600V CoolMOS™ S7A
Best-in-class RDS(on) * A SJ MOSFET for slow switching automotive applications
The automotive grade 600 V CoolMOS™ S7A superjunction MOSFET addresses xEV applications where MOSFETs are switched at low frequency, such as HV eFuse, HV eDisconnect and on-board charger in the slow-switching leg of the PFC stage.
The innovative package concept offered both in the top-side cooled (TSC) and bottom-side cooled (BSC) QDPAK combined with superior robustness and performance of the CoolMOS™ S7A MOSFET meet the stringent requirements for increased power density, safety, and reliability in these applications.
The new MOSFET design offers a cost-optimized, distinctively low on-resistance RDS(on) of 10 mOhm, enabling increased power density and minimized conduction losses while meeting the highest automotive quality going well beyond the AEC-Q101 standard.
Both the top-side cooled QDPAK and bottom-side cooled QDPAK packages offer increased efficiency and controllability thanks to their intrinsic kelvin source, high power dissipation capability, and innovative cooling concept.
The CoolMOS™ S7A family is built on a successful technical optimization of the renowned CoolMOS™ 7 technology, removing the device’s redundant features related to switching performance, as they are not needed in low frequency switching applications. Thus, this new Infineon technology is cost-optimized, without neglecting quality or performance, and designed to meet the highest automotive quality going well beyond the AEC Q101 standard.
QDPAK top-side cooled innovative technology allows for bigger chip implementations reaching the lowest RDS(on) in the market in an SMD. Thanks to its built-in 4th pin Kelvin source configuration and low parasitic source inductance, switching losses are minimized while controllability and ease of use are increased. The cooling concept it offers, enables the thermal decoupling of board and semiconductor. This way, higher chip temperatures are possible and system designers can benefit from the increased flexibility in the PCB design.
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CoolMOS™ S7A is the semiconductor solution for HV eDisconnect and HV eFuse. It answers eMobility needs with respect to reliability (maintenance-free), flexible and cost optimized system integration, scalability and minimized failure propagation.
CoolMOS™ S7A can bring clear benefits in on-board charger PFC stage. An efficiency improvement of +0.5% and a reduction in power losses of -30% can be achieved in a classic boost PFC topology by replacing the diode bridge with the S7A in an ALR (active line rectification) configuration.
- OptiMOS™ 7 40 volts is Infineon’s new automotive MOSFET technology.
- It presents a 25 percent Ron improvement when compared to the previous OptiMOS™ 6.
- Be familiar with Infineon’s measures to reduce the failure rate and to prove the quality level of a product
- Identify the right product based on given target application requirements
- Get to know today`s fast growing automotive MOSFET market.
- Know more about Infineon`s wide MOSFET selection for 48 V mild-hybrid electric vehicle, or MHEV, applications.
- Learn how Infineon defines a true culture of quality.
- Get to know Infineon`s Zero Defect approach and how Infineon goes beyond the requiriments when it comes to automotive MOSFET qulification.
- Get to know Infineon’s Automotive MOSFET data sheet.
- Improve your understanding of the parameters and diagrams in the document, which will help you better evaluate the device’s limits and capabilities.
- Be familiar with top-side cooling.
- Learn how you can get the most out of your TOLT package.
- Know the different 48 V applications for the new drivetrain architectures.
- Get an overview of Infineon`s comprehensive MOSFET portfolio.
- Have an overview of the converters needed in electric vehicles.
- Analyze the 2-quadrant converter topology in buck and boost mode and the half-bridge converter with center tap rectification topology.
- Recognize the different types of setups in the data sheets.
- Be able to calculate the junction-to-ambient thermal resistance value, the power losses, and the static DC current.