LTC3350_15 Datasheet, PDF(25/46 Page) Linear Technology – High Current Supercapacitor Backup Controller and System Monitor

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LTC3350_15 Datasheet, PDF (25/46 Pages) Linear Technology – High Current Supercapacitor Backup Controller and System Monitor

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LTC3350

Applications Information

Note the minimum VCAP voltage can also be limited by the

peak inductor current limit (180% of maximum charge cur-

rent) and the maximum duty cycle in step-up mode (~90%).

Optimizing Supercapacitor Energy Storage Capacity

In most systems the supercapacitors will provide backup

power to one or more DC/DC converters. A DC/DC converter

presents a constant power load to the supercapacitor. When

the supercapacitors are near their maximum voltage, the

loads will draw little current. As the capacitors discharge,

the current drawn from supercapacitors will increase to

maintain constant power to the load. The amount of energy

required in back up mode is the product of this constant

backup power, PBACKUP, and the backup time, tBACKUP.

The energy stored in a stack of n supercapacitors available

for backup is:

( ) 1

nCSC

VC2ELL(MAX) â VC2ELL(MIN)

where CSC, VCELL(MAX) and VCELL(MIN) are the capacitance,

maximum voltage and minimum voltage of a single ca-

pacitor in the stack, respectively. The maximum voltage

on the stack is VCAP(MAX) = n â¢ VCELL(MAX). The minimum

voltage on the stack is VCAP(MIN) = n â¢ VCELL(MIN).

Some of this energy will be dissipated as conduction loss

in the ESR of the supercapacitor stack. A higher backup

power requirement leads to a higher conduction loss for

a given stack ESR.

The amount of capacitance needed can be found by solving

the following equation for CSC:

where:

Î³ MAX = 1+

1â

4RSC â¢PBACKUP

nVC2 ELL(MAX )

and,

Î³ Min = 1+

1â

4RSC â¢PBACKUP

nVC2ELL(MIN)

RSC is the equivalent series resistance (ESR) of a single

supercapacitor in the stack. Note that the maximum power

transfer rule limits the minimum cell voltage to:

VCELL(MIN)

VCAP(MIN)

â¥

4RSC â¢PBACKUP

To minimize the size of the capacitance for a given amount

of backup energy, the maximum voltage on the stack,

VCELL(MAX), can be increased. However, the voltage is

limited to a maximum of 2.7V and this may lead to an

unacceptably low capacitor lifetime.

An alternative option would be to keep VCELL(MAX) at a

voltage that leads to reasonably long lifetime and increase

the capacitor utilization ratio of the supercapacitor stack.

The capacitor utilization ratio, Î±B, can be defined as:

Î±B

VC2ELL(MAX) â VC2ELL(MIN)

VC2 ELL(MAX )

If the synchronous controller in step-up mode is used then

the supercapacitors can be run down to a voltage set by the

PBACKUP

â¢

tBACKUP

nCSC

ï£®

ï£¯Î³

ï£°ï£¯

MAX

â¢

VC2 ELL(MAX )

Î³

MIN

â¢

VC2ELL(MIN)

4RSC

â¢ PBACKUP

ï£«

lnï£ï£¬

Î³ MAX

Î³ MIN

â¢

VCELL(MAX )

VCELL(MIN)

ï£¶

ï£¸ï£·

ï£¹

ï£º

ï£»ï£º

For more information www.linear.com/LTC3350

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