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MC9S08QD4MPS Datasheet(PDF) 44 Page - Freescale Semiconductor, Inc |
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MC9S08QD4MPS Datasheet(HTML) 44 Page - Freescale Semiconductor, Inc |
44 / 202 page Chapter 4 Memory Map and Register Definition MC9S08QD4 Series MCU Data Sheet, Rev. 3 44 Freescale Semiconductor • Writing a second time to a flash address before launching the previous command (There is only one write to flash for every command.) • Writing a second time to FCMD before launching the previous command (There is only one write to FCMD for every command.) • Writing to any flash control register other than FCMD after writing to a flash address • Writing any command code other than the five allowed codes (0x05, 0x20, 0x25, 0x40, or 0x41) to FCMD • Writing any flash control register other than to write to FSTAT (to clear FCBEF and launch the command) after writing the command to FCMD. • The MCU enters stop mode while a program or erase command is in progress (The command is aborted.) • Writing the byte program, burst program, or page erase command code (0x20, 0x25, or 0x40) with a background debug command while the MCU is secured (The background debug controller can do blank check and mass erase commands only when the MCU is secure.) • Writing 0 to FCBEF to cancel a partial command 4.5.6 Flash Block Protection The block protection feature prevents the protected region of flash from program or erase changes. Block protection is controlled through the flash protection register (FPROT). When enabled, block protection begins at any 512 byte boundary below the last address of flash, 0xFFFF. (see Section 4.7.4, “Flash Protection Register (FPROT and NVPROT).”) After exit from reset, FPROT is loaded with the contents of the NVPROT location which is in the nonvolatile register block of the flash memory. FPROT cannot be changed directly from application software so a runaway program cannot alter the block protection settings. Because NVPROT is within the last 512 bytes of flash, if any amount of memory is protected, NVPROT is itself protected and cannot be altered (intentionally or unintentionally) by the application software. FPROT can be written through background debug commands, which allows a way to erase and reprogram a protected flash memory. The block protection mechanism is illustrated in Figure 4-4. The FPS bits are used as the upper bits of the last address of unprotected memory. This address is formed by concatenating FPS7:FPS1 with logic 1 bits as shown. For example, in order to protect the last 8192 bytes of memory (addresses 0xE000 through 0xFFFF), the FPS bits must be set to 1101 111, which results in the value 0xDFFF as the last address of unprotected memory. In addition to programming the FPS bits to the appropriate value, FPDIS (bit 0 of NVPROT) must be programmed to logic 0 to enable block protection. Therefore the value 0xDE must be programmed into NVPROT to protect addresses 0xE000 through 0xFFFF. Figure 4-4. Block Protection Mechanism FPS7 FPS6 FPS5 FPS4 FPS3 FPS2 FPS1 A15 A14 A13 A12 A11 A10 A9 A8 1 A7 A6 A5 A4 A3 A2 A1 A0 111 11 111 |
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