Hi, today we had a talk with Titan Thermal Solutions and of the important person in that company has come to MJIIT to give a talk, please welcome Mr. Vivik Panickereverybody.
Me and Mr. Vivit from Titan Thermal Solutions.
He would talk about Electronic Systerm - Thermal Imagine, and below is I've go when I was there.
Definition Electronic Systems.
Electronic systems are groupings of electronic circuits and components which are designed to accomplish one or more complex functions. Examples include telecommunication systems, computer systems, power distribution systems, radar systems, electronic music systems, and many others.
Overview of Imaging Industry.
Industrial Imaging Solutions provides Non Destructive Testing (NDT) solutions helping customers make the transition to digital imaging. With over twenty years of industry experience, our Level III Engineers have been successfully converting inspection processes to digital inspection within a diverse base of customers and industries.
With extensive experience IIS can support the transition or upgrade in Computer Tomography “CT” (CAT scan systems), Digital Radiography “DR” system, or Computed Radiography “CR” scanners. X-ray Industry services that include: test procedure development, consulting on equipment selection, and the design of custom inspection equipment and project management oversight.
About the photo imaging industry.
Creative Skillset has produced a photo imaging sector profile, drawing on all the information and intelligence gathered from our research and industry consultations.
This profile provides an easy to read picture of the industry today and is essential reading for employers, education and training providers and those interested in a career in photo imaging.
The articles below offer an overview of the profile and you can also download the full Sector Profile and read our latest Labour Market Information Digest.
Thermal Imaging : "More Than Just Pretty Pictures"
"Why do you need thermal imaging? We've always been able to get by with thermocouples or temperature probes." It's surprising how often managers respond this way to capital requests from their engineers looking to upgrade their temperature measuring capability. This may have made sense when electronic designs were simple and all the components were accessible, but times have changed.
Today, devices are smaller, more complex and dissipate more power/cm² than previous generations of technology. This means that traditional point contact measurements may introduce errors due to their thermal mass and heat sinking effects. Also, contact measurements may not be practical for complex mechanical structures or moving materials such as are found in paper, film and steel production.
One alternative finding increasing favor among engineers is infrared (IR) thermal imaging.
This non-contact, line-of-sight measurement technology can measure surface temperatures of virtually any surface. Absolute temperatures can be measured with accuracies better than 3%, while relative temperatures can be measured with accuracies better than 1%.
What are Thermal Imagers?
Thermal imagers are instruments that create pictures of heat rather than light. They measure radiated IR energy and convert the data to corresponding maps of temperatures. Today, instruments provide temperature data at each image pixel and, typically, cursors can be positioned to each point with the corresponding temperature read out on the screen or display. Images may be digitized, stored, manipulated, processed and printed out. Industry-standard image formats, such as the tagged image file format (TIFF), permit files to work with a wide array of commercially available software packages.
Typical of what a thermal image might look like
Thermal Imaging Camera.
A Thermal Imaging Camera (colloquially known as a TIC) is a type of thermographic camera used in firefighting. By rendering infrared radiation as visible light, such cameras allow firefighters to see areas of heat through smoke, darkness, or heat-permeable barriers. Thermal imaging cameras are typically handheld, but may be helmet-mounted. They are constructed using heat- and water-resistant housings, and ruggedized to withstand the hazards of fireground operations. While they are expensive pieces of equipment, their popularity and adoption by firefighters in the United States is increasing markedly due to the increased availability of government equipment grants following the September 11 attacks in 2001. Thermal imaging cameras pick up body heat, and they are normally used in cases where people are trapped where rescuers cannot find them.
Thermal Imaging Camera.
Applications and Uses.
1. Substation electrical inspections
2. Thermal heat loss inspections of buildings
3. Locate radiant heating wires or pipes
4. Locate potential areas for mold growth
5. Flat-roof leak detection for buildings
6. Detect thermal patterns on boiler tubes
7. Mechanical bearing inspections
8. Detect insulation leaks in refrigeration equipment
Some examples of tTermal Imaging Cameras.
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