IRU3037CF International Rectifier, IRU3037CF Datasheet - Page 7

IRU3037CF

Manufacturer Part Number

IRU3037CF

Description

IC CNTRLR PWM SYNC 200KHZ 8TSSOP

Manufacturer

International Rectifier

Datasheet

1.IRU3037CSTRPBF.pdf (21 pages)

Specifications of IRU3037CF

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

220kHz

Duty Cycle

95%

Voltage - Supply

5 V ~ 12 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

0°C ~ 70°C

Package / Case

8-TSSOP

Frequency-max

220kHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*IRU3037CF

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Current page: 7 of 21
Download datasheet (167Kb)

For this design, IRF7301 is a good choice. The device

provides low on-resistance in a compact SOIC 8-Pin

package.

The IRF7301 has the following data:

The total conduction losses will be:

The switching loss is more difficult to calculate, even

though the switching transition is well understood. The

reason is the effect of the parasitic components and

switching times during the switching procedures such

as turn-on / turnoff delays and rise and fall times. With a

linear approximation, the total switching loss can be ex-

pressed as:

The switching time waveform is shown in figure 4.

From IRF7301 data sheet we obtain:

ϑ = 1.5 according to the IRF7301 data sheet for

150)C junction temperature

Where:

T = Switching Period

LOAD

DSS

CON(TOTAL)

DS(OFF)

DS(ON)

= Rise Time

= Fall Time

= 51ns

90%

10%

= 42ns

= 5.2A

= Load Current

Figure 4 - Switching time waveforms.

= 20V

= 0.05Ω

= Drain to Source Voltage at off time

(ON)

DS(OFF)

= I

= 1.2W

CON

LOAD

(Upper Switch)+P

× R

DS(ON)

(OFF)

× ϑ

LOAD

CON

(Lower Switch)

---(6)

www.irf.com

These values are taken under a certain condition test.

For more detail please refer to the IRF7301 data sheet.

By using equation (6), we can calculate the switching

losses.

Feedback Compensation

The IRU3037 is a voltage mode controller; the control

loop is a single voltage feedback path including error

amplifier and error comparator. To achieve fast transient

response and accurate output regulation, a compensa-

tion circuit is necessary. The goal of the compensation

network is to provide a closed loop transfer function with

the highest 0dB crossing frequency and adequate phase

margin (greater than 45)).

The output LC filter introduces a double pole, –40dB/

decade gain slope above its corner resonant frequency,

and a total phase lag of 180) (see Figure 5). The Reso-

nant frequency of the LC filter expressed as follows:

Figure 5 shows gain and phase of the LC filter. Since we

already have 180) phase shift just from the output filter,

the system risks being unstable.

The IRU3037’s error amplifier is a differential-input

transconductance amplifier. The output is available for

DC gain control or AC phase compensation.

The E/A can be compensated with or without the use of

local feedback. When operated without local feedback

the transconductance properties of the E/A become evi-

dent and can be used to cancel one of the output filter

poles. This will be accomplished with a series RC circuit

from Comp pin to ground as shown in Figure 6.

0dB

IRU3037/IRU3037A & (PbF)

Gain

= 0.186W

Figure 5 - Gain and phase of LC filter.

2π×

Frequency

-40dB/decade

×C

-180

Phase

)

---(7)

Frequency

IRU3037CF International Rectifier, IRU3037CF Datasheet - Page 7

IRU3037CF

Specifications of IRU3037CF

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