X1288V14I-4.5AT1 Intersil, X1288V14I-4.5AT1 Datasheet - Page 24

X1288V14I-4.5AT1

Manufacturer Part Number

X1288V14I-4.5AT1

Description

IC RTC/CAL/CPU SUP EE 14-TSSOP

Manufacturer

Intersil

Type

Clock/Calendar/Supervisor/EEPROMr

Datasheet

1.X1288S16.pdf (27 pages)

Specifications of X1288V14I-4.5AT1

Memory Size

256K (32K x 8)

Time Format

HH:MM:SS:hh (12/24 hr)

Date Format

YY-MM-DD-dd

Interface

I²C, 2-Wire Serial

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

14-TSSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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from the X1 and X2 pins. Also, minimizing the switch-

ing current at this pin by careful selection of the pullup

resistor value will reduce noise. Intersil suggests a

minimum value of 5.1k for 32.768kHz, and higher val-

ues (i.e. 20kΩ) for lower frequency PHZ outputs.

For other RTC products, the same rules stated above

should be observed, but adjusted slightly since the

packages and pinouts are slightly different.

Assembly

Most electronic circuits do not have to deal with

assembly issues, but with the RTC devices assembly

includes insertion or soldering of a live battery into an

unpowered circuit. If a socket is soldered to the board,

and a battery is inserted in final assembly, then there

are no issues with operation of the RTC. If the battery

is soldered to the board directly, then the RTC device

Vback pin will see some transient upset from either

soldering tools or intermittent battery connections

which can stop the circuit from oscillating. Once the

battery is soldered to the board, the only way to assure

the circuit will start up is to momentarily (very short

period of time!) short the Vback pin to ground and the

circuit will begin to oscillate.

Oscillator Measurements

When a proper crystal is selected and the layout

guidelines above are observed, the oscillator should

start up in most circuits in less than one second. Some

circuits may take slightly longer, but startup should

definitely occur in less than 5 seconds. When testing

RTC circuits, the most common impulse is to apply a

scope probe to the circuit at the X2 pin (oscillator out-

put) and observe the waveform. DO NOT DO THIS!

Although in some cases you may see a useable wave-

form, due to the parasitics (usually 10pF to ground)

applied with the

scope probe, there will be no useful information in that

waveform other than the fact that the circuit is oscillat-

ing. The X2 output is sensitive to capacitive imped-

ance so the voltage levels and the frequency will be

affected by the parasitic elements in the scope probe.

Applying a scope probe can possibly cause a faulty

oscillator to start up, hiding other issues (although in

the Intersil RTC’s, the internal circuitry assures startup

when using the proper crystal and layout).

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 con-

trol register). Alternatively, the X1226/1286/1288

devices have an IRQ- output which can be checked by

X1288

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 Intersil

RTC products. 3.0V or 3.6V Lithium batteries are

appropriate, and sizes are available that can power a

Intersil 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!).

Since the battery switchover occurs at Vcc=Vback-

0.1V (see Figure 20), 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- func-

tion, 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:

TRIP

2.7-5.5V

FIGURE 20. SUPERCAPACTOR CHARGING CIRCUIT

= 4.63V ± 3%

= 4.38V ± 3%

= 2.85V ± 3%

= 2.65V ± 3%

back

Supercapacitor

April 14, 2006

FN8102.3

X1288V14I-4.5AT1 Intersil, X1288V14I-4.5AT1 Datasheet - Page 24

X1288V14I-4.5AT1

Specifications of X1288V14I-4.5AT1

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