Silicon Substrate

Semicera Silicon Substrates are precision-engineered for high-performance applications in electronics and semiconductor manufacturing. With exceptional purity and uniformity, these substrates are designed to support advanced technological processes. Semicera ensures consistent quality and reliability for your most demanding projects.

Semicera Silicon Substrates are crafted to meet the rigorous demands of the semiconductor industry, offering unparalleled quality and precision. These substrates provide a reliable foundation for various applications, from integrated circuits to photovoltaic cells, ensuring optimal performance and longevity.

The high purity of Semicera Silicon Substrates ensures minimal defects and superior electrical characteristics, which are critical for the production of high-efficiency electronic components. This level of purity helps in reducing energy loss and improving the overall efficiency of semiconductor devices.

Semicera employs state-of-the-art manufacturing techniques to produce silicon substrates with exceptional uniformity and flatness. This precision is essential for achieving consistent results in semiconductor fabrication, where even the slightest variation can impact device performance and yield.

Available in a variety of sizes and specifications, Semicera Silicon Substrates cater to a wide range of industrial needs. Whether you are developing cutting-edge microprocessors or solar panels, these substrates provide the flexibility and reliability required for your specific application.

Semicera is dedicated to supporting innovation and efficiency in the semiconductor industry. By providing high-quality silicon substrates, we enable manufacturers to push the boundaries of technology, delivering products that meet the evolving demands of the market. Trust Semicera for your next-generation electronic and photovoltaic solutions.

Elementi	Produzione	Ricerca	Manichino
Parametri cristallini
Politipo	4H
Errore di orientamento della superficie	4±0.15°
Parametri elettrici
Drogante	azoto di tipo n
Resistività	0,015-0,025ohm · cm
Parametri meccanici
Diametro	150,0 ± 0,2 mm
Spessore	350 ± 25 µm
Orientamento piatto primario	[1-100]±5°
Lunghezza piatta primaria	47,5 ± 1,5 mm
Piatto secondario	Nessuno
TTV	≤5 µm	≤10 µm	≤15 µm
LTV	≤3 μm (5mm*5mm)	≤5 μm (5 mm*5 mm)	≤10 μm (5 mm*5 mm)
Arco	-15μm ~ 15μm	-35μm ~ 35 μm	-45μm ~ 45μm
Ordito	≤35 µm	≤45 µm	≤55 µm
Front (Si-Face) Rughess (AFM)	RA≤0,2 nm (5μm*5μm)
Struttura
Densità di micrivipe	<1 ea/cm2	<10 ea/cm2	<15 ea/cm2
Impurità dei metalli	≤5E10atoms/cm2		N / A
BPD	≤1500 ea/cm2	≤3000 ea/cm2	N / A
TSD	≤500 ea/cm2	≤1000 ea/cm2	N / A
Qualità anteriore
Davanti	Si
Finitura superficiale	Si-Face CMP
Particelle	≤60ea/wafer (dimensione≥0,3μm)	N / A
Graffi	≤5ea/mm. Lunghezza cumulativa ≤Diameter	Diametro cumulativo della lunghezza ≤2*	N / A
Buccia/pozzi/macchie/striature/crepe/contaminazione	Nessuno		N / A
Bordo chips/riendi/frattura/piastre esadecimale	Nessuno
Aree politepi	Nessuno	Area cumulativa≤20%	Area cumulativa≤30%
Marcatura laser anteriore	Nessuno
Qualità alla schiena
Finitura posteriore	C-FACE CMP
Graffi	≤5ea/mm, lunghezza cumulativa≤2*diametro	N / A
Difetti posteriori (bordo chip/rientri)	Nessuno
Rugosità posteriore	RA≤0,2 nm (5μm*5μm)
Marcatura laser sul retro	1 mm (dal bordo superiore)
Bordo
Bordo	Smussare
Confezione
Confezione	Prepasto EPI con imballaggio a vuoto Packaging a cassette multi-wafer
*Note ： “NA” significa che nessuna richiesta di richiesta non menzionata può fare riferimento a semi-std.