ISL12027IV27AZ Intersil, ISL12027IV27AZ Datasheet - Page 22

ISL12027IV27AZ

Manufacturer Part Number

ISL12027IV27AZ

Description

IC RTC/CALENDAR EEPROM 8-TSSOP

Manufacturer

Intersil

Type

Clock/Calendar/Supervisor/EEPROMr

Datasheet

1.ISL12027IB27Z-T.pdf (28 pages)

Specifications of ISL12027IV27AZ

Memory Size

4K (512 x 8)

Time Format

HH:MM:SS (12/24 hr)

Date Format

YY-MM-DD-dd

Interface

I²C, 2-Wire Serial

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-TSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Application Section

Crystal Oscillator and Temperature Compensation

Intersil has now integrated the oscillator compensation

circuity on-chip, to eliminate the need for external

components and adjust for crystal drift over-temperature and

enable very high accuracy time keeping (<5ppm drift).

The Intersil RTC family uses an oscillator circuit with on-chip

crystal compensation network, including adjustable

load-capacitance. The only external component required is

the crystal. The compensation network is optimized for

operation with certain crystal parameters which are common

in many of the surface mount or tuning-fork crystals available

today. Table 8 summarizes these parameters.

Table 9 contains some crystal manufacturers and part numbers

that meet the requirements for the Intersil RTC products.

The turnover temperature in Table 8 describes the

temperature where the apex of the of the drift vs temperature

curve occurs. This curve is parabolic with the drift increasing

as (T - T0)

turnover temperature is typically +25°C, and a peak drift of

>110ppm occurs at the temperature extremes of -40°C and

+85°C. It is possible to address this variable drift by adjusting

the load capacitance of the crystal, which will result in

predictable change to the crystal frequency. The Intersil RTC

family allows this adjustment over temperature since the

devices include on-chip load capacitor trimming. This control

is handled by the Analog Trimming Register, or ATR, which

has 6-bits of control. The load capacitance range covered by

the ATR circuit is approximately 3.25pF to 18.75pF, in

. For an Epson MC-405 device, for example, the

SIGNALS FROM

THE MASTER

SDA BUS

THE SLAVE

THE MASTER

SDA BUS

THE SLAVE

SIGNALS

FROM

ADDRESS

SLAVE

FIGURE 25. RANDOM ADDRESS READ SEQUENCE

FIGURE 26. SEQUENTIAL READ SEQUENCE

ISL12027, ISL12027A

0 0 0 0 0 0 0

DATA

ADDRESS 1

(1)

WORD

DATA

ADDRESS 0

(2)

0.25pF increments. Note that actual capacitance would also

include about 2pF of package related capacitance. In-circuit

tests with commercially available crystals demonstrate that

this range of capacitance allows frequency control from

+116ppm to -37ppm, using a 12.5pF load crystal.

In addition to the analog compensation afforded by the

adjustable load capacitance, a digital compensation feature

is available for the Intersil RTC family. There are 3-bits

known as the Digital Trimming Register or DTR, and they

operate by adding or skipping pulses in the clock signal. The

range provided is ±30ppm in increments of 10ppm. The

default setting is 0ppm. The DTR control can be used for

coarse adjustments of frequency drift over-temperature or

for crystal initial accuracy correction.

A final application for the ATR control is in-circuit calibration for

high accuracy applications, along with a temperature sensor

chip. Once the RTC circuit is powered up with battery backup,

and frequency drift is measured. The ATR control is then

adjusted to a setting, which minimizes drift. Once adjusted at a

particular temperature, it is possible to adjust at other discrete

temperatures for minimal overall drift, and store the resulting

settings in the EEPROM. Extremely low overall temperature

drift is possible with this method. The Intersil evaluation board

contains the circuitry necessary to implement this control.

Layout Considerations

The crystal input at X1 has a very high impedance and will pick

up high frequency signals from other circuits on the board.

Since the X2 pin is tied to the other side of the crystal, it is also

a sensitive node. These signals can couple into the oscillator

WORD

(n IS ANY INTEGER GREATER THAN 1)

DATA

(n - 1)

ADDRESS

SLAVE

DATA

(n)

DATA

August 12, 2010

FN8232.8

ISL12027IV27AZ Intersil, ISL12027IV27AZ Datasheet - Page 22

ISL12027IV27AZ

Specifications of ISL12027IV27AZ

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