TIDT369A
November 2023 – April 2024
1
Description
Features
1
Applications
Resources
2
System Description
2.1
System Block Diagram
2.2
Key System Specification
2.3
Design Consideration
2.3.1
Boost Inductor Design
2.3.2
High Frequency Power Switch Selection
2.3.3
Input AC Voltage Sensing
2.3.4
Bulk Voltage Sensing
2.3.5
Input Current Sensing
2.3.6
Baby Boost Design
2.3.7
Relay
2.3.8
Protection
2.3.8.1
Over Voltage Protection
2.3.8.2
Over Current Protection
3
Power Up
3.1
Required Equipment
3.2
Considerations
3.3
Start-Up Sequence
4
Testing Results
4.1
Start-Up Waveform
4.2
THD Performance
4.3
Power Factor
4.4
Efficiency
4.4.1
Efficiency Graph
4.4.2
Efficiency Data
4.5
E-meter Performance
4.5.1
E-meter Graphs
4.5.2
E-meter Data
4.6
Load Transients
4.7
Input Current Waveforms
4.8
AC Drop Test
4.9
Thermal Images
5
External Reference
Features
Integrated e-metering function with 0.5% accuracy
<10% iTHD @ 0-10% load, <5% iTHD @ 10% - 20% load, <3% iTHD @ 20% - 50% load, <2% iTHD @ 50% - 100% load
Peak efficiency of 98.93% @ 230Vac
Smart re-rush current control when AC comes back from dropout, meet M-CRPS re-rush current specification
Include baby boost converter to extend holdup time and allow only 720uF bulk Cap
Two current sense options: Isolated Delta-Sigma Modulator (default) or Hall Sensor
GaN optimized with driver integration
3.6kW rated power targeting 73.5mm M-CRPS PSU.