2″ Gallium Oxide Substrates– Optimize your semiconductor devices with Semicera’s high-quality 2″ Gallium Oxide Substrates, engineered for superior performance in power electronics and UV applications.
Semicera is excited to offer 2″ Gallium Oxide Substrates, a cutting-edge material designed to enhance the performance of advanced semiconductor devices. These substrates, made from Gallium Oxide (Ga2O3), feature an ultra-wide bandgap, making them an ideal choice for high-power, high-frequency, and UV optoelectronic applications.
Caratteristiche chiave:
• Ultra-Wide Bandgap: IL 2″ Gallium Oxide Substrates provide an outstanding bandgap of approximately 4.8 eV, allowing for higher voltage and temperature operation, far exceeding the capabilities of traditional semiconductor materials like silicon.
• Exceptional Breakdown Voltage: These substrates enable devices to handle significantly higher voltages, making them perfect for power electronics, especially in high-voltage applications.
• Excellent Thermal Conductivity: With superior thermal stability, these substrates maintain consistent performance even in extreme thermal environments, ideal for high-power and high-temperature applications.
• High-Quality Material: IL 2″ Gallium Oxide Substrates offer low defect densities and high crystalline quality, ensuring the reliable and efficient performance of your semiconductor devices.
• Applicazioni versatili: These substrates are suited for a range of applications, including power transistors, Schottky diodes, and UV-C LED devices, offering a robust foundation for both power and optoelectronic innovations.
Unlock the full potential of your semiconductor devices with Semicera’s 2″ Gallium Oxide Substrates. Our substrates are designed to meet the demanding needs of today’s advanced applications, ensuring high performance, reliability, and efficiency. Choose Semicera for state-of-the-art semiconductor materials that drive innovation.
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Elementi |
Produzione |
Ricerca |
Manichino |
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Parametri cristallini |
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Politipo |
4H |
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Errore di orientamento della superficie |
4±0.15° |
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Parametri elettrici |
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Drogante |
azoto di tipo n |
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Resistività |
0,015-0,025ohm · cm |
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Parametri meccanici |
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Diametro |
150,0 ± 0,2 mm |
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Spessore |
350 ± 25 µm |
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Orientamento piatto primario |
[1-100]±5° |
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Lunghezza piatta primaria |
47,5 ± 1,5 mm |
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Piatto secondario |
Nessuno |
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TTV |
≤5 µm |
≤10 µm |
≤15 µm |
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LTV |
≤3 μm (5mm*5mm) |
≤5 μm (5 mm*5 mm) |
≤10 μm (5 mm*5 mm) |
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Arco |
-15μm ~ 15μm |
-35μm ~ 35 μm |
-45μm ~ 45μm |
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Ordito |
≤35 µm |
≤45 µm |
≤55 µm |
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Front (Si-Face) Rughess (AFM) |
RA≤0,2 nm (5μm*5μm) |
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Struttura |
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Densità di micrivipe |
<1 ea/cm2 |
<10 ea/cm2 |
<15 ea/cm2 |
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Impurità dei metalli |
≤5E10atoms/cm2 |
N / A |
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BPD |
≤1500 ea/cm2 |
≤3000 ea/cm2 |
N / A |
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TSD |
≤500 ea/cm2 |
≤1000 ea/cm2 |
N / A |
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Qualità anteriore |
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Davanti |
Si |
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Finitura superficiale |
Si-Face CMP |
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Particelle |
≤60ea/wafer (dimensione≥0,3μm) |
N / A |
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Graffi |
≤5ea/mm. Lunghezza cumulativa ≤Diameter |
Diametro cumulativo della lunghezza ≤2* |
N / A |
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Buccia/pozzi/macchie/striature/crepe/contaminazione |
Nessuno |
N / A |
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Bordo chips/riendi/frattura/piastre esadecimale |
Nessuno |
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Aree politepi |
Nessuno |
Area cumulativa≤20% |
Area cumulativa≤30% |
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Marcatura laser anteriore |
Nessuno |
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Qualità alla schiena |
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Finitura posteriore |
C-FACE CMP |
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Graffi |
≤5ea/mm, lunghezza cumulativa≤2*diametro |
N / A |
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Difetti posteriori (bordo chip/rientri) |
Nessuno |
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Rugosità posteriore |
RA≤0,2 nm (5μm*5μm) |
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Marcatura laser sul retro |
1 mm (dal bordo superiore) |
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Bordo |
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Bordo |
Smussare |
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Confezione |
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Confezione |
Prepasto EPI con imballaggio a vuoto Packaging a cassette multi-wafer |
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*Note : “NA” significa che nessuna richiesta di richiesta non menzionata può fare riferimento a semi-std. |
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