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| 型號(hào): | 16F84A |
| 廠商: | Microchip Technology Inc. |
| 英文描述: | CAT 5E CROSSOVER PATCH CORD CABLE BLUE 20 FT |
| 中文描述: | 18引腳閃存/ EEPROM的8位微控制器 |
| 文件頁(yè)數(shù): | 34/124頁(yè) |
| 文件大小: | 1322K |
| 代理商: | 16F84A |
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PIC16F8X
DS30430C-page 34
1998 Microchip Technology Inc.
7.2
EECON1 and EECON2 Registers
EECON1 is the control register with five low order bits
physically implemented. The upper-three bits are non-
existent and read as '0's.
Control bits RD and WR initiate read and write,
respectively. These bits cannot be cleared, only set, in
software. They are cleared in hardware at completion of
the read or write operation. The inability to clear the WR
bit in software prevents the accidental, premature ter-
mination of a write operation.
The WREN bit, when set, will allow a write operation.
On power-up, the WREN bit is clear. The WRERR bit is
set when a write operation is interrupted by a MCLR
reset or a WDT time-out reset during normal operation.
In these situations, following reset, the user can check
the WRERR bit and rewrite the location. The data and
address will be unchanged in the EEDATA and
EEADR registers.
Interrupt flag bit EEIF is set when write is complete. It
must be cleared in software.
EECON2 is not a physical register. Reading EECON2
will read all '0's. The EECON2 register is used
exclusively in the Data EEPROM write sequence.
7.3
Reading the EEPROM Data Memory
To read a data memory location, the user must write
the address to the EEADR register and then set control
bit RD (EECON1<0>). The data is available, in the very
next cycle, in the EEDATA register; therefore it can be
read in the next instruction. EEDATA will hold this value
until another read or until it is written to by the user
(during a write operation).
EXAMPLE 7-1:
DATA EEPROM READ
BCF STATUS, RP0 ; Bank 0
MOVLW CONFIG_ADDR ;
MOVWF EEADR ; Address to read
BSF STATUS, RP0 ; Bank 1
BSF EECON1, RD ; EE Read
BCF STATUS, RP0 ; Bank 0
MOVF EEDATA, W ; W = EEDATA
7.4
Writing to the EEPROM Data Memory
To write an EEPROM data location, the user must first
write the address to the EEADR register and the data
to the EEDATA register. Then the user must follow a
specific sequence to initiate the write for each byte.
EXAMPLE 7-1:
DATA EEPROM WRITE
BSF STATUS, RP0 ; Bank 1
BCF INTCON, GIE ; Disable INTs.
BSF EECON1, WREN ; Enable Write
MOVLW 55h ;
MOVWF EECON2 ; Write 55h
MOVLW AAh ;
MOVWF EECON2 ; Write AAh
BSF EECON1,WR ; Set WR bit
BSF INTCON, GIE ; Enable INTs.
The write will not initiate if the above sequence is not
exactly followed (write 55h to EECON2, write AAh to
EECON2, then set WR bit) for each byte. We strongly
recommend that interrupts be disabled during this
code segment.
Additionally, the WREN bit in EECON1 must be set to
enable write. This mechanism prevents accidental
writes to data EEPROM due to errant (unexpected)
code execution (i.e., lost programs). The user should
keep the WREN bit clear at all times, except when
updating EEPROM. The WREN bit is not cleared
by hardware
After a write sequence has been initiated, clearing the
WREN bit will not affect this write cycle. The WR bit will
be inhibited from being set unless the WREN bit is set.
At the completion of the write cycle, the WR bit is
cleared in hardware and the EE Write Complete
Interrupt Flag bit (EEIF) is set. The user can either
enable this interrupt or poll this bit. EEIF must be
cleared by software.
R
S
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