IR22771SPBF International Rectifier, IR22771SPBF Datasheet - Page 15

IR22771SPBF

Manufacturer Part Number

IR22771SPBF

Description

IC CURRENT SENSE 16SOIC

Manufacturer

International Rectifier

Datasheet

1.IR21771STRPBF.pdf (16 pages)

Specifications of IR22771SPBF

Function

Current Sense

Voltage - Input

8 ~ 20 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (0.300", 7.5mm Width)

Family Hvic

General Purpose HVICs

Channels

Topology

Current Sense

Application

General Purpose / Motor Control

Voffset

1200

Over Current Protection

Yes

Package

16 Lead

Part Status

Active & Preferred

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Accuracy

Sensing Method

Current page: 15 of 16
Download datasheet (442Kb)

c) Bootstrap Capacitor

For high T

tank capacitor, its ESR must be considered. This

parasitic resistance develops a voltage divider with

charge of bootstrap capacitor. The voltage step and

the related speed (dV

general rule, ESR should meet the following

constraint:

Parallel combination of small ceramic and large

electrolytic

compromise, the first acting as fast charge thank for

the gate charge only and limiting the dV

reducing the equivalent resistance while the second

keeps the V

d) Bootstrap Diode

The diode must have a BV> 600V (or 1200V

depending on application) and a fast recovery time

back from the bootstrap capacitor to V

3.1 Distance from H to L voltage

The IR22771S/IR21771S package (wide body)

maximizes the distance between floating (from DC-

to DC+) and low voltage pins (V

recommended to place components tied to floating

voltage in the respective high voltage portions of the

device (V

3.2 Ground plane

Ground plane must NOT be placed under or nearby

the high voltage floating side to minimize noise

coupling.

boot

< 100 ns) to minimize the amount of charge fed

Vin+

Vin-

generating a voltage step on V

PCB LAYOUT TIPS

, V

HON

Figure 17: antenna loops

capacitors

ESR

) side.

voltage drop inside the desired ∆V

designs where is used an electrolytic

ESR

BOOT

/dt) should be limited. As a

⋅

normally

Antenna

Loop

≤

). It’s strongly

supply.

at the first

the

/dt by

best

3.3 Antenna loops and inputs

connection

Current loops behave like antennas able to receive

EM noise. In order to reduce EM coupling, loops

must be reduced as much as possible. Figure 17

shows the high side shunt loops.

Moreover it is strongly suggested to use Kelvin

connections for V

connect V

explained in Fig. 18.

3.4 Supply capacitors

The supply capacitors must be placed as close as

possible to the device pins (V

ground tied supply, V

supply) in order to minimize parasitic traces

inductance/resistance.

Figure 18: Recommended shunt connection

IR22771S/IR21771S(PbF)

to V

Vin+

Vin-

in-

in+

and V

close to the shunt resistor as

www.irf.com

in-

and V

to shunt paths and star-

and V

for the floating

for the

IR22771SPBF International Rectifier, IR22771SPBF Datasheet - Page 15

IR22771SPBF

Specifications of IR22771SPBF

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