ISL6740IBZ Intersil, ISL6740IBZ Datasheet - Page 19

ISL6740IBZ

Manufacturer Part Number

ISL6740IBZ

Description

IC CTRLR PWM DBL-ENDED 16-SOIC

Manufacturer

Intersil

Datasheet

1.ISL6741IVZ.pdf (29 pages)

Specifications of ISL6740IBZ

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

2MHz

Duty Cycle

100%

Voltage - Supply

9 V ~ 16 V

Buck

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

-40°C ~ 105°C

Package / Case

16-SOIC (3.9mm Width)

Frequency-max

2MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6740IBZ

Manufacturer:

Intersil

Quantity:

122

Current page: 19 of 29
Download datasheet (636Kb)

appropriate for this frequency. A value of 220pF was

selected.

To obtain the proper value for R

Since there is a 10ns propagation delay in the oscillator

circuit, it must be included in the calculation. The value of

A similar procedure is used to determine the value of R

Equation 2. The value of R

combination of 17.4kΩ and 1.27kΩ. See section “Overcurrent

Component Selection” on page 19 for further explanation.

Output Filter Design

The output filter inductor and capacitor selection is simple

and straightforward. Under steady state operating conditions

the voltage across the inductor is very small due to the large

duty cycle. Voltage is applied across the inductor only during

the switch transition time, about 45ns in this application.

Ignoring the voltage drop across the SR FETs, the voltage

across the inductor during the ON time with V

If we allow a current ramp, ΔI, of 5% of the rated output

current, the minimum inductance required is

An inductor value of 1.4μH, rated for 18A was selected.

With a maximum input voltage of 53V, the maximum output

voltage is about 13V. The closest higher voltage rated

capacitor is 16V. Under steady state operating conditions the

ripple current in the capacitor is small, so it would seem

appropriate to have a low ripple current rated capacitor.

However, a high rated ripple current capacitor was selected

based on the nature of the intended load, multiple buck

regulators. To minimize the output impedance of the filter, a

Sanyo OSCON 16SH150M capacitor in parallel with a 22μF

ceramic capacitor were selected.

Overcurrent Component Selection

There are two circuit areas to consider when selecting the

components for overcurrent protection, current limit and

short circuit shutdown. The current limit threshold is fixed at

0.6V while the short circuit threshold is set to a fraction of the

duty cycle the designer wishes to define as a short circuit.

The current level that corresponds to the overcurrent

threshold must be chosen to allow for the dynamic behavior

where

≥

OUT

------------------------ -

is the inductor voltage

selected is 8.06kΩ.

is the voltage across the secondary winding

•

ΔI

is the output voltage

–

OUT

0.25 2.08

---------------------------- -

0.5

----------------------------------------------- -

•

1.04

selected is the series

(

1 D

–

, Equation 3 is used.

)

≈

μH

250

= 48V is

(EQ. 22)

ISL6740, 1SL6741

(EQ. 23)

using

of an open loop converter. In particular, the low inductor

ripple current under steady state operation increases

significantly as the duty cycle decreases.

Figures 8 and 9 show the behavior of the inductor ripple

under steady state and overcurrent conditions. In this

example, the peak current limit is set at 11A. The peak

current limit causes the duty cycle to decrease resulting in a

reduction of the average current through the inductor. The

implication is that the converter can not supply the same

output current in current limit that it can supply under steady

state conditions. The peak current limit setpoint must take

this behavior into consideration. A 3.32Ω current sense

resistor was selected for the rectified secondary of current

transformer T2, corresponding to a peak current limit

setpoint of 16.5A.

The short circuit protection involves setting a voltage

between 0 and 2V on the SCSET pin. The applied voltage

divided by 2 is the percent of maximum duty cycle that

corresponds to a short circuit when the peak current limit is

active. A divider from RTC to ground provides an easy

0.9950

FIGURE 9. SECONDARY WINDING VOLTAGE AND

FIGURE 8. STEADY STATE SECONDARY WINDING

0.986

0.988

0.9960

INDUCTOR CURRENT DURING CURRENT LIMIT

OPERATION

VOLTAGE AND INDUCTOR CURRENT

0.990

0.9970

0.992

TIME (ms)

0.9980

0.994

0.996

0.9990

0.998

V (L1:1)

I (L1)

V (L1:1)

I (L1)

July 13, 2007

1.000

FN9111.4

ISL6740IBZ Intersil, ISL6740IBZ Datasheet - Page 19

ISL6740IBZ

Specifications of ISL6740IBZ

Available stocks

Related parts for ISL6740IBZ