ISL78010_11 INTERSIL [Intersil Corporation], ISL78010_11 Datasheet - Page 11

ISL78010_11

Manufacturer Part Number

ISL78010_11

Description

Automotive Grade TFT-LCD Power Supply

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL78010_11.pdf (19 pages)

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Table 2 gives typical values (margins are considered 10%,

3%, 20%, 10%, and 15%) on V

Input Capacitor

An input capacitor is used to supply the peak charging

current to the converter. It is recommended that C

larger than 10µF. The reflected ripple voltage will be smaller

with larger C

should be larger than the maximum input voltage.

Boost Inductor

The boost inductor is a critical part which influences the

output voltage ripple, transient response, and efficiency.

Values of 3.3µH to 10µH are to match the internal slope

compensation. The inductor must be able to handle the

following average (Equation 5) and peak (Equation 6)

current:

Rectifier Diode

A high-speed diode is necessary due to the high switching

frequency. Schottky diodes are recommended because of

their fast recovery time and low forward voltage. The rectifier

diode must meet the output current and peak inductor

current requirements.

Output Capacitor

The output capacitor supplies the load directly and reduces

the ripple voltage at the output. Output ripple voltage

consists of two components: the voltage drop due to the

inductor ripple current flowing through the ESR of output

capacitor, and the charging and discharging of the output

capacitor (Equation 7).

For low ESR ceramic capacitors, the output ripple is

dominated by the charging and discharging of the output

LAVG

LPK

RIPPLE

3.3

TABLE 2. TYPICAL V

(V)

LAVG

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

1 D

–

LPK

. The voltage rating of the input capacitor

ΔI

--------

(V)

ESR

L (µH)

6.8

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

, V

–

, L, f

, V

(MHz)

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

, AND I

OUT

, L, f

OMAX

---- -

, and I

0.490686

0.307353

0.197353

0.743464

0.465686

0.29902

VALUES

OMAX

(A)

OMAX

(EQ. 5)

(EQ. 6)

(EQ. 7)

ISL78010

capacitor. The voltage rating of the output capacitor should

be greater than the maximum output voltage.

NOTE: Capacitors have a voltage coefficient that makes their

effective capacitance drop as the voltage across them increases.

particular voltage and not the manufacturer’s stated value, measured

at zero volts.

Compensation

The ISL78010 can operate in either P-mode or PI-mode.

P-mode may be preferred in applications where excellent

transient load performance is required but regulation is not

critical. Connecting the CINT pin directly to V

P-mode; for better load regulation, use PI-mode with a 4.7nF

capacitor in series with a 10k resistor between CINT and

ground. This value may be reduced to improve transient

performance; however, very low values will reduce loop

stability. Figures 5 through 10 show a comparison of P-mode

vs PI-mode performance.

Boost Feedback Resistors

As the boost output voltage, A

the effective voltage feedback in the IC increases the ratio of

voltage to current feedback at the summing comparator

because R

operation over the complete current range of the IC, the

voltage feedback to the FBB pin should be reduced

proportionally, as A

accomplished by means of a series resistor-capacitor

network (R

with a pole frequency (f

PI-Mode C

The IC is designed to operate with a minimum C

of 4.7nF and a minimum C

Note that, for high voltage A

ceramic capacitors (C

greatly; a 16V, 10µF ceramic can drop to around 3µF at 15V.

To improve the transient load response of A

a resistor may be added in series with the C

larger the resistor, the lower the overshoot, but at the

expense of stability of the converter loop, especially at high

currents.

With L = 10µH, A

should have a capacitance of greater than 10µF. R

can have values up to 5kΩ for C

up to 10k for C

OUT

(effective) = 10µF and 4kHz for C

in Equation 7 assumes the effective value of the capacitor at a

⎛

⎝

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

2 3.142

⎛

⎝

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

0.1

INT

decreases relative to R

and C

⎞

⎠

(effective) up to 30µF.

–

VDD

------ -

VDD

⎞

⎠

Equations 8 and 9) in parallel with R

–

) and R

= 15V, and C

) reduces their effective capacitance

is reduced. This can be

) set to approximately 10kHz for

VDD

(effective) = 10µF.

VDD

INT

, the voltage coefficient of

(effective) up to 20µF and

, is reduced below 12V,

. To maintain stable

= 4.7nF, C

(effective) = 30µF.

)

VDD

capacitor. The

will enable

in PI-mode,

(effective)

INT

capacitor

May 3, 2011

FN6501.1

(EQ. 8)

(EQ. 9)

)

ISL78010_11 INTERSIL [Intersil Corporation], ISL78010_11 Datasheet - Page 11

ISL78010_11

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