SPRUJ60A April   2024  – October 2024 TMS320F28P550SJ , TMS320F28P559SJ-Q1

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Feature Differences Between F280013x/15x and F28P55x
    1. 1.1 F280013x/15x and F28P55x Feature Comparison
  5. 2PCB Hardware Changes
    1. 2.1 PCB Hardware Changes for the 80-Pin PN/PNA, 64-Pin PM Packages
    2. 2.2 80-Pin PNA, 64-Pin PM Migration Between F280013x/15x and F28P55x For New and Existing PCB
  6. 3Feature Differences for System Consideration
    1. 3.1 New Features in F28P55x
      1. 3.1.1  Advance Encryption Standard (AES)
      2. 3.1.2  Universal Serial Bus (USB)
      3. 3.1.3  Configurable Logic Block (CLB)
      4. 3.1.4  Live Firmware Update (LFU)
      5. 3.1.5  Programmable Gain Amplifier (PGA)
      6. 3.1.6  ERAD
      7. 3.1.7  FSI
      8. 3.1.8  5V Failsafe IOs
      9. 3.1.9  Flash Write Protection
      10. 3.1.10 Neural-Network Processing Unit (NPU)
    2. 3.2 Communication Module Changes
    3. 3.3 Control Module Changes
    4. 3.4 Analog Module Differences
    5. 3.5 Other Device Changes
      1. 3.5.1 PLL
      2. 3.5.2 PIE Channel Mapping
      3. 3.5.3 Bootrom
    6. 3.6 Power Management
      1. 3.6.1 LDO/VREG
      2. 3.6.2 POR/BOR
      3. 3.6.3 Power Consumption
    7. 3.7 Memory Module Changes
    8. 3.8 GPIO Multiplexing Changes
    9. 3.9 Analog Multiplexing Changes
  7. 4Application Code Migration From F280013x/15x to F28P55x
    1. 4.1 C2000Ware Header Files
    2. 4.2 Linker Command Files
    3. 4.3 C2000Ware Examples
  8. 5Specific Use Cases Related to F28P55x New Features
    1. 5.1 AES
    2. 5.2 PGA
    3. 5.3 USB
  9. 6EABI Support
    1. 6.1 Flash API
  10. 7References
  11. 8Revision History

PIE Channel Mapping

Pie channel mapping between F280013x/15x and F28P55x is different due to peripheral module changes between these devices. Table 3-6 summarizes the common and unique pie channel assignments on these two devices.

Table 3-5 Mux Legend
Color Description
mux function common for both devices
mux function applicable only for F280013x and F280015x
mux function applicable only for F28P55x
mux function applicable only for F28P55x and F280015x
mux function only applicable for F280015x
Table 3-6 Pie Table Comparison
index INTx.1 INTx.2 INTx.3 INTx.4 INTx.5 INTx.6 INTx.7 INTx.8 INTx.9 INTx.10 INTx.11 INTx.12 INTx.13 INTx.14 INTx.15 INTx.16
INT1.y INT_ADCA1 INT_ADCB1 INT_ADCC1 INT_XINT1 INT_XINT2 INT_SYS_ERR INT_TIMER0 INT_WAKE INT_ADCD1 INT_ADCE1
INT_ADCC1
INT2.y INT_EPWM1_TZ INT_EPWM2_TZ INT_EPWM3_TZ INT_EPWM4_TZ INT_EPWM5_TZ INT_EPWM6_TZ INT_EPWM7_TZ INT_EPWM8_TZ INT_EPWM9_TZ INT_EPWM10_TZ INT_EPWM11_TZ INT_EPWM12_TZ
INT3.y INT_EPWM1 INT_EPWM2 INT_EPWM3 INT_EPWM4 INT_EPWM5 INT_EPWM6 INT_EPWM7 INT_EPWM8 INT_EPWM9 INT_EPWM10 INT_EPWM11 INT_EPWM12
INT4.y INT_ECAP1 INT_ECAP2 INT_ECAP3
INT5.y INT_EQEP1 INT_EQEP2 INT_EQEP3 INT_CLB1 INT_CLB2
INT6.y INT_SPIA_RX INT_SPIA_TX INT_SPIB_RX INT_SPIB_TX INT_LINA_0 INT_LINA_1 INT_DCC0 INT_DCC1
INT7.y INT_DMA_CH1 INT_DMA_CH2 INT_DMA_CH3 INT_DMA_CH4 INT_DMA_CH5 INT_DMA_CH6 INT_PMBUSA INT_FSITXA1 INT_FSITXA2 INT_FSIRXA1 INT_FSIRXA2
INT8.y INT_I2CA INT_I2CA_FIFO INT_I2CB INT_I2CB_FIFO INT_SCIC_RX INT_SCIC_TX INT_LINA_0 INT_LINA_1
INT9.y INT_SCIA_RX INT_SCIA_TX INT_SCIB_RX INT_SCIB_TX INT_CANA0 INT_CANA1 INT_MCANA_0 INT_MCANA_1 INT_MCANB_0 INT_MCANB_1 INT_MCANB_ECC INT_MCANB_WAKE INT_USB
INT10.y INT_ADCA_EVT INT_ADCA2 INT_ADCA3 INT_ADCA4 INT_ADCB_EVT INT_ADCB2 INT_ADCB3 INT_ADCB4 INT_ADCC_EVT INT_ADCC2 INT_ADCC3 INT_ADCC4 INT_ADCD_EVT INT_ADCD2 INT_ADCD3 INT_ADCD4
INT_ADCC_EVT INT_ADCC2 INT_ADCC3 INT_ADCC4
INT11.y INT_CLA1_1 INT_CLA1_2 INT_CLA1_3 INT_CLA1_4 INT_CLA1_5 INT_CLA1_6 INT_CLA1_7 INT_CLA1_8 INT_ADCE_EVT INT_ADCE2 INT_ADCE3 INT_ADCE4
INT12.y INT_XINT3 INT_XINT4 INT_XINT5 INT_FLSS INT_VCU INT_MCANA_ECC INT_MCANA_WAKE INT_AES
INT_MCANA_WAKE INT_MCANA_ECC