X1228 Datasheet, PDF(26/31 Page) Xicor Inc. – Real Time Clock/Calendar/CPU Supervisor with EEPROM

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X1228 Datasheet, PDF (26/31 Pages) Xicor Inc. – Real Time Clock/Calendar/CPU Supervisor with EEPROM

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X1228

The best way to analyze the RTC circuit is to power it

up and read the real time clock as time advances, or if

the chip has the PHZ output, look at the output of that

pin on an oscilloscope (after enabling it with the control

output). Alternatively, the X1226/1286/1288 devices

have an IRQ- output which can be checked by setting

an alarm for each minute. Using the pulse interrupt

mode setting, the once-per-minute interrupt functions

as an indication of proper oscillation.

Backup Battery Operation

Many types of batteries can be used with the Xicor

RTC products. 3.0V or 3.6V Lithium batteries are

appropriate, and sizes are available that can power a

Xicor RTC device for up to 10 years. Another option is

to use a supercapacitor for applications where Vcc may

disappear intermittently for short periods of time.

Depending on the value of supercapacitor used,

backup time can last from a few days to two weeks

(with >1F). A simple silicon or Schottky barrier diode

can be used in series with Vcc to charge the superca-

pacitor, which is connected to the Vback pin. Do not

use the diode to charge a battery (especially lithium

batteries!).

Figure 16. Supercapactor charging circuit

2.7-5.5V

VCC

Vback

VSS

Supercapacitor

Since the battery switchover occurs at Vcc=Vback-

0.1V (see Figure 16), the battery voltage must always

be lower than the Vcc voltage during normal operation

or the battery will be drained. A second consideration

is the trip point setting for the system RESET- function,

known as Vtrip. Vtrip is set at the factory at levels for

systems with either Vcc = 5V or 3.3V operation, with

the following standard options:

VTRIP = 4.63V Â± 3%

VTRIP = 4.38V Â± 3%

VTRIP = 2.85V Â± 3%

VTRIP = 2.65V Â± 3%

The summary of conditions for backup battery opera-

tion is given in Table 8:

Table 8. Battery Backup Operation

1. Example Application, Vcc=5V, Vback=3.0V

Condition

Vcc

a. Normal Operation

5.00

b. Vcc on with no battery

5.00

c. Backup Mode

0â1.8

Vback

3.00

1.8-3.0

Vtrip

4.38

Iback

<<1ÂµA

<2ÂµA

Reset

Notes

Timekeeping

only

2. Example Application, Vcc=3.3V,Vback=3.0V

Condition

Vcc

a. Normal Operation

3.30

b. Vcc on with no battery

3.30

Vback

3.00

Vtrip

2.65

c. Backup Mode

0â1.8 1.8â3.0*

2.65

d. UNWANTED - Vcc ON, Vback

powering

2.65 - 3.30 > Vcc

2.65

*since Vback>2.65V is higher than Vtrip, the battery is powering the entire device

Iback

<<1ÂµA

<2ÂµA*

Reset

up to 3mA

Timekeeping

only

Internal

Vcc=Vback

REV 1.3 3/24/04

www.xicor.com

Characteristics subject to change without notice. 26 of 31

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