Digital Filters

The new technology advances provide that a great number of system signals can be easily measured with a low cost. The main problem is that usually only a fraction of the signal is useful for different purposes, for example maintenance, DVD-recorders, computers, electric/electronic circuits, econometric, optimization, etc. Digital filters are the most versatile, practical and effective methods for extracting the information necessary from the signal. They can be dynamic, so they can be automatically or manually adjusted to the external and internal conditions. Presented in this book are the most advanced digital filters including different case studies and the most relevant literature

Metodologia Per la Caratterizzazione di amplificatori a basso rumore per UMTS

In questo lavoro si presenta una metodologia di progettazione elettronica a livello di sistema, affrontando il problema della caratterizzazione dello spazio di progetto dell' amplificatore a basso rumore costituente il primo stadio di un front end a conversione diretta per UMTS realizzato in tecnologia CMOS con lunghezza di canale .18u. La metodologia è sviluppata al fine di valutare in modo quantititativo le specifiche ottime di sistema per il front-end stesso e si basa sul concetto di Piattaforma Analogica, che prevede la costruzione di un modello di prestazioni per il blocco analogico basato su campionamento statistico di indici di prestazioni del blocco stesso, misurati tramite simulazione di dimensionamenti dei componenti attivi e passivi soddisfacenti un set di equazioni specifico della topologia circuitale. Gli indici di prestazioni vengono successivamente ulizzati per parametrizzare modelli comportamentali utilizzati nelle fasi di ottimizzazione a livello di sistema. Modelli comportamentali atti a rappresentare i sistemi RF sono stati pertanto studiati per ottimizzare la scelta delle metriche di prestazioni. L'ottimizzazione dei set di equazioni atti a selezionare le configurazione di interesse per il campionamento ha al tempo stesso richiesto l'approfondimento dei modelli di dispositivi attivi validi in tutte le regioni di funzionamento, e lo studio dettagliato della progettazione degli amplificatori a basso rumore basati su degenerazione induttiva. Inoltre, il problema della modellizzazione a livello di sistema degli effetti della comunicazione tra LNA e Mixer è stato affrontato proponendo e analizzando diverse soluzioni. Il lavoro ha permesso di condurre un'ottimizzazione del front-end UMTS, giungendo a specifiche ottime a livello di sistema per l'amplificatore stesso

Filter-Based Fading Channel Modeling

A channel simulator is an essential component in the development and accurate performance evaluation of wireless systems. A key technique for producing statistically accurate fading variates is to shape the flat spectrum of Gaussian variates using digital filters. This paper addresses various challenges when designing real and complex spectrum shaping filters with quantized coefficients for efficient realization of both isotropic and nonisotropic fading channels. An iterative algorithm for designing stable complex infinite impulse response (IIR) filters with fixed-point coefficients is presented. The performance of the proposed filter design algorithm is verified with 16-bit fixed-point simulations of two example fading filters

Digital Filters and Signal Processing

Digital filters, together with signal processing, are being employed in the new technologies and information systems, and are implemented in different areas and applications. Digital filters and signal processing are used with no costs and they can be adapted to different cases with great flexibility and reliability. This book presents advanced developments in digital filters and signal process methods covering different cases studies. They present the main essence of the subject, with the principal approaches to the most recent mathematical models that are being employed worldwide

Development of fast ion chromatography

Fast ion chromatography has been applied to short (3 cm) silica based ODS columns with a view to achieving rapid determinations of selected inorganic anions. The use of smaller stationary phase particle sizes (3 |im) allowed higher flow rates (2.0 - 2.5 ml/min) to be used while maintaining chromatographic efficiency due to the favorable Van Deemter curves obtained as particle size decreases. Using ioninteraction chromatography and direct UV detection, eight anions were separated in under four minutes with the first five anions separated in < 50 seconds; this separation was subsequently applied to the rapid analysis of nitrite and nitrate in tap water. With the addition of a peristaltic pump and in-line filter, up to 60 analyses per hour could be carried out unattended using an on-line system, which matches the analysis rate possible with traditional FIA based methods. This mobile phase was further modified such that nitrate, nitrite and thiocyanate could be rapidly determined in urine samples as a means to quantitatively evaluate smoking behavior. Subsequently, the same column was permanently coated using didodecyldimethylammonium bromide (DDAB) and anion exchange chromatography used for the isocratic separation of nine common anions in 160 seconds, with the first seven anions, including phosphate, chloride and sulphate, separated within only 65 seconds using a simple phthalate eluent. The high capacity, highly hydrophobic ion exchange coating demonstrated excellent stability over time, even at elevated temperatures (45 °C). The developed chromatography was successfully applied to the rapid analysis of river water, tap water and relatively high ionic strength seawater samples with minimal sample preparation required. Multi-valent eluents were briefly applied to this column with a view to achieving faster separations, with further studies also involved the use of dipicolinic acid eluents, which allowed the simultaneous separation of chloride, sulphate, nitrate, carbonate, magnesium and calcium, in less than 180 seconds. Short monolithic silica ODS columns were used with a tetrabutylammoniumphthalate eluent and direct conductivity detection for the rapid analysis of six common inorganic anions in < 60 seconds. Van deemter curves for this monolithic column showed that considerably higher flow rates could be used without adversely affecting efficiency relative to 3 p,m particulate columns due to the improved permeability of these phases. Finally, two short Cis monoliths were coated with DDAB and DOSS and individually used to separate eight anions in 100 seconds and five cations in 100 seconds using a common phthalate/ethylenediamine eluent. By subsequently coupling the columns in parallel, the with the eluent delivered using a flow splitter from a single isocratic pump, the simultaneous analysis of anions and cations was also possible, based on a single conductivity detector

Power-Efficient Design Techniques and Architectures for Scalable Submicron Analog Circuits

As the CMOS process scales down to submicron, digital circuit performance improves, while reduced supply voltage and lower transistor intrinsic gain make it difficult to implement analog circuits in a power efficient manner. Therefore, it has become advantageous to shift more analog signal processing functions conventionally realized in voltage (analog) domain into utilizing charge or time as the variable that can be processed by mostly digital/passive circuits. In this thesis, both circuit-level techniques and architectures are proposed that are inherently compatible with transistor scaling in submicron CMOS, meanwhile achieving state-of-the-art performance and optimizing power efficiency. The first part focuses on a highly reconfigurable charge-domain switched-g[subscript m]-C biquad band-pass filter (BPF) topology that utilizes an interleaved semi-passive charge sharing technique. It uses only switches, capacitors, linearity-enhanced gm-stages and digital circuitry for a 3-phase non-overlapping clock scheme. Flexible tunability in both center frequency and -3dB bandwidth is achieved with a scaling-compatible implementation. A 4th-order BPF prototype operating at a 1.2GS/s sampling rate is designed with a cascade of two proposed biquads in a 65nm LPE CMOS process. A tunable center frequency of 35−70MHz is measured with programmable bandwidth and a maximum stop-band rejection of 72dB. The measured in-band IIP3 is +12.5dBm. The filter prototype consumes 7.5mW total power from a 1.2V supply voltage, and occupies a core area of 0.17mm². In the second part, a highly linear continuous-time low-pass filter (LPF) topology with source follower coupling is presented that achieves excellent power efficiency. It synthesizes a 3rd-order low-pass transfer function in a single stage using coupled source followers and three capacitors, and can be configured to 2nd-order by disconnecting a capacitor. A 5th-order Butterworth prototype is designed with a cascade of two proposed filter stages in a 0.18μm CMOS, and occupies a core area of 0.12mm². Operating with a 1.3V supply voltage, the filter consumes only 0.5mA current, and achieves a -3dB bandwidth of 20MHz with 82dB stop-band rejection. A total harmonic distortion (THD) of -39.5dB at the output is measured with a +6.6dBm (i.e. 1.35V[subscript pk-pk]) input signal at 2MHz. The measured in-band IIP3 is +28.8dBm. The dynamic range (at 1% THD) is 76.8dB, with 15.3nV/√Hz averaged in-band input-referred noise. A pseudo-differential-VCO based 2nd-order continuous-time ΔΣ ADC with a residue self-coupling technique is proposed and implemented with mostly digital circuits in the third part. Two VCOs are arranged in a pseudo-differential manner. The digital output is obtained by comparing the sampled output phase of one VCO with that of the other. Passive subtraction is realized in current domain to obtain the residue at the VCO input. The residue self-coupling is implemented using a linear 1st-order transconductance low-pass filter (TCLPF). Moreover, a highly linear VCO topology is presented. The transistor-level simulations in a 65nm CMOS process show a 78dB SNDR over a 10MHz signal bandwidth with a power consumption of 2.9mW, which is 16dB improvement in contrast to the case with the TCLPF block powered off

Low-voltage data converters

With the growing demand for portable/consumer electronics, such as digital audio/video (AV), the downscaling of device dimensions, which enables the integration of an increasing number of transistors in a single chip, is mandatory. This trend also continuously pushes the power supply voltage down to reduce the power consumption and improve the reliability of gate dielectrics. While the reduction of power supply voltage is of great benefit to the essential digital blocks in the system like data storage and digital signal processing, it makes it hard to operate the important and indispensable analog building blocks such as data converters and drivers. In this thesis, the novel structures for the low-voltage digital-to-analog converter (DAC) and analog-to-digital converter (ADC) are presented. The research contributions of this work include (1) a sub-1V audio [delta sigma] DAC with one opamp used per channel to implement D/A conversion, 1st-order FIR and 2ndorder IIR filtering, as well as power amplification for the headphone, (2) a sub-1V pipelined ADC with the novel MDAC based on a low-voltage track-and-hold amplifier. Two prototypes, one is a 0.8V, 88dB dual-channel audio [delta sigma] DAC with headphone driver, the other one is a 0.8V, 10-bit, 10MS/s pipelined ADC were fabricated to verify the functionality of the proposed structures in standard CMOS processes