What are you looking for ?
Advertise with us
RAIDON

Silicon Power Leads with Extreme Temperature Resilient Products

Allowing creation of die bank database that serves variety of brands and NAND chip types

Silicon Power Computer & Communications Inc. is changing the market with its innovative high-performance products that can withstand extreme temperatures.

Silicon Power T1

Its Special Temperature Sorting technology allows the creation of a die bank database that serves a variety of brands and NAND chip types. Their industrial-grade products, such as the standout DRAM modules, perform reliably in temperatures ranging from a freezing -40°C to a scorching 105°C. This consistent performance is crucial for essential industries, including industrial, logistics, and telecom sectors, and is backed by extensive 3,000 Power Cycle tests to ensure durability.

The company’s SSDs also showcase performance, operating comfortably between -20°C to 75°C, which exceeds the standard temperature range. Through rigorous testing from -45°C to 90°C, these SSDs ensure consistent data integrity despite temperature fluctuations and feature strong ECC to address any errors. The DRAM modules are noteworthy for maintaining top performance under extreme conditions, supported by thorough mass production burn-in tests, verifying their functionality from -40°C to 85°C.

Silicon Power uses high-quality, industrial-grade parts, such as top-tier memory chips and controllers, and applies a customized flash memory validation process. This approach combats issues like oxidation, signal loss, and thermal cycling. The company is committed to quality through extensive testing, ensuring its memory products are reliable foundations for advancing businesses. They provide stability, continuous operation, data security, and extended product life.

Click to enlarge

Silicon Power T2

The firm’s dedication to innovation means its clients can count on high-quality products that offer performance, enabling them to overcome various challenges in their operational environments.

Articles_bottom
ExaGrid
AIC
ATTOtarget="_blank"
OPEN-E