SLAA396A June   2008  – September 2018 MSP430F5131 , MSP430F5132 , MSP430F5151 , MSP430F5152 , MSP430F5171 , MSP430F5172 , MSP430F5232 , MSP430F5234 , MSP430F5237 , MSP430F5239 , MSP430F5242 , MSP430F5244 , MSP430F5247 , MSP430F5249 , MSP430F5252 , MSP430F5253 , MSP430F5254 , MSP430F5255 , MSP430F5256 , MSP430F5257 , MSP430F5258 , MSP430F5259 , MSP430F5304 , MSP430F5308 , MSP430F5309 , MSP430F5310 , MSP430F5324 , MSP430F5325 , MSP430F5326 , MSP430F5327 , MSP430F5328 , MSP430F5329 , MSP430F5333 , MSP430F5336 , MSP430F5338 , MSP430F5340 , MSP430F5341 , MSP430F5342 , MSP430F5418 , MSP430F5418A , MSP430F5419 , MSP430F5419A , MSP430F5435 , MSP430F5435A , MSP430F5436 , MSP430F5436A , MSP430F5437 , MSP430F5437A , MSP430F5438 , MSP430F5438A , MSP430F5500 , MSP430F5501 , MSP430F5502 , MSP430F5503 , MSP430F5504 , MSP430F5505 , MSP430F5506 , MSP430F5507 , MSP430F5508 , MSP430F5509 , MSP430F5510 , MSP430F5630 , MSP430F5631 , MSP430F5632 , MSP430F5633 , MSP430F5634 , MSP430F5635 , MSP430F5636 , MSP430F5637 , MSP430F5638

 

  1.   MSP430F5xx Overview and Comparison to MSP430F2xx and MSP430F4xx
    1.     Trademarks
    2. 1 Introduction
    3. 2 Memory Mapping
    4. 3 Core Modules
      1. 3.1 Central Processing Unit (CPUX)
      2. 3.2 Power Management Module (PMM)
      3. 3.3 Unified Clock System (UCS)
      4. 3.4 System Module (SYS)
      5. 3.5 JTAG Enhanced Emulation Module (JTAG/EEM)
    5. 4 Peripheral Modules
      1. 4.1 Timer_A
      2. 4.2 Timer_B
      3. 4.3 RTC_A
      4. 4.4 DMA
      5. 4.5 MPY32
      6. 4.6 Universal Serial Communication Interface (USCI)
      7. 4.7 Digital I/O
      8. 4.8 Cyclic Redundancy Check (CRC-CCITT)
      9. 4.9 ADC12_A
  2.   Revision History

3.2 Power Management Module (PMM)

The Power Management module is a completely new module. Its primary purpose is to generate a regulated internal core supply voltage from the external primary supply voltage. The majority of the logic on the MSP430F5xx is supplied from this regulated internal core supply, which is restricted on its maximum voltage due to process technology. The MSP430F2xx and MSP430F4xx devices are manufactured using a different process technology, and an onboard regulator is not necessary.

The PMM handles all supervisory and monitoring roles on the primary supply side and the core supply side, and it also provides brownout protection. The supervisors and monitors are highly programmable and can be tailored to the specific application needs with tradeoffs between response time and power dissipation.

The PMM also can be used to set one of four core supply voltages dynamically. This gives the application the capability to reduce power consumption when maximum processing performance is not required or when minimal standby power consumption is critical.