SPRS584Q April   2009  – January 2024 TMS320F28030 , TMS320F28030-Q1 , TMS320F28031 , TMS320F28031-Q1 , TMS320F28032 , TMS320F28032-Q1 , TMS320F28033 , TMS320F28033-Q1 , TMS320F28034 , TMS320F28034-Q1 , TMS320F28035 , TMS320F28035-Q1

PRODUCTION DATA  

  1.   1
  2. Features
  3. Applications
  4. Description
    1. 3.1 Functional Block Diagram
  5. Device Comparison
    1. 4.1 Related Products
  6. Pin Configuration and Functions
    1. 5.1 Pin Diagrams
    2. 5.2 Signal Descriptions
  7. Specifications
    1. 6.1  Absolute Maximum Ratings
    2. 6.2  ESD Ratings – Automotive
    3. 6.3  ESD Ratings – Commercial
    4. 6.4  Recommended Operating Conditions
    5. 6.5  Power Consumption Summary
      1. 6.5.1 TMS320F2803x Current Consumption at 60-MHz SYSCLKOUT
      2. 6.5.2 Reducing Current Consumption
      3. 6.5.3 Current Consumption Graphs (VREG Enabled)
    6. 6.6  Electrical Characteristics
    7. 6.7  Thermal Resistance Characteristics
      1. 6.7.1 PN Package
      2. 6.7.2 PAG Package
      3. 6.7.3 RSH Package
    8. 6.8  Thermal Design Considerations
    9. 6.9  JTAG Debug Probe Connection Without Signal Buffering for the MCU
    10. 6.10 Parameter Information
      1. 6.10.1 Timing Parameter Symbology
      2. 6.10.2 General Notes on Timing Parameters
    11. 6.11 Test Load Circuit
    12. 6.12 Power Sequencing
      1. 6.12.1 Reset ( XRS) Timing Requirements
      2. 6.12.2 Reset ( XRS) Switching Characteristics
    13. 6.13 Clock Specifications
      1. 6.13.1 Device Clock Table
        1. 6.13.1.1 2803x Clock Table and Nomenclature (60-MHz Devices)
        2. 6.13.1.2 Device Clocking Requirements/Characteristics
        3. 6.13.1.3 Internal Zero-Pin Oscillator (INTOSC1/INTOSC2) Characteristics
      2. 6.13.2 Clock Requirements and Characteristics
        1. 6.13.2.1 XCLKIN Timing Requirements – PLL Enabled
        2. 6.13.2.2 XCLKIN Timing Requirements – PLL Disabled
        3. 6.13.2.3 XCLKOUT Switching Characteristics (PLL Bypassed or Enabled)
    14. 6.14 Flash Timing
      1. 6.14.1 Flash/OTP Endurance for T Temperature Material
      2. 6.14.2 Flash/OTP Endurance for S Temperature Material
      3. 6.14.3 Flash/OTP Endurance for Q Temperature Material
      4. 6.14.4 Flash Parameters at 60-MHz SYSCLKOUT
      5. 6.14.5 Flash/OTP Access Timing
      6. 6.14.6 Flash Data Retention Duration
  8. Detailed Description
    1. 7.1 Overview
      1. 7.1.1  CPU
      2. 7.1.2  Control Law Accelerator (CLA)
      3. 7.1.3  Memory Bus (Harvard Bus Architecture)
      4. 7.1.4  Peripheral Bus
      5. 7.1.5  Real-Time JTAG and Analysis
      6. 7.1.6  Flash
      7. 7.1.7  M0, M1 SARAMs
      8. 7.1.8  L0 SARAM, and L1, L2, and L3 DPSARAMs
      9. 7.1.9  Boot ROM
        1. 7.1.9.1 Emulation Boot
        2. 7.1.9.2 GetMode
        3. 7.1.9.3 Peripheral Pins Used by the Bootloader
      10. 7.1.10 Security
      11. 7.1.11 Peripheral Interrupt Expansion (PIE) Block
      12. 7.1.12 External Interrupts (XINT1–XINT3)
      13. 7.1.13 Internal Zero Pin Oscillators, Oscillator, and PLL
      14. 7.1.14 Watchdog
      15. 7.1.15 Peripheral Clocking
      16. 7.1.16 Low-power Modes
      17. 7.1.17 Peripheral Frames 0, 1, 2, 3 (PFn)
      18. 7.1.18 General-Purpose Input/Output (GPIO) Multiplexer
      19. 7.1.19 32-Bit CPU-Timers (0, 1, 2)
      20. 7.1.20 Control Peripherals
      21. 7.1.21 Serial Port Peripherals
    2. 7.2 Memory Maps
    3. 7.3 Register Maps
    4. 7.4 Device Emulation Registers
    5. 7.5 VREG/BOR/POR
      1. 7.5.1 On-chip Voltage Regulator (VREG)
        1. 7.5.1.1 Using the On-chip VREG
        2. 7.5.1.2 Disabling the On-chip VREG
      2. 7.5.2 On-chip Power-On Reset (POR) and Brown-Out Reset (BOR) Circuit
    6. 7.6 System Control
      1. 7.6.1 Internal Zero Pin Oscillators
      2. 7.6.2 Crystal Oscillator Option
      3. 7.6.3 PLL-Based Clock Module
      4. 7.6.4 Loss of Input Clock (NMI Watchdog Function)
      5. 7.6.5 CPU Watchdog Module
    7. 7.7 Low-power Modes Block
    8. 7.8 Interrupts
      1. 7.8.1 External Interrupts
        1. 7.8.1.1 External Interrupt Electrical Data/Timing
          1. 7.8.1.1.1 External Interrupt Timing Requirements
          2. 7.8.1.1.2 External Interrupt Switching Characteristics
    9. 7.9 Peripherals
      1. 7.9.1  Control Law Accelerator (CLA) Overview
      2. 7.9.2  Analog Block
        1. 7.9.2.1 Analog-to-Digital Converter (ADC)
          1. 7.9.2.1.1 Features
          2. 7.9.2.1.2 ADC Start-of-Conversion Electrical Data/Timing
            1. 7.9.2.1.2.1 External ADC Start-of-Conversion Switching Characteristics
          3. 7.9.2.1.3 On-Chip Analog-to-Digital Converter (ADC) Electrical Data/Timing
            1. 7.9.2.1.3.1 ADC Electrical Characteristics
            2. 7.9.2.1.3.2 ADC Power Modes
            3. 7.9.2.1.3.3 Internal Temperature Sensor
              1. 7.9.2.1.3.3.1 Temperature Sensor Coefficient
            4. 7.9.2.1.3.4 ADC Power-Up Control Bit Timing
              1. 7.9.2.1.3.4.1 ADC Power-Up Delays
            5. 7.9.2.1.3.5 ADC Sequential and Simultaneous Timings
        2. 7.9.2.2 ADC MUX
        3. 7.9.2.3 Comparator Block
          1. 7.9.2.3.1 On-Chip Comparator/DAC Electrical Data/Timing
            1. 7.9.2.3.1.1 Electrical Characteristics of the Comparator/DAC
      3. 7.9.3  Detailed Descriptions
      4. 7.9.4  Serial Peripheral Interface (SPI) Module
        1. 7.9.4.1 SPI Master Mode Electrical Data/Timing
          1. 7.9.4.1.1 SPI Master Mode External Timing (Clock Phase = 0)
          2. 7.9.4.1.2 SPI Master Mode External Timing (Clock Phase = 1)
        2. 7.9.4.2 SPI Slave Mode Electrical Data/Timing
          1. 7.9.4.2.1 SPI Slave Mode External Timing (Clock Phase = 0)
          2. 7.9.4.2.2 SPI Slave Mode External Timing (Clock Phase = 1)
      5. 7.9.5  Serial Communications Interface (SCI) Module
      6. 7.9.6  Local Interconnect Network (LIN)
      7. 7.9.7  Enhanced Controller Area Network (eCAN) Module
      8. 7.9.8  Inter-Integrated Circuit (I2C)
        1. 7.9.8.1 I2C Electrical Data/Timing
          1. 7.9.8.1.1 I2C Timing Requirements
          2. 7.9.8.1.2 I2C Switching Characteristics
      9. 7.9.9  Enhanced PWM Modules (ePWM1/2/3/4/5/6/7)
        1. 7.9.9.1 ePWM Electrical Data/Timing
          1. 7.9.9.1.1 ePWM Timing Requirements
          2. 7.9.9.1.2 ePWM Switching Characteristics
        2. 7.9.9.2 Trip-Zone Input Timing
          1. 7.9.9.2.1 Trip-Zone Input Timing Requirements
      10. 7.9.10 High-Resolution PWM (HRPWM)
        1. 7.9.10.1 HRPWM Electrical Data/Timing
          1. 7.9.10.1.1 High-Resolution PWM Characteristics
      11. 7.9.11 Enhanced Capture Module (eCAP1)
        1. 7.9.11.1 eCAP Electrical Data/Timing
          1. 7.9.11.1.1 Enhanced Capture (eCAP) Timing Requirement
          2. 7.9.11.1.2 eCAP Switching Characteristics
      12. 7.9.12 High-Resolution Capture (HRCAP) Module
        1. 7.9.12.1 HRCAP Electrical Data/Timing
          1. 7.9.12.1.1 High-Resolution Capture (HRCAP) Timing Requirements
      13. 7.9.13 Enhanced Quadrature Encoder Pulse (eQEP)
        1. 7.9.13.1 eQEP Electrical Data/Timing
          1. 7.9.13.1.1 Enhanced Quadrature Encoder Pulse (eQEP) Timing Requirements
          2. 7.9.13.1.2 eQEP Switching Characteristics
      14. 7.9.14 JTAG Port
      15. 7.9.15 General-Purpose Input/Output (GPIO) MUX
        1. 7.9.15.1 GPIO Electrical Data/Timing
          1. 7.9.15.1.1 GPIO - Output Timing
            1. 7.9.15.1.1.1 General-Purpose Output Switching Characteristics
          2. 7.9.15.1.2 GPIO - Input Timing
            1. 7.9.15.1.2.1 General-Purpose Input Timing Requirements
          3. 7.9.15.1.3 Sampling Window Width for Input Signals
          4. 7.9.15.1.4 Low-Power Mode Wakeup Timing
            1. 7.9.15.1.4.1 IDLE Mode Timing Requirements
            2. 7.9.15.1.4.2 IDLE Mode Switching Characteristics
            3. 7.9.15.1.4.3 STANDBY Mode Timing Requirements
            4. 7.9.15.1.4.4 STANDBY Mode Switching Characteristics
            5. 7.9.15.1.4.5 HALT Mode Timing Requirements
            6. 7.9.15.1.4.6 HALT Mode Switching Characteristics
  9. Applications, Implementation, and Layout
    1. 8.1 TI Reference Design
  10. Device and Documentation Support
    1. 9.1 Device and Development Support Tool Nomenclature
    2. 9.2 Tools and Software
    3. 9.3 Documentation Support
    4. 9.4 Support Resources
    5. 9.5 Trademarks
    6. 9.6 Electrostatic Discharge Caution
    7. 9.7 Glossary
  11. 10Revision History
  12. 11Mechanical, Packaging, and Orderable Information
    1. 11.1 Packaging Information

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

PLL-Based Clock Module

The devices have an on-chip, PLL-based clock module. This module provides all the necessary clocking signals for the device, as well as control for low-power mode entry. The PLL has a 4-bit ratio control PLLCR[DIV] to select different CPU clock rates. The watchdog module should be disabled before writing to the PLLCR register. It can be re-enabled (if need be) after the PLL module has stabilized, which takes
1 ms. The input clock and PLLCR[DIV] bits should be chosen in such a way that the output frequency of the PLL (VCOCLK) is at least 50 MHz.

Table 7-15 PLL Settings
PLLCR[DIV] VALUE(2)(3)SYSCLKOUT (CLKIN)
PLLSTS[DIVSEL] = 0 or 1(1)PLLSTS[DIVSEL] = 2PLLSTS[DIVSEL] = 3
0000 (PLL bypass)OSCCLK/4 (Default)(2)OSCCLK/2OSCCLK
0001(OSCCLK * 1)/4(OSCCLK * 1)/2(OSCCLK * 1)/1
0010(OSCCLK * 2)/4(OSCCLK * 2)/2(OSCCLK * 2)/1
0011(OSCCLK * 3)/4(OSCCLK * 3)/2(OSCCLK * 3)/1
0100(OSCCLK * 4)/4(OSCCLK * 4)/2(OSCCLK * 4)/1
0101(OSCCLK * 5)/4(OSCCLK * 5)/2(OSCCLK * 5)/1
0110(OSCCLK * 6)/4(OSCCLK * 6)/2(OSCCLK * 6)/1
0111(OSCCLK * 7)/4(OSCCLK * 7)/2(OSCCLK * 7)/1
1000(OSCCLK * 8)/4(OSCCLK * 8)/2(OSCCLK * 8)/1
1001(OSCCLK * 9)/4(OSCCLK * 9)/2(OSCCLK * 9)/1
1010(OSCCLK * 10)/4(OSCCLK * 10)/2(OSCCLK * 10)/1
1011(OSCCLK * 11)/4(OSCCLK * 11)/2(OSCCLK * 11)/1
1100(OSCCLK * 12)/4(OSCCLK * 12)/2(OSCCLK * 12)/1
By default, PLLSTS[DIVSEL] is configured for /4. (The boot ROM changes this to /1.) PLLSTS[DIVSEL] must be 0 before writing to the PLLCR and should be changed only after PLLSTS[PLLLOCKS] = 1.
The PLL control register (PLLCR) and PLL Status Register (PLLSTS) are reset to their default state by the XRS signal or a watchdog reset only. A reset issued by the debugger or the missing clock detect logic has no effect.
This register is EALLOW protected. See the System Control chapter in the TMS320F2803x Real-Time Microcontrollers Technical Reference Manual for more information.
Table 7-16 CLKIN Divide Options
PLLSTS [DIVSEL] CLKIN DIVIDE
0 /4
1 /4
2 /2
3 /1

The PLL-based clock module provides four modes of operation:

  • INTOSC1 (Internal Zero-pin Oscillator 1): This is the on-chip internal oscillator 1. This can provide the clock for the Watchdog block, core and CPU-Timer 2
  • INTOSC2 (Internal Zero-pin Oscillator 2): This is the on-chip internal oscillator 2. This can provide the clock for the Watchdog block, core and CPU-Timer 2. Both INTOSC1 and INTOSC2 can be independently chosen for the Watchdog block, core and CPU-Timer 2.
  • Crystal/Resonator Operation: The on-chip (crystal) oscillator enables the use of an external crystal/resonator attached to the device to provide the time base. The crystal/resonator is connected to the X1/X2 pins. Some devices may not have the X1/X2 pins. See Table 5-1 for details.
  • External Clock Source Operation: If the on-chip (crystal) oscillator is not used, this mode allows it to be bypassed. The device clocks are generated from an external clock source input on the XCLKIN pin. The XCLKIN is multiplexed with GPIO19 or GPIO38 pin. The XCLKIN input can be selected as GPIO19 or GPIO38 through the XCLKINSEL bit in XCLK register. The CLKCTL[XCLKINOFF] bit disables this clock input (forced low). If the clock source is not used or the respective pins are used as GPIOs, the user should disable at boot time.

Before changing clock sources, ensure that the target clock is present. If a clock is not present, then that clock source must be disabled (using the CLKCTL register) before switching clocks.

Table 7-17 Possible PLL Configuration Modes
PLL MODEREMARKSPLLSTS[DIVSEL]CLKIN AND
SYSCLKOUT
PLL OffInvoked by the user setting the PLLOFF bit in the PLLSTS register. The PLL block is disabled in this mode. This can be useful to reduce system noise and for low-power operation. The PLLCR register must first be set to 0x0000 (PLL Bypass) before entering this mode. The CPU clock (CLKIN) is derived directly from the input clock on either X1/X2, X1 or XCLKIN.0, 1
2
3
OSCCLK/4
OSCCLK/2
OSCCLK/1
PLL BypassPLL Bypass is the default PLL configuration upon power-up or after an external reset ( XRS). This mode is selected when the PLLCR register is set to 0x0000 or while the PLL locks to a new frequency after the PLLCR register has been modified. In this mode, the PLL is bypassed but the PLL is not turned off.0, 1
2
3
OSCCLK/4
OSCCLK/2
OSCCLK/1
PLL EnableAchieved by writing a nonzero value n into the PLLCR register. Upon writing to the PLLCR the device will switch to PLL Bypass mode until the PLL locks.0, 1
2
3
OSCCLK * n/4
OSCCLK * n/2
OSCCLK * n/1