AAT2848 Analogic Corporation, AAT2848 Datasheet - Page 14

AAT2848

Manufacturer Part Number

AAT2848

Description

Manufacturer

Analogic Corporation

Datasheet

1.AAT2848.pdf (19 pages)

Current page: 14 of 19
Download datasheet (3Mb)

The AAT2848’s flash charge pump conversion efficiency

is defined as the power delivered to the flash white LED

load divided by the input power:

X = Number of Flash White LEDs

The expression to define the estimated ideal flash effi-

ciency (η) for the AAT2848 in 1x mode is as follows:

The AAT2848’s flash charge pump is a fractional charge

pump which will boost the input supply voltage in the

event where V

across the flash white LED load.

With an ideal 1.5x charge pump, the input current is

1.5x of the output current. The expression to define the

estimated ideal flash efficiency (η) for the AAT2848 in

1.5x mode is as follows:

The same calculations apply for the AAT2848 in 2x mode

where for an ideal 2x charge pump, the input current is

2x of the output current. The expression for the esti-

mated ideal flash efficiency (η) for the AAT2848 in 2x

mode is as follows:

ChargePump

LEDx

X · V

1.5V

= White LED Bias Current (I

= White LED Forward Voltage (V

LEDX

LEDs

LEDX

· I

LED1

LEDX

LEDs

is less then the required output voltage

· I

; X = 1 or 2 and I

LED1

+ V

LED1

· I

High-Current Charge Pump For Backlight Display and Flash Applications

LED2

· I

LED1

· I

LED2

+ V

· I

)

LED2

= X · I

= 1.5(X · I

)

· I

LED2

LEDX

w w w . a n a l o g i c t e c h . c o m

LEDX

)

Capacitor Selection

Careful selection of the four most critical external capac-

itors C

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

formance (the flash timeout and fade functionality

capacitors are not as critical to the normal operation of

the AAT2848). Optimum performance will be obtained

when low ESR (<100mΩ) ceramic capacitors are used.

In general, low ESR is defined as a resistance that is less

than 100mΩ.

X7R and X5R type ceramic capacitors are highly recom-

mended over all other types of capacitors for use with the

AAT2848. For the charge pump section, a 1μF or greater

capacitor is required for the fly (C1 and C2) capacitors.

The required input capacitor (C

the required output capacitor (C

Ceramic capacitors offer many advantages over their

tantalum and aluminum electrolytic counterparts. A

ceramic capacitor typically has very low ESR, is lowest

cost, has a smaller printed circuit board (PCB) footprint,

and is non-polarized. Low ESR ceramic capacitors maxi-

mize charge pump transient response.

Before choosing a particular capacitor, verify the capaci-

tor’s performance with the characteristics illustrated in

the component’s data sheet. Performance verification

will help avoid undesirable component related perfor-

mance deficiencies. Suggested typical ceramic capacitor

components for AAT2848 are listed in Table 3.

PCB Layout

To achieve adequate electrical and thermal performance,

careful attention must be given to the PCB layout. In the

worst-case operating condition, the chip must dissipate

considerable power at full load. Adequate heat-sinking

must be achieved to ensure intended operation.

Figures 6 and 7 illustrate an example PCB layout (evalu-

ation board). See Figures 4 and 5 for the accompanying

schematic of the evaluation board. The bottom of the

package features an exposed metal pad. The exposed

X · V

LEDX

, C1, C2, and C

LEDX

· I

LEDX

; X = 1 or 2 and I

PRODUCT DATASHEET

OUT

are important because they

AAT2848

OUT

) is 4.7μF or greater and

) is 2.2μF or greater.

= 2(X · I

2848.2008.05.1.0

LEDX

)

AAT2848 Analogic Corporation, AAT2848 Datasheet - Page 14

AAT2848

Related parts for AAT2848