256 KByte Flash Module (S12XFTMR256K1V1)
MC9S12XHY-Family Reference Manual, Rev. 1.01
580
Freescale Semiconductor
18.3.1.2
Flash Security Register (FSEC)
The FSEC register holds all bits associated with the security of the MCU and Flash module.
All bits in the FSEC register are readable but not writable.
During the reset sequence, the FSEC register is loaded with the contents of the Flash security byte in the
Flash configuration field at global address 0x7F_FF0F located in P-Flash memory (see
Table 18-2
) as
indicated by reset condition F in
Figure 18-5
. If a double bit fault is detected while reading the P-Flash
phrase containing the Flash security byte during the reset sequence, all bits in the FSEC register will be
set to leave the Flash module in a secured state with backdoor key access disabled.
Offset Module Base + 0x0001
7
6
5
4
3
2
1
0
R
KEYEN[1:0]
RNV[5:2]
SEC[1:0]
W
Reset
F
F
F
F
F
F
F
F
= Unimplemented or Reserved
Figure 18-5. Flash Security Register (FSEC)
Table 18-6. FSEC Field Descriptions
Field
Description
7–6
KEYEN[1:0]
Backdoor Key Security Enable Bits — The KEYEN[1:0] bits define the enabling of backdoor key access to the
Flash module as shown in
Table 18-7
.
5–2
RNV[5:2}
Reserved Nonvolatile Bits — The RNV bits should remain in the erased state for future enhancements.
1–0
SEC[1:0]
Flash Security Bits — The SEC[1:0] bits define the security state of the MCU as shown in
Table 18-8
. If the
Flash module is unsecured using backdoor key access, the SEC bits are forced to 10.
Table 18-7. Flash KEYEN States
KEYEN[1:0]
Status of Backdoor Key Access
00
DISABLED
01
DISABLED
1
1
Preferred KEYEN state to disable backdoor key access.
10
ENABLED
11
DISABLED
Table 18-8. Flash Security States
SEC[1:0]
Status of Security
00
SECURED
01
SECURED
1
10
UNSECURED
11
SECURED
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