SiC products can energize DC EV Charging designs
SiC products can energize DC EV Charging designs
Silicon Carbide (SiC) based products enable a wide array of advances in high-power applications such as EV charging where efficiency and reliability are crucial.
EliteSiC
SiC provides faster switching frequencies in a smaller package that requires less cooling than silicon only systems. SiC means smaller, more efficient designs.
Diodes products
(left hand size)
- D3 EliteSiC
- D2 EliteSiC
- D1 EliteSiC
MOSFETs products
(right hand size)
- NVXR22S90M2SPx EliteSiC Power Modules
- M3S EliteSiC
- M2 EliteSiC
- NXH00xP120M3F2PTxG EliteSiC Half-Bridge Modules
Driving EliteSiC
- NCP51561 5kVRMS Isolated Dual-Channel Gate Drivers
- NCV51563 Isolated Dual Channel Gate Driver
- NCD57100 Isolated High Current IGBT Gate Driver
- NCD5700 and NCD5701 IGBT Gate Drivers
Graphic showing the number of public charging ports will increase by more than 4x. 2022=2.7 million 2030=12.5 million
(Scale showing voltage) 800v EVs are capable of charging nearly twice as fast as 400V chargers and can add 100km of range in less than 5 minutes
Increasing voltage allows for a lower current, which improves efficiency by reducing resistive losses. (drawing of ev charging station with applicatons around it)
(Image of car charging to DC EV Chargering station) listing
DC EV charger system implementaion
- AC Input Protection
- Auxiliary Power Supply
- DC Output Protection
- Sensor & Meter
- User Interface
- Fan
- Charging Module #1-#5
(Image showing how DC EV charging station works)
- AC chargers rely on an onboard charger to convert to DC before reaching the battery
- DC chargers charge the battery directly
Bottom: Mouser & onsemi logos shown