IR3081AMTR International Rectifier, IR3081AMTR Datasheet - Page 8

IR3081AMTR

Manufacturer Part Number

IR3081AMTR

Description

XPHASE VR 10.0 Control IC. The Control IC combined with an IR XPhase TM Phase IC provides a full featured and flexible way to implement a complete VR 10.0 power solution.

Manufacturer

International Rectifier

Datasheet

1.IR3081AMTR.pdf (39 pages)

Specifications of IR3081AMTR

Package

28-Lead MLPQ

Circuit

X-Phase Controller IC

Switch Freq (khz)

150kHz to 1.0MHz

Pbf

PbF Option Available

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PWM Control Method

The PWM block diagram of the XPhase

trailing edge modulation is used. A high-gain wide-bandwidth voltage type error amplifier in the Control IC is used

for the voltage control loop. An external RC circuit connected to the input voltage and ground is used to program the

slope of the PWM ramp and to provide the feed-forward control at each phase. The PWM ramp slope will change

with the input voltage and automatically compensate for changes in the input voltage. The input voltage can change

due to variations in the silver box output voltage or due to the wire and PCB-trace voltage drop related to changes

in load current.

Frequency and Phase Timing Control

The oscillator is located in the Control IC and its frequency is programmable from 150kHz to 1MHZ by an external

resistor. The output of the oscillator is a 50% duty cycle triangle waveform with peak and valley voltages of

approximately 5V and 1V respectively. This signal is used to program both the switching frequency and phase

timing of the Phase ICs. The Phase IC is programmed by resistor divider R

VBIAS reference voltage and the Phase IC LGND pin. A comparator in the Phase ICs detects the crossing of the

oscillator waveform over the voltage generated by the resistor divider and triggers a clock pulse that starts the PWM

cycle. The peak and valley voltages track the VBIAS voltage reducing potential Phase IC timing errors. Figure 3

shows the Phase timing for an 8 phase converter. Note that both slopes of the triangle waveform can be used for

phase timing by swapping the RMPIN+ and RMPIN– pins, as shown in figure 2.

50%

DUTY

CYCLE

Page 8 of 39

VBIAS

REGULATOR

CONTROL IC

RAMP GENERATOR

IFB

ERROR

AMP

IROSC

VDAC

VPEAK

VVALLEY

VDRP

AMP

VDRP

IIN

RMPOUT

VBIAS

VDAC

VOSNS-

EAOUT

RVFB

RDRP

Figure 2. PWM Block Diagram

architecture is shown in Figure 2. Feed-forward voltage mode control with

RPWMRMP

CPWMRMP

RPWMRMP

CPWMRMP

RPHS1

RPHS2

RPHS1

RPHS2

CSCOMP

RAMPIN+

RAMPIN-

PWMRMP

RAMPIN+

RAMPIN-

PWMRMP

SCOMP

ISHARE

DACIN

SCOMP

ISHARE

DACIN

BIASIN

EAIN

BIASIN

EAIN

ADJUST

ERROR

AMPLIFIER

ADJUST

ERROR

AMPLIFIER

SYSTEM

REFERENCE

VOLTAGE

SYSTEM

REFERENCE

VOLTAGE

10K

CLOCK

PULSE

GENERATOR

CLOCK

PULSE

GENERATOR

20mV

RAMP

DISCHARGE

CLAMP

RAMP

DISCHARGE

CLAMP

PWM

COMPARATOR

PWM

COMPARATOR

ENABLE

PHASE IC

PHS1

PWM

LATCH

DOMINANT

PWM

LATCH

DOMINANT

RESET

BODY

BRAKING

COMPARATOR

RESET

BODY

BRAKING

COMPARATOR

CURRENT

SENSE

AMPLIFIER

X34

CURRENT

SENSE

AMPLIFIER

X34

and R

0.91

PHS2

CSIN-

GATEH

GATEL

CSIN+

GATEH

GATEL

CSIN+

connected between the

CCS

RCS

IR3081A

1/31

/05

COUT

VIN

VOSNS+

VOUT

GND

VOSNS-

IR3081AMTR International Rectifier, IR3081AMTR Datasheet - Page 8

IR3081AMTR

Specifications of IR3081AMTR

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