Silicon Carbide (SiC) enables engineers to achieve high-voltage power demands for charging stations in a cost-effective way.

SiC power electronics provides higher energy efficiency over existing Si electronics while reducing the form factor by around 10x.

Invertors made of SiC can operate at higher temperatures and voltages compared to those of made of Si, and reduce energy loss during grid-compatible DC-AC conversion.

About Us

WHO WE ARE

WaferLead was founded in Feb 2019, with the ambition of creating complete vertically integrated SiC ecosystem in Singapore to serve the global electronics market. SiC is the next generation material to improve the performance and efficiency of power electronics. Power devices made of SiC technology has ever-increasing applications in the fields of electric vehicles, charging units for electric vehicles, main and mini-grids, solid state transformers, locomotives, and PV and wind generators. Transition from Si devices to SiC devices directly and indirectly enables a huge energy saving, contributing to less greenhouse gas emissions to atmosphere. As the first leg of a long journey, WaferLead has started epi-SiC foundry business in early 2023. The unique feature of WaferLead epitaxial process is that it offers thicker SiC films up to 100 microns with minimum defects. That helps device manufactures to make MOSFET operating at higher voltages up to 10 kV.

Mission

Innovative yet affordable technologies enabling fast evolving power electronics industry.

Vision

Growing together with partners by providing empowering products. That will enable partners to lead the power electronics industry by constantly introducing innovative technological solutions to mass market resulting in elevated public safety, comfort, and living standards.

Our Products

Explore Our all Products

Epi-ready 150mm SiC wafers

Parameter Value
Polytype 4H, n-type
Dopant Nitrogen
Resistivity 15 - 25 mΩ・cm
Primary Surface Si face
Orientation (4± 0.5)° off-axis toward <11-20>
MPD ≤ 1 cm-2
Diameter 150 ± 0.25 mm
Thickness 350 ± 25 µm
Primary Flat Length 47.5± 1.5 mm
Secondary Flat Length no secondary flat
Primary Flat Position <11-20> ± 3°
Surface Process Si-face:CMP polished; epi-ready
C-face: Optical polished
TTV ≤10 µm
Warp ≤40 µm
Bow ±25 µm
LTV ≤2 µm

Epitaxial SiC wafers

Parameter Value
Buffer layer Dopant Nitrogen
Dopant concentration 1x1018 cm-3
Epi thickness 1 to 3 µm
Drift layer Thickness 1 - 100 µm
Thickness uniformity ≤3 % (EE=5mm, 30µm epi-layer)
Thickness tolerance ±5 % (for 30µm film)
Dopant Nitrogen
Dopant concentration 5x1015 -1x1019 cm-3
Dopant tolerance ±15 %
Dopant uniformity ≤10 % (for 30µm film)
Drift layer Surface roughness (Ra) < 0.5 nm
Metal contamination <1 x1011 atoms/cm2
Scratches ≤ 1 x wafer diameter cumulative length
TTV ≤15 µm
Warp ≤50 µm
Bow ±30 µm
LTV ≤5 µm