IR3088M International Rectifier, IR3088M Datasheet - Page 18

IR3088M

Manufacturer Part Number

IR3088M

Description

IC XPHASE W/FAULT DET 20L-MLPQ

Manufacturer

International Rectifier

Series

XPhase™r

Datasheet

1.IR3088M.pdf (34 pages)

Specifications of IR3088M

Applications

Processor

Current - Supply

10mA

Voltage - Supply

8.4 V ~ 14 V

Operating Temperature

0°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

20-MLPQ

Lead Free Status / RoHS Status

Lead free / RoHS non-compliant

Other names

*IR3088M

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Current page: 18 of 34
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If the over temperature setting voltage is higher than the phase delay setting voltage, VBIAS*RA

HOTSET pin between R

Pre-select R

Bootstrap Capacitor C

Depending on the duty cycle and gate drive current of the phase IC, a 0.1uF to 1uF capacitor is needed for the

bootstrap circuit.

Decoupling Capacitors for Phase IC

0.1uF-1uF decoupling capacitors are required at VCC and VCCL pins of phase ICs.

VOLTAGE LOOP COMPENSATION

The adaptive voltage positioning (AVP) is usually adopted in the computer applications to improve the transient

response and reduce the power loss at heavy load. Like current mode control, the adaptive voltage positioning loop

introduces extra zero to the voltage loop and splits the double poles of the power stage, which make the voltage

loop compensation much easier.

Resistors R

depends on the output capacitors used in the converter. For the applications using Electrolytic, Polymer or AL-

Polymer capacitors and running at lower frequency, type II compensation shown in Figure 9(a) is usually enough.

While for the applications using only ceramic capacitors and running at higher frequency, type III compensation

shown in Figure 9(b) is preferred.

For applications where AVP is not required, the compensation is the same as for the regular voltage mode control.

For converter using Polymer, AL-Polymer, and ceramic capacitors, which have much higher ESR zero frequency,

type III compensation is required as shown in Figure 9(b) with R

Type II Compensation for AVP Applications

Determine the compensation at no load, the worst case condition. Choose the crossover frequency fc between 1/10

and 1/5 of the switching frequency per phase. Assume the time constant of the resistor and capacitor across the

output inductors matches that of the inductor, and determine R

and C

respectively.

Page 18 of

VO+

VDRP

are the equivalent inductance of output inductors and the equivalent capacitance of output capacitors

PHASEx1

and R

RFB

RDRP

(a) Type II compensation

DRP

PHASEx

BST

PHASEx1

are chosen according to Equations (15) and (16), and the selection of compensation types

VDAC

RCP

(

HOTSET

and R

PHASEx

Figure 9. Voltage loop compensation network

CCP1

BIAS

EAOUT

PHASEx2,

∗

−

BIAS

CCP

BIAS

HOTSET

PHASEx

−

and connect RMPIN+ or RMPIN- between R

PHASEx

HOTSET

∗

EAOUT

BIAS

)

∗

VO+

VDRP

PHASEx

RFB1

DRP

(b) Type III compensation

and C

RFB

RDRP

and C

CFB

CDRP

DRP

from Equations (27) and (28), where L

VDAC

removed.

RCP

CCP1

EAOUT

CCP

PHASEx2

(25)

(26)

EAOUT

IR3088

9/30

PHASEx

and R

/04

, connect

PHASEx3

IR3088M International Rectifier, IR3088M Datasheet - Page 18

IR3088M

Specifications of IR3088M

Available stocks

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