ISL6740AIVZA-T Intersil, ISL6740AIVZA-T Datasheet - Page 13

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

Current page: 13 of 15
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by 2 corresponds to the duty cycle below which a short

circuit can exist.

where D

is the voltage applied to SCSET, and D

duty cycle. If the timing capacitor voltage fails to exceed the

threshold before an overcurrent pulse is detected, a short

circuit condition exists. A shutdown will occur if 8 short circuit

events occur within 32 oscillator cycles. Once shutdown

occurs, SS will discharge through a 15µA current source. A

new soft-start cycle will begin when SS reaches 0.27V.

Latching shutdown may be implemented in the same

manner as described in the overcurrent section. Short circuit

shutdown is enabled once the soft-start cycle is complete.

Connecting SCSET to GND inhibits short circuit shutdown.

If either R

divider, the effect of the SCSET divider must be included in

the timing calculations since the current sourced from R

and R

the timing capacitor. Typically the resistor between either

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%.

Fault Conditions

A fault condition occurs if any of the following conditions

occur:

• V

• UV falls below 1.00V

• the internal thermal protection triggers

• OTS faults

When any of the above faults are detected, OUTA and

OUTB outputs are disabled, Fault is asserted, and the soft-

start capacitor is quickly discharged. When the fault

condition clears and the soft-start voltage is below the reset

threshold, a soft-start cycle begins. Fault is high impedance

during the soft-start cycle unless an active fault is present.

A shutdown resulting from an overcurrent or short circuit

condition also causes assertion of Fault, but the soft-start

capacitor is not quickly discharged. The initiation of a new

soft-start cycle is delayed while the soft-start capacitor is

discharged at a 15µA rate. This reduces the repetition rate of

the hiccup behavior and keeps the average output current to

a minimum.

REF

or R

---------------------- - D

falls below 4.65V

SCSET

determine the charge and discharge currents for

is the maximum short circuit duty cycle, V

and GND is formed by two series resistors with

ar R

⋅

max

are used as the voltage source for the

max

is the maximum

(EQ. 12)

SCSET

ISL6740A

Thermal Protection

Two methods of over temperature protection are provided.

The first method is an on board temperature sensor that

protects the device should the junction temperature exceed

145°C. There is approximately 15°C of hysteresis.

The second method uses an internal comparator with a 2.5V

reference (V

comparator is accessible through the OTS pin. A thermistor

or thermal sensor located at or near the area of interest may

be connected to this input. There is a nominal 25µA switched

current source used to create hysteresis. The current source

is active only during an OT fault; otherwise, it is inactive and

does not affect the node voltage. The magnitude of the

hysteresis is a function of the external resistor divider

impedance. Either a positive temperature coefficient (PTC)

or a negative temperature coefficient (NTC) thermistor may

be used. If a NTC thermistor is desired, position R1 may be

substituted. If a PTC is desired, then position R2 may be

substituted. The threshold with increasing temperature is set

by making the fixed resistance equal in value to the

thermistor resistance at the desired trip temperature.

To determine the value of the hysteresis resistor, R3, select

the value of thermistor resistance that corresponds to the

desired reset temperature.

↑ = 2.5V and R1 = R2 (HOT)

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

•

REF

(

R1 R2

REF

FIGURE 11. OTS HYSTERESIS

–

/2). The non-inverting input to the

)

–

R1 R2

•

REF

Ω

25µA

REF

February 7, 2005

(EQ. 13)

FN9195.0

ISL6740AIVZA-T Intersil, ISL6740AIVZA-T Datasheet - Page 13

ISL6740AIVZA-T

Specifications of ISL6740AIVZA-T

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