4. Option byte description

There are six option bytes. They are configured by the end user depending on the application requirements. As a configuration example, the watchdog may be selected in hardware or software mode.

A 32-bit word is split up as follows in the option bytes.

Table 9. Option byte format

31-2423-1615 -87-0
Complemented option byte1Option byte 1Complemented option byte0Option byte 0

The organization of these bytes inside the information block is as shown in Table 10 .

The option bytes can be read from the memory locations listed in Table 10 or from the Option byte register (FLASH_OBR).

Note: The new programmed option bytes (user, read/write protection) are loaded after a system reset.

Table 10. Option byte organization

Address[31:24][23:16][15:8][7:0]
0x1FFF F800nUSERUSERnRDPRDP
0x1FFF F804nData1Data1nData0Data0
0x1FFF F808nWRP1WRP1nWRP0WRP0

Table 11. Description of the option bytes

Flash memory addressOption bytes
0x1FFF F800

Bits [31:24]: nUSER

Bits [23:16]: USER : User option byte (stored in FLASH_OBR[15:8])

This byte is used to configure the following features:

  • - Select the watchdog event: Hardware or software
  • - Reset event when entering Stop mode
  • - Reset event when entering Standby mode

Bit 23: Reserved

Bit 22: SRAM_PE

The SRAM hardware parity check is disabled by default. This bit allows the user to enable the SRAM hardware parity check.

  • 0: Parity check enabled.
  • 1: Parity check disabled.

Bit 21: VDDA_MONITOR

This bit selects the analog monitoring on the VDDA power source:

  • 0: VDDA power supply supervisor disabled.
  • 1: VDDA power supply supervisor enabled.

Bit 20: nBOOT1

Together with the BOOT0 pin, this bit selects Boot mode from the main Flash memory, SRAM or System memory. Refer to Section 2.5 on page 52 .

Bit 19: Reserved, must be kept at reset.

Bit 18: nRST_STDBY

  • 0: Reset generated when entering Standby mode.
  • 1: No reset generated.

Bit 17: nRST_STOP

  • 0: Reset generated when entering Stop mode
  • 1: No reset generated

Bit 16: WDG_SW

  • 0: Hardware watchdog
  • 1: Software watchdog

Bits [15:8]: nRDP

Bits [7:0]: RDP : Read protection option byte

The value of this byte defines the Flash memory protection level

  • 0xAA: Level 0
  • 0xx (except 0xAA and 0xCC): Level 1
  • 0xCC: Level 2

The protection levels are stored in the Flash_OBR Flash option bytes register (RDPRT bits).

Table 11. Description of the option bytes (continued)

Flash memory addressOption bytes
0x1FFF F804DataX: Two bytes for user data storage.
These addresses can be programmed using the option byte programming procedure.
Bits [31:24]: nData1
Bits [23:16]: Data1 (stored in FLASH_OBR[31:24])
Bits [15:8]: nData0
Bits [7:0]: Data0 (stored in FLASH_OBR[23:16])
0x1FFF F808WRPx: Flash memory write protection option bytes
Bits [31:24]: nWRP1
Bits [23:16]: WRP1 (stored in FLASH_WRPR[15:8])
Bits [15:8]: nWRP0
Bits [7:0]: WRP0 (stored in FLASH_WRPR[7:0])
0: Write protection active
1: Write protection not active
Refer to Section 3.3.2: Write protection for more details.
In total, 2 user option bytes are used to protect the whole main Flash memory.
WRP0: Write-protects pages 0 to 15
WRP1: Write-protects pages 16 to 31
Note: Even if WRP2 and WRP3 are not available, they must be kept at reset value.

On every system reset, the option byte loader (OBL) reads the information block and stores the data into the Option byte register (FLASH_OBR) and the Write protection register (FLASH_WRPR). Each option byte also has its complement in the information block. During option loading, by verifying the option bit and its complement, it is possible to check that the loading has correctly taken place. If this is not the case, an option byte error (OPTERR) is generated. When a comparison error occurs, the corresponding option byte is forced to 0xFF. The comparator is disabled when the option byte and its complement are both equal to 0xFF (Electrical Erase state).