ISL6740AIVZA-T Intersil, ISL6740AIVZA-T Datasheet - Page 12

ISL6740AIVZA-T

Manufacturer Part Number

ISL6740AIVZA-T

Description

IC CTRLR PWM DBL-ENDED 16-TSSOP

Manufacturer

Intersil

Datasheet

1.ISL6740AIVZA.pdf (15 pages)

Specifications of ISL6740AIVZA-T

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-TSSOP

Frequency-max

2MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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

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

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

Figure 7 shows the overcurrent behavior during SS.

Although an overcurrent condition exists, a shutdown is not

allowed prior to completion of the SS cycle. Only peak

current limit operates during the soft-start cycle. If the

overcurrent condition were to continue beyond the soft-start

cycle, a delayed overcurrent shutdown would occur as

shown in Figure 8.

Figure 8 portrays the typical delayed overcurrent shutdown

behavior. Once SS has discharged to 4.25V, the outputs are

disabled and remain that way until SS has discharged to

0.27V, and then a new SS cycle begins.

0.6 V OC

OUTA

OUTB

OUTA

OUTB

OUTA

OUTB

FIGURE 7. PULSE-BY-PULSE OC BEHAVIOR DURING SS

FIGURE 9. OC RECOVERY PRIOR TO SHUTDOWN

4.25 V

FIGURE 8. OC SHUTDOWN BEHAVIOR

4.25 V

0.27 V

4.5 V

50 µS

ISL6740A

If the overcurrent condition is removed prior to a shutdown, a

recovery can occur as indicated in Figure 9. When the load

decreases below the overcurrent threshold and an additional

50µs elapses without the SS dropping below 4.25V, the

overcurrent circuitry resets and the soft-start voltage

recovers.

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 nearly double the OFF time. 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

Short Circuit Operation

If the output current increases beyond the overcurrent

threshold, peak current limit will reduce the duty cycle. As

the load current continues to increase, the duty cycle

continues to decrease. A short circuit event is defined as the

simultaneous occurrence of current limit and a reduced duty

cycle.

The degree of reduced duty cycle that defines a short circuit

condition is user adjustable using the SCSET input. A

resistor divider between R

RCSET sets a threshold that is compared to the voltage on

the timing capacitor, C

FIGURE 10. MODIFYING OC SHUTDOWN TIMING

ISL6740A

. The resistor divider voltage divided

VREF

, R

, or V

REF

and GND to

February 7, 2005

FN9195.0

ISL6740AIVZA-T Intersil, ISL6740AIVZA-T Datasheet - Page 12

ISL6740AIVZA-T

Specifications of ISL6740AIVZA-T

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