and correction 4.4.1 Principle 4.4.2 Effect of the channel 4.4.3 Simulation results 4.5 Power Amplifier Linearization 4.5.1 Digital Predistortion Principle 4.5.2 Memory polynomial predistortion 4.5.3 Polynomial coefficients computation 4.5.4 Simulation results 4.6 Summary .".
2012023393 extent "1 online resource.".
2012023393 hasFormat "RF analog impairments modeling for communication systems simulation".
2012023393 identifier "9781118438862 (MobiPocket)".
2012023393 identifier "9781118438879 ( ePub)".
2012023393 identifier "9781118438886 (Adobe PDF)".
2012023393 isFormatOf "RF analog impairments modeling for communication systems simulation".
2012023393 issued "2012".
2012023393 issued "2012.".
2012023393 language "eng".
2012023393 publisher "Chichester, West Sussex ; Hoboken, N.J. : Wiley,".
2012023393 relation "RF analog impairments modeling for communication systems simulation".
2012023393 subject "621.382 23".
2012023393 subject "Electromagnetic interference.".
2012023393 subject "Orthogonal frequency division multiplexing.".
2012023393 subject "Radio Transmitter-receivers Simulation methods.".
2012023393 subject "Signal integrity (Electronics)".
2012023393 subject "TECHNOLOGY & ENGINEERING / Electronics / Circuits / General. bisacsh".
2012023393 subject "TK7867.2".
2012023393 subject "Telecommunication systems Simulation methods.".
2012023393 tableOfContents "Machine generated contents note: 1 Chapter 1: Introduction to Communication System- On-Chip, RF analog front-end, OFDM modulation, and performance metrics 1.1 Communication System-on-Chip 1.1.1 Introduction 1.1.2 CMOS technology 1.1.3 Coexistence Issues 1.2 RF Analog Front-End Overview 1.2.1 Introduction 1.2.2 Super-heterodyne transceiver 1.2.3 Homodyne transceiver 1.2.4 Low-IF transceiver 1.2.5 Analog baseband Filter order vs. ADC dynamic range 1.2.6 Digital compensation of RF Analog Front-End imperfections 1.3 OFDM modulation 1.3.1 OFDM as a Multicarrier modulation 1.3.2 Fourier Transform and Orthogonal Subcarriers 1.3.3 Channel estimation and equalization in frequency domain 1.3.4 Pilot-tones 1.3.5 Guard interval 1.3.6 Windowed OFDM 1.3.7 Adaptive Transmission 1.3.8 OFDMA for Multiple Access 1.3.9 Scalable OFDMA 1.3.10 OFDM digital baseband architecture 1.3.11 OFDM-based standards 1.4 SNR, EVM, and Eb/N0 definitions and relationship 1.4.1 Bit error rate 1.4.2 SNR vs. EVM 1.4.3 SNR vs. Eb/N0 1.4.4 Complex baseband representation 2 Chapter 2: RF Analog impairments description and modeling 2.1 Introduction 2.2 Thermal Noise 2.2.1 Additive White Gaussian Noise 2.2.2 Noise Figure and Sensitivity 2.2.3 Cascaded noise voltage in IC design 2.2.4 AWGN in simulations 2.2.5 Flicker Noise and AWGN modeling 2.3 Oscillator Phase Noise 2.3.1 Description and Impact on the system 2.3.2 Phase Noise Modeling in Frequency Domain 2.3.3 Simulation in Temporal Domain 2.3.4 SNR limitation due to the phase noise 2.3.5 Impact of phase noise in OFDM 2.4 Sampling jitter 2.4.1 Jitter definitions 2.4.2 Sampling jitter and phase noise relationship 2.4.3 SNR limitation due to sampling jitter 2.4.4 Impact of sampling jitter in OFDM 2.4.5 Sampling jitter modeling 2.5 Carrier Frequency Offset 2.5.1 Description 2.5.2 Impact of Carrier Frequency Offset in OFDM 2.6 Sampling Frequency Offset 2.6.1 Description 2.6.2 Impact of Sampling Frequency Offset in OFDM 2.7 I&Q mismatch 2.7.1 Description 2.7.2 IQ mismatch modeling 2.7.3 SNR limitation due to IQ mismatch 2.7.4 Impact of IQ mismatch in OFDM 2.8 DAC/ADC quantization noise and clipping 2.8.1 SNR limitation due to the quantization noise and clipping level 2.8.2 Impact of converter clipping level in OFDM 2.8.3 DAC and ADC dynamic range in OFDM 2.8.4 DAC and ADC modeling 2.9 IP2 and IP3: 2nd and 3rd Order non-linearities 2.9.1 Harmonics (Single-tone test) 2.9.2 Intermodulation Distortion (Two-tone test) 2.9.3 Receiver performance degradation due to the non-linearities 3 Chapter 3: Simulation of the RF Analog impairments impact on real OFDM-based transceivers performance 3.1 Introduction 3.2 WLAN and mobile WIMAX PHY overview 3.2.1 WLAN: Standard IEEE 802.11a/g 3.2.2 Mobile WiMAX: Standard IEEE 802.16e 3.3 Simulation bench overview 3.3.1 WiFi and WiMAX OFDM transceiver modeling 3.3.2 EVM estimation as performance metric 3.3.3 EVM vs. SNR simulations in AWGN channel 3.4 WiFi OFDM and mobile WiMAX signals PAPR 3.5 Transmitter impairments simulation 3.5.1 Introduction 3.5.2 DAC clipping and resolution 3.5.3 I&Q mismatch 3.5.4 RF oscillator phase noise 3.5.5 Power amplifier distortion 3.5.6 Transmitter complete simulation 3.6 Receiver impairments simulation 3.6.1 Introduction 3.6.2 Carrier Frequency Offset 3.6.3 Sampling Frequency Offset 3.6.4 Linearity: IIP2 and IIP3 3.6.5 I&Q mismatch 3.6.6 RF oscillator phase noise and reciprocal mixing 3.6.7 Sampling jitter 3.6.8 ADC clipping and resolution 3.6.9 Receiver complete simulation 3.7 Adaptive modulation illustration 3.8 Summary 4 Chapter 4: Digital Compensation of RF analog Impairments 4.1 Introduction 4.2 Carrier Frequency Offset Estimation and Correction 4.2.1 CFO estimation principle 4.2.2 CFO estimation in time domain 4.2.3 CFO estimation in frequency domain 4.2.4 CFO correction 4.3 Sampling Frequency Offset Estimation and Correction 4.3.1 SFO estimation principle 4.3.2 SFO estimation 4.3.3 SFO correction 4.3.4 Joint SFO and CFO estimation 4.4 IQ mismatch estimation and correction 4.4.1 Principle 4.4.2 Effect of the channel 4.4.3 Simulation results 4.5 Power Amplifier Linearization 4.5.1 Digital Predistortion Principle 4.5.2 Memory polynomial predistortion 4.5.3 Polynomial coefficients computation 4.5.4 Simulation results 4.6 Summary .".
2012023393 title "RF analog impairments modeling for communication systems simulation [electronic resource] : application to OFDM-based transceivers / Lydi Smaini.".
2012023393 type "text".