ISL6334ACRZ Intersil, ISL6334ACRZ Datasheet - Page 22

ISL6334ACRZ

Manufacturer Part Number

ISL6334ACRZ

Description

IC CTRLR PWM 4PHASE BUCK 40-QFN

Manufacturer

Intersil

Datasheet

1.ISL6334ACRZ.pdf (30 pages)

Specifications of ISL6334ACRZ

Applications

Controller, Intel VR11.1

Voltage - Input

3 ~ 12 V

Number Of Outputs

Voltage - Output

0.5 ~ 1.6 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

40-VFQFN, 40-VFQFPN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Overcurrent Protection

ISL6334, ISL6334A has two levels of overcurrent protection.

Each phase is protected from a sustained overcurrent

condition by limiting its peak current, while the combined

phase currents are protected on an instantaneous basis.

In instantaneous protection mode, ISL6334, ISL6334A

utilizes the sensed average current I

overcurrent condition. See “Channel-Current Balance” on

page 15 for more details on how the average current is

measured. The average current is continually compared with

a constant 105µA reference current, as shown in Figure 10.

Once the average current exceeds the reference current, a

comparator triggers the converter to shutdown.

The current out of IMON pin is equal to the sensed average

current I

at IMON will be proportional to the sensed average current

and the resistor value. The ISL6334, ISL6334A continuously

monitors the voltage at IMON pin. If the voltage at IMON pin

is higher than 1.11V, a comparator triggers the overcurrent

shutdown. By increasing the resistor between IMON and

GND, the overcurrent protection threshold can be adjusted

to be less than 105µA. For example, the overcurrent

threshold for the sensed average current I

95µA by using a 11.8k

At the beginning of overcurrent shutdown, the controller

places all PWM signals in a high-impedance state within

20ns, commanding the Intersil MOSFET driver ICs to turn off

both upper and lower MOSFETs. The system remains in this

state a period of 4096 switching cycles. If the controller is still

enabled at the end of this wait period, it will attempt a

soft-start. If the fault remains, the trip-retry cycles will

continue indefinitely (as shown in Figure 11) until either

controller is disabled or the fault is cleared. Note that the

energy delivered during trip-retry cycling is much less than

during full-load operation, so there is no thermal hazard

during this kind of operation.

FIGURE 11. OVERCURRENT BEHAVIOR IN HICCUP MODE.

AVG

. With a resistor from IMON to GND, the voltage

OUTPUT CURRENT

OUTPUT VOLTAGE

= 500kHz

resistor from IMON to GND.

2ms/DIV

AVG

to detect an

AVG

can be set to

ISL6334, ISL6334A

For the individual channel overcurrent protection, ISL6334,

ISL6334A continuously compares the sensed current signal

of each channel with the 129µA reference current. If one

channel current exceeds the reference current, ISL6334,

ISL6334A will pull PWM signal of this channel to low for the

rest of the switching cycle. This PWM signal can be turned

on next cycle if the sensed channel current is less than the

129µA reference current. The peak current limit of individual

channel will not trigger the converter to shutdown.

Thermal Monitoring (VR_HOT/VR_FAN)

There are two thermal signals to indicate the temperature

status of the voltage regulator: VR_HOT and VR_FAN. Both

VR_FAN and VR_HOT pins are open-drain outputs, and

external pull-up resistors are required. Those signals are

valid only after the controller is enabled.

The VR_FAN signal indicates that the temperature of the

voltage regulator is high and more cooling airflow is needed.

The VR_HOT signal can be used to inform the system that

the temperature of the voltage regulator is too high and the

CPU should reduce its power consumption. The VR_HOT

signal may be tied to the CPU’s PROC_HOT signal.

The diagram of thermal monitoring function block is shown in

Figure 12. One NTC resistor should be placed close to the

power stage of the voltage regulator to sense the operational

temperature, and one pull-up resistor is needed to form the

voltage divider for the TM pin. As the temperature of the power

stage increases, the resistance of the NTC will reduce, resulting

in the reduced voltage at the TM pin. Figure 13 shows the TM

voltage over the temperature for a typical design with a

recommended 6.8kΩ NTC (P/N: NTHS0805N02N6801 from

Vishay) and 1kΩ resistor RTM1. We recommend using those

resistors for the accurate temperature compensation.

There are two comparators with hysteresis to compare the

TM pin voltage to the fixed thresholds for VR_FAN and

VR_HOT signals respectively. The VR_FAN signal is set to

high when the TM voltage is lower than 39.1% of VCC

voltage, and is pulled to GND when the TM voltage

increases to above 45.1% of VCC voltage. The VR_FAN

signal is set to high when the TM voltage goes below 33.3%

of VCC voltage, and is pulled to GND when the TM voltage

goes back to above 39.1% of VCC voltage. Figure 14 shows

the operation of those signals.

May 28, 2009

FN6482.1

ISL6334ACRZ Intersil, ISL6334ACRZ Datasheet - Page 22

ISL6334ACRZ

Specifications of ISL6334ACRZ

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