Tactilus® sensor system ensures optimal heat sink efficiency

Microelectronics International

ISSN: 1356-5362

Article publication date: 10 May 2011



(2011), "Tactilus® sensor system ensures optimal heat sink efficiency", Microelectronics International, Vol. 28 No. 2. https://doi.org/10.1108/mi.2011.21828bad.001



Emerald Group Publishing Limited

Copyright © 2011, Emerald Group Publishing Limited

Tactilus® sensor system ensures optimal heat sink efficiency

Tactilus® sensor system ensures optimal heat sink efficiency

Article Type: New products From: Microelectronics International, Volume 28, Issue 2

Dynamic advance allows engineers to instantaneously map and measure pressure distribution between heat sinks and components in real time.

Computers get very hot! The heat loads associated with state-of-the-art semiconductors in embedded applications demand heat sinks with substantial cooling capability. The new Tactilus® heat-sink analysis system by Sensor Products, Inc. enables research and design engineers to quickly and precisely test and correct the surface contact and pressure distribution between the heat sink and semiconductor. Even a slight warping of the heat exchange structure or reduction in surface contact area can have a profound effect on cooling efficacy. If the pressure distribution is not uniform, heat conduction will be low, and the electronics may overheat.

With Tactilus®, engineers can visualize actual contact forces and pressure distribution data on the circuit board components. As the mounting screws between the CPU and the heat sink are torqued, Tactilus® maps and measures the changing pressure distribution between the mating surfaces and displays it through its software. The heat sink interface can be tested, manipulated and repositioned in real time, speeding the trial and error process and eliminating the need for additional assembly. Tactilus® also provides the pressure data needed for FEA simulation predictions.

Unlike conventional transducers, the Tactilus® sensor is flexible and only 0.015″ thick (0.38 mm), allowing it to be placed between the CPU and heat sink without affecting the assembly. The sensor pad has 625 resistive sensing points arrayed on a 25 × 25 grid. The total sensing area is 2″ × 2″ The scan speed is up to 1,000 Hz, and the operating pressure range is 0-100 psi (0-7 kg/cm2).

Tactilus® collects and processes sensor data using powerful, easy to use, Windows®-based software that performs the following tasks:

  • creates pressure vs time graphs and histograms;

  • performs 2D, 3D and 360° image rendering and region of interest scaling;

  • displays maximum, minimum and average pressures and does force integrations; and

  • prepares reports through export to Excel, ASCII, or Access formats.

The Tactilus® sensor system will endure hundreds of diagnostic uses on different heat sinks with consistent repeatability. It is highly resistant to electromagnetic noise, temperature and humidity fluctuations. Accuracy is ±10 percent, repeatability is ±2 percent, hysteresis is ±5 percent and non-linearity is ±1.5 percent.

The Tactilus sensor system is very versatile and can be adapted to virtually any measurement modality or application to see surface pressure distribution in real time. It is used to map and measure surface pressure distribution at the interface of tire tread footprints, door seals, heat seals, fuel cells, printed circuit boards, flat panel displays and wafer polishing, among its many uses.

Sensor products provides off-the-shelf as well as custom design solutions for special applications. In addition, dynamic-link library files and the graphical user interface (GUI) can be tailored to the customer’s request.

For additional information, please contact: Sensor Products, Inc. USA. Tel.: 973-884-1755; e-mail: info@sensorprod.com; web site: www.sensorprod.com/dynamic/heatsink

About Sensor Products, Inc. (USA)

Headquartered in New Jersey and established in 1990, Sensor Products, Inc. is a world leader in the manufacture and distribution of tactile pressure sensing solutions. Their customised and off-the-shelf products are installed within all of the Fortune 500 industrial companies as well as thousands of smaller manufacturing firms. Their sensors are used in applications as diverse as tire testing to semiconductor manufacturing and from R&D labs to space missions. Additionally, sensor products provide in-house and on-site stress and pressure mapping analysis, as well as a variety of regional technical seminars.

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