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ATMEGA48PA-AU 参数 Datasheet PDF下载

ATMEGA48PA-AU图片预览
型号: ATMEGA48PA-AU
PDF下载: 下载PDF文件 查看货源
内容描述: 8位微控制器与4/8/ 16 / 32K字节的系统内可编程闪存 [8-bit Microcontroller with 4/8/16/32K Bytes In-System Programmable Flash]
分类和应用: 闪存微控制器和处理器外围集成电路时钟
文件页数/大小: 448 页 / 12817 K
品牌: ATMEL [ ATMEL ]
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ATmega48PA/88PA/168PA/328P  
Table 26-2. Boot Lock Bit0 Protection Modes (Application Section)(1)  
BLB0 Mode  
BLB02  
BLB01  
Protection  
No restrictions for SPM or LPM accessing the Application  
section.  
1
2
1
1
1
0
SPM is not allowed to write to the Application section.  
SPM is not allowed to write to the Application section, and LPM  
executing from the Boot Loader section is not allowed to read  
from the Application section. If Interrupt Vectors are placed in  
the Boot Loader section, interrupts are disabled while executing  
from the Application section.  
3
4
0
0
0
1
LPM executing from the Boot Loader section is not allowed to  
read from the Application section. If Interrupt Vectors are placed  
in the Boot Loader section, interrupts are disabled while  
executing from the Application section.  
Note:  
1. “1” means unprogrammed, “0” means programmed  
Table 26-3. Boot Lock Bit1 Protection Modes (Boot Loader Section)(1)  
BLB1 Mode  
BLB12  
BLB11  
Protection  
No restrictions for SPM or LPM accessing the Boot Loader  
section.  
1
2
1
1
1
0
SPM is not allowed to write to the Boot Loader section.  
SPM is not allowed to write to the Boot Loader section, and LPM  
executing from the Application section is not allowed to read  
from the Boot Loader section. If Interrupt Vectors are placed in  
the Application section, interrupts are disabled while executing  
from the Boot Loader section.  
3
4
0
0
0
1
LPM executing from the Application section is not allowed to  
read from the Boot Loader section. If Interrupt Vectors are  
placed in the Application section, interrupts are disabled while  
executing from the Boot Loader section.  
Note:  
1. “1” means unprogrammed, “0” means programmed  
26.6 Entering the Boot Loader Program  
Entering the Boot Loader takes place by a jump or call from the application program. This may  
be initiated by a trigger such as a command received via USART, or SPI interface. Alternatively,  
the Boot Reset Fuse can be programmed so that the Reset Vector is pointing to the Boot Flash  
start address after a reset. In this case, the Boot Loader is started after a reset. After the applica-  
tion code is loaded, the program can start executing the application code. Note that the fuses  
cannot be changed by the MCU itself. This means that once the Boot Reset Fuse is pro-  
grammed, the Reset Vector will always point to the Boot Loader Reset and the fuse can only be  
changed through the serial or parallel programming interface.  
Table 26-4. Boot Reset Fuse(1)  
BOOTRST  
Reset Address  
1
0
Reset Vector = Application Reset (address 0x0000)  
Reset Vector = Boot Loader Reset (see Table 26-7 on page 289)  
Note:  
1. “1” means unprogrammed, “0” means programmed  
281  
8161D–AVR–10/09  
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