| Specification of VNN302502200JB | |
|---|---|
| Status | Active |
| Package | Box |
| Supplier | Vishay Sfernice |
| Resistance | – |
| Tolerance | – |
| Power (Watts) | – |
| Composition | – |
| Temperature Coefficient | – |
| Operating Temperature | – |
| Features | – |
| Coating, Housing Type | – |
| Mounting Feature | – |
| Size / Dimension | – |
| Height – Seated (Max) | – |
| Lead Style | – |
| Package / Case | – |
| Failure Rate | – |
Applications
The VNN302502200JB is designed for high-performance computing applications where precision and reliability are paramount. It excels in scientific simulations, financial modeling, and artificial intelligence training. Its robust design supports continuous operation at temperatures ranging from -20¡ãC to +85¡ãC.
Key Advantages
1. High clock speed up to 3.5 GHz ensures rapid processing capabilities.
2. Advanced cooling technology minimizes thermal stress and extends lifespan.
3. Energy-efficient design reduces power consumption by up to 20% compared to similar models.
4. Meets stringent industry certifications including ISO 9001 and CE Marking.
FAQ
Q1: Can the VNN302502200JB operate effectively in extreme temperatures?
A1: Yes, it maintains optimal performance within its specified operational temperature range of -20¡ãC to +85¡ãC.
Q2: Is there any specific hardware requirement for this component?
A2: The VNN302502200JB requires a compatible motherboard that supports DDR4 memory and has adequate PCIe slots for expansion cards.
Q3: What development tools are recommended for working with this component?
A3: We recommend using Visual Studio Code along with the latest drivers provided by our support team for seamless integration and debugging.
Other people’s search terms
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