IR3895MTRPBF International Rectifier, IR3895MTRPBF Datasheet - Page 27

IR3895MTRPBF

Manufacturer Part Number

IR3895MTRPBF

Description

16A Highly Integrated Single-Input Voltage, Synchronous Buck Regulator in a PQFN package.

Manufacturer

International Rectifier

Datasheet

1.IR3895MTR1PBF.pdf (42 pages)

Specifications of IR3895MTRPBF

Part Status

Active and Preferred

Package

PQFN / 5 x 6

Circuit

Single Output

Iout (a)

Switch Freq (khz)

0 - 1500

Input Range (v)

1.0 - 16

Output Range (v)

0.5 - 12

Pbf

PbF Option Available

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Current page: 27 of 42
Download datasheet (3Mb)

When the control FET turns on in the next cycle, the

capacitor node connected to SW rises to the bus

voltage V

chosen, the voltage V

approximately unchanged and the voltage at the Boot

pin becomes:

A bootstrap capacitor of value 0.1uF is suitable for

most applications.

Input Capacitor Selection

The ripple current generated during the on time of the

control FET should be provided by the input capacitor.

The RMS value of this ripple is expressed by:

Where:

D is the Duty Cycle

Io is the output current.

For I

RMS

Figure 24: Bootstrap circuit to generate Vc voltage

RMS



is the RMS value of the input capacitor current.

=16A and D = 0.1, the I



. However, if the value of C1 is appropriately

Boot







FEBRUARY 01, 2012 | DATA SHEET| Rev 3.0

 



across C1 remains



)



RMS



= 4.8A.

Single‐Input Voltage, Synchronous Buck Regulator

(13)

(12)

(14)

- 27 -P

16A Highly Integrated SupIRBuck

Ceramic capacitors are recommended due to their peak

current capabilities. They also feature low ESR and ESL at

higher frequency which enables better efficiency.

For this application, it is advisable to have 5x10uF, 25V

ceramic capacitors, C3216X5R1E106M from TDK.

In addition to these, although not mandatory,

a 1x330uF, 25V SMD capacitor EEV‐FK1E331P from

Panasonic may also be used as a bulk capacitor and is

recommended if the input power supply is not located

close to the converter.

Inductor Selection

The inductor is selected based on output power,

operating frequency and efficiency requirements. A low

inductor value causes large ripple current, resulting in

the smaller size, faster response to a load transient but

poor efficiency and high output noise. Generally, the

selection of the inductor value can be reduced to the

desired maximum ripple current in the inductor (Δi). The

optimum point is usually found between 20% and 50%

ripple of the output current.

For the buck converter, the inductor value for the desired

operating ripple current can be determined using the

following relation:

Where:

If Δi ≈ 30%*I

be 0.38μH. Select L=0.4μH, 59PR9875N, from VITEC

which provides a compact, low profile inductor suitable

for this application.

Δi = Inductor Ripple Current

D = Duty Cycle

= Switching Frequency

= On time for Control FET

= Output Voltage

= Maximum input voltage







 

, then the output inductor is calculated to









;

 

 

i F



IR3895



PD‐97746

(15)

IR3895MTRPBF International Rectifier, IR3895MTRPBF Datasheet - Page 27

IR3895MTRPBF

Specifications of IR3895MTRPBF

Available stocks

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