Spindle + 4-CH Input PWM Motor Drive IC# Technical Documentation: FAN8728 Power MOSFET Driver
Manufacturer : FAIRCHILD (now part of ON Semiconductor)
Component : FAN8728 - High-Speed, High-Current Gate Driver IC
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## 1. Application Scenarios
### Typical Use Cases
The FAN8728 is a monolithic high-speed gate driver designed to drive N-channel power MOSFETs and IGBTs in high-frequency switching applications. Its primary use cases include:
- Synchronous Buck Converters : Driving high-side and low-side MOSFETs in DC-DC voltage regulators for computing, telecom, and industrial power supplies
- Full-Bridge and Half-Bridge Topologies : Motor drive applications, uninterruptible power supplies (UPS), and solar inverters
- LLC Resonant Converters : High-efficiency power supplies for server, telecom, and industrial equipment
- Class D Audio Amplifiers : Switching output stages requiring precise timing control
### Industry Applications
- Telecommunications : Base station power systems, network equipment power modules
- Computing : VRM (Voltage Regulator Module) for CPUs/GPUs, server power supplies
- Industrial Automation : Motor drives, robotic control systems, PLC power stages
- Consumer Electronics : High-end audio amplifiers, gaming console power supplies
- Renewable Energy : Solar microinverters, power optimizers
### Practical Advantages and Limitations
Advantages:
- High Drive Current : Capable of sourcing 2A and sinking 3A, enabling fast switching of large MOSFETs
- Fast Propagation Delays : Typical 25ns delay ensures precise timing in high-frequency applications
- Integrated Bootstrap Function : Simplifies high-side drive in bridge configurations
- Wide Voltage Range : 10V to 20V VDD operation accommodates various system requirements
- Under-Voltage Lockout (UVLO) : Protects power devices from operating with insufficient gate voltage
- Small Package Options : Available in SOIC-8 and MLP-8 packages for space-constrained designs
Limitations:
- Limited Voltage Range : Not suitable for 600V+ applications common in some industrial drives
- No Integrated Isolation : Requires external components for isolated gate drive applications
- Thermal Considerations : High switching frequencies may require thermal management in compact designs
- Bootstrap Limitations : In continuous 100% duty cycle applications, bootstrap capacitor may discharge
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## 2. Design Considerations
### Common Design Pitfalls and Solutions
Pitfall 1: Shoot-Through Current in Bridge Configurations
- Problem : Simultaneous conduction of high-side and low-side MOSFETs during switching transitions
- Solution : Utilize the integrated 50ns dead-time control or implement external dead-time circuitry. Ensure proper gate drive timing alignment.
Pitfall 2: Bootstrap Circuit Failure
- Problem : Bootstrap capacitor discharge in high-duty-cycle applications
- Solution :
- Calculate bootstrap capacitor using: C_boot = (Q_g × 2) / ΔV_boot
- Add a bootstrap refresh circuit for >95% duty cycle applications
- Select low-leakage bootstrap diodes (Schottky recommended)
Pitfall 3: Excessive Ringing and EMI
- Problem : Parasitic inductance in gate drive loop causing voltage overshoot
- Solution :
- Minimize gate loop area
- Use gate resistors to control switching speed
- Implement RC snubbers for critical applications
### Compatibility Issues with Other Components
MOSFET/IGBT Selection:
- Ensure MOSFET Q_g is compatible with driver's current capability
- Maximum recommended: Q_g ≤ 100nC for frequencies >500kHz
- Gate threshold voltage should be within 2-4V for optimal performance
Controller Compatibility:
