NCP3126ADR2G ON Semiconductor, NCP3126ADR2G Datasheet - Page 9

DC/DC Switching Converters 3A PWM Switching Buck Regulator

NCP3126ADR2G

Manufacturer Part Number

NCP3126ADR2G

Description

DC/DC Switching Converters 3A PWM Switching Buck Regulator

Manufacturer

ON Semiconductor

Datasheet

1.NCP3126ADR2G.pdf (23 pages)

Specifications of NCP3126ADR2G

Mounting Style

SMD/SMT

Duty Cycle (max)

80 %

Efficiency

93 %

Input / Supply Voltage (max)

13.2 V

Input / Supply Voltage (min)

4.5 V

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Operating Temperature Range

- 40 C to + 125 C

Output Current

3 A

Output Voltage

Adjustable

Supply Current

10 mA

Switching Frequency

350 KHz

Package / Case

SOIC-8

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Manufacturer

Quantity

Price

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Part Number:

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Manufacturer:

Quantity:

2 500

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Current Limit Protection

FET will conduct large currents. The regulator will latch off,

protecting the load and MOSFETs from excessive heat and

damage. Low−side R

of each LS−FET turn−on duration to sense the current.

While the low side MOSFET is on, the V

compared to the user set internally generated OCP trip

voltage. If the V

an overcurrent condition occurs and a counter counts

consecutive current trips. If the counter reaches 7, the PWM

logic and both HS−FET and LS−FET are turned off. The

regulator has to go through a Power On Reset (POR) cycle

to reset the OCP fault as shown in Figure 20.

Design Procedure

important to collect as much information as possible about

the behavior of the input and output before starting the

design.

tool available online under the design tools section of the

NCP3126 product page. The tool allows you to capture your

design point and optimize the performance of your regulator

based on your design criteria.

are LC filtered to produce a lower DC output voltage V

The output voltage can be changed by modifying the on time

relative to the switching period T or switching frequency.

The ratio of high side switch on time to the switching period

is called duty ratio D. Duty ratio can also be calculated using

Table 4. DESIGN PARAMETERS

Input voltage

Output voltage

Input ripple voltage

Output ripple voltage

Output current rating

Operating frequency

In case of a short circuit or overload, the low−side (LS)

When starting the design of a buck regulator, it is

ON Semiconductor has a Microsoft Excel® based design

The buck converter produces input voltage V

Design Parameter

voltage is lower than OCP trip voltage,

DS(on)

OUT

INRIPPLE

OUTRIPPLE

sense is implemented at the end

)

10.8 V to 13.2 V

Example Value

350 kHz

300 mV

60 mV

3.3 V

3 A

APPLICATION SECTION

pulses that

voltage is

http://onsemi.com

OUT

MOSFET

the High Side Switch Voltage Drop V

Inductor Selection

rule of thumb for the design where the percentage of ripple

current in the inductor should be between 10% and 40%.

When using ceramic output capacitors, the ripple current can

be greater because the ESR of the output capacitor is smaller,

thus a user might select a higher ripple current. However,

Low Side

D +

OFF

PHASE

VOCTH

OUT

HSD

LSD

OUT

Current

When selecting an inductor, the designer can employ a

Drive

+ 1

, V

0 V

* V

OUT

and (1 * D) +

, the Low Side Switch Voltage Drop V

−

HSD

Figure 20. Current Limit Trip

) V

= Duty cycle

= Switching frequency

= Switching period

= High side switch off time

= High side switch on time

= High side switch voltage drop

= Input voltage

= Low side switch voltage drop

= Output voltage

LSD

VOCTH

LSD

[ D +

OFF

OUT

HSD

³ 27.5% +

LSD

Current

Flow

(eq. 2)

(eq. 3)

(eq. 4)

3.3 V

12 V

, and

NCP3126ADR2G ON Semiconductor, NCP3126ADR2G Datasheet - Page 9

NCP3126ADR2G

Specifications of NCP3126ADR2G

Available stocks

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