ISL12025 Intersil Corporation, ISL12025 Datasheet - Page 14

ISL12025

Manufacturer Part Number

ISL12025

Description

Real-Time Clock/Calendar

Manufacturer

Intersil Corporation

Datasheet

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Alarm 1 and AL0 for Alarm 0), indicate if an alarm has

happened. The AL1 and AL0 bits in the status register are

reset by the falling edge of the eighth clock of status register

read.

There are two alarm operation modes: Single Event and

periodic Interrupt Mode:

Writing to the Alarm Registers

The Alarm Registers are non-volatile but require special

attention to insure a proper non-volatile write takes place.

Specifically, byte writes to individual registers are good for all

but registers 0006h and 0000Eh, which are the DWA0 and

DWA1 registers, respectively. Those registers will require a

special page write for nonvolatile storage. The

recommended page write sequences are as follows:

1. Single Event Mode is enabled by setting the AL0E or

2. Interrupt Mode (or “Pulsed Interrupt Mode” or PIM) is

1. 16-byte page writes: The best way to write or update the

AL1E bit to “1”, the IM bit to “0”, and disabling the

frequency output. This mode permits a one-time match

between the alarm registers and the RTC registers. Once

this match occurs, the AL0 or AL1 bit is set to “1”. Once

the AL0 or AL1 bit is read, this will automatically resets it.

Both Alarm registers can be set at the same time to

trigger alarms. Polling the SR will reveal which alarm has

been set.

enabled by setting the AL0E or AL1E bit to “1” the IM bit

to “1”, and disabling the frequency output. If both AL0E

and AL1E bits are set to 1, then only the AL0E PIM alarm

will function (AL0E overrides AL1E). This means that

once the Interrupt Mode alarm is set, it will continue to

alarm for each occurring match of the alarm and present

time. This mode is convenient for hourly or daily

hardware interrupts in microcontroller applications such

as security cameras or utility meter reading. Interrupt

Mode CANNOT be used for general periodic alarms,

however, since a specific time period cannot be

programmed for interrupt, only matches to a specific time

of day. The Interrupt Mode is only stopped by disabling

the IM bit or the Alarm Enable bits.

Alarm Registers is to perform a 16-byte write beginning at

address 0001h (MNA0) and wrapping around and ending

at address 0000h (SCA0). This will insure that non-

volatile storage takes place. This means that the code

must be designed so that the Alarm0 data is written

starting with Minutes register, and then all the Alarm1

data, with the last byte being the Alarm0 Seconds (the

page ends at the Alarm1 Y2k register and then wraps

around to address 0000h).

Alternatively, the 16-byte page write could start with

address 0009h, wrap around and finish with address

0008h. Note that any page write ending at address

0007h or 000Fh (the highest byte in each Alarm) will not

trigger a nonvolatile write, so wrapping around or

overlapping to the following Alarm's Seconds register is

advised.

ISL12025

If the Alarm1 is used, SCA1 would need to have the correct

data written.

Power Control Operation

The power control circuit accepts a V

Many types of batteries can be used with Intersil RTC

products. For example, 3.0V or 3.6V Lithium batteries are

appropriate, and battery sizes are available that can power

an Intersil RTC device for up to 10 years. Another option is

to use a SuperCap for applications where V

for up to a month. See the “Application Section” on page 21

for more information.

There are two options for setting the change-over conditions

from V

Note that the I

battery backup, which is controlled by the SBIB bit. See

“Backup Battery Operation” on page 22 for information.

Note that switching to battery backup initiates a

three-second timeout period, during which the device will

stay in Battery Backup Mode even if the V

normal power. The three-second delay is intended to lock

out any power-up glitches that could cause communications

errors. Also note that very fast (<10µs) power ramp rates will

bypass this delay, so it is important to filter V

OPTION 1- STANDARD (POWER CONTROL) MODE

In the Standard Mode, the supply will switch over to the

battery when

lower. In this mode, accidental operation from the battery is

prevented since the battery backup input will only be used

when the

To select Option 1, BSW bit in the Power Register must be

set to “BSW = 0”. A description of power switchover follows.

2. Other nonvolatile writes: It is possible to do writes of

- Option 1 - Standard Mode

- Option 2 - Legacy Mode (Default)

less than an entire page, but the final byte must always

be addresses 0000h through 0004h or 0008h though

000Ch to trigger a nonvolatile write. Writing to those

blocks of 5 bytes sequentially, or individually, will trigger a

nonvolatile write. If the DWA0 or DWA1 registers need to

be set, then enough bytes will need to be written to

overlap with the other Alarm register and trigger the

nonvolatile write. For Example, if the DWA0 register is

being set, then the code can start with a multiple byte

write beginning at address 0006h, and then write 3 bytes

ending with the SCA1 register as follows:

Addr

0006h DWA0

0007h Y2K0

0008h SCA1

to Battery Backup Mode. The BSW bit in the PWR

Name

DD supply is shut off.

DD drops below V

C bus may or may not be operational during

TRIP

or V

and a V

BAT

resumes

, whichever is

is interrupted

well.

October 18, 2006

BAT

input.

FN6371.1

ISL12025 Intersil Corporation, ISL12025 Datasheet - Page 14

ISL12025

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