X1288 Datasheet, PDF(12/27 Page) Xicor Inc. – 2-Wire RTC Real Time Clock/Calendar/CPU Supervisor with EEPROM

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X1288 Datasheet, PDF (12/27 Pages) Xicor Inc. – 2-Wire RTC Real Time Clock/Calendar/CPU Supervisor with EEPROM

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X1288

(H21 bit) or 0 to 23 (with MIL=1), DT (Date) is 1 to 31,

MO (Month) is 1 to 12, YR (Year) is 0 to 99. The SSEC

Date of the Week Register (DW)

This register provides a Day of the Week status and

uses three bits DY2 to DY0 to represent the seven

days of the week. The counter advances in the cycle

0-1-2-3-4-5-6-0-1-2-â¦ The assignment of a numerical

value to a specific day of the week is arbitrary and may

be decided by the system software designer. The

default value is defined as â0â.

24 Hour Time

If the MIL bit of the HR register is 1, the RTC uses a

24-hour format. If the MIL bit is 0, the RTC uses a 12-

hour format and H21 bit functions as an AM/PM indi-

cator with a â1â representing PM. The clock defaults to

standard time with H21=0.

Leap Years

Leap years add the day February 29 and are defined

as those years that are divisible by 4. Years divisible

by 100 are not leap years, unless they are also divisi-

ble by 400. This means that the year 2000 is a leap

year, the year 2100 is not. The X1288 does not correct

for the leap year in the year 2100.

STATUS REGISTER (SR)

The Status Register is located in the CCR memory

map at address 003Fh. This is a volatile register only

and is used to control the WEL and RWEL write

enable latches, read two power status and two alarm

bits. This register is separate from both the array and

the Clock/Control Registers (CCR).

Table 2. Status Register (SR)

Addr 7 6 5 4 3

003Fh BAT AL1 AL0 0 0

Default 0 0 0 0 0

RWEL

WEL RTCF

BAT: Battery Supply - Volatile

This bit set to â1â indicates that the device is operating

from VBACK, not VCC. It is a read-only bit and is set/reset

by hardware (X1288 internally). Once the device begins

operating from VCC, the device sets this bit to â0â.

AL1, AL0: Alarm Bits - Volatile

These bits announce if either alarm 0 or alarm 1 match

the real time clock. If there is a match, the respective

bit is set to â1â. The falling edge of the last data bit in a

SR Read operation resets the flags. Note: Only the AL

bits that are set when an SR read starts will be reset.

An alarm bit that is set by an alarm occurring during an

SR read operation will remain set after the read opera-

tion is complete.

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 â1â 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

memory 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 â1â 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 â0â to the WEL bit

and zeroes to the other bits of the Status Register) or

until the part powers up again. Writes to WEL bit do

not cause a nonvolatile 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 â1â after a total power failure. This is

a read only bit that is set by hardware (ISL1288 inter-

nally) when the device powers up after having lost all

power to the device (both VCC and VBACK go to 0V).

The bit is set regardless of whether VCC or VBACK is

applied first. The loss of only one of the supplies does

not set the RTCF bit to â1â. On power up after a total

power failure, all registers are set to their default

states and the clock will not increment until at least

one byte is written to the clock register. The first valid

write to the RTC section after a complete power failure

resets the RTCF bit to â0â (writing one byte is

sufficient).

Unused Bits:

This device does not use bits 3 or 4 in the SR, but

must have a zero in these bit positions. The Data Byte

output during a SR read will contain zeros in these bit

locations.

FN8102.3

April 14, 2006

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