IR3621F International Rectifier, IR3621F Datasheet - Page 17

IR3621F

Manufacturer Part Number

IR3621F

Description

IC PWM DUAL SYNC PREBIAS 28TSSOP

Manufacturer

International Rectifier

Datasheet

1.IR3621MTR.pdf (29 pages)

Specifications of IR3621F

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

345kHz

Duty Cycle

86.5%

Voltage - Supply

5.5 V ~ 14.5 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

-40°C ~ 125°C

Package / Case

28-TSSOP

Frequency-max

345kHz

Package

28-Pin TSSOP

Circuit

Dual Sync PWM Controller or 2Phase Single Output

Vcc (min)

4.7

Vcc (max)

Vout (min)

0.8

Vout (max)

Vcc * 0.90

Switch Freq (khz)

programmable to 500kHz

Pbf

PbF Option Available

For Use With

IRDC3621 - BOARD EVAL DUAL SYNC BUCK CTRLR

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

IR3621F

Manufacturer:

Quantity:

20 000

Current page: 17 of 29
Download datasheet (387Kb)

Select a zero crossover frequency for control loop (F

1.25 times larger than zero crossover frequency for volt-

age loop (F

H(Fo) =

All design should be tested for stability to verify the cal-

culated values.

From (20), R

The power stage of current loop has a dominant pole (F

at frequency expressed by:

Where R

which includes the R

of inductor and shunt resistance (if it used).

Set the zero of compensator at 10 times the dominant

pole frequency F

be calculated as:

2π×L

= 10 x F

× R

×R

is the total resistance of the power stage

can be express as:

Figure18- Case Temperature (TSSOP package) versus Switching Frequency at

Room Temperature

Test Condition: Vin=VcL=VcH1=VcH2=12V, Capacitors used as loads for output

drivers.

×R

× 2π × F

, the compensator capacitor, C

ds(on)

1.25%xF

2π×Fo×L

of the FET switches, the DCR

DS(on)

200

× L

2πxR

Switching Frequency vs. Case Temp

×V

× V

300

OSC

400

Freq (kHz)

---(20)

---(21)

www.irf.com

can

)

500

Layout Consideration

The layout is very important when designing high fre-

quency switching converters. Layout will affect noise

pickup and can cause a good design to perform with

less than expected results.

Start by placing the power components. Make all the

connections in the top layer with wide, copper filled ar-

eas. The inductor, output capacitor and the MOSFET

should be as close to each other as possible. This helps

to reduce the EMI radiated by the power traces due to

the high switching. Place input capacitor near to the

drain of the high-side MOSFET.

The layout of driver section should be designed for a low

resistance (a wide, short trace) and low inductance (a

wide trace with ground return path directly beneath it),

this directly affects the driver's performance.

To reduce the ESR, replace the one input capacitor with

two parallel ones. The feedback part of the system should

be kept away from the inductor and other noise sources

and must be placed close to the IC. In multilayer PCBs,

use one layer as power ground plane and have a sepa-

rate control circuit ground (analog ground), to which all

signals are referenced. The goal is to localize the high

current paths to a separate loops that does not interfere

with the more sensitive analog control function. These

two grounds must be connected together on the PC board

layout at a single point.

600

700

100pF

1000pF

1800pF

3300pF

IR3621 & (PbF)

IR3621F International Rectifier, IR3621F Datasheet - Page 17

IR3621F

Specifications of IR3621F

Available stocks

Related parts for IR3621F