The FDMC8010 is a high-performance N-Channel Power MOSFET featuring the ability to manage substantial power demands with minimal energy loss. Leveraging advanced PowerTrench technology, it offers low on-state resistance, facilitating efficient switching and high current capacity. These attributes make the FDMC8010 an excellent choice for applications such as Voltage Regulator Modules (VRMs), Point of Load (POL) converters, and ORing functions.
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Now, let’s delve into the detailed specifications, key features, and versatile applications of the FDMC8010.
Key Specifications at A Glance
Product Attributes | Description |
Product Category | MOSFETs |
Drive Voltage (Max Rds On, Min Rds On) | 4.5V, 10V |
Process Technology | POWERTRENCH |
Input Capacitance (Ciss) (Max) @ Vds | 5860 pF @ 15 V |
Current - Continuous Drain (Id) @ 25°C | 30A (Ta), 75A (Tc) |
Drain to Source Voltage (Vdss) | 30 V |
Gate Charge (Qg) (Max) @ Vgs | 94 nC @ 10 V |
Operating Temperature | -55°C ~ 150°C (TJ) |
Mounting Type | Surface Mount |
Power Dissipation (Max) | 2.4W (Ta), 54W (Tc) |
Supplier Device Package | Power33 (WDFN8) |
Vgs (Max) | ±20V |
Vgs(th) (Max) @ Id | 2.5V @ 1mA |
Rds On (Max) @ Id, Vgs | 1.3mOhm @ 30A, 10V |
MOSFET Type | N-Channel |
Key Advantages of the FDMC8010
The FDMC8010 strikes a balance between performance and efficiency, addressing the key challenges of energy loss and compact design.
PowerTrench Technology:Optimized Efficiency and Performance
The advanced PowerTrench process enhances the FDMC8010’s internal structure to provide:
Low On-State Resistance: With a maximum RDS(on) of 1.3 mΩ @ 30A, 10V, it minimizes conduction losses, improving energy efficiency and reducing heat generation.
Efficient Switching Performance: The FDMC8010 is optimized for efficient switching in low- to moderate-frequency applications. While it provides excellent performance in general-purpose switching, it is not specifically designed for ultra-high-speed switching applications where extremely low gate charge and fast transition times are critical. This makes it a strong candidate for applications prioritizing energy efficiency and thermal management over switching speed.
Thermal Performance Support: By reducing heat generation, PowerTrench facilitates stable operation when combined with effective thermal management.
High Current Handling
The FDMC8010 supports continuous drain currents of up to 75A (Tc) @ 25°C (Package limited), provided adequate thermal management is in place. This ensures the MOSFET can handle significant current loads within its voltage and thermal limits, making it suitable for designs requiring high current flow with careful consideration of heat dissipation.
Compact, Space-Saving Design
Its WDFN8 package, measuring only 3.3 mm × 3.3 mm, is ideal for integration into compact systems. With an exposed drain pad for efficient heat dissipation, the package enhances thermal performance when properly integrated into well-designed PCBs.
Environmental Compliance
The FDMC8010 is fully RoHS-compliant and lead-free, supporting environmentally responsible designs.
Applications Across Industries
The FDMC8010’s high performance, compact design, and advanced PowerTrench technology make it a suitable choice for a wide range of applications. Here’s how it fits into the following industries:
1. UAV Power Systems
The FDMC8010 can be applied in drones, particularly for low-to-medium power applications like motor controllers and power management circuits. Its 30V drain-to-source voltage, low Rds(on) of 1.3mΩ, high current handling capability (up to 75A with proper thermal management), and efficient power dissipation make it well-suited for low-voltage drone power systems. Additionally, its wide operating temperature range and surface-mount package are beneficial for drone electronics. However, for applications with high-voltage requirements (above 30V) or where very high-speed switching is crucial, a MOSFET with a higher voltage rating or lower gate charge may be more suitable.
2. Computing and Data Centers
The FDMC8010's low RDS(on) minimizes conduction losses, making it suitable for low-voltage power conversion applications such as Voltage Regulator Modules (VRMs) in servers and GPUs. Its high current handling capability supports these applications when effective thermal management is implemented. However, for high-frequency switching or advanced data center applications requiring ultra-fast response times and enhanced thermal efficiency, more specialized MOSFETs may be appropriate.
3. Automotive
The FDMC8010 may be suitable for specific low-voltage, non-critical automotive applications such as auxiliary motor controllers or battery cell balancing circuits. For high-voltage, safety-critical, or automotive-grade requirements, alternative MOSFETs with AEC-Q101 qualification are recommended.
4. Industrial Automation
In robotics and industrial equipment, the FDMC8010 helps reduce power losses through its low RDS(on), making it suitable for low-voltage, moderate-power applications such as small motor drivers and DC-DC converters. Its performance and contribution to system reliability depend on proper thermal management and operation within specified limits. For higher-power or high-voltage systems, other more robust components are recommended.
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