SMPS Controller# Technical Documentation: KA7500C Pulse-Width Modulation Control Circuit
Manufacturer : SAMSUNG
Document Version : 1.0
Last Updated : October 2023
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## 1. Application Scenarios
### 1.1 Typical Use Cases
The KA7500C is a versatile pulse-width modulation (PWM) control IC primarily designed for switch-mode power supply (SMPS) applications. Its architecture supports both voltage-mode and current-mode control configurations, making it suitable for various power conversion topologies.
Primary Applications Include:
- DC-DC Converters : Buck, boost, and flyback converters requiring precise voltage regulation
- AC-DC Power Supplies : Off-line switchers with output power ranging from 50W to 500W
- Uninterruptible Power Supplies (UPS) : Battery charging and inverter control circuits
- Motor Control Systems : Speed control for DC motors through PWM-driven H-bridge configurations
- Inverter Systems : Sine-wave and square-wave inverters for renewable energy applications
### 1.2 Industry Applications
Consumer Electronics:
- Switching power supplies for televisions, monitors, and audio equipment
- Laptop adapters and desktop computer power supplies
- Printer and scanner power management systems
Industrial Systems:
- Programmable logic controller (PLC) power modules
- Industrial motor drives and control systems
- Test and measurement equipment power supplies
Telecommunications:
- Base station power systems
- Network equipment power distribution
- Telecom rectifier systems
Automotive Electronics:
- DC-DC converters for automotive infotainment systems
- LED lighting drivers for automotive applications
- Battery management systems (in non-safety-critical applications)
### 1.3 Practical Advantages and Limitations
Advantages:
- High Integration : Combines error amplifiers, oscillator, PWM comparator, and output drivers in a single package
- Flexible Configuration : Supports push-pull or single-ended output configurations
- Wide Operating Range : 7V to 40V supply voltage with 5V reference output
- Precision Regulation : 5V ±1% reference voltage enables accurate voltage control
- Current Limiting : Built-in current sensing capability for overload protection
- Temperature Stability : -25°C to +85°C operating range with minimal parameter drift
Limitations:
- Switching Frequency : Maximum 300kHz operation may be limiting for modern high-frequency designs
- Drive Current : Output transistors limited to 200mA peak current, requiring external drivers for high-power applications
- Efficiency Considerations : Not optimized for ultra-high efficiency designs compared to newer PWM controllers
- Protection Features : Basic protection requires external components for comprehensive fault management
- Component Count : Still requires significant external components compared to fully integrated solutions
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## 2. Design Considerations
### 2.1 Common Design Pitfalls and Solutions
Pitfall 1: Oscillator Instability
- Problem : Frequency drift or jitter due to improper timing component selection
- Solution : Use low-ESR ceramic capacitors for timing capacitor (CT) and ensure resistor (RT) has ±1% tolerance
- Implementation : CT should be placed within 10mm of IC pins with direct ground connection
Pitfall 2: Ground Bounce Issues
- Problem : Noise coupling through shared ground paths affecting regulation accuracy
- Solution : Implement star grounding with separate analog and power ground planes
- Implementation : Connect IC ground pin directly to analog ground star point
Pitfall 3: Output Stage Shoot-Through
- Problem : Simultaneous conduction of output transistors during switching transitions
- Solution : Implement dead-time control using external components
- Implementation : Add RC network between output pins and driver inputs for adjustable dead time
