SPRADD8 November   2024 F29H850TU , F29H859TU-Q1

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction to Real-Time Control
  5. 2C29 CPU and Key Features
    1. 2.1 Parallel Architecture and Compiler Entitlement
  6. 3C29 Performance Benchmarks
    1. 3.1 Signal Chain Benchmark with ACI Motor Control
    2. 3.2 Real-time Control and DSP Performance
      1. 3.2.1 Examples and Factors Contributing to Results
        1. 3.2.1.1 Saturation (or Limiting) Example
        2. 3.2.1.2 Dead Zone Example
        3. 3.2.1.3 Space Vector Generation (SVGEN) Example
        4. 3.2.1.4 Software Pipelining
      2. 3.2.2 Customer Control and Math Benchmarks
    3. 3.3 General Purpose Processing (GPP) Performance
      1. 3.3.1 Examples and Factors Contributing to Results
        1. 3.3.1.1 Discontinuity Management
        2. 3.3.1.2 Switch() Example
    4. 3.4 Model-Based Design Benchmarks
    5. 3.5 Application Benchmarks
      1. 3.5.1 Single Phase 7kW OBC Description
      2. 3.5.2 Vienna Rectifier-Based Three Phase Power Factor Correction
      3. 3.5.3 Single-Phase Inverter
      4. 3.5.4 Machine Learning
    6. 3.6 Flash Memory Efficiency
    7. 3.7 Code-size Efficiency
  7. 4Summary
  8. 5References

3.5.3 Single-Phase Inverter

TIDM-HV-1PH-DCAC implements single-phase inverter (DC-AC) control using the C2000™ F2837xD and F28004x microcontrollers. TIDM-HV-1PH-DCAC Benchmarking shows early benchmarking results on Lab 3 (closed voltage loop with inner current loop). The cycles are measured inside the ISR from the beginning until the end. The results show the C29 achieves 80% better performance (in cycles) than the C28 CPU.

Table 3-4 TIDM-HV-1PH-DCAC Benchmarking
TIDM-HV-1PH-DCACCyclesPerformance Ratio
F2837x (C28)6091
F29H85x (C29)3321.83
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