When to assess quality and reliability test resources
Thermal chambers have found a place in the psyche of test, quality, and production engineers - and for good reason. They can be an ideal test environment when precisely matched to the test specifications. However, often times they are not.
pros and cons of cryogenic vs. compressor-based cooling
Deciding between a cryogenic and compressor-based cooling engine for your thermal chamber or thermal platform can be difficult. Download this application note to better understand the advantages of each cooling engine and to help decide which one best fits your application.
Properly Uncrating a Temperature Forcing System
Watch this video to learn how to properly unpack and un-crate a ThermoStream Temperature Forcing System.
This two-part article, was originally published in Sensors Magazine. In Part 2 we will discuss how cooling capacity and controls affect thermal performance. Part 1 addressed the variables in a test environment and the criteria for matching chamber size to the UUT (Unit Under Test).
This two-part article, originally published in Sensors Magazine, describes engineering considerations for specifying thermal environments to optimize production throughput of temperature-compensated sensors and transmitters. Part I covers chamber configurations, while Part 2 will address thermal environment performance related to heat transfer, uniformity, and controls.
With a remote compressor upgrade kit
ThermoStream models with built-in compressors are great for temperature testing with forced air when no facility air supply is available. The new upgrade kit for ATS-535 and -635 models makes using a ThermoStream in lab and office environments much quieter.
A temperature chamber capable of long dwell times and wide temperature ranges (-55 to 500°C) for Electro/Stress Migration, Time Dependent Dielectric Breakdown, and Hot Carrier / Vt Stability Tests.
How to set the bi-metal fail safe
Watch this video to learn how to set the primary over temperature fail safe on a thermal chamber. The chamber's primary fail safe is a bi-metal switch that protects the chamber from run-away or over temperature conditions. If an over temperature condition occurs, the bi-metal fail safe will trip and shut down the chamber's heating and cooling capabilities. It is factory set at 125°C and must be adjusted for the chamber to operate at temperatures above 125°C.
How to replace the air filters in a Temptronic ThermoStream® temperature forcing system
Watch this video to learn how to change the air filters on a ThermoStream, mobile temperature forcing system. Order service kit CS158580, FILTER ELEMENT KIT, to perform this procedure.
Getting the most out of Thermal Chambers and Temperature Test Systems
Watch this video to learn how using a thermal system with temperature ranges beyond commercial and MIL-STD requirements can improve throughput when characterizing, conditioning, or testing electronics. A temperature environment that goes beyond requirements can speed up the transition time of the unit-under-test (UUT) and bring it to the target temperature much faster.
A video tutorial on automated cycling with a Temptronic ThermoStream® temperature forcing system
Watch this video to learn how to setup, save, and run temperature cycling profiles with the ThermoStream.
Improve Throughput for TXVR characterization and tuning
The rapid pace of transceiver design and high volume production demands high efficiency for characterization and tuning. Thermally, it means that devices must reach their programmed temperatures quickly. The ThermoStream® achieves this by creating a stable environment in seconds.