36,562 research outputs found
An improved design of a fully automated multiple output micropotentiometer
This paper describes in details a new design of a fully automated multiple output micropotentiometer (?pot). A prototype has been built at the National Institute for Standards (NIS), Egypt to establish this highly improved AC voltage source in the millivolt range. The new device offers three different outputs covering a wide frequency range from only one outlet. This valuably supports the precise sourcing ranges of low AC voltage at NIS. The design and the operation theory of this prototype have been discussed in details. An automatic calibration technique has been introduced through specially designed software using the LabVIEW program to enhance the calibration technique and to reduce the uncertainty contributions. Relative small AC-DC differences of our prototype in the three output ranges are fairly verified. The expanded uncertainties of the calibration results for the three output ranges have been faithfully estimated. However, further work is needed to achieve the optimum performance of this new device
Automated Setup to Accurately Calibrate Electrical DC Voltage Generators
At National Institute of Metrological Research (INRIM), an automated setup to
calibrate DC Voltage generators, mainly top-level calibrators from 1 mV to 1 kV
has been developed. The heart of the setup is an INRIM-built automated fixed
ratios DC Voltage divider. The significant achievement of this setup is the
possibility to interconnect the divider, a DMM characterized in linearity, a DC
Voltage Standard and a DC Voltage generator under calibration and automatically
to manage the calibration process. This calibration method allows to save a lot
of time, to improve the reliability and to increase the accuracy of the
calibration of generators. The relative uncertainties of the system span from
0.6x10-6 to 1.2x10-4 improving the previous capabilities of the INRIM
laboratory for calibration of programmable multifunction instruments. In
addition, this system allows to avoid the employment of several Standards (some
of them still manually operating) carrying out the entire process without
changing the setup configuration and without the presence of operators. The
concept of this setup can be transferred to secondary high-level electrical
calibration Laboratories that could be consider it useful for their calibration
activities.Comment: 6 pages 8 figure
A three-arm current comparator bridge, for impedance comparisons over the complex plane
We present here the concept of three-arm current comparator impedance bridge,
which allows comparisons among three unlike impedances. Its purpose is the
calibration of impedances having arbitrary phase angles, against calibrated
nearly-pure impedances. An analysis of the bridge optimal setting and proper
operation is presented. To test the concept, a two terminal-pair
digitally-assisted bridge has been realized; measurements of an air-core
inductor and of an RC network versus decade resistance and capacitance
standards, at kHz frequency, have been performed. The bridge measurements are
compatible with previous knowledge of the standards' values with relative
deviations in the 10^-5 -- 10^-6 range
Realization of an Inductance Scale Traceable to the Quantum Hall Effect Using an Automated Synchronous Sampling System
In this paper, the realization of an inductance scale from 1~H to 10~H
for frequencies ranging between 50~Hz to 20~kHz is presented. The scale is
realized directly from a series of resistance standards using a fully automated
synchronous sampling system. A careful systematic characterization of the
system shows that the lowest uncertainties, around 12~H/H, are obtained
for inductances in the range from 10~mH to 100~mH at frequencies in the kHz
range. This new measurement system which was successfully evaluated during an
international comparison, provides a primary realization of the henry, directly
traceable to the quantum Hall effect. An additional key feature of this system
is its versatility. In addition to resistance-inductance (R-L) comparison, any
kind of impedances can be compared: R-R, R-C, L-L or C-C, giving this sampling
system a great potential of use in many laboratories around the world
Operations planning simulation model extension study. Volume 5: Mariner Jupiter orbiter PL-12-A automated payload (upper stage used)
For abstract, see N75-20432
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The FIELDS Instrument Suite for Solar Probe Plus: Measuring the Coronal Plasma and Magnetic Field, Plasma Waves and Turbulence, and Radio Signatures of Solar Transients.
NASA's Solar Probe Plus (SPP) mission will make the first in situ measurements of the solar corona and the birthplace of the solar wind. The FIELDS instrument suite on SPP will make direct measurements of electric and magnetic fields, the properties of in situ plasma waves, electron density and temperature profiles, and interplanetary radio emissions, amongst other things. Here, we describe the scientific objectives targeted by the SPP/FIELDS instrument, the instrument design itself, and the instrument concept of operations and planned data products
Quantification of sirolimus by liquid chromatography-tandem mass spectrometry using on-line solid-phase extraction
Quantification of the new immunosuppressant sirolimus (syn. rapamycin; Rapamune((R))) in whole blood by chromatography is essential for its clinical use since no immunoassay is available although monitoring is mandatory. Here we report on a rapid and convenient liquid chromatography (LC)-tandem mass spectrometry method and describe our practical experience with its routine use. Whole blood samples were hemolyzed and deproteinized using an equal volume (150 mul) of a mixture of methanol/zinc sulfate solution containing the internal standard desmethoxy-rapamycin. After centrifugation, the clear supernatants were submitted to an on-line solid-phase extraction procedure using the polymeric Waters Oasis HLB(R) material, with elution of the extracts onto the analytical column in the back-flush mode by column switching. For analytical chromatography a RP-C18 column was used with 90/10 methanol/2 mM ammonium acetate as the mobile phase. A 1:10 split was used for the transfer to the mass spectrometer, a Micromass Quattro LC-tandem mass spectrometry system equipped with a Z-spray((R)) source and used in the positive electrospray ionization mode. The following transitions were recorded: sirolimus, 931>864 m/z, and desmethoxy-rapamycin (I.S.), 901>834 m/z. The analytical running time was 5 min, including on-line extraction. The method has a linear calibration curve (r>0.99; range 1.6-50 mug/l) and is rugged and precise with monthly CVs <7% at a sirolimus concentration of 13.1 mug/l in routine use; the instrumentation proved to be reliable and required minimal maintenance
Bilinear noise subtraction at the GEO 600 observatory
We develop a scheme to subtract off bilinear noise from the gravitational wave strain data and demonstrate it at the GEO 600 observatory. Modulations caused by test mass misalignments on longitudinal control signals are observed to have a broadband effect on the mid-frequency detector sensitivity ranging from 50 Hz to 500 Hz. We estimate this bilinear coupling by making use of narrow-band signal injections that are already in place for noise projection purposes. A coherent bilinear signal is constructed by a two-stage system identification process where the involved couplings are approximated in terms of stable rational functions. The time-domain filtering efficiency is observed to depend upon the system identification process especially when the involved transfer functions cover a large dynamic range and have multiple resonant features. We improve upon the existing filter design techniques by employing a Bayesian adaptive directed search strategy that optimizes across the several key parameters that affect the accuracy of the estimated model. The resulting post-offline subtraction leads to a suppression of modulation side-bands around the calibration lines along with a broadband reduction of the mid-frequency noise floor. The filter coefficients are updated periodically to account for any non-stationarities that can arise within the coupling. The observed increase in the astrophysical range and a reduction in the occurrence of non-astrophysical transients suggest that the above method is a viable data cleaning technique for current and future gravitational wave observatories
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