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  • Bidirectional Interleaved CCM Totem Pole Bridgeless PFC Reference Design Using C2000™ MCU

    • TIDUD61E October   2020  – April 2021

       

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  • Bidirectional Interleaved CCM Totem Pole Bridgeless PFC Reference Design Using C2000™ MCU
  1.   Description
  2.   Resources
  3.   Features
  4.   Applications
  5.   5
  6. 1System Description
    1. 1.1 Key System Specifications
  7. 2System Overview
    1. 2.1 Block Diagram
    2. 2.2 Design Considerations
      1. 2.2.1 Input AC Voltage Sensing
      2. 2.2.2 Bus Voltage Sensing
      3. 2.2.3 AC Current Sensing
      4. 2.2.4 Sense Filter
      5. 2.2.5 Protection (CMPSS)
    3. 2.3 Highlighted Products
      1. 2.3.1 C2000™ MCU F28004x
      2. 2.3.2 LMG3410R070
      3. 2.3.3 UCC27714
    4. 2.4 System Design Theory
      1. 2.4.1 PWM
      2. 2.4.2 Current Loop Model (PFC and Inverter mode)
      3. 2.4.3 DC Bus Regulation Loop (for PFC mode only)
      4. 2.4.4 Soft Start Around Zero Crossing for Eliminate or Reduce Current Spike
      5. 2.4.5 AC Drop Test
  8. 3Hardware, Software, Testing Requirements, and Test Results
    1. 3.1 Required Hardware and Software
      1. 3.1.1 Hardware
        1. 3.1.1.1 Base Board Settings
        2. 3.1.1.2 Control Card Settings
      2. 3.1.2 Software
        1. 3.1.2.1 Opening Project Inside CCS
        2. 3.1.2.2 Project Structure
        3. 3.1.2.3 Using CLA on C2000 MCU to Alleviate CPU Burden
        4. 3.1.2.4 CPU and CLA Utilization and Memory Allocation
        5. 3.1.2.5 Running the Project
          1. 3.1.2.5.1 Lab 1: Open Loop, DC (PFC Mode)
            1. 3.1.2.5.1.1 Setting Software Options for LAB 1
            2. 3.1.2.5.1.2 Building and Loading Project
            3. 3.1.2.5.1.3 Setup Debug Environment Windows
            4. 3.1.2.5.1.4 Using Real-Time Emulation
            5. 3.1.2.5.1.5 Running Code
          2. 3.1.2.5.2 Lab 2: Closed Current Loop DC (PFC)
            1. 3.1.2.5.2.1 Setting Software Options for Lab 2
            2. 3.1.2.5.2.2 Designing Current Loop Compensator
            3. 3.1.2.5.2.3 Building and Loading Project and Setting up Debug
            4. 3.1.2.5.2.4 Running Code
          3. 3.1.2.5.3 Lab 3: Closed Current Loop, AC (PFC)
            1. 3.1.2.5.3.1 Setting Software Options for Lab 3
            2. 3.1.2.5.3.2 Building and Loading Project and Setting up Debug
            3. 3.1.2.5.3.3 Running Code
          4. 3.1.2.5.4 Lab 4: Closed Voltage and Current Loop (PFC)
            1. 3.1.2.5.4.1 Setting Software Options for Lab 4
            2. 3.1.2.5.4.2 Designing Voltage Loop Compensator
            3. 3.1.2.5.4.3 Building and Loading Project and Setting up Debug
            4. 3.1.2.5.4.4 Running Code
          5. 3.1.2.5.5 Lab 5: Open loop, DC (Inverter)
            1. 3.1.2.5.5.1 Setting Software Options for Lab 5
            2. 3.1.2.5.5.2 Building and Loading Project
            3. 3.1.2.5.5.3 Setup Debug Environment Windows
            4. 3.1.2.5.5.4 Running Code
          6. 3.1.2.5.6 Lab 6: Open loop, AC (Inverter)
            1. 3.1.2.5.6.1 Setting Software Options for Lab 6
            2. 3.1.2.5.6.2 Building and Loading Project and Setting up Debug
            3. 3.1.2.5.6.3 Running Code
          7. 3.1.2.5.7 Lab 7: Closed Current Loop, DC (Inverter with resistive load)
            1. 3.1.2.5.7.1 Setting Software Options for Lab 7
            2. 3.1.2.5.7.2 Designing Current Loop Compensator
            3. 3.1.2.5.7.3 Building and Loading Project and Setting up Debug
            4. 3.1.2.5.7.4 Running Code
          8. 3.1.2.5.8 Lab 8: Closed Current Loop, AC (Inverter with resistive load)
            1. 3.1.2.5.8.1 Setting Software Options for Lab 8
            2. 3.1.2.5.8.2 Building and Loading Project and Setting up Debug
            3. 3.1.2.5.8.3 Running Code
          9. 3.1.2.5.9 Lab 9: Closed Current Loop (Grid Connected Inverter)
            1. 3.1.2.5.9.1 Setting Software Options for Lab 9
            2. 3.1.2.5.9.2 Building and Loading Project and Setting up Debug
            3. 3.1.2.5.9.3 Running Code: Emulated Grid-tied Condition (Verification purpose only)
            4. 3.1.2.5.9.4 Running Code: Grid-tied Condition
        6. 3.1.2.6 Running Code on CLA
        7. 3.1.2.7 Advanced Options
          1. 3.1.2.7.1 Input Cap Compensation for PF Improvement Under Light Load
          2. 3.1.2.7.2 83
          3. 3.1.2.7.3 Adaptive Dead Time for Efficiency Improvements
          4. 3.1.2.7.4 Phase Shedding for Efficiency Improvements
          5. 3.1.2.7.5 Non-Linear Voltage Loop for Transient Reduction
          6. 3.1.2.7.6 Software Phase Locked Loop Methods: SOGI - FLL
    2. 3.2 Testing and Results
      1. 3.2.1 Test Results at Input 120 Vrms, 60 Hz, Output 380-V DC
        1. 3.2.1.1 Startup
        2. 3.2.1.2 Steady State Condition
        3. 3.2.1.3 Transient Test With Step Load Change
          1. 3.2.1.3.1 0% to 50% Load Step Change
          2. 3.2.1.3.2 50% to 100% Load Step Change
          3. 3.2.1.3.3 100% to 50% Load Step Change
          4. 3.2.1.3.4 50% to 100% Load Step Change
      2. 3.2.2 Test Results at Input 230 Vrms, 50 Hz, Output 380 V DC
        1. 3.2.2.1 Startup
        2. 3.2.2.2 Steady State Condition
        3. 3.2.2.3 Transient Test With Step Load Change
          1. 3.2.2.3.1 33% to 100% Load Step Change
          2. 3.2.2.3.2 100% to 33% Load Step Change
      3. 3.2.3 Test Results Graphs
  9. 4Design Files
    1. 4.1 Schematics
    2. 4.2 Bill of Materials
    3. 4.3 PCB Layout Recommendations
      1. 4.3.1 Layout Prints
    4. 4.4 Altium Project
    5. 4.5 Gerber Files
    6. 4.6 Assembly Drawings
  10. 5Software Files
  11. 6Related Documentation
    1. 6.1 Trademarks
  12. 7About the Author
  13. 8Revision History
  14. IMPORTANT NOTICE
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DESIGN GUIDE

Bidirectional Interleaved CCM Totem Pole Bridgeless PFC Reference Design Using C2000™ MCU

Description

This reference design illustrates a method to control a bidirectional interleaved continuous conduction mode (CCM) totem pole (TTPL) bridgeless power factor correction (PFC) power stage using a C2000™ microcontroller (MCU) and LMG3410R070. This power topology is capable of bidirectional power flow (PFC and grid-tied inverter) and it uses Gallium Nitride (GaN) devices, which enables higher efficiency and reduction in size of the power supply. The design supports phase shedding and adaptive dead time for efficiency improvements, input cap compensation scheme for improved power factor at light loads, and non-linear voltage loop to reduce voltage spikes under transient in PFC mode. The hardware and software available with this reference design accelerates time to market.

Resources

TIDM-02008 Design Folder
TMS320F280049, TMS320F28075 Product Folder
LMG3410R070, UCC27714, ISO7831 Product Folder
OPA2376, SN74LVC1G3157DRYR, TLV713 Product Folder
C2000WARE-DIGITALPOWER-SDK Tool Folder
Ask our TI E2E™ support experts

Features

  • Interleaved, 3.3-kW, Single-Phase, Bidirectional Bridgeless CCM Totem Pole PFC Stage
  • 100-kHz Pulse Width Modulation (PWM) Switching
  • Programmable Output Voltage, 380-V DC Output Nominal
  • Less Than 2% Total Harmonic Distortion (THD)
  • Greater Than 98% Peak Efficiency
  • powerSUITE™ Support for Easy Adaptation of Design for User Requirement
  • Software Frequency Response Analyzer (SFRA) for Quick Measurement of Open Loop Gain
  • Soft Starting of PWM for Reduced Zero Current Spike in TTPL PFC
  • Software Support for F28004x Using Driver Library
  • Same Source Code Maintained When Running Control Loop on C28x or CLA

Applications

  • Onboard Chargers for Electronic Vehicles (EVs)
  • Telecom Rectifier
  • Drives, Welding, and Other Industrial
  • Energy Storage System (ESS)

 
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