IR3094MPBF International Rectifier, IR3094MPBF Datasheet - Page 18

IR3094MPBF

Manufacturer Part Number

IR3094MPBF

Description

IC 3 PHASE PWM CONTROL 48MLPQ

Manufacturer

International Rectifier

Datasheet

1.IR3094MTRPBF.pdf (29 pages)

Specifications of IR3094MPBF

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

540kHz

Duty Cycle

100%

Voltage - Supply

8 V ~ 16 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

0°C ~ 150°C

Package / Case

48-MLPQ

Frequency-max

540kHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

IR3094MPBF

Manufacturer:

IOR

Quantity:

331

Current page: 18 of 29
Download datasheet (803Kb)

The current sense amplifier gain of IR3094 decreases with temperature at the rate of 1400 PPM, which

compensates part of the inductor DCR increase. The minimum current sense amplifier gain at the maximum IC

temperature T

Output Voltage Droop

In some of the applications, output voltage droop is needed to minimize output voltage deviations during load

transients and reduce power dissipation of the load when it is drawing maximum current.

The voltage at the VDRP pin is an average of three phase Current Sense Amplifiers and represents the sum of the

VREF voltage and the average inductor current of all the phases. The VDRP pin is connected to the FB pin through

the R

power supply loop therefore the current through RDRP is equal to (VDRP-VREF) / R

increases, the VDRP voltage increases accordingly which results in an increase in R

output regulated voltage lower thus making the output voltage reduction proportional to an increase in load current.

The droop impedance or output impedance of the converter can thus be programmed by the resistor R

offset and slope of the converter output impedance are independent of the VREF voltage.

The VDRP pin voltage represents the average current of the converter plus the 0.84V reference voltage. The load

current can be retrieved by subtracting the VREF voltage from the VDRP voltage.

The converter voltage will be lowered by R

is determined by Equation (12)

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. 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.

OCSET

DRP

Page 18 of 29

can be calculated by the following equation (11).

resistor, see figure 6. The Error Amplifier forces the voltage on the FB pin to equal VREF through the

IC_MAX

is calculated from Equation (10).

MAX

MIN

OCSET

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

(

)

DRP

(

ROOM

LIMIT

(

)

1 [

3850

where R

1400

MAX

)

is the required output impedance of the converter. R

(

)

MIN

(

MIN

MAX

OCSET

ROOM

)]

(12)

(13)

(11)

DRP.

(9)

(10)

current, positioning the

IR3094PBF

As the load current

09/26/05

DRP.

The

DRP

IR3094MPBF International Rectifier, IR3094MPBF Datasheet - Page 18

IR3094MPBF

Specifications of IR3094MPBF

Available stocks

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