3A/650V 100KHz Power Switch# Technical Documentation: KA5H0365RTU Off-Line Switching Regulator
Manufacturer : FAIRCHILD (now part of ON Semiconductor)
Component Type : Off-Line Switching Regulator (SMPS IC)
Package : TO-220F-4L (Isolated Full-Pak)
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## 1. Application Scenarios
### Typical Use Cases
The KA5H0365RTU is a high-voltage monolithic power switching regulator designed for off-line switch-mode power supplies (SMPS) . It integrates a high-voltage power MOSFET, oscillator, PWM controller, and protection circuits into a single package. Typical use cases include:
- Flyback Converter Topologies : Most commonly implemented in isolated flyback configurations for AC-DC conversion.
- Low-to-Medium Power Supplies : Optimized for output power ranges of 30W to 65W depending on input voltage and thermal design.
- Standby Power Circuits : Used in auxiliary power supplies within larger systems (e.g., TV/monitor standby, appliance control boards).
- Battery Charger Circuits : For consumer electronics like laptop adapters and power tool chargers.
### Industry Applications
- Consumer Electronics : Power supplies for LCD/LED TVs, monitors, set-top boxes, and audio equipment.
- Home Appliances : Control board power in washing machines, refrigerators, and air conditioners.
- IT Equipment : Adapters for networking devices (routers, modems) and peripheral devices.
- Industrial Controls : Low-power auxiliary supplies for sensors, PLCs, and motor drives.
### Practical Advantages
- High Integration : Combines 650V/4A MOSFET with control logic, reducing external component count.
- Wide Input Voltage Range : Operates from 85VAC to 265VAC directly after rectification.
- Low Standby Power : Features burst-mode operation for <1W standby consumption (meeting energy standards like ENERGY STAR).
- Built-in Protections :
- Overload protection (OLP)
- Over-voltage protection (OVP)
- Over-temperature protection (OTP)
- Under-voltage lockout (UVLO)
- Frequency Jittering : Reduces EMI emissions, simplifying filter design.
### Limitations
- Fixed Switching Frequency : 67 kHz operation may not be optimal for very high-efficiency or ultra-compact designs.
- Limited Power Output : Not suitable for high-power applications (>65W) without derating.
- Thermal Constraints : TO-220F package requires adequate heatsinking at higher power levels.
- Minimum Load Requirement : May require pre-load for stable operation at very light loads.
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## 2. Design Considerations
### Common Design Pitfalls and Solutions
| Pitfall | Cause | Solution |
|---------|-------|----------|
| MOSFET Overstress | Voltage spikes from transformer leakage inductance | Implement snubber circuit (RCD clamp) across primary winding |
| Startup Failure | Insufficient startup current from Vcc pin | Ensure startup resistor (between rectified DC and Vcc) provides 1-2mA minimum |
| Thermal Shutdown | Inadequate heatsinking or poor PCB layout | Use thermal interface material, ensure ≥2.0in² copper area for TO-220F tab |
| Audible Noise | Operation in audible frequency range during light load | Verify feedback loop compensation; ensure proper optocoupler selection |
| EMI Compliance Issues | Insufficient filtering or poor layout | Utilize frequency jitter feature; follow layout guidelines below |
### Compatibility Issues
- Optocouplers : Requires compatible optocouplers for feedback (e.g., PC817, LTV-817) with CTR 80-160%.
- Rectifier Diodes : Secondary rectifiers must have reverse recovery
