AAT3119_07 ANALOGICTECH [Advanced Analogic Technologies], AAT3119_07 Datasheet - Page 11

AAT3119_07

Manufacturer Part Number

AAT3119_07

Description

High Efficiency 2X Charge Pump

Manufacturer

ANALOGICTECH [Advanced Analogic Technologies]

Datasheet

1.AAT3119_07.pdf (18 pages)

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In the operating state, the AAT3119 typically con-

sumes 2mA of quiescent operating current. The

enable pin (EN) is an active high input. When

pulled low, the AAT3119 is shut down, the quies-

cent current drops to less than 1μA, and the output

is disconnected from the input.

Charge Pump Efficiency

The core of the AAT3119 is a regulated output volt-

age doubling charge pump. The efficiency (η) for

an ideal voltage doubling charge pump can typical-

ly be expressed as the output power divided by the

input power:

In addition, with an ideal voltage doubling charge

pump, the output current may be expressed as half

the input current. The expression to define the ideal

efficiency (η) can be rewritten as:

-or-

For a charge pump with an output of 5.0 volts and

a nominal input of 3.0 volts, the theoretical efficien-

cy is 83.3%. Due to internal switching losses and

IC quiescent current consumption, the actual effi-

ciency can be measured at approximately 82%.

Efficiency will decrease as the level of V

approaches that of the regulated V

the device typical characteristics curves for expect-

ed actual efficiency based on either input voltage or

load current.

3119.2007.02.1.2

η =

η(%) = 100

OUT

η =

OUT

⎛

⎝

× 2I

× I

OUT

⎞

⎠

OUT

. Refer to

Capacitor Selection

Careful selection of the three external capacitors

affect turn-on time, output ripple, efficiency, and

load transient response. Optimum performance will

be obtained when low equivalent series resistance

(ESR) ceramic capacitors are used. In general, low

ESR may be defined as less than 100mΩ. A value

of 1μF for all three capacitors is a good starting

point when designing with the AAT3119. This not

only provides for a very small printed circuit board

area, but cost is further reduced by the minimized

bill of materials.

Input Capacitor

A 1μF multilayer ceramic chip capacitor is suggest-

ed for the input. This capacitor should be connect-

ed between the IN pin and ground. 1μF should be

suitable for most applications. Even though the

AAT3119 switching ripple and noise are very low,

back-injected line noise may be further reduced by

increasing the value of C

tors may be used for C

mised circuit performance.

Output Capacitor

The output capacitor (C

between the OUT pin and ground. A 1μF ceramic

capacitor is also suggested in this position.

Switching noise and ripple seen on the charge

pump output increases with load current. Typically

1μF is sufficient for minimizing output ripple seen

by the load circuit. If the load current in an appli-

cation is low, or if higher levels of switching ripple

can be tolerated, C

0.33μF. If application circuits with greater load cur-

rent demands require lower switching ripple ampli-

tudes, C

1μF. Capacitor types other than ceramic capaci-

tors can be used for C

comprised of materials other than ceramic will typ-

ically have a greater value of ESR, resulting in

increased output switching ripple.

High Efficiency 2X Charge Pump

, C

FLY

OUT

, and C

may be increased to values above

OUT

) is important because they will

can be reduced as low as

OUT

. Other types of capaci-

at the cost of compro-

. However, capacitors

) should be connected

AAT3119

AAT3119_07 ANALOGICTECH [Advanced Analogic Technologies], AAT3119_07 Datasheet - Page 11

AAT3119_07

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