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Readout link and control board for the ATLAS Tile Calorimeter upgradeMuschter, Steffen Lothar January 2015 (has links)
The Large Hadron Collider (LHC) at the CERN laboratory was designed to study the elementary particles and forces and search for new physics. Detectors at LHC were designed to observe proton-proton collisions with center of mass energies up to 14 TeV, seven times higher than previously possible. One of the largest of these is the general purpose detector ATLAS. After almost 20 years of planning and construction, LHC and its detectors were finished in 2008. Since then ATLAS has produced valuable data, which contributed to the discovery of the 1964 postulated Higgs-particle and thus to the Nobel prize in physics in 2013. To expand the searches, LHC and its detectors will undergo several upgrades to the increase luminosity at least by a factor of 5 and to exploit the full potential of the machine. In order to adapt the detector to the resulting increasing event rates and radiation levels, new electronics have to be developed. This thesis describes the development process of a new upgraded digital readout system for one of the sub-detectors in ATLAS, the scintillating Tile Calorimeter (TileCal), and more specifically one of its key components, the high-speed data link DaughterBoard. Starting from the idea of transferring all recorded information of the detector using high speed serial optical links and the concept of using re-programmable logic for the readout electronics, completely new on-detector electronics were designed to be used as a core component for communication, control and monitoring. The electronics was tested, electrical characterized and proven to work in a setup similar to the upgraded readout electronics. The DaughterBoard is the Stockholm University contribution to the ATLAS upgrade in 2023.
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A Low Cost, High Density Reconfigurable Recording SubsystemBerchuk, Vitaliy, Grozalis, Ed, Yin, Jennifer, Dehmelt, Chris 10 1900 (has links)
ITC/USA 2012 Conference Proceedings / The Forty-Eighth Annual International Telemetering Conference and Technical Exhibition / October 22-25, 2012 / Town and Country Resort & Convention Center, San Diego, California / Modern test programs require an increase in sensor and bus data while at the same time seeking a decrease in the size and price of data acquisition components. Data archiving, which has been traditionally supplied via dedicated standalone hardware, is not exempt to this demand, but in many ways has not kept up with other instrumentation components in terms of flexibility, size, density and price. The archiving capabilities of a data acquisition system must be able to meet the changing needs of the customer. This paper presents a Solid State Drive (SSD) based data recorder implementation that can be easily reconfigured to address the requirements of different applications, including traditional PCM based systems and contemporary network based systems. The paper identifies the requirements, design challenges, trade-offs and risks in creating a low-cost, flexible data archiving subsystem that can be used in a standalone configuration or be directly integrated with a host data acquisition system.
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TELEMETRY AND DATA LOGGING IN A FORMULA SAE RACE CARSchultz, Aaron 10 1900 (has links)
The problem with designing and simulating a race car entirely through CAD and other computer simulations, is that the real world behavior of the car will differ from the results outputted from CFD and FEA analysis. One way to learn more about how the car actually handles, is through telemetry and data logging of many different sensors on the car while it is running at racing speeds. This data can help the engineering team build new components, and tune the many different systems on the car in order to get the fastest time around a track as possible.
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Carbon Fiber Leaf Springs for Adaptive Cross Country SkiingAtkinson, William Drew 01 June 2009 (has links) (PDF)
This work describes the development of a custom sit ski for US Ski Team paralympian Greg Mallory from concept through prototype fabrication. The ski consists of a custom seat molded specifically for the athlete, carbon fiber leaf springs, and a custom binding attachment system compatible with NNN style cross country bindings. The sit ski is designed to maximize poling power through the use of an upright rather than reclined seating position, allowing for increased utilization of core muscle strength. The springs were designed based on information gathered by a custom National Instruments data acquisition system, and stiffness analysis was conducted using Castigliano’s theorem applied to classical laminate theory.
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An Assessment Of Flow Quality In An Open Test Section Wind TunnelHamm, Christopher Eric 11 December 2009 (has links)
The subsonic wind tunnel facility at Mississippi State University has been converted to an open test section configuration. An experimental setup was developed which is easily configurable to allow for further research. Measurements of flow quality over select portions of the test section were made to attain a basic understanding of the performance of the new configuration. A program was developed in LabVIEW to control a 3-axis traverse and perform necessary data reduction. The traverse control program was developed to perform data acquisition using a hotilm probe to facilitate the necessary measurements. Data was gathered at two wind tunnel velocity settings over several test section locations. Results of the testing program yielded recommendations on the use of the open configuration. This paper documents the procedure and setup of the testing program to include discussion of the control/data acquisition program and a discussion of the findings and recommendations.
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Personal computer based data acquisition, sensing and controlAllwine, Daniel Alan January 1993 (has links)
No description available.
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TRADEOFFS TO CONSIDER WHEN SELECTING AN AIRBORNE DATA ACQUISITION SYSTEMTroth, Bill 10 1900 (has links)
International Telemetering Conference Proceedings / October 23-26, 2000 / Town & Country Hotel and Conference Center, San Diego, California / Selecting an airborne data acquisition system involves compromises. No single data acquisition system
can be at the same time, lowest cost, smallest, easiest to use and most accurate. The only way to come to
a reasonable decision is to carefully plan the project, taking into account what measurements will be
required, what are the physical environments involved, what personnel and resources will be needed and
of course, how much money is available in the budget? Getting the right mix of equipment, resources
and people to do the job within the schedule and the budget is going to involve a number of tradeoffs. A
good plan and a thorough knowledge of available resources and equipment will allow you make the
necessary decisions. Hopefully, this paper will offer some suggestions that will aid in preparing your
plan and give some insight into available system alternatives.
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The IEEE 1355 Standard : developments, performance and application in high energy physicsHaas, Stefan January 1998 (has links)
No description available.
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Final implementation of an improved OPC data logging system in an in a automation environmentBothma, B.C., Vermaak, H.J. January 2011 (has links)
Published Article / This paper will discuss the final implementation of an Improved OPC data logging system and its improvements over the original. The improved solution focused on the hardware, software and administrative components of the system; taking the reliability and performance of each component into consideration. The software components include the database, the data acquisition and logging client application (DALC) and the various OPC servers; the hardware component includes the servers that will run the software components, power management and Redundant Array of Independents Disks (RAID) technologies; and the administrative component includes implementing automated routines to backup the important data and archive old logs.
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REAL-TIME TENA-ENABLED DATA GATEWAYAchtzehnter, Joachim, Hauck, Preston 10 1900 (has links)
International Telemetering Conference Proceedings / October 18-21, 2004 / Town & Country Resort, San Diego, California / This paper describes the TENA architecture, which has been proposed by the Foundation
Initiative 2010 (FI 2010) project as the basis for future US Test Range software systems. The
benefits of this new architecture are explained by comparing the future TENA-enabled range
infrastructure with the current situation of largely non-interoperable range resources.
Legacy equipment and newly acquired off-the-shelf equipment that does not directly support
TENA can be integrated into a TENA environment using TENA Gateways. This paper focuses
on issues related to the construction of such gateways, including the important issue of real-time
requirements when dealing with real-world data acquisition instruments. The benefits of
leveraging commercial off-the-shelf (COTS) Data Acquisition Systems that are based on true
real-time operating systems are discussed in the context of TENA Gateway construction.
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