CMOS Telecom Data ConvertersAngel Rodríguez-Vázquez, Fernando Medeiro, Edmond Janssens Springer Science & Business Media, 2004. gada 31. janv. - 588 lappuses As the trend to system-on-chip solutions gradually consolidates, including an ever-increasing usage of digital signal processing, a concurrent enhancement of the analog front-end performance is required. Moreover, such enhanced performances must be achieved under the constraints imposed by digitally driven technology roadmaps, with low-voltage supplies, poor-performance (and often badly characterized) devices ... and above all the unavoidable presence of noisy digital circuits. It is under the pressure of these challenges that analog designers must sharpen their wits to overcome the problems. Supported by both designers' ingenuity and slow, but precious, improvements of digital CMOS technologies, the results of recent research confirm that solutions can be found. In consonance with this trend, CMOS Telecom Data Converters compiles the latest achievements regarding the design of high-speed and high-resolution data converters in deep submicron CMOS technologies. The four types of analog-to-digital converter architectures commonly found in this arena are covered, namely sigma-delta, pipeline, folding/interpolating and flash. For all these types, latest achievements regarding the solution of critical architectural and circuital issues are presented, and illustrated through IC prototypes with measured state-of-the-art performances. Some of these prototypes are conceived to be employed at the chipset of newest generation wireline modems (ADSL and ADSL+). Others are intended for wireless transceivers. Besides analog-to-digital converters, the book also covers other functions needed for communication systems, such as digital-to-analog converters, analog filters, programmable gain amplifiers, digital filters, and line drivers. In addition to case studies on state-of-the-art converters, the book includes overview chapters aimed at presenting the existing knowledge in a structured, comprehensive style. Nyquist converters and sigma-delta converters are covered in such a way. The overview chapters are complemented with chapters devoted to describing basic methodologies and tools needed for designing telecom analog-to-digital converters and capturing designers' expertise for re-usability. CMOS Telecom Data Converters provides unique information for those interested in designing converters with state-of-the-art performance for the latest generation of communication systems. Since this unique information is embedded in tutorial descriptions, the book can also be used as a valuable reference for non-expert readers willing to learn basic concepts as well as practical recipes for the design of CMOS data converters. |
Saturs
Contributors | 1 |
Implementation Of Low Power CT EA Modulators | 5 |
Future Directions And Conclusions | 32 |
Classification Of EAM Ic Architectures | 55 |
ContinuousTime SigmaDelta Modulators | 74 |
CURRENTSTEERING HIGHSPEED DA CONVERTERS | 93 |
Circuital Implementation Of CurrentSteering DA Converters | 107 |
Optimum Segmentation In CurrentSteering Segmented DA Converters | 121 |
Conclusion | 303 |
Technologydriven scenario for cascade multibit sigmadelta modulators | 316 |
Design Example | 333 |
References | 341 |
Influence Of Circuit NonIdealities | 352 |
Error Compensation And Cancellation | 361 |
Conclusion | 373 |
BANDPASS | 379 |
References | 145 |
Architectural SpeedvsResolution TradeOffs | 164 |
On The Impact Of The Offset | 170 |
OffsetCompensated Comparators | 172 |
Simplified Most Model | 180 |
FOLDINGINTERPOLATING ADCS ANALOG PREPROCESSING | 183 |
Architecture Of 8Bit Converter | 192 |
Layout Of The Converter | 205 |
References | 220 |
Experimental Results | 233 |
Transfer Characteristic | 246 |
Linearity Characterization | 259 |
Summary | 272 |
References | 273 |
Circuit NonIdealities | 288 |
Building Blocks And Error Mechanisms In BPΣAMs | 399 |
References | 416 |
Basic Concepts Of Decimation | 422 |
Design Flow | 428 |
Design Entry | 439 |
LINE DRIVERS EFFICIENCY LINEARITY BANDWIDTH | 449 |
Linear Power Amplifiers | 456 |
Switching Type Line Drivers | 464 |
Conclusion | 478 |
Baseband Section Architectures And Techniques | 491 |
II Linearity Measures 19 50 | 507 |
III Dynamic Range | 515 |
TopDown Synthesis | 543 |
557 | |
Citi izdevumi - Skatīt visu
CMOS Telecom Data Converters Angel Rodríguez-Vázquez,Fernando Medeiro,Edmond Janssens Ierobežota priekšskatīšana - 2013 |
CMOS Telecom Data Converters Angel Rodriguez-Vazquez,Fernando Medeiro,Edmond Janssens Priekšskatījums nav pieejams - 2014 |
CMOS Telecom Data Converters Angel Rodríguez-Vázquez,Fernando Medeiro,Edmond Janssens Priekšskatījums nav pieejams - 2010 |
Bieži izmantoti vārdi un frāzes
A/D converter amplifier amplitude analog Analog-to-Digital Converters architecture array attenuated Bandpass bandwidth baseband block diagram BPEAM capacitance capacitor cascade Circuits and Systems CMOS coefficients comparator Continuous-Time current cell current source current-steering Data Converters decimation decoder Delta-Sigma Delta-Sigma Modulator dynamic range error power feedback Figure flash ADC frequency gain IEEE Journal implementation in-band increase input signal integrator jitter Journal of Solid-State latch linear logarithmic loop filter mismatch noise shaping non-idealities non-linearity number of bits Nyquist rate obtained operation optimization output oversampling ratio parameters performance phase pipeline power consumption preamplifier Proc quantization error quantization noise reference voltage resistor resolution Rodríguez-Vázquez sampling Sansen SFDR shown in Fig Sigma-Delta Modulator signal band simulation single-bit SNDR Solid-State Circuits specifications speed stage static techniques topology transfer function transistors two-step flash Vref
Atsauces uz šo grāmatu
Field Programmable Logic and Application: 14th International Conference ... Jürgen Becker,Marco Platzner,Serge Vernalde Priekšskatījums nav pieejams - 2004 |