AlGaN/GaN Etch for GaN Power Device Fabrication

SAMCO Inc. > Featured Solutions > AlGaN/GaN Etch 

Gallium Nitride (GaN)

Gallium Nitride (GaN), is one of the most promising materials in compound semiconductors. This material has high electron mobility and a wide band-gap, and it is currently being developed in a variety of applications. One example is the High Brightness Light Emitting Diode (HB LED) device. GaN-based HB LEDs have already been used in consumer electronics such as displays and lighting.
Another application of GaN is the next-generation power device.  It is known that high-concentration two dimensional electron gas (2DEG) are generated at the AlGaN/GaN heterointerface, and the 2DEG has high electron mobility (1500cm²/Vs). Due to the high electrical breakdown strength of GaN (ten times that of Silicon) and the high-concentration 2DEG at the heterointerface, AlGaN/GaN power devices can achieve a high breakdown voltage, high-speed switching and low on-resistance compared to traditional Silicon based power devices. Therefore, the GaN based power devices are expected to be widely used in power generators, trains and electric vehicles.

GaN Power Device Etching

Challenges in GaN Power Device Fabrication

One of the challenges in GaN power device fabrication is to achieve a “normally off” operation. While AlGaN/GaN High Electron Mobility Transistors (HEMT) devices are generally “normally on” and require a circuit to turn off the devices, a normally-off operation is preferred for safety concerns. Multiple device structures have been investigated by researchers and device manufactures in an effort to achieve the “normally off” state. One example is the planar gate AlGaN/GaN HEMT. Another structure is the camel gate AlGaN/GaN HEMT.

There are some challenges in the fabrication of the planar gate structure using plasma etching.

1. Offset time

The native oxide layer on the AlGaN surface prevents the recess etching by 30 to 120 seconds, and it causes offset time. Using high RF power can reduce the etching offset, but it makes it difficult to reproducibly control the remaining thickness of AlGaN and also can result in device damage.

2. Precise and reproducible thickness control of the AlGaN layer

AlGaN thickness control is required for proper formation of a recessed-gate structure. The remaining AlGaN thickness determines the Vg-Id characteristics, and it is critical for reducing drain current.

Also, there are some challenges on the fabrication of a planar gate structure using plasma etching.

3. Gate leakage caused by plasma damage

Plasma damage on the AlGaN layer during Silicon Nitride (SiN) passivation etching causes gate leakage and deteriorates device performance.

4. Etch selectivity of GaN over AlGaN

Over-etching of p-GaN causes damage on AlGaN layer and deteriorates sheet resistance.

Planar gate HEMT structure

Planar Gate AlGaN/GaN HEMT

Camel Gate HEMT Structure

Camel Gate AlGaN/GaN HEMT

 Samco’s Process Capabilities

Damage Reduction on AlGaN Layer

100Bias Power, Low Damage Etch

Samco has developed a low-damage SiN etch process without using bias power. This process can reduce the plasma damage on the AlGaN surface. The zero-bias etch process improves the sheet resistance, electron mobility and carrier concentration, compared to a 25 W bias power etch process.

Plasma Damage reduction on AlGaN surface

High Etch Selectivity of GaN over AlGaN

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Samco solved the selectivity issue by using a small flow of an additive gas (“Gas X”) in a chlorine-based gas plasma mixture. As a result, an etch selectivity of 60:1 (GaN/AlGaN) is achieved, and the etch process is successfully stopped on the AlGaN interface without over-etching. Additionally, the plasma damage on the AlGaN layer is reduced by employing lower RF bias power.
*This data is the result of a die/chip sample. Please get in touch with us for the wafer process.

 The Value of Samco’s Processes


Advantage of SAMCO process solutionsAchievement of “normally off” operation

Samco’s processes have contributed to the development of high-performance GaN power devices.


Advantage of SAMCO process solutionsTurn-key solutions for the device production

Samco offers total solutions combining AlGaN/GaN etch process and passivation film deposition process for improving I-V characteristics.


Advantage of SAMCO process solutionsScalable to 200 mm wafer device fabrication

Samco can process large-diameter GaN-on-Si wafers with high etch uniformity.

System Lineup

ICP Etch Systems

– ICP coils to meet each process demand
– Height-adjustable electrode to optimize the distance between the wafer and plasma source


ICP Etch Systems
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Contact SAMCO for more product information
Any questions? Contact us for more detail.
Contact SAMCO for more product information
Any questions? Contact us for more detail.
Contact SAMCO for more product information
Contact us for more detail.