Design and implementation of 4 bit binary weighted current steering DAC

A compact current-mode Digital-to-Analog converter (DAC) suitable for biomedical application is repesented in this paper .The designed DAC is binary weighted in 180nm CMOS technology with 1.8V supply voltage. In this implementation, authors have focused on calculaton of Non linearity error say INL and DNL for 4 bit DAC having various type of switches: NMOS, PMOS and Transmission Gate. The implemented DAC uses lower area and power compared to unary architecture due to absence of digital decoders. The desired value of Integrated non linearity (INL) and Differential non linearity (DNL) for DAC for are within a range of +0.5LSB. Result obtained in this works for INL and DNL for the case DAC using Transmission Gate is +0.34LSB and +0.38 LSB respectively with 22mW power dissipation

A True 1V 1µW Biomedical Front End with Reconfigurable ADC for Self powered Smarter IoT Healthcare Systems

This work proposes an ultralow power highly linear analog front-end (AFE) with an input dynamic range from 200μVpp to 20mVpp. The system consists of a signal conditioning instrumentation amplifier (IA), two programmable gain amplifiers (PGA), a mixed signal automatic gain control (AGC), two sample and hold (S/H), a 10 bit successive approximation register (SAR) analog to digital converter (ADC), and a ΣΔ modulator with 10 bit effective number of bits (ENOB). A highly linear capacitively-coupled IA is achieved by increasing its feedback factor. Moreover, a transconductance (gm) cancellation technique is proposed for achieving a high common mode rejection ratio (CMRR). The conditioned signal is digitized using a SAR ADC for an input range of 200μVpp to 2mVpp, and, an opamp-shared ΣΔ ADC for an input range of 2mVpp to 20mVpp. The selection between the two ADCs is done by the AGC. The full system is designed using 1V supply in UMC 0.18μm CMOS technology. The AFE (IA and the two PGAs) achieves an overall linearity of more than 12 bits, for an input range of 200μVpp to 20mVpp while consuming 300nW with a bandwidth of 0.05 - 250Hz. The power consumption of the SAR ADC is 40nW while operating at a sampling frequency of 1KHz. The ΣΔ ADC consumes 300nW at a sampling frequency of 32KHz with an OSR of 32. The proposed system is intended to be powered by an energy scavenging circuit without compromising its own performance. The system was successfully tested for an ECG signal obtained from PTB database

Liquid-like behaviour of gold nanowire bridges

A combination of Focused Ion Beam (FIB) and Reactive Ion Etch (RIE) was used to fabricate free standing gold nanowire bridges with radii of 30 nm and below. These were subjected to point loading to failure at their mid-points using an Atomic Force Microscope (AFM), providing strength and deformation data. The results demonstrate a dimensionally dependent transition from conventional solid metallic properties to liquid-like behaviour including the unexpected reformation of a fractured bridge. The work reveals mechanical and materials properties of nanowires which could have significant impact on nanofabrication processes and nanotechnology devices such as Nano Electro Mechanical Systems (NEMS)

Differences in peripheral noradrenergic function among actively drinking and abstinent alcohol-dependent individuals.

We examined whether excessive alcohol consumption was related to changes in plasma levels of noradrenaline (NA) and whether these changes recover following abstinence. We also explored whether there were differences in NA levels between Type I and Type II alcoholics and controls during active drinking and abstinence. Plasma concentrations of NA were determined in (1) 27 Caucasian men with alcohol dependence who were regularly drinking (active drinkers) within 24 hours of hospitalization, (2) 29 Caucasian alcohol-dependent men who were in remission (abstinent for a minimum of three months), and (3) 28 race- and gender-matched healthy controls. NA concentrations were significantly higher in actively drinking alcohol-dependent subjects compared to those in remission and controls. While Type I and Type II alcoholic individuals differed across clinical measures, NA levels were similar in the two subtypes. Both subtypes showed an elevation in NA levels during active drinking compared to controls, but NA levels did not differ between the two subtypes and controls during remission. The findings indicate that chronic exposure to alcohol may lead to disturbances in NA activity that may manifest in early abstinence. However, the changes in NA activity appears to normalize after a longer period of abstinence. Alterations in NA activity do not seem to be specific for Type I or Type II subtypes of alcoholism

Measuring nanomechanical motion with an imprecision far below the standard quantum limit

We demonstrate a transducer of nanomechanical motion based on cavity enhanced optical near-fields capable of achieving a shot-noise limited imprecision more than 10 dB below the standard quantum limit (SQL). Residual background due to fundamental thermodynamical frequency fluctuations allows a total imprecision 3 dB below the SQL at room temperature (corresponding to 600 am/Hz^(1/2) in absolute units) and is known to reduce to negligible values for moderate cryogenic temperatures. The transducer operates deeply in the quantum backaction dominated regime, prerequisite for exploring quantum backaction, measurement-induced squeezing and accessing sub-SQL sensitivity using backaction evading techniques