ISL6545ACRZ Intersil, ISL6545ACRZ Datasheet - Page 8

ISL6545ACRZ

Manufacturer Part Number

ISL6545ACRZ

Description

IC PWM BUCK BST VM 10DFN

Manufacturer

Intersil

Datasheet

1.ISL6545ACBZ-T.pdf (16 pages)

Specifications of ISL6545ACRZ

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

660kHz

Duty Cycle

100%

Voltage - Supply

4.5 V ~ 14.4 V

Buck

Yes

Boost

Yes

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

0°C ~ 70°C

Package / Case

10-DFN

Frequency-max

660kHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The overcurrent function will trip at a peak inductor current

where I

typical). The scale factor of 2 doubles the trip point of the

MOSFET voltage drop, compared to the setting on the

due to the MOSFET’s r

current and temperature). To avoid overcurrent tripping in

the normal operating load range, find the R

from Equation 1 with:

For an equation for the ripple current see “Output Inductor

Selection” on page 12.

The range of allowable voltages detected

(2*I

range for typical MOSFETs is typically in the 20mV to 120mV

ballpark (500Ω to 3000Ω). If the voltage drop across

OCP tripping and retry. It would also be very sensitive to

system noise and inrush current spikes, so it should be

avoided. The maximum usable setting is around 0.2V across

might disable the protection. Any voltage drop across

will disable the OCP. The preferred method to disable OCP

is simply to remove the resistor; that will be detected that as

no OCP.

Note that conditions during power-up or during a retry may

look different than normal operation. During power-up in a

12V system, the IC starts operation just above 4V; if the

supply ramp is slow, the soft-start ramp might be over well

before 12V is reached. So with lower gate drive voltages, the

effectively lowering the OCP trip. In addition, the ripple

current will likely be different at lower input voltage.

Another factor is the digital nature of the soft-start ramp. On

each discrete voltage step, there is in effect a small load

transient, and a current spike to charge the output

capacitors. The height of the current spike is not controlled; it

is affected by the step size of the output, the value of the

output capacitors, as well as the IC error amp compensation.

So it is possible to trip the overcurrent with in-rush current, in

addition to the normal load and ripple considerations.

DS(ON)

PEAK

1. The maximum r

2. The minimum I

3. Determine I

PEAK)

OCSET

temperature.

where ΔI is the output inductor ripple current.

OCSET

determined by Equation 1:

of the MOSFETs will be higher during power-up,

resistor. The OC trip point varies in a system mainly

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

is set too low, that can cause almost continuous

(0.4V across the MOSFET); values above that

that is greater than 0.3V (0.6V MOSFET trip point)

OCSET

is the internal OCSET current source (21.5µA

PEAK

DS ON

(

OCSET

DS(ON)

) is 0mV to 475mV; but the practical

for

)

OCSET

DS(ON)

PEAK

from the specification table.

at the highest junction

variations (over process,

OUT MAX

(

OCSET

)

(

--------- -

ΔI

)

resistor

ISL6545, ISL6545A

(EQ. 1)

Figure 5 shows the output response during a retry of an

output shorted to GND. At time t0, the output has been

turned off, due to sensing an overcurrent condition. There

are two internal soft-start delay cycles (t1 and t2) to allow the

MOSFETs to cool down, to keep the average power

dissipation in retry at an acceptable level. At time t2, the

output starts a normal soft-start cycle, and the output tries to

ramp. If the short is still applied, and the current reaches the

OCSET trip point any time during soft-start ramp period, the

output will shut off, and return to time t0 for another delay

cycle. The retry period is thus two dummy soft-start cycles

plus one variable one (which depends on how long it takes to

trip the sensor each time). Figure 5 shows an example

where the output gets about half-way up before shutting

down; therefore, the retry (or hiccup) time will be around

17ms. The minimum should be nominally 13.6ms and the

maximum 20.4ms. If the short condition is finally removed,

the output should ramp up normally on the next t2 cycle.

Starting up into a shorted load looks the same as a retry into

that same shorted load. In both cases, OCP is always

enabled during soft-start; once it trips, it will go into retry

(hiccup) mode. The retry cycle will always have two dummy

time-outs, plus whatever fraction of the real soft-start time

passes before the detection and shutoff; at that point, the

logic immediately starts a new two dummy cycle time-out.

Output Voltage Selection

The output voltage can be programmed to any level between

the 0.6V internal reference, up to the V

ISL6545x can run at near 100% duty cycle at zero load, but

the r

something less as the load current increases. In addition, the

OCP (if enabled) will also limit the maximum effective duty

cycle.

An external resistor divider is used to scale the output

voltage relative to the internal reference voltage, and feed it

back to the inverting input of the error amp. See “Typical

GND>

DS(ON)

FIGURE 5. OVERCURRENT RETRY OPERATION

6.8ms

of the upper MOSFET will effectively limit it to

INTERNAL SOFT-START RAMP

6.8ms

0ms to 6.8ms

(0.5V/DIV)

supply. The

OUT

6.8ms

March 3, 2011

FN6305.6

ISL6545ACRZ Intersil, ISL6545ACRZ Datasheet - Page 8

ISL6545ACRZ

Specifications of ISL6545ACRZ

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