7,756 research outputs found
A Survey of Non-conventional Techniques for Low-voltage Low-power Analog Circuit Design
Designing integrated circuits able to work under low-voltage (LV) low-power (LP) condition is currently undergoing a very considerable boom. Reducing voltage supply and power consumption of integrated circuits is crucial factor since in general it ensures the device reliability, prevents overheating of the circuits and in particular prolongs the operation period for battery powered devices. Recently, non-conventional techniques i.e. bulk-driven (BD), floating-gate (FG) and quasi-floating-gate (QFG) techniques have been proposed as powerful ways to reduce the design complexity and push the voltage supply towards threshold voltage of the MOS transistors (MOST). Therefore, this paper presents the operation principle, the advantages and disadvantages of each of these techniques, enabling circuit designers to choose the proper design technique based on application requirements. As an example of application three operational transconductance amplifiers (OTA) base on these non-conventional techniques are presented, the voltage supply is only ±0.4 V and the power consumption is 23.5 µW. PSpice simulation results using the 0.18 µm CMOS technology from TSMC are included to verify the design functionality and correspondence with theory
Analysis of multi-sensor data, 12 September - 11 December 1968
Analysis of multi-sensor data obtained by Earth Resources Aircraft Progra
Projection-based measurement and identification
A recently developed Projection-based Digital Image Correlation (P-DVC)
method is here extended to 4D (space and time) displacement field measurement
and mechanical identification based on a single radiograph per loading step
instead of volumes as in standard DVC methods. Two levels of data reductions
are exploited, namely, reduction of the data acquisition (and time) by a factor
of 1000 and reduction of the solution space by exploiting model reduction
techniques. The analysis of a complete tensile elastoplastic test composed of
127 loading steps performed in 6 minutes is presented. The 4D displacement
field as well as the elastoplastic constitutive law are identified. Keywords:
Image-based identification, Model reduction, Fast 4D identification, In-situ
tomography measurements. INTRODUCTION Identification and validation of
increasingly complex mechanical models is a major concern in experimental solid
mechanics. The recent developments of computed tomography coupled with in-situ
tests provide extremely rich and non-destructive analyses [1]. In the latter
cases, the sample was imaged inside a tomograph, either with interrupted
mechanical load or with a continuously evolving loading and on-the-fly
acquisitions (as ultra-fast X-ray synchrotron tomography, namely, 20 Hz full
scan acquisition for the study of crack propagation [2]). Visualization of fast
transformations, crack openings, or unsteady behavior become accessible.
Combined with full-field measurements, in-situ tests offer a quantitative basis
for identifying a broad range of mechanical behavior.Comment: SEM 2019, Jun 2019, Reno, United State
Prospects for beyond the Standard Model physics searches at the Deep Underground Neutrino Experiment
Tabulation, bibliography, and structure of binary intermetallic compounds. V. Compounds of aluminum and indium
This report is the fifth and last in a series. The previous reports listed the compounds of elements
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