Overview
The FDLL4148_NBD3001 is a small signal switching diode produced by onsemi. Although this product is no longer in manufacture, it remains relevant for various applications due to its robust specifications and features. This diode is part of the SOD-80 package and is known for its reliability and performance in general usage scenarios.
Key Specifications
| Parameter | Value | Unit |
|---|---|---|
| Maximum DC Reverse Voltage | 100 | V |
| Average Rectified Current | 200 | mA |
| Forward Voltage Drop at 10 mA | 1 | V |
| Switching Time | 4 | ns |
| Package Type | SOD-80 |
Key Features
- High maximum DC reverse voltage of 100 V, ensuring robust performance under various conditions.
- Average rectified current of 200 mA, suitable for a range of applications requiring moderate current handling.
- Low forward voltage drop of 1 V at 10 mA, minimizing power loss and heat generation.
- Fast switching time of 4 ns, making it ideal for high-speed switching applications.
- Compact SOD-80 package, facilitating efficient board design and space-saving solutions.
Applications
The FDLL4148_NBD3001 is suitable for a wide range of general usage applications, including but not limited to:
- Switching circuits in electronic devices.
- Rectification in power supplies.
- Signal processing and filtering.
- High-speed data transmission systems.
Q & A
- What is the maximum DC reverse voltage of the FDLL4148_NBD3001?
The maximum DC reverse voltage is 100 V.
- What is the average rectified current of the FDLL4148_NBD3001?
The average rectified current is 200 mA.
- What is the forward voltage drop at 10 mA for the FDLL4148_NBD3001?
The forward voltage drop at 10 mA is 1 V.
- What is the switching time of the FDLL4148_NBD3001?
The switching time is 4 ns.
- What package type does the FDLL4148_NBD3001 use?
The package type is SOD-80.
- Is the FDLL4148_NBD3001 still in production?
No, the FDLL4148_NBD3001 is no longer in production, but substitutes are available.
- What are some common applications for the FDLL4148_NBD3001?
Common applications include switching circuits, rectification in power supplies, signal processing, and high-speed data transmission systems.
- Why is the FDLL4148_NBD3001 suitable for high-speed applications?
It is suitable due to its fast switching time of 4 ns.
- What are the benefits of the low forward voltage drop in the FDLL4148_NBD3001?
The low forward voltage drop minimizes power loss and heat generation, improving overall efficiency.
- How does the compact SOD-80 package benefit board design?
The compact package facilitates efficient board design and space-saving solutions.
