IR3500AMPBF International Rectifier, IR3500AMPBF Datasheet - Page 33

IR3500AMPBF

Manufacturer Part Number

IR3500AMPBF

Description

IC CTRL XPHASE3 VR11.0 32-MLPQ

Manufacturer

International Rectifier

Series

XPhase3™r

Datasheet

1.IR3500AMTRPBF.pdf (48 pages)

Specifications of IR3500AMPBF

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

Package

32-Lead MLPQ

Circuit

X-Phase Control IC

Switch Freq (khz)

250kHz to 1.5MHz

Pbf

PbF Option Available

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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No Load Output Voltage Setting Resistor R

A resistor between VSETPT pin and VDAC is used to create output voltage offset V

difference between V

VCCL Capacitor C

driven. The linear regulator supplies the bias and gate drive current of the phase ICs. A 4.7uF normally ensures

stable VCCL performance for Intel VR11 and AMD applications.

VCCL Programming Resistor R

Since VCCL voltage is proportional to the MOSFET gate driver loss and inversely proportional to the

MOSFET conduction loss, the optimum voltage should be chosen to maximize the converter efficiency. VCCL

linear regulator consists of an external NPN transistor, a ceramic capacitor and a programmable resistor

divider. Pre-select R

VCCL Regulator Drive Resistor R

minimum input voltage requirements. The following equation gives an estimate of the average load current of

the switching phase ICs.

VCCL, the maximum R

Due to limited pull down capability of the VCCLDRV pin, make sure the following condition is satisfied.

In the above equation, V

above condition is not satisfied there is a need to use a device with higher β

be used instead of a single NPN transistor.

Thermistor R

The threshold voltage of VRHOT comparator is fixed at 1.6V, and a negative temperature coefficient (NTC)

thermistor R

thermistor resistance at allowed maximum temperature T

VSETPT

The capacitor is selected based on the stability requirement of the linear regulator and the load current to be

The drive resistor is primarily dependent on the load current requirement of the linear regulator and the

and Q

is the current flowing out of VSETPT pin as shown in Figure 23.

Page 33 of 48

are the gate charge of the top and bottom FET. For a minimum input voltage and a maximum

THERM

VCCL

is required to sense the temperature of the power stage. If we pre-select R

VCCLFB1

and Over Temperature Setting Resistors R

DAC

VCCLDRV

( min) and V

voltage and output voltage at no load condition. R

drive

, and calculate R

VCCLDRV

avg

VCCLFB

required to use the full pull-down current of the VCCL driver is given by

(max)

VCCLFB1

[

VCCLDRV

(

−

( max) is the minimum and maximum anticipated input voltage. If the

VCCLDRV

VCCL

7 .

(min)

VCCLFB

and R

−

VCCL

VSETPT

VCCLFB2

drive

VSETPT

)

−

⋅

. 1

VCCLFB2

. 1

7 .

(min)

avg

−

VCCL

from (18).

VSETPT

min

NLOFST

MAX

(max)

]

⋅

is calculated from (22).

HOTSET1

and R

(21)

min

VSETPT

(18)

(20)

(19)

or Darlington configuration can

HOTSET2

is determined by (17), where

O_NLOFST,

(17)

July 28, 2009

IR3500A

THERM

which is the

, the NTC

IR3500AMPBF International Rectifier, IR3500AMPBF Datasheet - Page 33

IR3500AMPBF

Specifications of IR3500AMPBF

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