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PIC18F4520-I/PT 参数 Datasheet PDF下载

PIC18F4520-I/PT图片预览
型号: PIC18F4520-I/PT
PDF下载: 下载PDF文件 查看货源
内容描述: 28 /40/ 44引脚增强型闪存微控制器与10位A / D和纳瓦技术 [28/40/44-Pin Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology]
分类和应用: 闪存微控制器
文件页数/大小: 412 页 / 6898 K
品牌: MICROCHIP [ MICROCHIP ]
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PIC18F2420/2520/4420/4520  
5.3.1  
BANK SELECT REGISTER (BSR)  
5.3  
Data Memory Organization  
Large areas of data memory require an efficient  
addressing scheme to make rapid access to any  
address possible. Ideally, this means that an entire  
address does not need to be provided for each read or  
write operation. For PIC18 devices, this is accom-  
plished with a RAM banking scheme. This divides the  
memory space into 16 contiguous banks of 256 bytes.  
Depending on the instruction, each location can be  
addressed directly by its full 12-bit address, or an 8-bit  
low-order address and a 4-bit Bank Pointer.  
Note:  
The operation of some aspects of data  
memory are changed when the PIC18  
extended instruction set is enabled. See  
Section 5.5 “Data Memory and the  
Extended Instruction Set” for more  
information.  
The data memory in PIC18 devices is implemented as  
static RAM. Each register in the data memory has a  
12-bit address, allowing up to 4096 bytes of data  
memory. The memory space is divided into as many as  
16 banks that contain 256 bytes each; PIC18F2420/  
2520/4420/4520 devices implement all 16 banks.  
Figure 5-5 shows the data memory organization for the  
PIC18F2420/2520/4420/4520 devices.  
Most instructions in the PIC18 instruction set make use  
of the Bank Pointer, known as the Bank Select Register  
(BSR). This SFR holds the 4 Most Significant bits of a  
location’s address; the instruction itself includes the  
8 Least Significant bits. Only the four lower bits of the  
BSR are implemented (BSR<3:0>). The upper four bits  
are unused; they will always read ‘0’ and cannot be  
written to. The BSR can be loaded directly by using the  
MOVLBinstruction.  
The data memory contains Special Function Registers  
(SFRs) and General Purpose Registers (GPRs). The  
SFRs are used for control and status of the controller  
and peripheral functions, while GPRs are used for data  
storage and scratchpad operations in the user’s  
application. Any read of an unimplemented location will  
read as ‘0’s.  
The value of the BSR indicates the bank in data  
memory; the 8 bits in the instruction show the location  
in the bank and can be thought of as an offset from the  
bank’s lower boundary. The relationship between the  
BSR’s value and the bank division in data memory is  
shown in Figure 5-7.  
The instruction set and architecture allow operations  
across all banks. The entire data memory may be  
accessed by Direct, Indirect or Indexed Addressing  
modes. Addressing modes are discussed later in this  
subsection.  
Since up to 16 registers may share the same low-order  
address, the user must always be careful to ensure that  
the proper bank is selected before performing a data  
read or write. For example, writing what should be  
program data to an 8-bit address of F9h while the BSR  
is 0Fh will end up resetting the program counter.  
To ensure that commonly used registers (SFRs and  
select GPRs) can be accessed in a single cycle, PIC18  
devices implement an Access Bank. This is a 256-byte  
memory space that provides fast access to SFRs and  
the lower portion of GPR Bank 0 without using the  
BSR. Section 5.3.2 “Access Bank” provides a  
detailed description of the Access RAM.  
While any bank can be selected, only those banks that  
are actually implemented can be read or written to.  
Writes to unimplemented banks are ignored, while  
reads from unimplemented banks will return ‘0’s. Even  
so, the STATUS register will still be affected as if the  
operation was successful. The data memory map in  
Figure 5-5 indicates which banks are implemented.  
In the core PIC18 instruction set, only the MOVFF  
instruction fully specifies the 12-bit address of the  
source and target registers. This instruction ignores the  
BSR completely when it executes. All other instructions  
include only the low-order address as an operand and  
must use either the BSR or the Access Bank to locate  
their target registers.  
© 2008 Microchip Technology Inc.  
DS39631E-page 59  
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