ISL8540IVEZ Intersil, ISL8540IVEZ Datasheet - Page 13

ISL8540IVEZ

Manufacturer Part Number

ISL8540IVEZ

Description

IC REG 2A DC/DC STEP-DN 20HTSSOP

Manufacturer

Intersil

Type

Step-Down (Buck)r

Datasheet

1.ISL8540IVEZ.pdf (16 pages)

Specifications of ISL8540IVEZ

Internal Switch(s)

Yes

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

1.21 ~ 35 V

Current - Output

Frequency - Switching

100kHz ~ 600kHz

Voltage - Input

9 ~ 40 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-TSSOP Exposed Pad, 20-eTSSOP, 20-HTSSOP

Power - Output

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The ESL of the capacitors, which is an important parameter

in Equations 4 and 5, is not usually listed in databooks.

Practically, it can be approximated if an impedance vs

frequency curve is given for a specific capacitor (C):

The ESL of the capacitors becomes a concern when

designing circuits that supply power to loads with high rates

of change in the current.

Output Inductor Selection

The output inductor is selected to meet the output voltage

ripple requirements and minimize the converter’s response

time to the load transient. The inductor value determines the

converter’s ripple current and the ripple voltage is a function

of the ripple current. The ripple voltage and current are

approximated by Equation 7:

Increasing the value of inductance reduces the ripple current

and voltage. However, the large inductance values reduce

the converter’s response time to a load transient. Use

approximately 30% of I

One of the parameters limiting the converter’s response to

a load transient is the time required to change the inductor

current. Given a sufficiently fast control loop design, the

ISL8540 will provide either 0% or 100% duty cycle in

response to a load transient. The response time is the time

required to slew the inductor current from an initial current

value to the transient current level. During this interval the

difference between the inductor current and the transient

current level must be supplied by the output capacitor.

Minimizing the response time can minimize the output

capacitance required.

The response time to a transient is different for the

application of load and the removal of load. Equation 8 gives

the approximate response time interval for application and

removal of a transient load:

where: I

response time to the application of load, and t

response time to the removal of load. The worst case

response time can be either at the application or removal of

load. Be sure to check both of these equations at the

minimum and maximum output levels for the worst case

response time.

ESL

where f

is achieved (resonant frequency).

ΔI =

RISE

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

C 2 π

res

TRAN

Fs x L

(

- V

L x I

is the frequency where the lowest impedance

•

OUT

- V

is the transient load current step, t

TRAN

•

OUT

res

)

OUT

is a good compromise.

FALL

ΔV

OUT

L x I

= ΔI x ESR

OUT

TRAN

FALL

RISE

is the

(EQ. 6)

(EQ. 7)

(EQ. 8)

I of

ISL8540

Rectifier Selection

Current circulates from ground to the junction of the

MOSFET and the inductor when the high-side switch is off.

As a consequence, the polarity of the switching node is

negative with respect to ground. This voltage is

approximately -0.5V (a Schottky diode drop) during the off

time. The rectifier's rated reverse breakdown voltage must

be at least equal to the maximum input voltage, preferably

with a 20% derating factor. The power dissipation is:

Input Capacitor Selection

Use a mix of input bypass capacitors to control the voltage

overshoot across the VIN’s pin. Use small ceramic

capacitors for high frequency decoupling and bulk capacitors

to supply the current needed each time the upper MOSFET

turns on. Place the small ceramic capacitors physically close

to the VIN and PGND pins.

The important parameters for the bulk input capacitance are

the voltage rating and the RMS current rating. For reliable

operation, select bulk capacitors with voltage and current

ratings above the maximum input voltage and largest RMS

current required by the circuit. Their voltage rating should be

at least 1.25 times greater than the maximum input voltage,

while a voltage rating of 1.5 times is a conservative

guideline. For most cases, the RMS current rating

requirement for the input capacitor of a buck regulator is

approximately 1/2 the DC load current.

The maximum RMS current through the input capacitors

may be closely approximated through Equation 10:

For a through hole design, several electrolytic capacitors

may be needed. For surface mount designs, solid tantalum

capacitors can be used, but caution must be exercised with

regard to the capacitor surge current rating. These

capacitors must be capable of handling the surge-current at

power-up. Some capacitor series available from reputable

manufacturers are surge current tested.

Feedback Compensation

Figure 28 highlights the voltage-mode control loop for a

synchronous-rectified buck converter. The output voltage

amplifier output (V

triangular wave to provide a pulse-width modulated (PWM)

wave with an amplitude of V

wave is smoothed by the output filter (L

where V

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

OUT

[

OUT

]

) is regulated to the Reference voltage level. The error

⎛

⎜

⎝

OUT

is the voltage of the Schottky diode = 0.5V to 0.7V

MAX

⋅

E/A

⋅

⎛

⎜

⎝

⎛

⎝

) is compared with the oscillator (OSC)

–

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

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

OUT

⎞

⎠

⎞

⎟

⎠

at the LX node. The PWM

----- -

⎛

⎜

⎝

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

–

and C

OSC

OUT

September 9, 2008

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

OUT

(EQ. 10)

FN6495.5

(EQ. 9)

⎞

⎟

⎠

⎞

⎟

⎠

ISL8540IVEZ Intersil, ISL8540IVEZ Datasheet - Page 13

ISL8540IVEZ

Specifications of ISL8540IVEZ

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