ISL62383HRTZ Intersil, ISL62383HRTZ Datasheet - Page 18

ISL62383HRTZ

Manufacturer Part Number

ISL62383HRTZ

Description

IC PWR SUPPLY CONTROLLER 28TQFN

Manufacturer

Intersil

Datasheet

1.ISL62383HRTZ.pdf (23 pages)

Specifications of ISL62383HRTZ

Applications

Power Supply Controller

Voltage - Supply

5.5 V ~ 25 V

Current - Supply

150µA

Operating Temperature

-10°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

28-TQFN

Rohs Compliant

YES

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Input

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Manufacturer

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Part Number:

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Manufacturer:

Quantity:

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COMP signal. R

compensator. The frequency domain transfer function is given

by Equation15:

The LC output filter has a double pole at its resonant frequency

that causes rapid phase change. The R

ISL62381, ISL62382 and ISL62383 make the LC output filter

resemble a first order system in which the closed loop stability

can be achieved with the recommended Type-II compensation

network. Intersil provides a PC-based tool (example page is

shown later) that can be used to calculate compensation

network component values and help simulate the loop

frequency response.

LDO5 Linear Regulator

In addition to the two SMPS outputs, the ISL62381, ISL62382

and ISL62383 also provide two linear regulator outputs. LDO5

is fixed 5V LDO output capable of sourcing 100mA continuous

current.

When the output of SMPS2 is programmed to 5V, SMPS2 will

automatically take over the load of LDO5. This provides a

large power savings and boosts the efficiency. After

switchover to SMPS2, the LDO5 output current plus the

MOSFET drive current should not exceed 100mA in order to

gurarantee the LDO5 output voltage in the range of 5V ±5%.

The total MOSFET drive current can be estimated by

Equation 16.

where Q

in two SMPS regulators. Then the LDO5 output load current

should be less than 100mA-I

LDO3 Linear Regulator

ISL62381, ISL62382 includes LDO3 linear regulator whose

output is adjustable from 1.2V to 5V through LDO3FB pin with a

1.2V reference voltage. It can be independently enabled from

both SMPS channels. Logic high of LDO3EN will enable LDO3.

LDO3 is capable of sourcing 100mA continuous current and

draws its power from LDO3IN pin, which must be connected to

DRIVE

COMP

ISL6238

FIGURE 27. COMPENSATION REFERENCE CIRCUIT

s ( )

INT

is the total gate charge of all the power MOSFET

= 100pF

REF

⋅

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

s R

•

TOP

, R

s R

•

(

INT

, C

TOP

•

(

DRIVE

BOTTOM

and C

s R

•

) C

TOP

•

INT

•

modulator used in the

form the Type-II

ISL62381, ISL62382, ISL62383

)

(EQ. 15)

(EQ. 16)

a voltage greater than the LDO3 output voltage plus the

dropout voltage.

Currents in excess of the limit will cause the LDO3 voltage to

drop dramatically, limiting the power dissipation.

Thermal Monitor and Protection

LDO3 and LDO5 can dissipate non-trivial power inside the

ISL62381, ISL62382 and ISL62383 at high input-to-output

voltage ratios and full load conditions. To protect the silicon,

ISL62381, ISL62382 and ISL62383 continually monitor the

die temperature. If the temperature exceeds +150°C, all

outputs will be turned off to sharply curtail power dissipation.

The outputs will remain off until the junction temperature has

fallen below +135°C.

General Application Design Guide

This design guide is intended to provide a high-level

explanation of the steps necessary to design a single-phase

power converter. It is assumed that the reader is familiar with

many of the basic skills and techniques referenced in the

following section. In addition to this guide, Intersil provides

complete reference designs that include schematics, bills of

materials, and example board layouts.

Selecting the LC Output Filter

The duty cycle of an ideal buck converter is a function of the

input and the output voltage. This relationship is written as

Equation 17:

The output inductor peak-to-peak ripple current is written as

Equation 18:

A typical step-down DC/DC converter will have an I

20% to 40% of the maximum DC output load current. The

value of I

MOSFET switching loss, inductor core loss, and the resistive

loss of the inductor winding. The DC copper loss of the

inductor can be estimated by Equation 19:

Where I

The copper loss can be significant so attention has to be given

to the DCR selection. Another factor to consider when choosing

the inductor is its saturation characteristics at elevated

temperatures. A saturated inductor could cause destruction of

circuit components, as well as nuisance OCP faults.

A DC/DC buck regulator must have output capacitance C

into which ripple current I

out of the capacitor. These two voltages are written as

Equation 20:

ΔV

COPPER

ESR

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

OUT

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

OUT

LOAD

P-P

•

(

is selected based upon several criteria such as

LOAD

•

1 D

•

is the converter output DC current.

–

)

•

DCR

P-P

can flow. Current I

P-P

August 7, 2008

develops

P-P

(EQ. 17)

(EQ. 19)

(EQ. 20)

(EQ. 18)

FN6665.4

ISL62383HRTZ Intersil, ISL62383HRTZ Datasheet - Page 18

ISL62383HRTZ

Specifications of ISL62383HRTZ

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