Active Thermal Control
Where Temperature Dependent Performance
And Reliability Are Critical
Active Thermal Control
Regulates Device Temperature Dynamically Ensuring Accurate Test Conditions And Eliminating Thermal Drift Induced Errors
Our Active Thermal Control system processes real-time junction temperature monitoring to trigger dynamic thermal adjustment during testing, overcoming thermal lag and correlation errors.
- Low latency sensors monitor and regulate device temperature stability within +/- 3 °C during test, ensuring accurate test-to-validation correlation.
- Direct heating and chiller-integrated cooling actively raise or lower device temperature to keep within stipulated test conditions and eliminating thermal-induced binning errors.
- Individual thermal adjustment capability in multi-site setups improved detection of temperature-induced defects for mission-critical ICs of HPC and automotive applications.
Active Thermal Control
Validate to real world operating conditions for High-performance Computing (HPC), Automotive, And 5G Devices
Addresses Critical Thermal Testing Of HPC, Automotive, And 5G Devices
Co-engineering with design teams to ensure thermal validation solutions meets test accuracy, throughput, and compliance with evolving standards
Supports 8x multi-site testing
Dedicated site thermal control with independent direct heating and handler chiller cooling
Eliminates temperature drift effects by maintaining ±0.01°C stability
Closed-loop control architecture monitors temperature at 80Hz frequency to correct heating and cooling deviations in real time
Compatible with leading handler models
Design to operates as standalone or integrated to handshake with leading handler, enabling flexible deployment without disrupting existing workflows
Wide Thermal Test Coverage for comprehensive device testing
Supports demanding validation parameters from -75 °C to 200 °C and device size from 9mm2 to 400 mm2.
Millions Of Cycles Without Impacting Performance
Constructed with CTE-matched, high-efficiency thermal materials to extend service life, while force-biased surfaces prevent excess mechanical stress.
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Through a unique combination of engineering, construction and design disciplines and expertise.