IPBE65R050CFD7A
650V CoolMOS™ N-channel automotive SJ power MOSFET CFD7A
The 50mOhm IPBE65R050CFD7A in D2PAK 7-pin package is part of the automotive-qualified 650V CoolMOS™ SJ power MOSFET CFD7A product family. As compared to the previous generation, CoolMOS™ CFD7A offers higher reliability and power density while increasing design flexibility.
When using Infineon’s 650 V CoolMOS™ CFD7A technology in combination with the D2PAK 7-pin package, customers benefit from enhanced efficiency and thermal behavior. The Kelvin-source concept used in the D2PAK 7-pin (driver-source pin) overcomes the limitations caused by the source inductance and improves the switching performance. Resulting advantages at system level, especially at high currents, are the reduction of switching losses and heat. Furthermore, the increased creepage distance of 4.2mm between drain and source/gate facilitates device usage for higher battery voltage classes up to 475V.
Zusammenfassung der Merkmale
- AEC-Q101 qualified
- Battery voltages up to 475V without compromising on reliability standards
- Efficiency improvements in hard- and soft-switching topologies up to 98.4%
- Kelvin-source concept for further efficiency improvement
- Intrinsic fast body diode with 30% lower Qrr compared to CoolMOS™ CFDA
Vorteile
- Highest reliability in the field meeting automotive lifetime requirements
- Enabling of higher power density designs
- Scalable as designed for use in PFC and DC-DC stage
- Granular portfolio available
Potentielle Zielanwendungen
- On-board chargers
- Hard-switching topologies (with SiC diode)
- PFC boost-stages
- DC-DC stage of on-board chargers
- HV-LV DC-DC converters
- LLC or full-bridge phase shift (ZVS)
- Auxiliary power supplies
- Explain the basic structure of a power MOSFET (regarding its components influencing thermal behavior)
- Understand how Cauer’s one-dimensional thermal model is derived from it and integrated into the SPICE model and identify the scope, restrictions, and limitations of the thermal model
- Understand two simulation examples that demonstrate how the SPICE model of an automotive power MOSFET works in practice.
- 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.
This training explains the benefits of using the TOLG and the target industrial and automotive applications of this package. It also lists the current available portfolio and explains what you will gain by using the package.
- Introduce Infineon’s automotive MOSFETs for electric two-wheeler applications, its key features, benefits, as well as the technical support available
- Identify the target applications of electric two-wheelers that require automotive MOSFETs.
- Know how a typical battery protection switch works and the importance of MOSFET avalanche robustness
- Identify the best-in-class Infineon offerings of demo boards, MOSFETs and gate drivers
In this video, you will:
- Be familiar with top-side cooling, its uses and benefits
- Learn how you can get the most out of your TOLT package
- Infineon has been expanding the package portfolio for it’s high-performing OptiMOS™ MOSFETs.
- Do you know SSO10T, the latest addition to Infineon’s package family for OptiMOS™ MOSFETs?
- Infineon’s Dual Gate MOSFET (IAUTN08S5N012L) is an 80 V product with an RDS of 1.15 milliohms, making it an ideal choice for use in disconnect switches
- Learn more about this product and its use in power distribution applications in this training
- 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.
- 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.
