ISL12022IBZ-T7A Intersil, ISL12022IBZ-T7A Datasheet - Page 22

ISL12022IBZ-T7A

Manufacturer Part Number

ISL12022IBZ-T7A

Description

IC RTC/CALENDAR TEMP SNSR 8SOIC

Manufacturer

Intersil

Type

Clock/Calendarr

Datasheet

1.ISL12022IBZ.pdf (28 pages)

Specifications of ISL12022IBZ-T7A

Memory Size

128B

Time Format

HH:MM:SS (12/24 hr)

Date Format

YY-MM-DD-dd

Interface

I²C, 2-Wire Serial

Voltage - Supply

1.8 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (0.154", 3.90mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The CPPM compensates the oscillator frequency fluctuation

over temperature. It is determined by the temperature (T),

crystal curvature parameter (ALPHA), and crystal turnover

temperature (XT0). T is the result of the temp sensor/ADC

conversion, whose decimal result is 2x the actual

temperature in Kelvin. ALPHA is from either the ALPHA

(cold) or ALPHAH (hot) register depending on T, and XT0 is

from the XT0 register.

NPPM is governed by Equation 5:

NPPM = IPPM(ITR0,BETA) + ALPHA x (T-T0)

where:

T is the reading of the ADC, result is 2 x temperature in

degrees Kelvin.

Note that NPPM can also be predicted from the FATR and

FDTR register by the relationship (all values in decimal):

NPPM = 2*(BETA*FATR - (FDTR-16))

XT0 Registers (XT0)

TURNOVER TEMPERATURE (XT<3:0>)

The apex of the Alpha curve occurs at a point called the

turnover temperature, or XT0. Crystals normally have a

turnover temperature between +20°C and +30°C, with most

occurring near +25°C.

The ISL12022 allows setting the turnover temperature so

that temperature compensation can more exactly fit the

curve of a crystal. Table 24 shows the values available, with

a range from +17.5°C to +32.5°C in +0.5°C increments. The

default value is 00000b or +25°C.

NPPM

ALPHA

ADDR

2Ch

(

2 298

•

596

IPPM

α 2048

TABLE 23. TURNOVER TEMPERATURE

)

XT<4:0>

•

XT0

01101

01100

01011

01010

01111

01110

XT0

CPPM

ALPHA

--------------------------------------------------- -

TABLE 24. XT0 VALUES

4096

•

(

T T0

–

XT4

TURNOVER TEMPERATURE

)

XT3

XT2

32.5

32.0

31.5

30.5

XT1

(EQ. 5)

(EQ. 6)

XT0

ISL12022

ALPHA Hot Register (ALPHAH)

The Alpha Hot variable is 7 bits and is defined as the

temperature coefficient of Crystal from the T0 value to +85°C.

(both Alpha Hot and Alpha Cold must be programmed to

provide full temperature compensation). It is normally given in

units of ppm/°C

Cold version, a scaled version of the absolute value of this

coefficient is used in order to get an integer value. Therefore,

AlphaH<7:0> is defined as the (|Actual AlphaH Value| x 2048)

and converted to binary. For example, a crystal with AlphaH of

-0.034ppm/°C

converted to a binary number of 0100110b.

ADDR

2Dh

XT<4:0>

TABLE 24. XT0 VALUES (Continued)

01001

01000

00110

00101

00100

00011

00010

00001

00000

10000

10001

10010

10011

10100

10101

10110

11000

11001

11010

ALP_H6 ALP_H5 ALP_H4 ALP_H3 ALP_H2 ALP_H1 ALP_H0

00111

10111

11011

11100

11101

11110

11111

is first scaled (|2048*(-0.034)| = 70d) and then

,with a typical value of -0.034. Like the Alpha

TABLE 25. ALPHAH REGISTER

TURNOVER TEMPERATURE

29.5

29.0

28.5

28.0

27.5

27.0

26.5

26.0

25.5

25.0

24.5

24.0

23.5

23.0

22.5

22.0

21.5

21.0

20.5

20.0

19.5

19.0

18.5

18.0

17.5

June 23, 2009

FN6659.2

ISL12022IBZ-T7A Intersil, ISL12022IBZ-T7A Datasheet - Page 22

ISL12022IBZ-T7A

Specifications of ISL12022IBZ-T7A

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