Wolfspeed understands the technological challenges that EVs present for engineers, especially when it comes to power and EV charging solutions.
The electric vehicle (EV) market is expected to jump from 3.2 million units in 2019 to nearly 27 million units by the year 2030. Major players in this industry are expected to invest over $350 billion in the near future to grow the electric vehicle market.
While electric vehicles are becoming more commonplace, many consumers continue to have concerns about range and charging capabilities. For decades, the consumer driving experience has been powered by fossil fuels, and refueling meant a quick stop at the gas station to top off the tank. The prospect of a lengthy charging process to keep your car traveling down the road or of being limited to using a stand-alone charging station are massive deterrents.
On-board battery chargers are the key to keeping EVs powered—they take AC current from the car owner’s home and convert it to DC power to recharge the battery. They are also often capable of harvesting kinetic energy from the vehicle itself to provide additional charge when braking. But traditional silicon has made these systems very limited in both their output, size and speed.
Traditional silicon has limitations, particularly when it comes to high-power applications like those of on-board charging systems. But Wolfspeed Silicon Carbide (SiC) is uniquely capable of handling higher voltages and currents, taking on even the most challenging of power applications.
Wolfspeed Silicon Carbide also enables OBCs with bidirectional energy-transferring capabilities. This means automotive manufacturers can design systems that can both receive energy from the grid and give it back, helping to stabilize the electrical grids of the future, or even power an owner’s critical home systems during a power outage.
Wolfspeed products represent the culmination of years of experience and expertise, where quality meets innovation to help bring your design forward. Wolfspeed’s 1200V and 650V Silicon Carbide MOSFETs offer the industry’s lowest drain-to-source on-resistances, enabling up to 50% higher power density, which means more power to charge your battery with a smaller and lighter charger.
Product SKU | Buy Online | Request Sample | Data Sheet | CAD Model | Blocking Voltage | RDS(ON) at 25°C | Generation | Current Rating | Gate Charge Total | Output Capacitance | Total Power Dissipation (PTOT) | Maximum Junction Temperature | Package | Qualification |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
E3M0160120K Coming Soon | 1200 V | 160 mΩ | Gen 3 | 17 A | 38 nC | 39 pF | 115 W | 175 °C | TO-247-4 | Automotive | ||||
E3M0040120K New | 1200 V | 40 mΩ | Gen 3 | 57 A | 94 nC | 100 pF | 242 W | 175 °C | TO-247-4 | Automotive | ||||
E3M0032120K New | 1200 V | 32 mΩ | Gen 3 | 67 A | 113 nC | 126 pF | 278 W | 175 °C | TO-247-4 | Automotive | ||||
E3M0021120K New | 1200 V | 21 mΩ | Gen 3 | 104 A | 177 nC | 174 pF | 405 W | 175 °C | TO-247-4 | Automotive | ||||
E3M0016120K New | 1200 V | 16 mΩ | Gen 3 | 125 A | 223 nC | 231 pF | 483 W | 175 °C | TO-247-4 | Automotive | ||||
E3M0045065K New | 650 V | 45 mΩ | Gen 3 | 46 A | 64 nC | 99 pF | 150 W | 175 °C | TO-247-4 | Automotive | ||||
650 V | 60 mΩ | Gen 3 | 37 A | 49 nC | 72 pF | 131 W | 175 °C | TO-247-4 | Automotive | |||||
650 V | 60 mΩ | Gen 3 | 37 A | 46 nC | 72 pF | 131 W | 175 °C | TO-247-3 | Automotive | |||||
900 V | 120 mΩ | Gen 3 | 22 A | 18 nC | 48 pF | 83 W | 150 °C | TO-263-7 | Automotive | |||||
1200 V | 75 mΩ | Gen 3 | 32 A | 57 nC | 58 pF | 145 W | 175 °C | TO-247-3 | Automotive | |||||
1200 V | 75 mΩ | Gen 3 | 32 A | 55 nC | 58 pF | 145 W | 175 °C | TO-247-4 | Automotive |
Product SKU | Buy Online | Request Sample | Data Sheet | CAD Model | Blocking Voltage | RDS(ON) at 25°C | Generation | Current Rating | Gate Charge Total | Output Capacitance | Total Power Dissipation (PTOT) | Maximum Junction Temperature | Package | Qualification |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
650 V | 25 mΩ | Gen 3 | 97 A | 108 nC | 178 pF | 325 W | 175 °C | TO-247-3 | Industrial | |||||
650 V | 25 mΩ | Gen 3 | 97 A | 112 nC | 178 pF | 326 W | 175 °C | TO-247-4 | Industrial | |||||
650 V | 45 mΩ | Gen 3 | 49 A | 63 nC | 101 pF | 176 W | 175 °C | TO-247-3 | Industrial | |||||
650 V | 120 mΩ | Gen 3 | 22 A | 28 nC | 45 pF | 98 W | 175 °C | TO-247-3 | Industrial | |||||
650 V | 120 mΩ | Gen 3 | 21 A | 26 nC | 45 pF | 86 W | 175 °C | TO-263-7 | Industrial | |||||
650 V | 120 mΩ | Gen 3 | 22 A | 28 nC | 45 pF | 98 W | 175 °C | TO-247-4 | Industrial | |||||
650 V | 60 mΩ | Gen 3 | 29 A | 46 nC | 80 pF | 150 W | 175 °C | TO-247-3 | Industrial | |||||
650 V | 60 mΩ | Gen 3 | 36 A | 46 nC | 80 pF | 136 W | 175 °C | TO-263-7 | Industrial | |||||
650 V | 60 mΩ | Gen 3 | 37 A | 46 nC | 80 pF | 150 W | 175 °C | TO-247-4 | Industrial | |||||
650 V | 45 mΩ | Gen 3 | 49 A | 63 nC | 101 pF | 176 W | 175 °C | TO-247-4 | Industrial | |||||
900 V | 280 mΩ | Gen 3 | 11.5 A | 9.5 nC | 20 pF | 54 W | 150 °C | TO-247-3 | Industrial | |||||
900 V | 280 mΩ | Gen 3 | 11.5 A | 9.5 nC | 20 pF | 50 W | 150 °C | TO-263-7 | Industrial |
Product SKU | Buy Online | Request Sample | Data Sheet | CAD Model | Blocking Voltage | Current Rating | Generation | Forward Voltage(VF(type)) | Maximum Continuous Current (IF) | Total Capacitive Charge (QC (typ)) | Total Power Dissipation (PTOT) | Package | Qualification |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
650 V | 30 A | Gen 3 | 1.5 V | 30 A | 43 nC | 179 W | TO-247-3 | Automotive | |||||
650 V | 20 A | Gen 3 | 1.5 V | 20 A | 110 nC | 250 W | TO-247-3 | Automotive | |||||
650 V | 8 A | Gen 3 | 1.5 V | 8 A | 50 nC | 176 W | TO-263-2 | Automotive | |||||
1200 V | 10 A | Gen 4 | 1.5 V | 10 A | 56 nC | 166 W | TO-220-2 | Automotive | |||||
1200 V | 20 A | Gen 4 | 1.5 V | 20 A | 110 nC | 250 W | TO-263-2 | Automotive | |||||
1200 V | 20 A | Gen 4 | 1.5 V | 20 A | 52 nC per leg | 176 W | TO-247-3 | Automotive |
Wolfspeed not only offers the solutions to bring your design into the future of automotive technology, but our Reference Designs can help you accelerate your design cycle process. Reference Designs include full system design resource package with schematics, BOM, and more.
Name | Topology | Status | Package | Designed By | Product SKU | View Product |
|---|---|---|---|---|---|---|
AC to DC | Paper Design Only | TO-247-4 | Wolfspeed | CRD-22AD12N | ||
AC to DC | Paper Design Only | TO-247-3 | Texas Instruments | |||
AC to DC, DC to DC | Paper Design Only | TO-247-4, TO-247-3 | Wolfspeed | CRD-06600FF065N-K | ||
DC to DC | Paper Design Only | TO-247-4 | Wolfspeed | CRD-22DD12N | ||
DC to DC | Paper Design Only | TO-247-4 | Texas Instruments | TIDA-010054 | ||
DC to DC | Paper Design Only | TO-247-3 | Wolfspeed | CRD-06600DD065N |
From its inception, Wolfspeed has been focused on the future, and that Silicon Carbide power is the technology that can bring your business forward.
Wolfspeed has more 30 years of experience in Silicon Carbide power and 7+ trillion installed field hours. We have invested in the future of Silicon Carbide technology and are expanding our capacity thirtyfold to support your business’s growth. With more than 20 years of diode and MOSFET production, we are equipped to supply the components that enable the future of On-Board Chargers.
