NCP1582DR2GEVB ON Semiconductor, NCP1582DR2GEVB Datasheet - Page 8

NCP1582DR2GEVB

Manufacturer Part Number

NCP1582DR2GEVB

Description

EVAL BOARD FOR NCP1582DR2G

Manufacturer

ON Semiconductor

Datasheets

1.NCP1582DR2G.pdf (16 pages)

2.NCP1582DR2GEVB.pdf (1 pages)

Specifications of NCP1582DR2GEVB

Design Resources

NCP1582 EVB BOM NCP1582 EVB Schematic NCP1582DR2GEVB Gerber Files

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Voltage - Output

0.8V

Voltage - Input

4.5 ~ 12 V

Regulator Topology

Buck

Frequency - Switching

350kHz

Board Type

Fully Populated

Utilized Ic / Part

NCP1582

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

NCP1582DR2G

Other names

NCP1582DR2GEVBOS

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Input Capacitor Selection

produced during the on time of the upper MOSFET, so it

must have a low ESR to minimize the losses. The RMS value

of this ripple is:

where D is the duty cycle, Iin

& I

maximum value with D = 0.5. Losses in the input capacitors

can be calculated with the following equation:

where P

ESR

capacitance. Due to large d

electrolytic or ceramics should be used. If a tantalum must

be used, it must be surge protected. Otherwise, capacitor

failure could occur.

Calculating Input Start−up Current

equation can be used.

where I

total output capacitance, V

and t

current during max load, then the input fuse should be rated

accordingly, if one is used.

Calculating Soft Start Time

be used.

Where C

capacitor,

DV is the comp voltage from zero to until it reaches

regulation.

The input capacitor has to sustain the ripple current

To calculate the input start up current, the following

If the inrush current is higher than the steady state input

To calculate the soft start time, the following equation can

comp

is the additional capacitor that forms the second pole.

is the soft start current

out

OUT

CIN

inrush

is the soft start interval.

CIN

is the effective series resistance of the input

is the load current. The equation reaches its

is the compensation as well as the soft start

is the power loose in the input capacitors &

is the input current during start−up, C

Iin RMS + I OUT

P CIN + ESR CIN

I inrush +

t SS +

( C P ) C C) * DV

C OUT

OUT

1.1 V

RMS

through the input capacitors,

is the desired output voltage,

I SS

t SS

is the input RMS current,

Iin RMS

V OUT

(1 * D) ,

APPLICATION SECTION

OUT

http://onsemi.com

is the

rising to when output voltage becomes valid.

reaches regulation; DV is the difference between the comp

voltage reaching regulation and 1.1 V.

Output Capacitor Selection

response of the power supply. In fact, during load transient,

for the first few microseconds it supplies the current to the

load. The controller immediately recognizes the load

transient and sets the duty cycle to maximum, but the current

slope is limited by the inductor value.

drops due to the current variation inside the capacitor and the

ESR. (neglecting the effect of the effective series inductance

(ESL)):

where V

effects of ESR and the ESR

resistance of the output capacitors.

current during the load transient without discharging it. The

voltage drop due to output capacitor discharge is given by

the following equation:

where V

due to the effects of discharge, L

value & V

are out of phase with each other, and the larger of these two

voltages will determine the maximum deviation of the

output voltage (neglecting the effect of the ESL).

Inductor Selection

the selection of an output inductor. From a mechanical

perspective, smaller inductor values generally correspond to

smaller physical size. Since the inductor is often one of the

largest components in the regulation system, a minimum

inductor

space−constrained applications.

perspective, the maximum current slew rate through the

output inductor for a buck regulator is given by:

regulator’s ability to slew current through the output

inductor in response to output load transients. Consequently,

output capacitors must supply the load current until the

inductor current reaches the output load current level. This

The above calculation includes the delay from comp

To calculate the time of output voltage rising to when it

The output capacitor is a basic component for the fast

During a load step transient the output voltage initial

A minimum capacitor value is required to sustain the

DV OUT−DISCHARGE +

It should be noted that ΔV

Both mechanical and electrical considerations influence

This equation implies that larger inductor values limit the

OUT−ESR

OUT−DISCHARGE

DV OUT−ESR + DI OUT

value

SlewRate LOUT +

is the input voltage.

is the voltage deviation of V

COUT

OUT−DISCHARGE

particularly

C OUT

V IN * V OUT

DI OUT

OUT

is the total effective series

L OUT

From

ESR COUT ,

is the output inductor

(V IN

L OUT

important

and V

an electrical

OUT

D * V OUT )

due to the

OUT−ESR

OUT

NCP1582DR2GEVB ON Semiconductor, NCP1582DR2GEVB Datasheet - Page 8

NCP1582DR2GEVB

Specifications of NCP1582DR2GEVB

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