X1288V14T1 Intersil, X1288V14T1 Datasheet - Page 25

X1288V14T1

Manufacturer Part Number

X1288V14T1

Description

IC RTC/CAL/CPU SUP EE 14-TSSOP

Manufacturer

Intersil

Type

Clock/Calendar/Supervisor/EEPROMr

Datasheet

1.X1288S16.pdf (27 pages)

Specifications of X1288V14T1

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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The summary of conditions for backup battery operation is given in Table 9:

Table 9. Battery Backup Operation

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

Referring to Figure 20, Vtrip applies to the “Internal

Vcc” node which powers the entire device. This means

that if Vcc is powered down and the battery voltage at

Vback is higher than the Vtrip voltage, then the entire

chip will be running from the battery. If Vback falls to

lower than Vtrip, then the chip shuts down and all out-

puts are disabled except for the oscillator and time-

keeping circuitry. The fact that the chip can be

powered from Vback is not necessarily an issue since

standby current for the RTC devices is <2µA for this

mode (called “main timekeeping current” in the data

sheet). Only when the serial interface is active is there

an increase in supply current, and with Vcc powered

down, the serial interface will most likely be inactive.

One way to prevent operation in battery backup mode

above the Vtrip level is to add a diode drop (silicon

diode preferred) to the battery to insure it is below

Vtrip. This will also provide reverse leakage protection

which may be needed to get safety agency approval.

One mode that should always be avoided is the opera-

tion of the RTC device with Vback greater than both

Vcc and Vtrip (Condition 2d in Table 9). This will cause

the battery to drain quickly as serial bus communica-

tion and non-volatile writes will require higher supplier

current.

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

a. Normal Operation

b. Vcc on with no battery

c. Backup Mode

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

a. Normal Operation

b. Vcc on with no battery

c. Backup Mode

d. UNWANTED - Vcc ON, Vback

powering

Condition

2.65 - 3.30

0–1.8

5.00

3.30

Vcc

1.8–3.0*

Vback

1.8-3.0

Vback

> Vcc

X1288

3.00

PERFORMANCE DATA

BACK

Vtrip

4.38

2.65

1.4

1.2

1.0

0.8

0.6

0.4

0.2

Performance

-40

up to 3mA

<<1µA

Iback

<2µA*

<2µA

Multi-Lot Process Variation Data

BACK

Temperature °C

vs. Temperature

Reset

Timekeeping

Vcc=Vback

3.3V

Internal

Notes

only

1.8V

April 14, 2006

FN8102.3

X1288V14T1 Intersil, X1288V14T1 Datasheet - Page 25

X1288V14T1

Specifications of X1288V14T1

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