Datasheet
MSP430G2x53
MSP430G2x13
www.ti.com
SLAS735J –APRIL 2011–REVISED MAY 2013
Memory Organization
Table 8. Memory Organization
MSP430G2253 MSP430G2353 MSP430G2453 MSP430G2553
MSP430G2153
MSP430G2213 MSP430G2313 MSP430G2413 MSP430G2513
Memory Size 1kB 2kB 4kB 8kB 16kB
Main: interrupt vector Flash 0xFFFF to 0xFFC0 0xFFFF to 0xFFC0 0xFFFF to 0xFFC0 0xFFFF to 0xFFC0 0xFFFF to 0xFFC0
Main: code memory Flash 0xFFFF to 0xFC00 0xFFFF to 0xF800 0xFFFF to 0xF000 0xFFFF to 0xE000 0xFFFF to 0xC000
Information memory Size 256 Byte 256 Byte 256 Byte 256 Byte 256 Byte
Flash 010FFh to 01000h 010FFh to 01000h 010FFh to 01000h 010FFh to 01000h 010FFh to 01000h
RAM Size 256 Byte 256 Byte 256 Byte 512 Byte 512 Byte
0x02FF to 0x0200 0x02FF to 0x0200 0x02FF to 0x0200 0x03FF to 0x0200 0x03FF to 0x0200
Peripherals 16-bit 01FFh to 0100h 01FFh to 0100h 01FFh to 0100h 01FFh to 0100h 01FFh to 0100h
8-bit 0FFh to 010h 0FFh to 010h 0FFh to 010h 0FFh to 010h 0FFh to 010h
8-bit SFR 0Fh to 00h 0Fh to 00h 0Fh to 00h 0Fh to 00h 0Fh to 00h
Bootstrap Loader (BSL)
The MSP430 BSL enables users to program the flash memory or RAM using a UART serial interface. Access to
the MSP430 memory via the BSL is protected by user-defined password. For complete description of the
features of the BSL and its implementation, see the MSP430 Programming Via the Bootstrap Loader User's
Guide (SLAU319).
Table 9. BSL Function Pins
20-PIN PW PACKAGE
BSL FUNCTION 28-PIN PACKAGE PW 32-PIN PACKAGE RHB
20-PIN N PACKAGE
Data transmit 3 - P1.1 3 - P1.1 1 - P1.1
Data receive 7 - P1.5 7 - P1.5 5 - P1.5
Flash Memory
The flash memory can be programmed via the Spy-Bi-Wire/JTAG port or in-system by the CPU. The CPU can
perform single-byte and single-word writes to the flash memory. Features of the flash memory include:
• Flash memory has n segments of main memory and four segments of information memory (A to D) of
64 bytes each. Each segment in main memory is 512 bytes in size.
• Segments 0 to n may be erased in one step, or each segment may be individually erased.
• 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.
• Segment A contains calibration data. After reset segment A is protected against programming and erasing. It
can be unlocked but care should be taken not to erase this segment if the device-specific calibration data is
required.
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