ml4895 Microsemi Corporation, ml4895 Datasheet - Page 7

ml4895

Manufacturer Part Number

ml4895

Description

Synchronous Buck Controller

Manufacturer

Microsemi Corporation

Datasheet

1.ML4895.pdf (10 pages)

Current page: 7 of 10
Download datasheet (214Kb)

For reliable operation, the inductor current rating should

exceed the value calculated by 10%-20%.

For future reference, determine the peak inductor current

at the minimum input voltage:

Now the sense resistor’s power rating can be determined.

The sense resistor must be able to carry the peak current

in the inductor during the OFF-time:

where:

The final parameter that should be specified is the

winding resistance of the inductor. In general, the

winding resistance should be as low as possible,

preferably in the low m

series with the load at all times, the copper losses can be

approximated by:

A good rule of thumb is to allow 2 m

resistance per H of inductance.

MOSFET SELECTION

The switching MOSFETs must be logic level types with

the ON resistance specified at V

RMS OFF

(

L PEAK MIN

(

)

SENSE

H G

a f

(

OUT

RMS OFF

))

IN MAX

OUT

(

0 06

SENSE MIN

)

SENSE MIN

SENSE

)

K J

SENSE

(

a f

SENSE(MAX

SENSE

range. Since the inductor is in

)

L MIN

a f

)

L MIN

(

L MIN

IN –

a f

SENSE(MAX

= 4.5V . In general, the

)

OUT

Figure 5. Buck Regulator Inductor Current

of winding

)

L PEAK MAX

OFF

(

OUT

(

))

(10)

L PEAK MAX

(8)

(9)

(

))

ON resistance - gate charge product provides a good

figure of merit by which to compare various MOSFETs,

the lower the figure the better. The internal gate drivers of

the ML4895 can drive over 100nC of total gate charge,

but 60nC to 70nC is a more practical limit to ensure good

switching times.

The drain-source breakdown voltage rating is determined

by the input voltage. For input voltages up to 10V, a drain

to source rating of 20V is acceptable. For input voltages

up to 15V, a drain to source rating of 30V is

recommended. For a more reliable design, look for

MOSFETs that are avalanche rated.

In high current applications, the MOSFET’s power

dissipation often becomes a major design factor. The I

losses generate the largest portion of heat in the MOSFET

package. Make sure that the MOSFETs are within their

rated junction temperature at the maximum ambient

temperature by calculating the temperature rise using the

thermal resistance specifications.

The worst case power dissipation for the P-MOS switch

occurs at the minimum input voltage and is determined

as follows:

where:

The worst case power dissipation for the N-MOS switch

occurs at the maximum input voltage and is determined

using:

RM S ON

(

P MOS

N MOS

)

LPK

SENSE

H G

OUT

IN MAX

SENSE

OUT

(

SENSE

RMS ON

RMS OFF

= I

(

)

SENSE

(

K J

)

+ 1/2 I

SE NSE( MAX

DS ON

(

)

SE NSE( MAX

)

L PEAK MAX

ML4895

(

))

(11)

(12)

L PEAK MAX

(

))

ml4895 Microsemi Corporation, ml4895 Datasheet - Page 7

ml4895

Related parts for ml4895