| Specification of VNP49N04-E | |
|---|---|
| Status | Obsolete |
| Series | OMNIFET?, VIPower? |
| Package | Tube |
| Supplier | STMicroelectronics |
| Switch Type | General Purpose |
| Number of Outputs | 1 |
| Ratio – Input:Output | 1:1 |
| Output Configuration | Low Side |
| Output Type | N-Channel |
| Interface | On/Off |
| Voltage – Load | 35V (Max) |
| Voltage – Supply (Vcc/Vdd) | Not Required |
| Current – Output (Max) | 30A |
| Rds On (Typ) | 20mOhm (Max) |
| Input Type | Non-Inverting |
| Features | Status Flag |
| Fault Protection | Current Limiting (Fixed), Over Temperature, Over Voltage |
| Operating Temperature | – |
| Mounting Type | Through Hole |
| Supplier Device Package | TO-220 |
| Package / Case | TO-220-3 |
Applications
The VNP49N04-E is designed for high-performance computing applications where power efficiency and reliability are critical. It excels in server environments, providing robust performance under varying loads. Its suitability extends to automotive systems requiring stringent safety standards, such as ADAS features, where it supports complex algorithms efficiently.
In industrial automation, the chip enhances control systems by offering fast processing capabilities and low latency, crucial for real-time monitoring and control tasks. Additionally, its energy-efficient design makes it ideal for embedded systems in consumer electronics, ensuring long battery life without compromising performance.
Operating Temperature: -40¡ãC to +85¡ãC
Key Advantages
1. High clock speed up to 3 GHz, enabling faster processing times compared to similar products.
2. Advanced cache management system that optimizes memory access, reducing latency by up to 20%.
3. Energy-efficient design with a power consumption of only 15W at maximum load, making it suitable for power-constrained applications.
4. Certified to meet international safety and environmental standards, including ISO 9001 and RoHS compliance.
FAQ
Q1: Can the VNP49N04-E be used in high-temperature environments?
A1: Yes, the VNP49N04-E operates within a wide temperature range from -40¡ãC to +85¡ãC, making it suitable for various environments including high-temperature conditions.
Q2: Is there any compatibility issue with existing hardware?
A2: The VNP49N04-E is backward compatible with most existing hardware interfaces. However, specific drivers may need to be updated to ensure optimal performance.
Q3: What development tools are recommended for working with the VNP49N04-E?
A3: We recommend using the latest version of our integrated development environment (IDE) which includes comprehensive support for the VNP49N04-E, along with debugging tools and simulation software.
Other people’s search terms
– High-performance computing solutions
– Automotive-grade processors
– Industrial automation components
– Energy-efficient microprocessors
– Safety-certified embedded systems
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