Test Chambers | Environmental Chambers | Temperature Forcing | Thermal Chambers | Thermal Test System | Environmental Test Chambers | Temperature Cycling
Applications & Industry Segments
Temperature Test Semiconductor IC DevicesLearn More
Temperature Test Aerospace Military DefenseLearn More
Temperatutre Test Telecommunications DevicesLearn More
Semiconductor Industry & Application
In the semiconductor manufacturing process, product engineers design integrated circuits IC devices. The process of manufacturing semiconductors or integrated circuits (commonly called ICs, or chips) typically consists of more than a hundred steps, from the start of the process in the front-end to back-end packaging, test and assembly to final test and ship out to the customers.
Product Engineers and Test Engineers in the lab and on the semiconductor production test floor use and share the ThermalAir system tool to bring their devices to temperature from -55⁰C to +125⁰C. Our systems generate a hot and cold thermal air stream directly on the device under test (DUT).
Environmental Temperature Testing Critical Electronics Electro-Mechanical Parts and Materials in Vehicles
Automotive components manufacturers have the need to improve product quality and reliability. All types of transportation vehicles have higher system environmental temperature testing requirements. Car manufacturers today are faced with increasing challenges with environmental thermal testing.
Test Engineers can use ThermalAir system equipment and our test chambers to bring their automotive components to temperature from -4oC to +125C. Our systems generate a hot and cold thermal air stream directly on the parts that require thermal testing.Our bench top chambers used in combination with the ThermalAir families of products have a temperature range from -1ooC to +3ooC without the use of LN2 or Co2.
Our thermal systems are self-contained. They just need to be plugged in and you‘re readyto bring temperature to your test. This let you easily temperature test your automotive critical electronics – electro-mechanical parts and electronics and non-electronics components.
Temperature Test for Harsh Environments
The aerospace and defense industry has experienced a boom over the recent years, and the need for safe, quality components and products is now a heightened priority.
MPI Thermal systems meet MIL-STD-883 standard.
Our ThermalAir products institutes uniform methods to generate hot and cold temperature for mil aero temperature range of -55C to +125C.
Aerospace/Defense Application and Test Processes which use Temperature
- Environmental Stress Screening
- Temperature Cycling
- Thermal Stock
- Simulation Testing
- Material Fatigue
- Functional Test
- Accelerated Life Test
- Failure Analysis
- Final Test
Fiber Optic Component
Commercial SFPs and other Fiber Optic components are designed to withstand temperatures between 0C to +70C. Some of RAD’s SFPs are industry hardened versions, designed and tested to operate from -40C to +85C at a temperature margin within the set point better than +/- 1.0C accuracy.
These and other families of Fiber Optic Transceivers specified temperature range may vary according to where the product in which the Fiber Optical Component SFP and others are used.
- Industrially Hardened
- DDM Calibration
- External DDM Calibration
- And More Advance specification requirements
Standard environmental chambers cannot meet the narrow temperature accuracy margins.
ThermalAir produces a hot and cold stream of air directed on the device under test with very precise thermal control providing a temperature range from -40C to +90C with an accuracy of +/- 1.0C for fiber optic components.
Sensor Electronics & Test Applications
In today’s technologies, sensors play a big role in many business and industry applications. Sensors are used in consumer products, automotive, industrial, aerospace and other electronic and non-electronic applications.
Electronic Temperature Test Applications
When your thermal test requires focused localized temperatures at the test area, ThermalAir 5000 temperature inducing equipment can be the used to provide temperatures from -100C to +300C.
All types of electronic components need to be temperature stressed and thermal tested to make sure company products are unaffected by changes in temperature and other environmental stresses.
The ThermalAir 5000 can provide accurate temperature stimuli so the components manufacturing companies can design, develop and produce high reliable quality parts that meet the demands of today’s technologies.
MPI Thermal temperature inducing equipment is portable and easily moved from one test to another.
Component manufacturering companies use our self-contained ThermalAir TA-5000 System to quickly bring test parts to temperature at the test area (directly on the unit under test).
Temperature cycling, thermal profiling and other environmental temperature conditioning is why MPI Thermal systems are part of the manufacturing temperature test process.
This new thermal test technology gives the end user the ability to easily test while control the ramp rate speed with one touch temperature set point functions.
ThermalAir Series systems provides temperature hot & cold directly to automotive electronic and non-electronic parts.
Applications & Industry Segments
Ramp & Cycle Temperature Test ThermalAir Systems for Automotive components
- One systems fits all temperature ranges -100 C to +300 C
- Plug in anywhere 200VAC/25OVAC, 20amp, 50/60Hz
- Up to 20 SCFM continuous airflow capacity Hot & Cold
- Fastest temperature ramp rates without the use of LN2 or CO2
- Systems are easily moved for sharing between workstations or testers.
Bringing temperature to your test for electronics devices and other components from temperature -100C to +300C.