MC9S12NE64V1 Datasheet, PDF(100/554 Page) Freescale Semiconductor, Inc – MC9S12NE64V1 Data Sheet

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MC9S12NE64V1 Datasheet, PDF (100/554 Pages) Freescale Semiconductor, Inc – MC9S12NE64V1 Data Sheet

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Chapter 2 64 Kbyte Flash Module (S12FTS64KV3)

2.5 Operating Modes

2.5.1 Wait Mode

If a command is active (CCIF = 0) when the MCU enters wait mode, the active command and any buffered

command will be completed.

The Flash module can recover the MCU from wait mode if the CBEIF and CCIF interrupts are enabled

(Section 2.8, âInterruptsâ).

2.5.2 Stop Mode

If a command is active (CCIF = 0) when the MCU enters stop mode, the operation will be aborted and, if

the operation is program or erase, the Flash array data being programmed or erased may be corrupted and

the CCIF and ACCERR flags will be set. If active, the high voltage circuitry to the Flash memory will

immediately be switched off when entering stop mode. Upon exit from stop mode, the CBEIF flag is set

and any buffered command will not be launched. The ACCERR flag must be cleared before starting a

command write sequence (see Section 2.4.1.2, âCommand Write Sequenceâ).

NOTE

As active commands are immediately aborted when the MCU enters stop

mode, it is strongly recommended that the user does not use the STOP

instruction during program or erase operations.

2.5.3 Background Debug Mode

In background debug mode (BDM), the FPROT register is writable. If the MCU is unsecured, then all

Flash commands listed in Table 2-18 can be executed.

2.6 Flash Module Security

The Flash module provides the necessary security information to the MCU. After each reset, the Flash

module determines the security state of the MCU as deï¬ned in Section 2.3.2.2, âFlash Security Register

(FSEC)â.

The contents of the Flash security byte at 0xFF0F in the Flash conï¬guration ï¬eld must be changed directly

by programming 0xFF0F when the MCU is unsecured and the higher address sector is unprotected. If the

Flash security byte remains in a secured state, any reset will cause the MCU to initialize to a secure

operating mode.

2.6.1 Unsecuring the MCU using Backdoor Key Access

The MCU may be unsecured by using the backdoor key access feature which requires knowledge of the

contents of the backdoor keys (four 16-bit words programmed at addresses 0xFF00â0xFF07). If the

KEYEN[1:0] bits are in the enabled state (see Section 2.3.2.2, âFlash Security Register (FSEC)â) and the

MC9S12NE64 Data Sheet, Rev. 1.1

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Freescale Semiconductor

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