SPRACZ9A November   2021  – December 2022 TMS320F2800132 , TMS320F2800133 , TMS320F2800135 , TMS320F2800137 , TMS320F2800152-Q1 , TMS320F2800153-Q1 , TMS320F2800154-Q1 , TMS320F2800155 , TMS320F2800155-Q1 , TMS320F2800156-Q1 , TMS320F2800157 , TMS320F2800157-Q1 , TMS320F280021 , TMS320F280021-Q1 , TMS320F280023 , TMS320F280023-Q1 , TMS320F280023C , TMS320F280025 , TMS320F280025-Q1 , TMS320F280025C , TMS320F280025C-Q1 , TMS320F280033 , TMS320F280034 , TMS320F280034-Q1 , TMS320F280036-Q1 , TMS320F280036C-Q1 , TMS320F280037 , TMS320F280037-Q1 , TMS320F280037C , TMS320F280037C-Q1 , TMS320F280038-Q1 , TMS320F280038C-Q1 , TMS320F280039 , TMS320F280039-Q1 , TMS320F280039C , TMS320F280039C-Q1 , TMS320F280040-Q1 , TMS320F280040C-Q1 , TMS320F280041 , TMS320F280041-Q1 , TMS320F280041C , TMS320F280041C-Q1 , TMS320F280045 , TMS320F280048-Q1 , TMS320F280048C-Q1 , TMS320F280049 , TMS320F280049-Q1 , TMS320F280049C , TMS320F280049C-Q1

 

  1.   Hardware Design Guide for F2800x Devices
  2.   Trademarks
  3. 1Introduction
  4. 2Typical F2800x System Block Diagram
  5. 3Schematic Design
    1. 3.1 Package and Device Decision
      1. 3.1.1 F2800x Devices
        1. 3.1.1.1 TMS320F28004x
        2. 3.1.1.2 TMS320F28002x
        3. 3.1.1.3 TMS320F28003x
        4. 3.1.1.4 TMS320F280013x
      2. 3.1.2 Migration Guides
      3. 3.1.3 PinMux Tool
      4. 3.1.4 Configurable Logic Block
    2. 3.2 Digital IOs
      1. 3.2.1 General Purpose Input/Outputs
      2. 3.2.2 Integrated Peripherals and X-BARs
      3. 3.2.3 Control Peripherals
      4. 3.2.4 Communication Peripherals
      5. 3.2.5 Boot Pins and Boot Peripherals
    3. 3.3 Analog IOs
      1. 3.3.1 Analog Peripherals
      2. 3.3.2 Choosing Analog Pins
      3. 3.3.3 Internal vs. External Analog Reference
      4. 3.3.4 ADC Inputs
      5. 3.3.5 Driving Options
      6. 3.3.6 Low-Pass/Anti-Aliasing Filters
    4. 3.4 Power Supply
      1. 3.4.1 Power Requirements
      2. 3.4.2 Power Sequencing
      3. 3.4.3 VDD Voltage Regulator
        1. 3.4.3.1 Internal vs. External Regulator
        2. 3.4.3.2 Internal LDO vs. Internal DC-DC Regulator
      4. 3.4.4 Power Consumption
      5. 3.4.5 Power Calculations
    5. 3.5 XRSn and System Reset
    6. 3.6 Clocking
      1. 3.6.1 Internal vs. External Oscillator
    7. 3.7 Debugging and Emulation
      1. 3.7.1 JTAG/cJTAG
      2. 3.7.2 Debug Probe
    8. 3.8 Unused Pins
  6. 4PCB Layout Design
    1. 4.1 Layout Design Overview
      1. 4.1.1 Recommend Layout Practices
      2. 4.1.2 Board Dimensions
      3. 4.1.3 Layer Stack-Up
    2. 4.2 Recommended Board Layout
    3. 4.3 Placing Components
      1. 4.3.1 Power Electronic Considerations
    4. 4.4 Ground Plane
    5. 4.5 Analog and Digital Separation
    6. 4.6 Signal Routing With Traces and Vias
    7. 4.7 Thermal Considerations
  7. 5EOS, EMI/EMC, and ESD Considerations
    1. 5.1 Electrical Overstress
    2. 5.2 Electromagnetic Interference and Electromagnetic Compatibility
    3. 5.3 Electrostatic Discharge
  8. 6Final Details and Checklist
  9. 7References
  10. 8Revision History

2 Typical F2800x System Block Diagram

A diagram of a typical C2000-based control system is pictured in Figure 2-1. The microcontroller is powered through a power supply system that accommodates the primary voltage rails, which include a 3.3 V analog voltage (VDDA), 3.3 V digital voltage (VDDIO), and a 1.2 V core power rail (VDD). The C2000 device offers rich peripheral support, and C2000-based systems typically consist of the following circuitry connected to the MCU: power management, signal conditioning of analog inputs, crystal or external oscillator, reset circuitry, communication transceivers, external interface to digital IO pins, digital sensing, pulse width modulation (PWM) interface/drivers, and any other required supporting circuitry.

Figure 2-1 Typical TMS320F2800x System

These TMS320F2800x MCUs are complex devices, which make creating a custom well-designed board that utilizes many of the integrated peripherals a great challenge. Though not all of the included peripherals are necessary relevant in all cases, it remains imperative to become familiar with the C2000 device prior to attempting a design. Great care must be taken throughout the entire process to ensure the best and most optimized device performance. The areas which remain especially challenging include being careful about all of the different internal blocks running at different frequencies, maintaining signal integrity amongst all onboard analog signals, and EMI/EMC considerations.