SC1485ITSTRT Semtech, SC1485ITSTRT Datasheet - Page 13

SC1485ITSTRT

Manufacturer Part Number

SC1485ITSTRT

Description

IC PWM BUCK CTRLR DUAL 28TSSOP

Manufacturer

Semtech

Type

Step-Down (Buck)r

Datasheet

1.SC1485ITSTRT.pdf (27 pages)

Specifications of SC1485ITSTRT

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.5 ~ 25 V

Voltage - Input

1.8 ~ 25 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

28-TSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Power - Output

Frequency - Switching

Other names

SC1485ITSTR

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Current page: 13 of 27
Download datasheet (654Kb)

We will select a value of 12.5m

design, which would be achieved by using two 25m

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 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. Quite

often a small capacitor, C

the top feedback resistor, R

100pF. The value of C

where R

calculating the value of Z

Secondly calculating the value of C

this:

POWER MANAGEMENT

RIPPLE_VBAT(MAX)

RIPPLE_VBAT(MIN)

BAT

RIPPLE

ESR

TOP

2005 Semtech Corp.

TOP

, and worst case no smaller than 10mV

is large enough. C

(

MIN

, should be approximately 15mV

. 0

)

VBAT

BOT

015

BOT

(

MAX

MIN

TOP

is the bottom feedback resistor. Firstly

is less than 15mV

= 27mV

)

RIPPLE

VBAT

ESR

OUT

ESR

TOP

P-P

(

MIN

TOP

VBAT

TOP

RIPPLE

and V

)

RIPPLE

TOP

can be calculated as follows,

(

should not be greater than

MIN

, is required in parallel with

required:

TOP

VBAT

)

RIPPLE_VBAT(MIN)

VBAT

, in order to ensure that

P-P

NOT RECOMMENDED FOR NEW DESIGN

. 0

(

MIN

(

MAX

the above component

TOP

015

)

required to achieve

maximum for our

Ohms

P-P

= 22mV

at minimum

P-P

. If

For our example we will use R

We will select a value of C

value of V

For our example:

Next we need to calculate the minimum output

capacitance required to ensure that the output voltage

does not exceed the transient maximum limit, POSLIM

starting from the actual static maximum, V

a load release occurs:

For our example:

Where TOL

POSLIM

The minimum output capacitance is calculated as

follows:

This calculation assumes the absolute worst case

condition of a full-load to no load step transient occurring

when the inductor current is at its highest. The

capacitance required for smaller transient steps my be

calculated by substituting the desired current for the I

term.

POSLIM

TOP

FB_VBAT(MIN)

OUT_ST_POS

BOT

OUT

VBAT

= 6.67k

= 14.3k , therefore:

(

MIN

(

MIN

)

POS

= 1.224V

= 1.296V

= 14.8mV

RIPPLE

based upon the selected C

is the transient tolerance. For our example:

POSLIM

and C

OUT

VBAT

OUT

(

MIN

TOL

)

P-P

ERR

TOP

- good

RIPPLE

= 60pF

BOT

TOP

VBAT

TOp

OUT

= 56pF. Calculating the

(

MAX

TOP

)

POS

BOT

= 20.0k

TOP

SC1485

www.semtech.com

VBAT

OUT_ST_POS

(

MIN

)

TOP

, when

and

OUT

SC1485ITSTRT Semtech, SC1485ITSTRT Datasheet - Page 13

SC1485ITSTRT

Specifications of SC1485ITSTRT

Available stocks

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