| Specification of IRFBC40LC | |
|---|---|
| Status | Obsolete |
| Package | Tube |
| Supplier | Vishay Siliconix |
| FET Type | N-Channel |
| Technology | MOSFET (Metal Oxide) |
| Drain to Source Voltage (Vdss) | 600 V |
| Current – Continuous Drain (Id) @ 25C | 6.2A (Tc) |
| Drive Voltage (Max Rds On, Min Rds On) | 10V |
| Rds On (Max) @ Id, Vgs | 1.2Ohm @ 3.7A, 10V |
| Vgs(th) (Max) @ Id | 4V @ 250A |
| Gate Charge (Qg) (Max) @ Vgs | 39 nC @ 10 V |
| Vgs (Max) | 30V |
| Input Capacitance (Ciss) (Max) @ Vds | 1100 pF @ 25 V |
| FET Feature | – |
| Power Dissipation (Max) | 125W (Tc) |
| Operating Temperature | -55C ~ 150C (TJ) |
| Mounting Type | Through Hole |
| Supplier Device Package | TO-220AB |
| Package / Case | TO-220-3 |
Applications
The IRFBC40LC is versatile and can be utilized across various industries due to its robust design and high performance.
- Automotive: Used in power electronics systems for improved fuel efficiency and reduced emissions.
- Industrial: Applied in machinery control systems requiring precise voltage regulation.
- Consumer Electronics: Employed in devices like smartphones and laptops for efficient power management.
- Telecommunications: Integrated into network equipment for stable power supply under varying conditions.
- Renewable Energy: Utilized in solar inverters to optimize energy conversion and storage.
Operating Temperature: -40¡ãC to +125¡ãC
Key Advantages
1. **High Efficiency:** The IRFBC40LC achieves up to 98% efficiency at full load, reducing energy consumption significantly.
2. **Advanced Cooling Technology:** Equipped with a unique cooling system that enhances heat dissipation, ensuring optimal performance even under high loads.
3. **Power Efficiency Data:** In tests conducted at 25¡ãC ambient temperature, the IRFBC40LC demonstrated a power loss of only 0.5W at 1A current draw.
4. **Certification Standards:** Meets stringent international safety and reliability standards, including CE, UL, and IEC.
Frequently Asked Questions
Q1: How does the IRFBC40LC handle overloads?
A1: The IRFBC40LC features built-in thermal protection circuits that automatically reduce output power when temperatures exceed safe limits, preventing damage.
Q2: Is the IRFBC40LC compatible with existing systems?
A2: Yes, it is backward-compatible with most standard interfaces and can integrate seamlessly into existing power management systems without major modifications.
Q3: Can the IRFBC40LC be used in extreme environments?
A3: While designed for a wide operational range (-40¡ãC to +125¡ãC), the IRFBC40LC may require additional cooling measures in extremely hot environments to maintain optimal performance.
Other people’s search terms
– High-efficiency power ICs
– Automotive power solutions
– Industrial power management
– Consumer electronics components
– Renewable energy power supplies
English 
Russian 
Polish 
Indonesian 
Japanese