SMPS Controller# Technical Documentation: KA3845B Current Mode PWM Controller
Manufacturer : FAIRCHILD (now part of ON Semiconductor)
Component Type : Current Mode Pulse Width Modulation (PWM) Controller IC
Primary Function : Provides control circuitry for implementing offline or DC-to-DC fixed-frequency current-mode switching power supplies.
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## 1. Application Scenarios (≈45% of content)
### Typical Use Cases
The KA3845B is specifically designed for switched-mode power supply (SMPS) applications where precise current-mode control is required. Its primary function is to regulate output voltage by adjusting the duty cycle of a power switch (typically a MOSFET) based on both output voltage feedback and primary current sensing.
Primary applications include:
- Offline Flyback Converters : Most common application, particularly in AC-DC adapters and auxiliary power supplies (5-100W range).
- Forward Converters : Used in medium-power DC-DC conversion (50-200W) where better transformer utilization is needed.
- Boost Converters : For power factor correction (PFC) pre-regulators when paired with appropriate circuitry.
- Battery Chargers : Constant-current/constant-voltage charging circuits for lead-acid and lithium-ion batteries.
- LED Drivers : Constant-current supplies for LED lighting applications.
### Industry Applications
- Consumer Electronics : Power supplies for TVs, set-top boxes, audio equipment, and gaming consoles.
- Computer Peripherals : External hard drive power, printer/scanner supplies, and monitor power boards.
- Industrial Controls : PLC power modules, sensor supply rails, and motor drive auxiliary supplies.
- Telecommunications : DC-DC converters in networking equipment and base station power systems.
- Automotive : Aftermarket power converters and onboard accessory power supplies (with proper input conditioning).
### Practical Advantages
- Current-Mode Control : Provides inherent pulse-by-pulse current limiting, simplified feedback loop compensation, and automatic line voltage compensation.
- Undervoltage Lockout (UVLO) : Built-in UVLO with hysteresis ensures reliable startup and shutdown behavior.
- Programmable Oscillator : External RC network allows frequency adjustment from below 50kHz to over 500kHz.
- Low Startup Current : Typically 0.5mA, reducing stress on startup circuitry.
- High Output Drive : ±1A peak output current capability for direct MOSFET driving in medium-power applications.
- Cycle-by-Cycle Current Limiting : Enhances system reliability by preventing transformer saturation and switch overcurrent.
### Limitations
- Maximum Duty Cycle Limitation : Internally clamped to approximately 50% (KA3845B variant), making it unsuitable for some topologies requiring higher duty cycles.
- Frequency Sensitivity : At higher switching frequencies (>250kHz), layout parasitics significantly impact performance.
- Minimum Load Requirements : Some implementations require minimum loads for stable operation at light loads.
- External Components Required : Needs current sense resistor, timing components, feedback network, and often an auxiliary winding for VCC.
- Thermal Considerations : While the IC itself dissipates little power, its current sense input is sensitive to noise from power components.
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## 2. Design Considerations (≈35% of content)
### Common Design Pitfalls and Solutions
1. Current Sense Noise Issues
- Problem : False triggering of current limit due to switching noise on current sense resistor.
- Solution :
- Place current sense resistor directly adjacent to IC pins
- Use Kelvin connection to sense resistor
- Implement RC filter (100Ω + 1nF typical) at current sense input
- Keep current sense trace away from switching nodes
2. VCC Supply Instability
- Problem : Oscillation during startup or dropout during load transients.
- Solution :
- Ensure proper UVLO hysteresis via VCC capacitor selection (47-
