lx1675 Microsemi Corporation, lx1675 Datasheet - Page 13

lx1675

Manufacturer Part Number

lx1675

Description

Multiple Output Loadshare?? Pwm Production Data Sheet

Manufacturer

Microsemi Corporation

Datasheet

1.LX1675.pdf (19 pages)

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Rev. 1.2a, 2006-02-16

(Rb) offsetting the phase 2 error amplifier to create an imbalance

in the L1 and L2 currents. Although there are many ways to

calculate component values the approach taken here is to pick Ra,

Rb, Rin, Vout, and inductor ESR. A value for the remaining

resistor Rf can then be calculated.

Follow the previous examples to understand the basics of

LoadSHARE. The most common reason to imbalance the

currents in the two phases is because of limitations on the

available power from the input rails for each phase. Use the

available input power and total required output power to

determine the inductor currents for each phase.

is typically 1MΩ)

offset amplifier

actual current ratio by allowing some of the switching waveforms

to couple into the current summing path. It may be necessary to

make some adjustment in Rf after the final layout is evaluated.

Also the equation for Rf requires very accurate numbers for the

voltages to insure an accurate result.

The circuit in Figure 9 sums a current through a 1MΩ resistor

Due to the high impedances in this circuit layout can affect the

The first decision to be made is the current sharing ratio.

All references are to Figure 9

1) Calculate the voltages V1 and V2.

2) Select values for Ra and Rb (Ra is typically 62KΩ ; Rb

3) Calculate the offset voltage Vos at the output of the

4) Calculate the value for Rf

(select a value for Rin typically 5KΩ)

Vos

11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570

Current

−

Current

⎛

⎜

⎝

Rin

⎛

⎜

⎝

−

Vos

Vout

T H E O R Y O F O P E R A T I O N ( C O N T I N U E D )

−

ESR

⎞

⎟

⎠

−

ESR

Vout

(

⎞

⎟

⎠

Vout

Integrated Products Division

)

Microsemi

LoadSHARE ERROR SOURCES

between the two phases is to add a resistor in series with one of the

inductors. This will reduce the current in the inductor that has the

resistor and increase the current in the inductor of the opposite

phase. The example of Figure 7 can be used to determine the

current ratio by adding the value of the series resistor to the ESR

value of the inductor. The added resistance will lower the overall

efficiency

timing errors, R

half bridge drivers are removed from the current sharing accuracy.

The errors in the current sharing accuracy are derived from the

tolerance on the inductor’s ESR and the input offset voltage

specification of the error amplifier. The equivalent circuit is shown

next for an absolute worst case difference of phase currents

between the two inductors.

-P

A fourth but less desirable way to produce the ratio current

Multiple Output LoadSHARE™ PWM

With the high DC feedback gain of this second loop, all phase

Nominal ESR of 6mΩ. ESR ±5%

Max offset Error = 6mV

+5% ESR L1 = 6.3 mΩ

-5% ESR L2 = 5.7 mΩ

Phase 2 current is 2.32A greater than Phase 1.

Input bias current also contributes to imbalance.

HASE

Offset

Error

5mV

, L

Phase

OAD

DS(On)

RODUCTION

SHARE (S

current

Figure 10 – Error Amplitude

−

phase

mismatch, and voltage differences across the

Phase 2

OUT

ESR L2

ERIES

current

ESR

- 2

Phase 1

ESR L1

ATA

6.3

OUT

ESISTOR

1 8

HEET

5.7

1 8

−

ESRL

- 1

ETHOD

75.6

−

OUT

VOUT

)

14.

LX1675

Page 13

lx1675 Microsemi Corporation, lx1675 Datasheet - Page 13

lx1675

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