ISL6741IB Intersil, ISL6741IB Datasheet - Page 13

ISL6741IB

Manufacturer Part Number

ISL6741IB

Description

IC CTRLR PWM DBL-ENDED 16-SOIC

Manufacturer

Intersil

Datasheet

1.ISL6741IVZ.pdf (29 pages)

Specifications of ISL6741IB

Pwm Type

Current 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

Contains lead / RoHS non-compliant

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The voltage hysteresis created by the switched current

source and the external impedance is generally small due to

the large resistor divider ratio required to scale the input

voltage down to the UV threshold level. A small capacitor

placed between the UV input and ground may be required to

filter noise out.

As V

The hysteresis voltage, ΔV, is:

Setting R3 equal to zero results in the minimum hysteresis,

and yields:

As V

Over Current Operation

ISL6740 - Overcurrent delayed shutdown is enabled once

the soft-start cycle is complete. If an overcurrent condition is

detected, the soft-start charging current source is disabled

and the soft-start capacitor is allowed to discharge through a

15μA source. At the same time a 50μs re-triggerable one-

shot timer is activated. It remains active for 50μs after the

overcurrent condition ceases. If the soft-start capacitor

discharges by more then 0.25V to 4.25V, the output is

disabled and the Fault signal asserted. This state continues

until the soft-start voltage reaches 270mV, at which time a

new soft-start cycle is initiated. If the overcurrent condition

stops at least 50μs prior to the soft-start voltage reaching

4.25V, the soft-start charging currents revert to normal

operation and the soft-start voltage is allowed to recover.

ΔV

IN DOWN

IN UP

(

decreases to a UV condition, the threshold level is:

increases from a UV condition, the threshold level is:

)

–

)

•

IN DOWN

〈

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

(

FIGURE 5. UV HYSTERESIS

)

•

⎛

⎝

ΔV

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

10μA

⎞

⎠

1.00V

〉

ISL6740, 1SL6741

(EQ. 10)

(EQ. 9)

(EQ. 7)

(EQ. 8)

The duration of the OC shutdown period can be increased

by adding a resistor between VREF and SS. The value of

the resistor must be large enough so that the minimum

specified SS discharge current is not exceeded. Using a

422kΩ resistor, for example, will result in a small current

being injected into SS, effectively reducing the discharge

current. This will increase the OFF time by about 60%,

nominally. The external pull-up resistor will also decrease

the SS duration, so its effect should be considered when

selecting the value of the SS capacitor.

Latching OC shutdown is also possible by using a lower

valued resistor between VREF and SS. If the SS node is not

allowed to discharge below the SS reset threshold, the IC

will not recover from an overcurrent fault. The value of the

resistor must be low enough so that the maximum specified

discharge current is not sufficient to pull SS below 0.33V. A

200kΩ resistor, for example, prevents SS from discharging

below ~0.4V. Again, the external pull-up resistor will

decrease the SS duration, so its effect should be considered

when selecting the value of the SS capacitor.

ISL6741 - Overcurrent results in pulse-by-pulse duty cycle

reduction as occurs in any peak current mode controller. This

results in a well controlled decrease in output voltage with

increasing current beyond the overcurrent threshold. An

overcurrent condition in the ISL6741 will not cause a

shutdown.

Short Circuit Operation

A short circuit condition is defined as the simultaneous

occurrence of current limit and a reduced duty cycle. The

degree of reduced duty cycle is user adjustable using the

SCSET input. A resistor divider between either R

and GND to RCSET sets a threshold that is compared to the

voltage on the timing capacitor, C

percentage corresponds to the fraction of the maximum duty

cycle below which a short circuit may exist. If the timing

capacitor voltage fails to exceed the threshold before an

overcurrent pulse is detected, a short circuit condition exists.

A shutdown and soft-start cycle will begin if 8 short circuit

events occur within 32 oscillator cycles. Connecting SCSET

to GND disables this feature.

Since the current sourced from both R

the charge and discharge currents for the timing capacitor,

the effect of the SCSET divider must be included in the

timing calculations. Typically the resistor between R

GND is formed by two series resistors with the center node

connected to SCSET.

Alternatively, SCSET may be set using a voltage between

0V and 2V. This voltage divided by 2 determines the

percentage of the maximum duty cycle that corresponds to a

short circuit when current limit is active. For example, if the

maximum duty cycle is 95% and 1V is applied to SCSET,

then the short circuit duty cycle is 50% of 95% or 47.5%.

. The resistor divider

and R

determine

July 13, 2007

or R

FN9111.4

and

ISL6741IB Intersil, ISL6741IB Datasheet - Page 13

ISL6741IB

Specifications of ISL6741IB

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