SP4446 Datasheet, PDF(4/10 Page) Sipex Corporation – High Output Voltage Boost Regulator LCD Bias Regulator

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SP4446 Datasheet, PDF (4/10 Pages) Sipex Corporation – High Output Voltage Boost Regulator LCD Bias Regulator

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Inductor Selection

For SP4446, the internal switch will be turned off

only after the inductor current reaches the typical

dc current limit (ILIM=150mA). However, there is

typically propagation delay of 200nS between the

time when the current limit is reached and when

the switch is actually turned off. During this 200nS

delay, the peak inductor current will increase,

exceeding the current limit by a small amount. The

peak inductor current can be estimated by:

IPK = ILIM + VIN(MAX) â¢ 200nS

The larger the input voltage and the lower the

inductor value, the greater the peak current.

In selecting an inductor, the saturation current

specified for the inductor needs to be greater than

the SP4446 peak current to avoid saturating the

inductor, which would result in a loss in efficiency

and could damage the inductor.

Choosing an inductor with low DCR decreases

power losses and increase efficiency.

Refer to Table 1 for some suggested low ESR

inductors.

Table 1. Suggested Low ESR inductor

MANUF.

MURATA

770-436-1300

MURATA

770-436-1300

TDK

847-803-6100

TDK

847-803-6100

PART NUMBER DCR

(â¦)

LQH32CN100K21 0.44

(10ÂµH)

LQH32CN220K21 0.71

(22ÂµH)

NLFC453232T-100K

(10ÂµH)

0.273

NLC453232T-100K 0.9

(22ÂµH)

Current

Rating

(mA)

300

250

370

Diode Selection

A schottky diode with a low forward drop and fast

switching speed is ideally used here to achieve

high efficiency. In selecting a Schottky diode, the

current rating of the schottky diode should be

larger than the peak inductor current. Moreover,

the reverse breakdown voltage of the schottky

diode should be larger than the output voltage.

APPLICATION INFORMAMTION

Capacitor Selection

Ceramic capacitors are recommended for their

inherently low ESR, which will help produce low

peak to peak output ripple, and reduce high fre-

quency spikes.

For the typical application, 4.7ÂµF input capacitor

and 2.2ÂµF output capacitor are sufficient. The

input and output ripple could be further reduced by

increasing the value of the input and output capaci-

tors. Place all the capacitors as close to the SP4446

as possible for layout. For use as a voltage source,

to reduce the output ripple, a small feedforward

(47pF) across the top feedback resistor can be used

to provide sufficient overdrive for the error com-

parator, thus reduce the output ripple.

Refer to Table 2 for some suggested low ESR

capacitors.

Table 2. Suggested Low ESR Capacitor

MANUF.

MURATA

770-436-1300

MURATA

770-436-1300

TDK

847-803-6100

TDK

847-803-6100

PART

NUMBER

CAP/

VOLTAGE

GRM32RR71E 2.2ÂµF/25V

225KC01B

GRM31CR61A 4.7ÂµF/10V

475KA01B

C3225X7R1E 2.2ÂµF/25V

225M

C3216X5R1A 4.7ÂµF/10V

475K

SIZE/

TYPE

1210/X5R

1206/X5R

1206/X7R

1206/X5R

Output Voltage Program

The SP4446 can be programmed as voltage source,

the SP4446 requires 2 feedback resistors R1 & R2

to control the output voltage. As shown in Fig. 19.

VIN

VOUT

VI N

SP4446

SHDN

G ND

1.22V

Figure 19. Using SP4446 as Voltage Source

Rev. 7/14/03

SP4446 High Output Voltage Boost Regualtor, LCD Bias Regulator

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