SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Silicon carbide semiconductors are used in next generation EV inverters and chargers, enabling 20% longer range and 50% shorter charging times

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Electricity produced by wind turbines and solar panels has to be adjusted to match the grid and SiC semiconductors perform this function with up to 50% less losses than Si.

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Silicon carbide semiconductors used in EVs and clean energy are made on wafers sliced from crystals, which are grown using Zadient source material

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Zadient produces silicon carbide source material for growing crystals that is up to 99.999999% (8N) pure and that can help increase crystal yields

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Zadient source material plant, Leipzig, Germany

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Zadient is using its unique source material to develop new growth technologies targeting yield improvements in large diameter crystals

SILICON CARBIDE SEMICONDUCTOR MATERIALS FOR THE ELECTRIC AGE

Zadient Headquarters, Chambery, France

MAKING A DIFFERENCE FROM THE START

Zadient produces the starting materials that enable the entire silicon carbide (SiC) value chain

Value chain material

Source
Material

Value chain material

Crystal Growth Technology

Wafers

Chips

Power Systems Inverters Chargers

Devices and
modules

RF systems Amplifiers Generators

Power
Apps

Radio
Frequency (RF) Apps

Transport

EV
Rail
Aviation

Energy

Wind /
Solar
Battery Storage
Smart Grid

Comms

Data
Center

Comms/
industial

5G
Space
Radar
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