ISL12032 Datasheet, PDF(8/26 Page) Intersil Corporation – Low Power RTC with Battery Backed SRAM and 50/60 Cycle AC Input and Xtal Back-up

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ISL12032 Datasheet, PDF (8/26 Pages) Intersil Corporation – Low Power RTC with Battery Backed SRAM and 50/60 Cycle AC Input and Xtal Back-up

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ISL12032

General Description

The ISL12032 device is a low power real time clock with

50/60 AC input for timing synchronization. It also has an

oscillator utilizing an external crystal for timing back-up,

clock/calendar registers, intelligent battery back-up

switching, battery voltage monitor, brownout indicator,

integrated trickle charger for super capacitor, single periodic

or polled alarms, POR supervisory function, and up to 4

Event Detect with time stamp. There are 128 bytes of

battery-backed user SRAM.

The oscillator uses a 50/60 cycle sine wave input, backed by

an external, low-cost, 32.768kHz crystal. The real time clock

tracks time with separate registers for hours, minutes, and

seconds. The calendar registers contain the date, month,

year, and day of the week. The calendar is accurate through

year 2100, with automatic leap year correction and auto

daylight savings correction.

The ISL12032âs alarm can be set to any clock/calendar

value for a match. Each alarmâs status is available by

checking the Status Register. The device also can be

configured to provide a hardware interrupt via the IRQ pin.

There is a repeat mode for the alarms allowing a periodic

interrupt every minute, every hour, every day, etc.

The device also offers a backup power input pin. This VBAT

pin allows the device to be backed up by battery or Super

Capacitor with automatic switchover from VDD to VBAT. The

ISL12032 devices are specified for VDD = 2.7V to 5.5V and

the clock/calendar portion of the device remains fully

operational in battery backup mode down to 1.8V (Standby

Mode). The VBAT level is monitored and warnings are

reported against preselected levels. The first report is

registered when the VBAT level falls below 85% of nominal

level, the second level is set for 75% of nominal level.

Battery levels are stored in the PWRBAT registers.

The ISL12032 offers a âBrownoutâ alarm once the VDD falls

below a pre-selected trip level. In the ISL12032, this allows

the system microcontroller to save vital information to

memory before complete power loss. There are six VDD trip

levels for the brownout alarm.

The event detection function accepts a normally low logic

input, and when triggered will store the time/date information

for the event. The first event is stored in the memory until

reset; subsequent events are stored on-chip memory and

the last 3 events are retained and accessible by performing

an indexed register read.

Pin Descriptions

X1, X2

The X1 and X2 pins are the input and output, respectively, of

an inverting amplifier. An external 32.768kHz quartz crystal

is used with the device to supply a backup timebase for the

real time clock if there is no AC input. The device also can

be driven directly from a 32.768kHz source at pin X1, in

which case, pin X2 should be left unconnected. No external

load capacitors are needed for the X1 and X2 pins.

FIGURE 2. RECOMMENDED CRYSTAL CONNECTION

VBAT (Battery Input)

This input provides a backup supply voltage to the device.

VBAT supplies power to the device in the event that the VDD

supply fails. This pin can be connected to a battery, a Super

Capacitor or tied to ground if not used.

AC (AC Input)

The AC input is the main clock input for the real time clock. It

can be either 50Hz or 60Hz, sine wave. The preferred

amplitude is 2.5VP-P, although amplitudes >0.25VDD are

acceptable. An AC coupled (series capacitor) sine wave

clock waveform is desired as the AC clock input provides DC

biasing.

LV (Low Voltage)

This pin indicates the VDD supply is below the programmed

level. This signal notifies a host processor that the main

supply is low and requests action. It is an open drain active

LOW output.

EVIN (Event Input)

The EVIN pin input detects an externally monitored event.

When a HIGH signal is present at the EVIN pin, an âeventâ is

detected.This input may be used for various monitoring

functions, such as the opening of a detection switch on a

chassis or door. The event detection circuit can be user

enabled or disabled (see EVIN bit) and provides the option

to be operational in battery backup modes (see EVATB bit).

When the event detection is disabled, the EVIN pin is gated

OFF. See âFunctional Pin Descriptionsâ on page 3 for more

details.

EVDET (Event Detect Output)

The EVDET is an open drain output, which will go low when

an event is detected at the EVIN pin. If the event detection

function is enabled, the EVDET output will go LOW and stay

there until the EVT bit is cleared.

FN6618.2

April 16, 2009

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