Advantest Expands M4841 Handler with Active Thermal Control for Faster Device Throughput and Test Times
ATC 2.0 Option Enables Dynamic Multisite Sensing and Regulation of Device Temperature for Optimized Test of High-End Automotive SoCs
Advantest announced a new Active Thermal Control (ATC) option for its M4841 high-volume device handler in October. ATC 2.0 provides dynamic regulation of temperature fluctuations caused by automotive semiconductors self-heating during test, helping to ensure more accurate production test of up to 16 advanced systems-on-chip (SoCs) in parallel with higher throughput and shorter test times.
Massive amounts of data processing are required for devices used to power electric vehicles (EVs) and other fast-growing, data-intensive automotive applications such as infotainment systems and forthcoming Level 4 autonomous driving. Advances in semiconductor manufacturing processes bring improvements in functionality as well as enhanced power efficiency for these advanced devices. As a result, thermal design power is actually increasing, causing devices to self-heat during test and making it more difficult to control test temperature. This creates a need for handlers that can perform prompt, stable device temperature management.
Replacing the handler’s prior passive thermal control technology, integrated ATC enables the M4841 to provide a stable, consistent test environment with fast response and high load-tracking characteristics that maintain the device’s internal temperature at the set test temperature, even if dynamic heat fluctuation occurs during the test. This stability enables users to build test programs with unparalleled implementation flexibility – in turn, significantly enhancing overall test productivity.
Advantest’s M4841 handler with ATC 2.0 enables high-throughput test of up to 16 devices in parallel, yielding very high device volumes and supporting a range of complex ICs and packages. Its advanced performance capabilities and features make the M4841 the optimal test handler for high-volume production of devices used in consumer products such as portable digital equipment and automotive systems.