Sharif Digital Repository

Analysis of thermal noise in switched-capacitor multi-bit gain-stages used in low-voltage high-resolution pipeline analog-to-digital converters is presented. The analytical expression obtained for the input referred noise power, which should be considered in the design procedure, is general for any number of bits being resolved and shows that the noise power is decreased when more bits are resolved in the stage. © 2003 IEEE  

In this paper, capabilities of switched-current (SI) circuits are utilized to design a high-speed A/D converter. New methods to improve the performance of the SI circuits are introduced. An 8-bit 300MS/s pipeline ADC is design in 0.18um CMOS technology and an ENOB of 7.3b is obtained from simulations. The ADC consumes 40mW from a 1.8V supply. © 2007 IEEE  

In this paper a new technique called switched-resistor is used as an alternative to switched-capacitor circuits in a low-voltage low-power high-speed A/D converter. Simulation results for an 8-bit 150MS/s pipeline ADC are presented. This converter consumes 20mW from a 1.8V supply and provides an ENOB of 7.5bit. © 2007 IEEE  

An 8-bit High-speed folding/interpolating ADC is presented. Designed in 0.18μm CMOS technology, the ADC dissipates only 50mW from a single 1.5V supply. A novel technique based on using both N and P folding cells is used to widen the input range and a self-calibration technique based on using Trimmable MOSFETs is employed to improve the static and dynamic performance  

Patterns formed by the flow of an inhomogeneous fluid (suspension) over a smooth inclined surface were studied. It was observed that fractal patterns form. There exists a threshold angle for the inclination above which global fractal patterns are formed. This angle depends on the particle size of the suspension. We observed that there are two fractal dimensions for these patterns, depending on the area from which the pattern is extracted. If the pattern is taken from the top which only consists of the beginning steps of the pattern forming, one finds two fractal dimensions, i.e. 1.35-1.45 and 1.6-1.7, in which the first one is dominant while, if the entire pattern is taken, then a fractal... 

In this paper, an 8-bit CMOS current-mode folding-interpolating ADC is presented. A new active averaging-interpolating network is described, which results in a better error correction factor compared to its resistive counterpart. Using novel circuits for fast settling and careful transistor sizing, a fast (>160 Msps) and low power (70 mW in 2.5 V supply voltage) 8-bit ADC, with a total chip area of 1 × 1.4 mm in a 0.25 micron CMOS process, is demonstrated. © Sharif University of Technology, April 2008  

A 1.8-v 13-bit 25MS/S pipelined analog-to-digital (A/D) converter was designed and simulated using 0.18um CMOS technology. The proposed new high speed low power class AB opamp makes it possible to achieve requirements of 13-bit resolution and settling in 12ns within 0.01% accuracy. An optimum architecture for noise and power consideration is also selected to reduce power. Total Power dissipation is about 82 mw from a single 1.8 v supply, where INL and DNL are 0.7 LSB and 0.6 LSB respectively. SNDR of 75.5 dB is achieved  

A 12 bit 25 MS/S pipelined analog-to-digital (A/D) converter was designed and simulated using 0.35 μm CMOS technology. The proposed new high speed class AB opamp makes it possible to achieve requirements of 12 bit resolution and settling in 20 ns within 0.05% accuracy. However, pipeline ADCs are tolerant to comparator's offset, but using dynamic comparators, power dissipation can be reduced. So a dynamic comparator is designed which is more power efficient. Total power dissipation is about 76 mW from a single 3 V supply, where INL and DNL are 0.8 LSB and 0.6 LSB respectively. A SNDR of 70.1 dB is achieved. © 2003 IEEE  

Signal to Noise and Distortion Ratio (SNDR) is widely chosen for dynamic characterization of ADC. For pipelined ADC in which the inner circuits' errors accumulate at the output, analysis of the origins of SNDR and its characterization can be very hard. However, due to a relationship between maximum INL of ADC and the distortion in its output codes, SNDR can be derived as a function of maximum INL value and its position in output codes. Utilizing this relationship, this paper develops two methods for SNDR enhancement that do not cost much power. The 50k sampled Monte-Carlo simulation in the behavioral level indicates 75% increase in the possibility of having SNDR > 60db just by utilizing... 

In this paper a new iterative method is used to convert analog signals to digital (A/D) using sigma delta modulator (SDM). If intelligent reconstruction technique is used for decoding, either signals with higher bandwidth can be digitized or simpler circuitry can be utilized. An optimal family of SDM has recently been devised in order to improve performance of A/D converters. In this work, we improve performance of A/D converters even more, by combining this optimal family of SDM with iterative methods  

A sampling and switching method for a binary weighted digital-to-analogue converter (DAC) in successive approximation register (SAR) analogue-to-digital converters (ADCs) is presented. This sampling method is proposed to reduce the switching energy. Thanks to the proposed switching method, only one reference voltage (Vcm = 1/2 Vref) is required which helps to improve the precision of the DAC along with energy reduction compared with those methods that use more than one reference voltage. The switching energy and area of the DAC reduce by 97.66% and 50% compared with the conventional binary weighted DAC  

A highly energy-efficient switching method for capacitor-splitting digital-to-analogue converter (DAC) in successive approximation register (SAR) analogue-to-digital converters (ADCs) is presented. In the proposed DAC, a bottom-plate sampling method is introduced which requires only one reference voltage (Vcm = 1/2Vref) during the entire DAC switching steps. Therefore, in addition to the switching energy reduction, the precision of the DAC is increased since only one reference voltage is used. The DAC average switching energy and the area are reduced by 98.44% and 50% compared with the conventional binary weighted DAC  

This paper presents a new low-power comparator-reduced hybrid ADC. The proposed ADC uses dynamic comparators to perform a high-speed low-power conversion. In order to reduce the offset and kickback noise effect of conventional dynamic comparators, a new low-kickback noise comparator with a high pre-amplifier gain is presented. Two 4bit and 8bit ADCs are designed and simulated in 0.18 μm CMOS technology with 1.8 v supply voltage. INL and DNL of 4bit ADC are less than 0.4LSB and 0.5LSB, respectively, while 8bit ADC obtains DNL and INL of 0.83LSB and 1.3LSB, respectively. With ENOB of 3.6bit and 7.2bit for 4bit and 8bit ADCs, the 4bit ADC consumes only 1.7 mW at the sampling rate of 400 Ms/s... 

This paper presents a new low-power reduced comparator flash ADC. The proposed ADC uses dynamic comparators to perform a high-speed low-power conversion. In order to reduce offset and kick-back noise effect of conventional dynamic comparators, a new comparator with a higher pre-amplifier gain along with the mathematical analysis is presented. The proposed 4bit ADC is simulated in 0.18um with 1.8-υ supply voltage. SNDR and SFDR of the ADC are 23dB and 26.5dB, respectively. The ADC consumes only 0.95mw at the sampling rate of 400MS/s. © 2017 IEEE  

In this paper a theoretical comparison between the performance of switched-capacitor (SC) and switched-current (SI) pipeline analog-to-digital converters (ADCs) is presented. Power dissipation and die area of SC and SI implementations are compared based on linearity and noise constraints. It is shown that if nonlinearity errors of the class AB SI ADCs are removed by calibration, their performance prevails that of the SC ADCs. Also it is shown that class AB SI ADCs occupy less die area than SC ADCs for a given resolution. © 2007 IEEE  

A new level converter for use in dual voltage SOI digital circuits is presented. This technique uses the idea of keeper transistors, and consumes less power compared to the traditional methods. The effects of load capacitance on the circuit are studied by extensive simulations. © 2006 IEEE  

A 1.8V, 10-Bit, 40-MS/s Pipeline analog-to-digital converter designed using 0.18-μmCMOS technology is presented. The new structure of the A/D converter is based on double sampling and averaging techniques. By the first technique, all the stage amplifiers are active at the both sampling and holding cycles. Averaging as the second technique minimizes the capacitance mismatch and exchanges the priority of input-referred noise and capacitance mismatch in the selection of the stage caps. The converter achieved a peak spurious-free- dynamic-range of 61 dB, maximum differential nonlinearity 0.5 of least significant bit (LSB), maximum integral linearity of 0.9 LSB, and power consumption of 5mW.... 

A comparator comprises a cross coupled circuit which produces a positive feedback. In conventional comparators, the mismatch between the cross coupled circuits determines the trade-off between the speed, offset and the power consumption of the comparator. A new low-offset low-power dynamic comparator for analog-to-digital converters is introduced. The comparator benefits from two stages and two operational phases to reduce the offset voltage caused by the mismatch effect inside the positive feedback circuit. Rigorous statistical analysis yields the input referred offset voltage and the delay of the comparator based on the circuit random parameters. The derivations are verified with... 

Computationally exhaustive time-domain Monte Carlo (MC) simulations are commonly conducted to obtain the static characteristics of a residual analog-to-digital converter (ADC) (e.g., pipelined ADC) for the calculation of the integral nonlinearity (INL) and differential nonlinearity (DNL). In this brief, a new ultrahigh-speed, yet precise, behavioral-level dc characterization algorithm for residual-based ADC is introduced. The algorithm derives the transition points of a given stage of the ADC based on the random parameters of that stage. Then, it merges the dc characteristics of all stages together to extract detailed dc input-output characteristics for the entire ADC. Then, the exact amount... 

A low power 4-bit, 1.6 GS/s flash ADC is presented. A new power reduction technique which masks the unused blocks in a semi-pipeline chain of latches and encoders is introduced. The proposed circuit determines the unused blocks based on a pre-sensing of the signal. Moreover, a reference voltage generator with very low static power dissipation is used. Novel techniques to reduce the sensitivity to dynamic noise are proposed to suppress the noise effects on the reference generator. The proposed circuit reduces the power consumption by 20 percent compared to the conventional structure when a Nyquist rate OFDM signal is applied. The INL and DNL of the converter are smaller than 0.3 LSB after...