TIDUBE1D
January 2016 – August 2024
1
Description
Resources
Features
Applications
6
1
System Description
1.1
Key System Specifications
2
System Overview
2.1
Block Diagram
2.2
Highlighted Products and Key Advantages
2.2.1
UCC28180 – PFC Controller
2.2.2
UCC27524 – Dual Low-Side Gate Driver
2.2.3
UCC28881 – 700-V Off-Line Converter
2.3
System Design Theory
2.3.1
Selecting Switching Frequency
2.3.2
Calculating Output Capacitance
2.3.3
Calculating PFC Choke Inductor
2.3.4
Selecting Switching Element
2.3.5
Boost Follower Control Circuit
2.3.6
Bias Power
2.3.7
On-Off Switch
2.3.8
Thermal Design
3
Hardware, Testing Requirements, and Test Results
3.1
Required Hardware
3.1.1
Test Conditions
3.1.2
Recommended Equipment
3.1.3
Procedure
3.2
Test Results
3.2.1
Performance Data
3.2.1.1
Efficiency and iTHD
3.2.1.2
Standby Power and Output Voltage
3.2.2
Performance Curves
3.2.2.1
Efficiency Curve
3.2.2.2
Voltage Follower Performance
3.2.3
Functional Waveforms
3.2.3.1
Power On Sequence
3.2.3.2
Inrush Current Protection
3.2.3.3
Switching Node
3.2.3.4
Waveform Under 3.5kW, 230VAC
3.2.4
Thermal Measurements
4
Design Files
4.1
Schematics
4.2
Bill of Materials
5
Documentation Support
6
Trademarks
7
About the Author
8
Revision History
3.1.3
Procedure
Connect input terminals (P1 and P2) of the reference board to the AC power source.
Connect output terminals (P4 and P5) to the electronic load, maintaining correct polarity (P4 is the 390-V DC output and P5 is the GND terminal).
Switch On PFC with S1.
Gradually increase the input voltage from 0 V to 190-V AC, and turn on.
Turn on the load to draw current from the output terminals of the PFC.
Observe the startup conditions for smooth-switching waveforms.