AAT2845AIML-EE-T1 AnalogicTech, AAT2845AIML-EE-T1 Datasheet - Page 13

AAT2845AIML-EE-T1

Manufacturer Part Number

AAT2845AIML-EE-T1

Description

Four-Channel Backlight Driver with Dual LDOs

Manufacturer

AnalogicTech

Datasheet

1.AAT2845AIML-EE-T1.pdf (19 pages)

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To select appropriate resistor values, first choose

R9 such that the feedback network bias current is

reasonable. Then, according to the desired V

calculate R8 according to the equation below. An

example calculation follows.

R9 is chosen to be 120K, resulting in a small feed-

back network bias current of 1.2V/120K = 10µA.

The desired output voltage is 1.8V. From this infor-

mation, R8 is calculated from the equation below.

The result is R8 = 60K. Since 60K is not a standard

1% value, 60.4K is selected. From this example

calculation, for V

= 60.4K. A table of example output voltages and

corresponding resistor values is provided below.

Power Efficiency and Device Evaluation

The charge pump efficiency discussion in the fol-

lowing sections accounts only for efficiency of the

charge pump section itself. Due to the unique circuit

architecture and design of the AAT2845A, it is very

difficult to measure efficiency in terms of a percent

value comparing input power over output power.

Since the AAT2845A outputs are pure constant cur-

rent sinks and typically drive individual loads, it is

difficult to measure the output voltage for a given

output (D1 to D4) to derive an overall output power

measurement. For any given application, white

LED forward voltage levels can differ, yet the out-

put drive current will be maintained as a constant.

2845A.2007.05.1.0

Table 2: Example Output Voltages and

Standard 1% Values (R9, R11 = 120K)

Corresponding Resistor Values

OUT

2.8

2.5

2.0

1.8

1.5

(V)

R8 =

OUT

= 1.8V, use R9 = 120K and R8

R9(V

OUT

1.2V

- 1.2V)

R8, R10 (Ω)

79.6K

60.4K

30.1K

160K

130K

Four-Channel Backlight Driver with Dual LDOs

OUT

This makes quantifying output power a difficult task

when taken in the context of comparing to other

white LED driver circuit topologies. A better way to

quantify total device efficiency is to observe the total

input power to the device for a given LED current

drive level. The best white LED driver for a given

application should be based on trade-offs of size,

external component count, reliability, operating

range, and total energy usage...not just % efficiency.

The AAT2845A efficiency may be quantified under

very specific conditions and is dependent upon the

input voltage versus the output voltage seen

across the loads applied to outputs D1 through D4

for a given constant current setting. Depending on

the combination of V

current sinks, the device will operate in load switch

mode. When any one of the voltages sensed at the

current sinks nears dropout, the device will operate

in 1.5X or 2X charge pump mode. Each of these

modes will yield different efficiency values. Refer

to the following two sections for explanations for

each operational mode.

1X Mode Efficiency

The AAT2845A 1X mode is operational at all times

and functions alone to enhance device power con-

version efficiency when V

age across the load. When in 1X mode, voltage

conversion efficiency is defined as output power

divided by input power:

The expression to define the ideal efficiency (η)

can be rewritten as:

-or-

η =

η(%) = 100

OUT

η =

and voltages sensed at the

OUT

⎛

⎝

· I

OUT

· I

is higher than the volt-

OUT

AAT2845A

⎞

⎠

OUT

AAT2845AIML-EE-T1 AnalogicTech, AAT2845AIML-EE-T1 Datasheet - Page 13

AAT2845AIML-EE-T1

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