SC486IMLTRT Semtech, SC486IMLTRT Datasheet - Page 16

SC486IMLTRT

Manufacturer Part Number

SC486IMLTRT

Description

IC, MEMORY POWER SUPPLY, MLPQ-24

Manufacturer

Semtech

Datasheet

1.SC486IMLTRT.pdf (26 pages)

Specifications of SC486IMLTRT

Supply Voltage Range

4.5V To 5.5V

Driver Case Style

MLPQ

No. Of Pins

Operating Temperature Range

-40Â°C To +125Â°C

Peak Reflow Compatible (260 C)

Yes

Output Current

Termination Type

SMD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Design Procedure (Cont.)

For our DDR2 VDDQ example:

From this we can calculate the minimum inductor

current rating for normal operation:

For our DDR2 VDDQ example:

Next we will calculate the maximum output capacitor

equivalent series resistance (ESR). This is determined by

calculating the remaining static and transient tolerance

allowances. Then the maximum ESR is the smaller of the

calculated static ESR (R

Where ERR

the DC error. The DC error will be 1% plus the tolerance

of the feedback resistors, thus 2% total for 1%

feedback resistors.

For our DDR2 VDDQ example:

ERR

Where ERR

this calculation assumes that the worst case load

transient is full load. For half of full load, divide the I

term by 2.

For our DDR2 VDDQ example:

ERR

POWER MANAGEMENT

RIPPLE_VBAT(MIN)

INDUCTOR(MIN)

INDUCTOR

ESR_ST(MAX)

ESR

2006 Semtech Corp.

ESR_TR(MAX)

= 72mV and ERR

= 100mV and ERR

(

MAX

MIN

)

= 22m

)

= 11.6A

)

= 2.62A

is the transient output tolerance. Note that

is the static output tolerance and ERR

OUT

ERR

OUT

(

ERR

MAX

RIPPLE

(MIN)

)

P-P

RIPPLE

and I

RIPPLE

ERR

VBAT

ERR

ESR_ST(MAX)

= 36mV, therefore

(

VBAT

MAX

= 36mV, therefore

RIPPLE_VBAT(MAX)

VBAT

)

(

MAX

NOT RECOMMENDED FOR NEW DESIGN

(

MAX

)

) and transient ESR

Ohms

)

Ohms

(

MIN

= 3.28A

)

P-P

OUT

We will select a value of 7.5m

design, which would be achieved by using two 15m

output capacitors in parallel.

Note that for constant-on converters there is a minimum

ESR requirement for stability which can be calculated as

follows:

This criteria should be checked once the output

capacitance has been determined.

Now that we know the output ESR we can calculate the

output ripple voltage:

and

For our DDR2 VDDQ example:

Note that in order for the device to regulate in a

controlled manner, the ripple content at the feedback

pin, V

values should be revisited in order to improve this. A small

capacitor, C

feedback resistor, R

enough. C

of C

bottom feedback resistor. Firstly calculating the value of

RIPPLE_VBAT(MAX)

RIPPLE_VBAT(MIN)

TOP

ESR_TR(MAX)

BAT

RIPPLE

TOP

ESR

, and worst case no smaller than 10mV

TOP

required:

(

MIN

, should be approximately 15mV

can be calculated as follows, where R

)

VBAT

. 0

015

TOP

BOT

= 5.5m

(

MAX

MIN

TOP

should not be greater than 100pF. The value

is less than 15mV

= 25mV

)

, may be required in parallel with the top

)

RIPPLE

ESR

OUT

ESR

TOP

for a full 10A load transient

P-P

, in order to ensure that V

VBAT

RIPPLE

and V

RIPPLE

(

MIN

VBAT

)

RIPPLE_VBAT(MIN)

VBAT

P-P

. 0

(

MIN

(

MAX

the above component

015

)

maximum for our

Ohms

P-P

www.semtech.com

= 20mV

SC486

at minimum

BOT

is large

P-P

is the

P-P

. If

SC486IMLTRT Semtech, SC486IMLTRT Datasheet - Page 16

SC486IMLTRT

Specifications of SC486IMLTRT

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