IR3500MPBF International Rectifier, IR3500MPBF Datasheet - Page 33

IR3500MPBF

Manufacturer Part Number

IR3500MPBF

Description

IC XPHASE3 CONTROL 32-MLPQ

Manufacturer

International Rectifier

Series

XPhase3™r

Datasheet

1.IR3500MTRPBF.pdf (47 pages)

Specifications of IR3500MPBF

Applications

Processor

Current - Supply

6.5mA

Voltage - Supply

4.75 V ~ 7.5 V

Operating Temperature

0°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

32-MLPQ

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 33 of 47
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Select the series resistor R

operational temperature range. Then calculate R

TMAX from (23).

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 an extra zero to the voltage loop and splits the double poles of the power stage, which makes the

voltage loop compensation much easier.

Adaptive voltage positioning lowers the converter voltage by R

the converter. Pre-select feedback resistor R

The selection of compensation types depends on the output capacitors used in the converter. For applications

using Electrolytic, Polymer or AL-Polymer capacitors and running at lower frequency, type II compensation shown

in Figure 22(a) is usually enough. While for the applications using only ceramic capacitors and running at higher

frequency, type III compensation shown in Figure 22(b) is preferred.

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

control. For converters using Polymer, AL-Polymer, and ceramic capacitors, which have much higher ESR zero

frequency, type III compensation is required as shown in Figure 22(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

respectively.

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

VO+

VDRP

Page 33 of 47

RFB

RDRP

(a) Type II compensation

DRP

TMAX

HOTSET

VDAC

HOTSET2

RCP

Figure 22 - Voltage loop compensation network

∗

THERM

CCP1

(

to linearize the NTC thermistor, which has non-linear characteristics in the

∗

EAOUT

TMAX

MAX

CCP

EXP

FB,

[

and calculate the droop resistor RDRP,

THERM

HOTSET

EAOUT

HOTSET1

6 .

( *

)

( *

VCCL

corresponding to the allowed maximum temperature

VO+

VDRP

MAX

RFB1

−

(b) Type III compensation

−

where R

RFB

RDRP

. 1

CFB

ROOM

CDRP

) 6

and C

)]

DRP

VDAC

is the required output impedance of

from (26) and (27), where L

and C

RCP

CCP1

DRP

(25)

EAOUT

(22)

removed.

CCP

May 18, 2009

(23)

EAOUT

IR3500

and

IR3500MPBF International Rectifier, IR3500MPBF Datasheet - Page 33

IR3500MPBF

Specifications of IR3500MPBF

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