IR3086M International Rectifier, IR3086M Datasheet - Page 15

IR3086M

Manufacturer Part Number

IR3086M

Description

IC PHASE CONTROLLER 20-MLPQ

Manufacturer

International Rectifier

Series

XPhase™r

Datasheet

1.IR3086M.pdf (34 pages)

Specifications of IR3086M

Applications

Processor

Current - Supply

10mA

Voltage - Supply

8.4 V ~ 14 V

Operating Temperature

0°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

20-MLPQ

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*IR3086M

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

IR3086M

Manufacturer:

AAI

Quantity:

313

Company:

Meier Automation Equipment Co., Limited

Part Number:

IR3086M

Manufacturer:

Quantity:

20 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

IR3086MTRPBF

Manufacturer:

Quantity:

20 000

Current page: 15 of 34
Download datasheet (3Mb)

of VDAC pin as shown in Figure15 of IR3081 Data Sheet.

Over Current Setting Resistor R

The inductor DC resistance is utilized to sense the inductor current. The copper wire of inductor has a constant

temperature coefficient of 3850 ppm/°C, and therefore the maximum inductor DCR can be calculated from Equation

(10), where R

The current sense amplifier gain of IR3086 decreases with temperature at the rate of 1470 ppm/°C, which

compensates part of the inductor DCR increase. The phase IC die temperature is only a couple of degrees Celsius

higher than the PCB temperature due to the low thermal impedance of MLPQ package. The minimum current sense

amplifier gain at the maximum phase IC temperature T

The total input offset voltage (V

sense resistors R

The over current limit is set by the external resistor R

over current limit. I

and is determined by the curve in Figure 14 of IR3081 Data Sheet. K

average current in each phase and is calculated from Equation (14).

No Load Output Voltage Setting Resistor R

A resistor between FB pin and the converter output is used to create output voltage offset V

difference between V

lowers the converter voltage by R

also affected by the adaptive voltage positioning resistor R

amplifiers. R

CS_OFST)

ROOM

is not only determined by I

is proportional to that of VDAC down-slope and is given by Equation (9), where I

Page 15 of 34

respectively.

of the amplifier itself and that created by the amplifier input bias currents flowing through the current

L_MAX

and R

CS+

OCSET,

and R

OCSET

DRP

and R

VDAC

DAC

MAX

TOFST

MIN

(

are determined by (15) and (16) respectively.

the bias current of OCSET pin, changes with switching frequency setting resistor R

voltage and output voltage at no load condition. Adaptive voltage positioning further

L_ROOM

CS-

[

−

SOURCE

5 .

VDAC

LIMIT

SINK

DOWN

)

, the current flowing out of FB pin as shown in Figure 14 of IR3081 Data Sheet, but

ROOM

∗

CS_TOFST

OCSET

2 .

ROOM

are the inductor DCR at maximum temperature T

∗

OFST

VDAC

∗

where R

∗

−

1 [

∗

MAX

∗

1 [

CSIN

) of current sense amplifier in phase ICs is the sum of input offset

−

3850

∗

1470

1 (

∗

and Adaptive Voltage Positioning Resistor R

is the required output impedance of the converter.

∗

) 2

)

−

OCSET

−

IC_MAX

−

∗

(

CSIN

(

TOFST

as defined in Equation (13), where I

−

MAX

is calculated from Equation (11).

∗

DRP

MAX

]

−

∗

−

and total input offset voltage of current sense

ROOM

MIN

)]

is the ratio of inductor peak current over

)]

OCSET

L_MAX

SOURCE

(10)

(11)

(12)

(13)

(14)

and room temperature

(7)

(8)

(9)

O_NLOFST,

is the source current

LIMIT

DRP

9/30

IR3086

is the required

/04

which is the

OSC

IR3086M International Rectifier, IR3086M Datasheet - Page 15

IR3086M

Specifications of IR3086M

Available stocks

Related parts for IR3086M