Send Message
Products
Products
Home > Products > SiC Substrate > 6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade

6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade

Product Details

Place of Origin: China

Brand Name: ZMSH

Model Number: SiC Substrate

Payment & Shipping Terms

Delivery Time: 2-4 weeks

Payment Terms: T/T

Get Best Price
Highlight:

500um SiC Substrate

,

150mm SiC Substrate

,

N Type SiC Substrate

Material:
SiC Monocrystal
Thickness:
350um Or 500um
Dia:
150 Mm
Grade:
P Grade Or D Grade
Orientation:
Off-axis: 4° Toward <11-20> ± 0.5°
Surface:
DSP, Si Face CMP
Material:
SiC Monocrystal
Thickness:
350um Or 500um
Dia:
150 Mm
Grade:
P Grade Or D Grade
Orientation:
Off-axis: 4° Toward <11-20> ± 0.5°
Surface:
DSP, Si Face CMP
6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade

SiC wafer, Silicon Carbide Wafer, SiC Substrate, Silicon Carbide Substrate, P Grade, D Grade, 2inch SiC, 4inch SiC, 6inch SiC, 8inch SiC, 12inch SiC, 4H-N, 4H-SEMI, 6H-N, HPSI type


Character of 4H-N SiC6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade 0

 

- use SIC Monocrystal to manufacture

 

- customization is allowed by design drawings

 

- high performance, high resistivity and low leakage currents

 

- 9.2 Mohs high hardness, just behind diamond

 

- widely used in high-tech areas, like power electronics, LEDs and sensors

 


 

Brief introduction of 4H-N SiC

Silicon carbide (SiC) is a semiconductor material made of silicon and carbon.

It has excellent hardness and strength, making it very durable.

SiC is known for its excellent thermal conductivity, which allows it to efficiently dissipate heat, making it ideal for high-power and high-temperature applications.

 

One of its main properties is a wide bandgap, which enables devices to operate at higher voltages, temperatures, and frequencies than silicon.

SiC also has high electron mobility, which helps enable faster and more efficient electronic devices.

Its chemical stability and resistance to oxidation make it ideal for harsh environments.

 

SiC is widely used in power electronics, where efficiency and durability are critical, as well as high-frequency devices, LEDs, and as a substrate for the growth of other semiconductor materials such as gallium nitride (GaN).

Its properties make it a valuable material in advanced electronic applications.

 


 

More details about 4H-N SiC

*More details will be shown in the following table.

6-inch Diameter 4H N-type Silicon Carbide Substrate Specification
SUBSTRATE PROPERTY Production Grade Dummy Grade
Diameter 150 mm ± 0.1 mm
Surface Orientation off-axis: 4° toward <11-20> ± 0.5°
Primary Flat Orientation <1-100> ± 5.0˚
Primary Flat Length 47.5 mm ± 2.0 mm
Resistivity 0.015~0.028Ω·cm ≤0.1Ω·cm
Thickness 350.0 μm ± 25.0 μm or 500.0 μm ± 25.0 μm
TTV ≤15 μm ≤25 μm
BOW ≤30 μm ≤50 μm
Warp ≤40 μm ≤60 μm
Surface Finish Double Side Polish, Si Face CMP (chemical polishing)
Surface Roughness CMP Si Face Ra≤0.5 nm, C Face Ra≤1 nm N/A
Note: Customerized specifications other than the above parameters are acceptable.

 

 


 

Other samples of 4H-N SiC

*If you have further requirements, we can manufacture the customized ones.

6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade 1


 

Products recommend

1.SiC Substrate 4H-N Thickness 350um Used In Optoelectronics Semiconductor Material

6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade 2

 

2.2Inch Sapphire Wafer Al2O3 monocrystalline Dia 50.80mm Thickness 430um BOW <10 A-plane

6Inch 4H-N Silicon Carbide SiC Substrate Dia 150mm Thickness 350um 500um N Type Prime Grade Dummy Grade 3


 

FAQ

 

1. Q: Where can you use 6-inch 4H-N SiC?

A: There are many areas of application, such as MOSFET, IGBT and diode, suitable for high-power, high-efficiency applications such as electric vehicles, power converters and smart grids.

 

2. Q: How does 4H-N SiC contribute to renewable energy?

A: 4H-N SiC-based power electronics improve the efficiency and reliability of renewable energy systems like solar inverters and wind turbines, enabling better energy conversion and management