Tag Archives: mechanical engineering

Latest Qpedia Now Available for Download

Posted on August 14, 2013 by | Leave a comment
Qpedia Thermal eMagazine June 2013

Qpedia Thermal eMagazine June 2013

Qpedia Thermal eMagazine, Volume 7, Issue 6, has just been released and can be downloaded at: http://www.qats.com/Qpedia-Thermal-eMagazine/Back-Issues.

This month’s featured articles include:

Enhancing Heat Sink Performance Using Thermoelectric Coolers

With the increase in the power dissipation of components and the parallel reduction of their size, engineers and researchers across the globe have been predicting that the era of air cooling might come to an end. Even though in some applications, with very high power dissipations such as IGBTs, air cooling may not be adequate and liquid cooling is a must; air cooling will continue to be the first choice for most electronic cooling applications for many years to come. Advances in air cooling continue to extend its use and the implementation of thermoelectric coolers (TECs) in heat sink applications is one such effort.

Immersion Liquid Cooling for Servers in Data Centers

Data center designers and operators have invented many ways to improve the data center’s thermal efficiency, such as optimizing the rack layout and air conditioner location, separating cold aisles and hot aisles, optimizing the configuration of pipes and cables in under-floor plenum, introducing liquid cooling to high-power severs. While the above methods can improve the data center heat load management, they cannot dramatically reduce the Power Usage Effectiveness (PUE). This article reviews two relatively new solutions: active single-phase immersion cooling technology proposed by Green Revolution Cooling (GRC) and a passive two-phase immersion cooling technology proposed by the 3M Company.

Industry Developments: Piezoelectric Cooling

Piezoelectric fans and jets must overcome various materials, thermal and mechanical challenges to become widely used in electronics cooling, but because they consume just 1/150 of the electricity of circular fans, run with little noise and have no parts that will wear out, they remain of great interest. In this article, a number of issues are addressed, including the inverse effect of the piezoelectric phenomena and dual piezoelectric cooling jets.

Technology Review: Innovative Cold Plate Designs, 2007 – 2012

In this issue our spotlight is on innovative cold plate designs. There is much discussion about its deployment in the electronics industry, and these patents show some of the salient features that are the focus of different inventors.

& Cooling News featuring the latest product releases and buzz from around the electronics cooling industry.

Download the issue now.

Not a Qpedia subscriber? Subscribe Now for free at: http://www.qats.com/Qpedia-Thermal-eMagazine/Subscribe-to-Qpedia and see why over 18,000 engineers read Qpedia.

Did you know Qpedia also publishes a book series? The five volume set contains 248 in-depth articles, researched and written by veteran engineers. They address the most critical areas of electronics cooling, with a wide spectrum of topics and thorough technical explanation. Order Now.

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Touch Screen Scanner Simplifies Temperature and Air Velocity Measurement for Thermal Characterization

Posted on February 22, 2013 by | 3 comments

ATVS-NxTThe ATVS-NxT hot wire anemometer is a fully-portable scanner that provides rapid and highly precise temperature and air velocity measurements for the thermal characterization of electronic packages. The ATVS-NxTis member of our temperature & velocity measurement instruments, along with the ATVS-2020 and eATVS-8, but its touch screen feature and embedded pc speaks to its truly unique capability.

The unique touch screen feature allows users to control the stageVIEW software at their fingertips, quickly acquiring temperature and air velocity data, analytics, and reports. It includes an 8 GB hard drive and a CD/RW drive. Ethernet connections allow the scanner to be operated over an intranet or the Internet.
Watch the quick 30 second video showing the ATVS-NxT touch screen feature

The ATVS-NxT supports up to 32 sensors for simultaneous, single-point air velocity and temperature measurements in environments where single or multipoint measurements are required. The sensors are calibrated for both low (natural convection) and high velocity flow rates.

The easy to use ATVS-NxT collects heat and airflow data useful to heat sink manufacturers, IC houses, board designers, and other electronics manufacturers. The scanner’s single-point measurement of temperature and air velocity provides faster, more precise data enabling more efficient thermal management solutions. Visit qats.com to learn more or to request a quote.

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New Video Showing Liquid Crystal Thermography

Posted on December 18, 2012 by | Leave a comment


In light of several media spotlights on the TLC-100, including FrostyTech, EDN, and Electronics Product Magazine, ATS has released a new video showing the Liquid Crystal Thermography Kit in action. ATS engineer, Greg, shows us how liquid crystals begin turning red, then into different colors, representing the temperature distribution of the component or board. By applying these liquid crystals, engineers can visually find hotspots and temperature fields on chips and other electronic components.

Learn More about the TLC-100

Order the TLC-100

Request a Quote

 

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The New iFLOW-200 Tests and Measures the Thermal and Hydraulic Performance of Cold Plates

Posted on November 19, 2012 by | Leave a comment

Advanced Thermal Solutions, Inc. (ATS) has released a new thermal test instrument, the iFLOW-200, which assesses the thermal and hydraulic characteristics of cold plates in electronics cooling. It can be used to simulate a wide range of conditions to optimize a cold plate’s performance before it is commercialized or prior to its use in an actual application.

 

The iFLOW-200 measures coolant temperatures from 0-70°C with the high accuracy of ± 1°C. Differential pressure of the coolant in the cold plate is measured up to 103,000 Pa (15 psi), with the precise accuracy of ± 1%. Distilled water is used as the reference coolant. For test comparisons, the systems coolingVIEW software can also calculate thermal resistance and pressure drop as a function of flow rate for selected liquids.

 

The instrument system includes a pair of K-type thermocouples for measuring temperature changes on the cold plate surface. Temperatures are monitored on the coolingVIEW interface.

 

The iFLOW-200 system features easy set up and operation to save time when evaluating different cold plate models. Designed for accuracy and convenience, the iFLOW-200 simply requires setting the starting and ending coolant flow rates, and choosing the dwell time, pumping power and other parameters. These are easily done on any PC using the systemd user-friendly application program.

The iFLOW-200 system features separate controller and hydraulics enclosures with USB connections. The hydraulic package includes a fluid level indicator, coolant inlets and outlets from/to the cold plate under test, ports for surface temperature thermocouples, and a fluid cooling system for its internal heat exchanger. The iFLOW-200 is also ideal for testing alternative liquids.

 

More information about the iFLOW-200 Cold Plate Characterization System can be found at http://www.qats.com/Products/Temperature-and-Velocity-Measurement/Instruments/iFLOW-200

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