AAT3110 Datasheet, PDF(13/20 Page) Advanced Analogic Technologies

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AAT3110 Datasheet, PDF (13/20 Pages) Advanced Analogic Technologies – MicroPower™ Regulated Charge Pump

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AAT3110

MicroPowerâ¢ Regulated Charge Pump

Applications Information

External Capacitor Selection

Careful selection of the three external capacitors

CIN, COUT, and CFLY is very important because they

will affect turn-on time, output ripple, and transient

performance. Optimum performance will be

obtained when low ESR ceramic capacitors are

used. In general, low ESR may be defined as less

than 100mâ¦. If desired for a particular application,

low ESR tantalum capacitors may be substituted;

however, optimum output ripple performance may

not be realized. Aluminum electrolytic capacitors

are not recommended for use with the AAT3110

due to their inherent high ESR characteristic.

Typically as a starting point, a capacitor value of

10ÂµF should be used for CIN and COUT with 1ÂµF for

CFLY when the AAT3110 is used under maximum

output load conditions. Lower values for CIN, COUT,

and CFLY may be utilized for light load current appli-

cations. Applications drawing a load current of

10mA or less may use a CIN and COUT capacitor

value as low as 1ÂµF and a CFLY value of 0.1ÂµF. CIN

and COUT may range from 1ÂµF for light loads to

10ÂµF or more for heavy output load conditions.

CFLY may range from 0.01ÂµF to 2.2ÂµF or more. If

CFLY is increased, COUT should also be increased

by the same ratio to minimize output ripple. As a

basic rule, the ratio between CIN, COUT, and CFLY

should be approximately 10 to 1. The compromise

for lowering the value of CIN, COUT, and the flying

capacitor CFLY is that the output ripple voltage may

be increased. In any case, if the external capacitor

values deviate greatly from the recommendation of

CIN = COUT = 10ÂµF and CFLY = 1ÂµF, the AAT3110

output performance should be evaluated to assure

the device meets application requirements.

In applications where the input voltage source has

very low impedance, it is possible to omit the CIN

capacitor. However, if CIN is not used, circuit per-

formance should be evaluated to assure desired

operation is achieved. Under high peak current

operating conditions that are typically experienced

during circuit start-up or when load demands create

a large inrush current, poor output voltage regula-

tion can result if the input supply source impedance

is high or if the value of CIN is too low. This situation

can be remedied by increasing the value of CIN.

3110.2005.11.1.4

Capacitor Characteristics

Ceramic composition capacitors are highly recom-

mended over all other types of capacitors for use with

the AAT3110. Ceramic capacitors offer many advan-

tages over their tantalum and aluminum electrolytic

counterparts. A ceramic capacitor typically has very

low ESR, is lower cost, has a smaller PCB footprint,

and is non-polarized. Low ESR ceramic capacitors

help maximize charge pump transient response.

Since ceramic capacitors are non-polarized, they are

not prone to incorrect connection damage.

Equivalent Series Resistance: ESR is a very

important characteristic to consider when selecting

a capacitor. ESR is a resistance internal to a

capacitor that is caused by the leads, internal con-

nections, size or area, material composition, and

ambient temperature. Typically, capacitor ESR is

measured in milliohms for ceramic capacitors and

can range to more then several ohms for tantalum

or aluminum electrolytic capacitors.

Ceramic Capacitor Materials: Ceramic capacitors

less than 0.1ÂµF are typically made from NPO or

C0G materials. NPO and C0G materials typically

have tight tolerance and are very stable over tem-

perature. Large capacitor values are typically com-

posed of X7R, X5R, Z5U, or Y5V dielectric materi-

als. Large ceramic capacitors, typically greater than

2.2ÂµF, are often available in low-cost Y5V and Z5U

dielectrics. If these types of capacitors are select-

ed for use with the charge pump, the nominal value

should be doubled to compensate for the capacitor

tolerance which can vary more than Â±50% over the

operating temperature range of the device. A 10ÂµF

Y5V capacitor could be reduced to less than 5ÂµF

over temperature; this could cause problems for cir-

cuit operation. X7R and X5R dielectrics are much

more desirable. The temperature tolerance of X7R

dielectric is better than Â±15%.

Capacitor area is another contributor to ESR.

Capacitors that are physically large will have a lower

ESR when compared to an equivalent material

smaller capacitor. These larger devices can improve

circuit transient response when compared to an

equal value capacitor in a smaller package size.

Charge Pump Efficiency

The AAT3110 is a regulated output voltage dou-

bling charge pump. The efficiency (Î·) can simply

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