參數(shù)資料
型號: X1240S8I
英文描述: Real Time Clock/Calendar with EEPROM
中文描述: 實時時鐘/日歷帶有EEPROM
文件頁數(shù): 5/19頁
文件大?。?/td> 74K
代理商: X1240S8I
X1240
5
RWEL: Register Write Enable Latch—Volatile
This bit is a volatile latch that powers up in the LOW
(disabled) state. The RWEL bit must be set to “1” prior
to any writes to the Clock/Control Registers. Writes to
RWEL bit do not cause a nonvolatile write cycle, so the
device is ready for the next operation immediately after
the stop condition. A write to the CCR requires both the
RWEL and WEL bits to be set in a specific sequence.
WEL: Write Enable Latch—Volatile
The WEL bit controls the access to the CCR and mem-
ory array during a write operation. This bit is a volatile
latch that powers up in the LOW (disabled) state. While
the WEL bit is LOW, writes to the CCR or any array
address will be ignored (no acknowledge will be issued
after the Data Byte). The WEL bit is set by writing a “1”
to the WEL bit and zeroes to the other bits of the Status
Register. Once set, WEL remains set until either reset
to 0 (by writing a “0” to the WEL bit and zeroes to the
other bits of the Status Register) or until the part pow-
ers up again. Writes to WEL bit do not cause a non-vol-
atile write cycle, so the device is ready for the next
operation immediately after the stop condition.
RTCF: Real Time Clock Fail Bit—Volatile
This bit is set to a ‘1’ after a total power failure. This is a
read only bit that is set by hardware when the device
powers up after having lost all power to the device. The
bit is set regardless of whether V
first. The loss of one or the other supplies does not
result in setting the RTCF bit. The first valid write to the
RTC (writing one byte is sufficient) resets the RTCF bit
to ‘0’.
CC
or V
BACK
is applied
Unused Bits:
These devices do not use bits 3 through 6, but must
have a zero in these bit positions. The Data Byte output
during a SR read will contain zeros in these bit locations.
CONTROL REGISTERS
Block Protect Bits - BP2, BP1, BP0 - (Nonvolatile)
The Block Protect Bits, BP2, BP1 and BP0, determine
which blocks of the array are write protected. A write to
a protected block of memory is ignored. The block pro-
tect bits will prevent write operations to one of eight
segments of the array. The partitions are described in
Table 3.
Table 3. Block Protect Bits
WRITING TO THE CLOCK/CONTROL REGISTERS
Changing any of the nonvolatile bits of the clock/control
register requires the following steps:
—Write a 02H to the Status Register to set the Write
Enable Latch (WEL). This is a volatile operation, so
there is no delay after the write. (Operation pre-
ceeded by a start and ended with a stop).
—Write a 06H to the Status Register to set both the
Register Write Enable Latch (RWEL) and the WEL
bit. This is also a volatile cycle. The zeros in the data
byte are required. (Operation preceeded by a start
and ended with a stop).
—Write one to 8 bytes to the Clock/Control Registers
with the desired clock, or control data. This sequence
starts with a start bit, requires a slave byte of
“11011110” and an address within the CCR and is
terminated by a stop bit. A write to the CCR changes
EEPROM values so these initiate a nonvolatile write
cycle and will take up to 10ms to complete. Writes to
undefined areas have no effect. The RWEL bit is
reset by the completion of a nonvolatile write write
cycle, so the sequence must be repeated to again ini-
tiate another change to the CCR contents. If the
sequence is not completed for any reason (by send-
ing an incorrect number of bits or sending a start
instead of a stop, for example) the RWEL bit is not
reset and the device remains in an active mode.
—Writing all zeros to the status register resets both the
WEL and RWEL bits.
—A read operation occurring between any of the previ-
ous operations will not interrupt the register write
operation.
—The RWEL and WEL bits can be reset by writing a 0
to the Status Register.
B
B
B
Protected Addresses
X1240
None
600h - 7FFh
400h - 7FFh
000h - 7FFh
000h - 03Fh
000h - 07Fh
000h - 0FFh
000h - 1FFh
Array Lock
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
None
Upper 1/4
Upper 1/2
Full Array
First Page
First 2 pgs
First 4 pgs
First 8 Pgs
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