MSP430F643 Datasheet, PDF(18/106 Page) Texas Instruments

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MSP430F643 Datasheet, PDF (18/106 Pages) Texas Instruments – MIXED SIGNAL MICROCONTROLLER

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MSP430F643x

SLAS720B â AUGUST 2010 â REVISED AUGUST 2012

Table 10. Spy-Bi-Wire Pin Requirements and Functions (continued)

DEVICE SIGNAL

VSS

DIRECTION

FUNCTION

Ground supply

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Flash Memory

The flash memory can be programmed via the JTAG port, Spy-Bi-Wire (SBW), the BSL, or in-system by the

CPU. The CPU can perform single-byte, single-word, and long-word writes to the flash memory. Features of the

flash memory include:

â¢ Flash memory has n segments of main memory and four segments of information memory (A to D) of

128 bytes each. Each segment in main memory is 512 bytes in size.

â¢ Segments 0 to n may be erased in one step, or each segment may be individually erased.

â¢ Segments A to D can be erased individually, or as a group with segments 0 to n. Segments A to D are also

called information memory.

â¢ Segment A can be locked separately.

RAM Memory

The RAM memory is made up of n sectors. Each sector can be completely powered down to save leakage,

however all data is lost. Features of the RAM memory include:

â¢ RAM memory has n sectors. The size of a sector can be found in Memory Organization.

â¢ Each sector 0 to n can be complete disabled, however data retention is lost.

â¢ Each sector 0 to n automatically enters low power retention mode when possible.

Backup RAM Memory

The backup RAM provides a limited number of bytes of RAM that are retained during LPMx.5 and during

operation from a backup supply if the Battery Backup System module is implemented.

There are 8 bytes of Backup RAM available on MSP430F643x. It can be wordwise accessed via the control

registers BAKMEM0, BAKMEM1, BAKMEM2, and BAKMEM3.

Peripherals

Peripherals are connected to the CPU through data, address, and control buses and can be handled using all

instructions. For complete module descriptions, see the MSP430x5xx and MSP430x6xx Family User's Guide

(SLAU208).

Digital I/O

There are up to nine 8-bit I/O ports implemented: P1 through P9 are complete, and port PJ contains four

individual I/O ports.

â¢ All individual I/O bits are independently programmable.

â¢ Any combination of input, output, and interrupt conditions is possible.

â¢ Programmable pullup or pulldown on all ports.

â¢ Programmable drive strength on all ports.

â¢ Edge-selectable interrupt input capability for all the eight bits of ports P1, P2, P3, and P4.

â¢ Read/write access to port-control registers is supported by all instructions.

â¢ Ports can be accessed byte-wise (P1 through P9) or word-wise in pairs (PA through PD).

Port Mapping Controller

The port mapping controller allows the flexible and reconfigurable mapping of digital functions to port P2.

VALUE

Table 11. Port Mapping, Mnemonics and Functions

PxMAPy MNEMONIC

PM_NONE

INPUT PIN FUNCTION

None

OUTPUT PIN FUNCTION

DVSS

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