IR3080MTRPBF International Rectifier, IR3080MTRPBF Datasheet - Page 10

IR3080MTRPBF

Manufacturer Part Number

IR3080MTRPBF

Description

IC CONTROLLER PHASE 32LMLPQ

Manufacturer

International Rectifier

Series

XPhase™r

Datasheet

1.IR3080MTRPBF.pdf (41 pages)

Specifications of IR3080MTRPBF

Applications

Processor

Current - Supply

11mA

Voltage - Supply

9.5 V ~ 14 V

Operating Temperature

0°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

32-MLPQ

Ic Function

Control IC With VCCVID And Overtemp Detect

Supply Voltage Range

9.5V To 14V

Operating Temperature Range

0Â°C To +100Â°C

Digital Ic Case Style

MLPQ

No. Of Pins

Filter Terminals

SMD

Rohs Compliant

Yes

Controller Type

PWM

Package

32-Lead MLPQ

Circuit

X-Phase Control IC

Switch Freq (khz)

150kHz to 1.0MHz

Pbf

PbF Option Available

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

IR3080MPBFTR
IR3080MTRPBF
IR3080MTRPBFTR

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Body Braking

In a conventional synchronous buck converter, the minimum time required to reduce the current in the inductor in

response to a load step decrease is;

The slew rate of the inductor current can be significantly increased by turning off the synchronous rectifier in

response to a load step decrease. The switch node voltage is then forced to decrease until conduction of the

synchronous rectifier’s body diode occurs. This increases the voltage across the inductor from Vout to Vout +

decrease is now;

Since the voltage drop in the body diode is often higher than output voltage, the inductor current slew rate can be

increased by 2X or more. This patent pending technique is referred to as “body braking” and is accomplished

through the “0% Duty Cycle Comparator” located in the Phase IC. If the Error Amplifier’s output voltage drops below

91% of the VDAC voltage this comparator turns off the low side gate driver.

Lossless Average Inductor Current Sensing

Inductor current can be sensed by connecting a series resistor and a capacitor network in parallel with the inductor

and measuring the voltage across the capacitor, as shown in Figure 5. The equation of the sensing network is,

Usually the resistor Rcs and capacitor Ccs are chosen so that the time constant of Rcs and Ccs equals the time

constant of the inductor which is the inductance L over the inductor DCR. If the two time constants match, the

voltage across Ccs is proportional to the current through L, and the sense circuit can be treated as if only a sense

resistor with the value of R

inductor DC current, but affects the AC component of the inductor current.

PHASE IC

CLOCK

PULSE

PWMRMP

GATEH

GATEL

BODYDIODE

Page 10

EAIN

VDAC

. The minimum time required to reduce the current in the inductor in response to a load transient

STEADY-STATE

OPERATION

was used. The mismatch of the time constants does not affect the measurement of

DUTY CYCLE INCREASE

DUE TO LOAD

INCREASE

Figure 4. PWM Operating Waveforms

(

)

(

SLEW

)

DUTY CYCLE DECREASE

DUE TO VIN INCREASE

(FEED-FORWARD)

( *

MAX

BODYDIODE

−

(

MIN

)

91% VDAC

)

DUTY CYCLE DECREASE DUE TO LOAD

DECREASE (BODY BRAKING) OR FAULT

(VCC UV, VCCVID UV, OCP, VID=11111X)

IR3080PbF

STEADY-STATE

OPERATION

IR3080MTRPBF International Rectifier, IR3080MTRPBF Datasheet - Page 10

IR3080MTRPBF

Specifications of IR3080MTRPBF

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