IR3080MTRPBF International Rectifier, IR3080MTRPBF Datasheet - Page 9

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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PWM Operation

The PWM comparator is located in the Phase IC. Upon receiving a clock pulse, the PWM latch is set; the PWMRMP

voltage begins to increase; the low side driver is turned off, and the high side driver is then turned on after the non-

overlap time. When the PWMRMP voltage exceeds the Error Amplifier’s output voltage, the PWM latch is reset.

This turns off the high side driver and then turns on the low side driver after the non-overlap time; it activates the

Ramp Discharge Clamp, which quickly discharges the PWMRMP capacitor to the VDAC voltage of the Control IC

until the next clock pulse.

The PWM latch is reset dominant allowing all phases to go to zero duty cycle within a few tens of nanoseconds in

response to a load step decrease. Phases can overlap and go to 100% duty cycle in response to a load step

increase with turn-on gated by the clock pulses. An Error Amplifier output voltage greater than the common mode

input range of the PWM comparator results in 100% duty cycle regardless of the voltage of the PWM ramp. This

arrangement guarantees the Error Amplifier is always in control and can demand 0 to 100% duty cycle as required.

It also favors response to a load step decrease which is appropriate given the low output to input voltage ratio of

most systems. The inductor current will increase much more rapidly than decrease in response to load transients.

This control method is designed to provide “single cycle transient response” where the inductor current changes in

response to load transients within a single switching cycle maximizing the effectiveness of the power train and

minimizing the output capacitor requirements. An additional advantage of the architecture is that differences in

ground or input voltage at the phases have no effect on operation since the PWM ramps are referenced to VDAC.

Figure 4 depicts PWM operating waveforms under various conditions.

Page 9

VPHASE4&5 (4.5V)

VPHASE3&6 (3.5V)

VPHASE2&7 (2.5V)

VPHASE1&8 (1.5V)

VVALLEY (1.00V)

VPEAK (5.0V)

CLK1

CLK2

CLK3

CLK4

CLK5

CLK6

CLK7

CLK8

Figure 3. 8 Phase Oscillator Waveforms

50% RAMP

DUTY CYCLE

SLOPE = 80mV / % DC

SLOPE = 1.6mV / ns @ 200kHz

SLOPE = 8.0mV / ns @ 1MHz

IR3080PbF

IR3080MTRPBF International Rectifier, IR3080MTRPBF Datasheet - Page 9

IR3080MTRPBF

Specifications of IR3080MTRPBF

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