AN1549.0 Datasheet, PDF(1/4 Page) Intersil Corporation – Addressing Power Issues in Real Time Clock Applications

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AN1549.0 Datasheet, PDF (1/4 Pages) Intersil Corporation – Addressing Power Issues in Real Time Clock Applications

Application Note 1549

Addressing Power Issues in Real Time Clock

Applications

Introduction

Intersil Real Time Clock (RTC) products now include

many products with a variety of functions. Common

functions include a low power 32,768kHz oscillator and

also the ability to keep time in SRAM registers after initial

time and date is set.

The power for RTC devices includes a VDD source, and

can also include a backup source of either a battery or

large storage capacitor (super capacitor). In many

applications the RTC device is the only device in a system

that has an alternative power source such as the backup

battery, so there can be unique demands placed on the

device compared to other semiconductor products.

In addition, the RTC device has a communications bus,

usually I2C, that has pull-up resistors which can go to a

different power source than the RTC. The interrupt or

frequency output pull-up can be connected to yet

another voltage.

Some RTC devices contain non-volatile EEPROM storage,

both for device control registers and for general purpose

storage. The EEPROM is a robust storage method that

can survive temperature extremes, millions of write

cycles and up to 10 years of endurance. Despite the

robust design, there are power and ground voltage

transients that, although they exceed data sheet limits,

are present in systems and may upset EEPROM memory

cells. In addition, some applications may have I2C

communication during power-down, another possible

source of upset.

RTC Device Power Connections

The typical applications circuit for the RTC is shown in

Figure 1. This seemingly simple circuit has no less than 4

possible power connections:

â¢ VDD power (VPOWER)

â¢ I2C bus open drain pull-up power (VBUS)

â¢ Battery backup (VBAT)

â¢ Frequency output or interrupt open drain pull-up

(VFOUT)

Having four different power sources raises the issue of

power sequencing. Ideally, the RTC circuit will have 3 of

the four power sources in common. The VCC, VBUS and

VFOUT should all connect to the main VPOWER source, and

when that is the case there are virtually no concerns with

power sequencing.

Many applications prefer to have these connections

powered separately. Examples include:

â¢ RTC device is powered down while the I2C bus and

microcontroller are active (not recommended since it

will violate RTC data sheet, but RTC devices are OK

in this state).

â¢ RTC device is powered down while the FOUT or IRQ is

pulled up to VBAT to allow a wake-up interrupt or

clock while other circuits are asleep (this is OK, but

the RTC data sheet absolute maximum ratings need

to be followed).

â¢ RTC device is powered from a higher or lower voltage

than the I2C pull-ups (this may or may not be

allowed, possible unreliable operation).

â¢ RTC device operates with one supply voltage and the

VBAT pin is grounded (this is OK, and is covered later

in this document).

VBUS

VPOWER

2.2k

I2C

Bus

2.2k

VDD

SCL

SDA

C2 BT

VBAT

FOUT

GND

Y1 VFOUT

10k

FIGURE 1. TYPICAL RTC APPLICATION CIRCUIT

Table 1 provides some guidance when designing an RTC

applications circuit.

March 1, 2010

AN1549.0

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

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