Newsletter4Engineers - March 2019
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The e-mobility revolution is rolling in at high speed, but there’s one bump in the road: Slow battery charging times. That’s why we support fast electric vehicle (EV) charging stations equipped with powerful DC chargers that allow much faster charging than standard AC EV chargers installed in most homes.
Powered by the wide range of Infineon's components, a new 150 kW DC charger can charge an electric vehicle for a 200 km range in just 15 minutes. And our experts are partnering with the best companies in the field to speed up charging times even further.
With decades of experience in e-mobility charging solutions, we offer a one-stop shop of high-quality components from power and control to sensor and security. Visit our fast EV charging page now to learn more about our leading power density and best-in-class efficiency solutions in your DC EV charging designs.
Sincerely,
Your Infineon Community Team |
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Tackling the challenges of electric vehicle fast charging
Explore the growing electric vehicle market and the demands it's placing on society to deliver battery-charging as easy as today's refueling. Learn the standards around electric vehicle chargers plus the approaches and topologies that are gaining momentum.
How? Choose our exclusive white paper or extended slide-set.
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Comprehensive solutions for fast charging design
This video gives you an answer what you need to know to design fast electric vehicle chargers with up to 350 kW.
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Webinar: Comprehensive solutions for fast EV charging design
Join our webinar: get introduced to fast EV charging, find out Infineon’s contribution to the field, and see where application trends and requirements are going.
Register for the webinar on March 27, 2019.
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Easy modules with CoolSiC™ for DC EV Charger
Get your head around the 1200 V CoolSiC™ MOSFET power models in Easy housing. The CoolSiC™ Easy 1B and 2B power modules reduce system costs by increasing power density. With 80% lower switching losses compared to silicon IGBTs, inverter efficiency levels can exceed 99% at the same or even higher switching-frequency operation. This is particularly attractive for fast switching applications such as EV Charging.
By combining the easy modules with the right driver, such as 1EDI EiceDRIVER™ compact or the 1ED/2ED EiceDRIVER™ enhanced you will get the best performance.
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CoolMOS™ 7 and EiceDRIVER™ 2EDi for DC EV charger
Boost your EV charging station designs of up to 150 kW with Infineon’s discrete, high voltage SJ MOSFET technologies. While the 600 V CoolMOS™ P7 is recommended in PFC stages, the 600 V CoolMOS™ CSFD and 600 V CoolMOS™ CFD7
enable highest efficiency at best price-performance ratios for the DC-DC stage in EV charging station applications. As every switch needs a driver, with combining the CoolMOS™ SJ MOSFETs with the galvanic isolated half-bridge gate driver IC family, EiceDRIVER™ 2EDi, Infineon offers the ideal system solution. EiceDRIVER™ 2EDi extends end-product lifetime by improving safety of power switches in normal and abnormal grid conditions Together with CoolMOS™ 7 families it lifts efficiency, power density and reliability to their highest.
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Infineon XMC™ – Scalable solutions for power conversion
Infineon has bundled its experience in microcontroller design to offer a portfolio that covers a wide range of industrial applications such as EV charging. With AURIX™, the XMC™ family is the best fit to control your EV charging application from power conversion to system control.
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Security solutions for DC EV Charger
When a user pays to charge an eVehicle, he or she wants to keep personal information private. Our discrete security controller OPTIGA™ TPM2.0 enables secure data transmission between a server backend and the eVehicle, also safeguarding firmware updates for remote maintenance on an EV charging station. By combining a security controller such as OPTIGA™ TPM with OPTIGA™ TRUST B
authentication chips, you can also authenticate component modules in an EV charger as original parts.
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EVAL-IGBT-650V-TO247-4
This board evaluates IGBT performance during switching, for instance in the double pulse test. It allows easy setup and adjustment of main parameters like switching current and voltage, on and off gate resistors and case temperature. Its main features are easy setup and adjustment of the main parameters, optional coaxial shunt for accurate current measurement and complete setup for evaluation of IGBT performance during switching events. It is adaptable for discrete in TO-247 3pin (such as IKW75N65EH5) and TO-247 4pin packages.
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OPTIGA™ Trust B Eval Kit
This evaluation and demonstration kit is an easy way of starting counterfeit protection. It demonstrates an authentication flow and a check of read and write to storage.
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Check thermal condition with IPOSIM for fast charging station
Boost your fast charging station with Infineon high power modules, check and compare the thermal and efficiency performance of the modules with IPOSIM:
- Click the DC-DC Boost topology
- Login with myInfineon account
- Set the parameters, choose up to 5 products for comparison and go for simulation
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NEW! Power and Sensing Selection Guide 2019
The Power and Sensing Selection Guide 2019 has been released! The new edition provides a selection of a wide range of world-class power, sensor, and security products for today’s and tomorrow’s system solutions across power management and sensing applications.
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Industrial 4.0 – Programmable Logic Control Webinar
Discover how Infineon answers today’s challenges in PLC applications by answering with its robust, secure and reliable system solutions.
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Smart master switch ensures safety power supply
The battery disconnect switch is a cost efficient solution for commercial, construction and agricultural vehicles (CAV). For highly automated driving, commercial vehicles require an E/E architecture, which ensure safety-critical processes such as steering and breaking at all times. The small battery disconnect switch solution is easier to integrate, costs less and requires less development effort. Ideal dimensions measure just 100 x 50 mm. Infineon ensures a solution oriented application for you including digital twin virtualization: 24 V
Automotive Battery Switch Demonstrator using Low Quiescent Current back to back MOSFET Driver AUIR3241S.
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