TDK solutions for EV charging infrastructure
With the global commitment to reduce CO2 emissions, e-mobility is increasingly gaining momentum. Only with a dense charging infrastructure can the accustomed level of mobility be guaranteed. DC fast-charging technology is an important element, providing drivers with enough energy for long distances in a short charging time, especially on long journeys. In the future, DC charging technology will also be available for private charging, on the one hand to use the driver’s own solar power and on the other hand to use the car as a storage medium. The efficiency of the charging station is an important performance feature. TDK offers components with minimal power dissipation for this purpose.
Avnet Abacus works closely with TDK to provide you with the highest level of engineering support for your design. Explore the products and resources on this page, or if you’re ready to take the next step you can get in touch with our FAEs in your local language.
Featured products
TDK
MT25/MT30 series ThermoFuse® varistors
TDK MT25/MT30 series ThermoFuse® resistors are equipped with monitor outputs and integrated thermal protective components for overvoltage protection.
TDK
MKP-Y2 high-temperature capacitors
Designed for interference suppression, EPCOS MKP-Y2 capacitors feature capacitance ranges from 1nF to 1µF with a maximum rated voltage of 300VAC.
TDK
EPCOS B43706*/B43726* screw terminal aluminium electrolytic capacitor
The EPCOS B43706* and B43726* series aluminum electrolytic capacitors with screw terminals are designed for rated voltages between 400 V DC and 500 V DC and cover a capacitance range of 820 µF to 15,000 µF.
TDK
EPCOS B8272xV2xUx current-compensated ring core double chokes
EPCOS B8272xV2xUx current-compensated ring core double chokes from TDK provide high resonance frequency.
TDK
EPCOS ThermoFuse NT14 and NT20 series varistors
The NT14 and NT20 series ThermoFuse varistors are uniquely designed disk varistors that are connected in series with a thermally coupled fuse and are therefore intrinsically safe.
TDK
EPCOS B3275 MKP film capacitors
EPCOS B3275 MKP film capacitors are optimised for use with AC voltages with high ripple currents.
TDK
EPCOS B3292*P series MKP-X2 capacitors
EPCOS B3292*P MKP-X2 capacitors from TDK have been developed for interference suppression and offer a maximum permissible operating temperature of +125°C.
TDK
EPCOS B594*/B597* series PTC inrush current limiters
The EPCOS B594*/B597* series of PTC inrush current limiters are designed for voltages from 280VAC to 560VAC.
TDK
CeraLink® EIA 2220 size capacitors
The EIA 2220 is a smaller, classic chip version of TDK’s CeraLink® range, offering a capacitance of 250nF with very low parasitic coefficients.
TDK
EPCOS B2563xE* series DC link capacitors
The TDK B2563xE* series of power capacitors is designed for DC-link applications.
TDK
HVC43 series high-voltage contactors
TDK’s HCV43 bipolar DC high-voltage contactors offer continuous currents from 150ADC to 250ADC and operating voltages of up to 1000VDC.
TDK
SPM magnetic shield type wound inductors
TDK SPM magnetic shield type wound Inductors for power circuits are a low-profile product lineup with maximum heights of 1.2mm, 1.5mm, 2.0mm, and 3.0mm, allowing for different usages.
EV Charging Tech Days Series - The Power of Three
Join us and learn how we can help you overcome existing EV Charging design challenges.
EV Charging: The Power of Three
Discover how to shorten your time-to-market with end-to-end EV charging infrastructure solutions from EBV, Avnet Abacus and Avnet Embedded.
EV Charging
Ready to take the next step with your EV charging designs?
Discuss your requirements in detail with our EV charging experts.
Avnet Abacus
Design Hub
Browse and review hundreds of proven reference designs to accelerate your design process. Our designs can be modified and saved in our AVAIL design tool and then exported to your CAD tool of choice.
Newsletters
Subscribe to our newsletters
Receive Engineers' Insight and Focus Magazine, plus all the latest NPI and manufacturer information straight to your inbox.