ISL97653AIRZ-TK Intersil, ISL97653AIRZ-TK Datasheet - Page 13

ISL97653AIRZ-TK

Manufacturer Part Number

ISL97653AIRZ-TK

Description

IC LCD SUPPLY 5CHN 40-QFN

Manufacturer

Intersil

Datasheet

1.ISL97653AIRZ.pdf (18 pages)

Specifications of ISL97653AIRZ-TK

Applications

LCD TV/Monitor

Current - Supply

4mA

Voltage - Supply

4 V ~ 14 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

40-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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limited during soft-start by adding a resistor (~75kΩ)

between gate and source of M0. In addition, a resistor can

be connected between PROT and the gate of M0, in order to

limit the maximum V

Buck Converter

The buck converter is a step down converter supplying

power to the logic circuit of the LCD system. The ISL97653A

integrates a high voltage N-channel MOSFET to save costs

and reduce external component count. In the continuous

current mode, the relationship between input voltage and

output voltage as expressed in Equation 8:

Where D is the duty cycle of the switching MOSFET.

Because D is always less than 1, the output voltage of a

buck converter is lower than input voltage.

The peak current limit of buck converter is set to 2.5A, which

restricts the maximum output current (average) based on

Equation 9:

Where ΔI

shown in Equation 10:

Where L is the buck inductor, f

(680kHz).

Feedback Resistors

The buck converter output voltage is determined by

Equation 11:

Where R

converter loop to set the output voltage. Current drawn by

the resistor network should be limited to maintain the overall

converter efficiency. The maximum value of the resistor

network is limited by the feedback input bias current and the

potential for noise being coupled into the feedback pin. A

resistor network in the order of 1kΩ is recommended.

Buck Converter Input Capacitor

Input capacitance should support the maximum AC RMS

current which occurs at D = 0.5 and maximum output

current.

--------------------- -

ΔI

OMAX

acrms

LOGIC

(

--------------------- -

LOGIC

L f

2.5A ΔI

P-P

⋅

-------------------------- -

)

and R

is the ripple current in the buck inductor as

–

⋅

(

1 D

P-P

⋅

(

–

1 D

are the feedback resistors in the buck

–

)

FBL

of M0 at all times.

)

⋅

is the switching frequency

(EQ. 10)

(EQ. 12)

(EQ. 11)

(EQ. 8)

(EQ. 9)

ISL97653A

Where I

shows some recommendations for the input capacitor.

Buck Inductor

A 3.3µH to 10µH inductor range is recommended for the

buck converter. Besides the inductance, the DC resistance

and the saturation current are also factors that need to be

considered when choosing a buck inductor. Low DC

resistance can help maintain high efficiency. Saturation

current rating should be higher than 2A. Here are some

recommendations for the buck inductor.

Rectifier Diode (Buck Converter)

A Schottky diode is recommended for fast recovery and low

forward voltage. The reverse voltage rating should be higher

than the maximum input voltage. The peak current rating is

2.5A, and the average current is given by Equation 13:

Where I

following table shows some diode recommended.

avg

CAPACITOR

INDUCTOR

2.7A

PMEG2020EJ

TABLE 6. INPUT CAPACITOR (BUCK) RECOMMENDATION

10µF/16V

10µF/10V

22µF/16V

TABLE 8. BUCK RECTIFIER DIODE RECOMMENDATION

4.7µH/

6.8µH/

PEAK

DIODE

SS22

PEAK

TABLE 7. BUCK INDUCTOR RECOMMENDATION

(

1 D

–

is the output current of the buck converter. Table 6

is the output current of buck converter. The

)*I

DIMENSIONS

5.7x5.0x4.7

7.3x6.8x3.2

SIZE

1206

0805

1210

(mm)

RATING

20V/2A

TDK

Murata

AVG

VENDOR

Murata

TDK

VENDOR

PACKAGE

SOD323F

SMB

LQH55DN4R7M01K

RLF7030T-6R8M2R8

Philips

Semiconductors

Fairchild

Semiconductor

C3216X7R1C106M

GRM21BR61A106K

C3225X7R1C226M

PART NUMBER

VENDOR

September 7, 2010

(EQ. 13)

FN6367.3

ISL97653AIRZ-TK Intersil, ISL97653AIRZ-TK Datasheet - Page 13

ISL97653AIRZ-TK

Specifications of ISL97653AIRZ-TK

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