Nextreme Thermal Solutions announced the availability of the OptoCooler HV series, a new class of RoHS-compliant high voltage and high heat pumping thermoelectric coolers that are optimized for standard circuitry and power requirements. The first module in the series, the OptoCooler HV14, is the latest product in Nextreme’s OptoCooler™ family of thermoelectric coolers designed specifically for the optoelectronics and telecommunications industry.
The OptoCooler HV14 operates at a maximum voltage of 2.9V and can pump 1.7W of heat at 85°C in a footprint of only 2.8mm². The module can create a temperature differential (DeltaT) of up to 51°C between its hot and cold sides, making it well suited for the cooling and temperature control of optoelectronic devices such as laser diodes and high brightness LEDs.
At the core of the OptoCooler module is Nextreme’s Thermal Copper Pillar Bump, an electronic device made from thin-film thermoelectric material embedded in flip chip interconnects (in particular, copper pillar solder bumps) used in electronic and optoelectronic packaging. Thermal bumps act as solid-state heat pumps and add thermal management functionality locally on the surface of a chip or other electrical component. Nextreme states that it has reduced the size of the thermal bump by 75%, thereby increasing voltages by 300% and reducing current draw by the same proportion. The net result eliminates the need for special voltage conditioning and reduces the overall electrical current required to operate the device.
The new platform uses an array-based assembly (ABA) process that represents a vast improvement in throughput capability and manufacturing tolerances. The ABA process decreases the size of Nextreme’s thermal bumps to approximately 125µ, which makes them flip-chip bumping compatible with standard solder bumping processes commonly used in electronics packaging. Consequently, as product volumes scale, manufacturers of LEDs and other semiconductor chips can integrate cooling and temperature control functionality directly in the package during assembly.
"The new HV Series removes unique voltage and current requirements as barriers to the integration of thin-film thermoelectrics into electronics," said Dave Koester, Vice President of Engineering for Nextreme. "The standard voltages and current operating ranges of the new OptoCooler HV14 fit well within the typical power design criteria for optoelectronic components and systems."