Memory programming, 1 program and data memory lock bits, Memory program – Rainbow Electronics ATmega64C1 User Manual

289

7647A–AVR–02/08

ATmega32/64/M1/C1

See

“Addressing the Flash During Self-Programming” on page 279

for details about the use of Z-

pointer during Self-Programming.

24. Memory Programming

24.1

Program And Data Memory Lock Bits

The ATmega32/64/M1/C1 provides six Lock bits which can be left unprogrammed (“1”) or can be
programmed (“0”) to obtain the additional features listed in

Table 24-2

. The Lock bits can only be

erased to “1” with the Chip Erase command.

Notes:

1. “1” means unprogrammed, “0” means programmed.

Notes:

1. Program the Fuse bits and Boot Lock bits before programming the LB1 and LB2.
2. “1” means unprogrammed, “0” means programmed

Table 24-1.

Lock Bit Byte

(1)

Lock Bit Byte

Bit No

Description

Default Value

7

–

1 (unprogrammed)

6

–

1 (unprogrammed)

BLB12

5

Boot Lock bit

1 (unprogrammed)

BLB11

4

Boot Lock bit

1 (unprogrammed)

BLB02

3

Boot Lock bit

1 (unprogrammed)

BLB01

2

Boot Lock bit

1 (unprogrammed)

LB2

1

Lock bit

1 (unprogrammed)

LB1

0

Lock bit

1 (unprogrammed)

Table 24-2.

Lock Bit Protection Modes

(1)(2)

Memory Lock Bits

Protection Type

LB Mode

LB2

LB1

1

1

1

No memory lock features enabled.

2

1

0

Further programming of the Flash and EEPROM is disabled in
Parallel and Serial Programming mode. The Fuse bits are
locked in both Serial and Parallel Programming mode.

(1)

3

0

0

Further programming and verification of the Flash and
EEPROM is disabled in Parallel and Serial Programming mode.
The Boot Lock bits and Fuse bits are locked in both Serial and
Parallel Programming mode.

(1)