LTC4110EUHF LINER [Linear Technology], LTC4110EUHF Datasheet - Page 46

LTC4110EUHF

Manufacturer Part Number

LTC4110EUHF

Description

Battery Backup System Manager

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC4110EUHF.pdf (52 pages)

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LTC4110

APPLICATIONS INFORMATION

OPERATION WITH DUAL BACKUP SYSTEMS

If a dual backup system consisting of two LTC4110s

each with its own backup battery is needed and a SMBus

is used, each LTC4110 should be programmed by the

SELA pin to have different addresses. If smart batteries

with SMBus are used, a SMBus mux may be required to

selectively address each battery. This mux may also be

used to address the LTC4110. See SMBus Interface section

for more information.

BACKUP OPERATION WITH EXTERNAL BACKUP

SUPPLY REGULATOR

If a dedicated DC regulator with enable inputs is used in

place of an actual battery to supply backup power, the

PowerPath MOSFETs connected to the BATID pin may not

be required. It depends on the regulator’s ability to accept

being back driven by a voltage on the DCOUT pin coming

from some other power source such as DCIN. The ACPb

pin can control the regulator such that it is turned on when

DCIN goes away. However for fastest transient response,

keeping the regulator on may prove to work better. The

output voltage of the regulator should be less than DCOUT

under normal operating conditions so that DCIN is pro-

viding the power to the load. The voltage provided by the

regulator must not be allowed to go below the lower limit

of the DCOUT pin or erratic operation may result.

BACKUP OPERATION WITH A DOWNSTREAM

REGULATOR

Since the backup voltage supplied to the load is not regu-

lated, often some form of a regulator is needed between

the LTC4110 and the actual load. The characteristics of

this regulator should offer high efﬁ ciency when running

from the battery in backup mode to maximize backup

time. Some regulators may need advance warning when

to enter into this mode, which can be accomplished by

using the LTC4110’s ACPb pin.

DCIN TO BATTERY TRANSITION CHATTER REMOVAL

The LTC4110 is designed to automatically switch the bat-

tery to the output load when DCIN is lost. Under certain

conditions, a rapid loss of DCIN can cause the input and

battery ideal diode circuits to chatter. The result is the

transition time between the DCIN FET turning fully off

and the battery FET turning fully on can last in excess

of 200ms with each switching on and off multiple times.

This problem is likely to occur under the following

conditions:

1. Large system load causing the INID pin to be more

2. The DCIN and battery voltages are approximately the

3. The DCIN pin goes high impedance very rapidly (less

Q1 and R1 shown in Figure 20 increase the effective hys-

teresis of the DCDIV pin by using the ACPb pin to drive

Q1. The threshold of Q1 must be less than the V

to assure the drain of Q1 pulls down to ground when

ACPb is high. R1 sets the amount of increase in negative

hysteresis you need relative to the values chosen for the

DCDIV resistor divider. A 100k is suggested as a starting

point. You will also need to place a capacitor C

the ACPDLY pin. This capacitor in conjunction with resistor

than sufﬁ cient to eliminate all the chatter.

VREF

than 3V below DCIN.

same.

than 10μs)

should be set for a delay of 10ms, which is more

2N7002

Figure 20.

100k

DCDIV

ACPb

4110 F20

ACPDLY

SUPPLY

4110fa

LTC4110EUHF LINER [Linear Technology], LTC4110EUHF Datasheet - Page 46

LTC4110EUHF

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