ISL6323EVAL1Z Intersil, ISL6323EVAL1Z Datasheet - Page 23

ISL6323EVAL1Z

Manufacturer Part Number

ISL6323EVAL1Z

Description

EVAL BOARD 1 FOR ISL6323

Manufacturer

Intersil

Datasheet

1.ISL6323CRZ.pdf (35 pages)

Specifications of ISL6323EVAL1Z

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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on page 13 and “Channel-Current Balance” on page 14 for

more detail on how the average current is measured. Once

the average current exceeds 100µA, a comparator triggers

the converter to begin overcurrent protection procedures.

The Core regulator and the North Bridge regulator have the

same type of overcurrent protection.

The overcurrent trip threshold is dictated by the DCR of the

inductors, the number of active channels, the DC gain of the

inductor RC filter and the R

threshold is shown in Equation 20.

Where:

Equation 20 is valid for both the Core regulator and the

North Bridge regulator. This equation includes the DC load

current as well as the total ripple current contributed by all

the phases. For the North Bridge regulator, N is 1.

During soft-start, the overcurrent trip point is boosted by a

factor of 1.4. Instead of comparing the average measured

current to 100µA, the average current is compared to 140µA.

Immediately after soft-start is over, the comparison level

changes to 100µA. This is done to allow for start-up into an

active load while still supplying output capacitor in-rush

current.

CORE REGULATOR OVERCURRENT

At the beginning of overcurrent shutdown, the controller sets

all of the UGATE and LGATE signals low, puts PWM3 and

PWM4 (if active) in a high-impedance state, and forces

VDDPWRGD low. This turns off all of the upper and lower

MOSFETs. The system remains in this state for fixed period of

12ms. If the controller is still enabled at the end of this wait

period, it will attempt a soft-start, as shown in Figure 16. If the

fault remains, the trip-retry cycles will continue until either the

fault is cleared or for a total of seven attempts. If the fault is

not cleared on the final attempt, the controller disables

UGATE and LGATE signals for both Core and North Bridge

and latches off requiring a POR of VCC to reset the ISL6323.

It is important to note that during soft start, the overcurrent

trip point is increased by a factor of 1.4. If the fault draws

enough current to trip overcurrent during normal run mode, it

may not draw enough current during the soft-start ramp

period to trip overcurrent while the output is ramping up. If a

fault of this type is affecting the output, then the regulator will

complete soft-start and the trip-retry counter will be reset to

zero. Once the regulator has completed soft-start, the

overcurrent trip point will return to it’s nominal setting and an

OCP

= Switching Frequency

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

100μA

⋅

See “Continuous Current Sampling” on

page 13.

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

DCR

⋅

--- -

⋅

⎛

⎝

--------- - R

400

SET

⋅

resistor. The overcurrent trip

SET

⎞

⎠

–

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

2 L f

–

⋅

OUT

(EQ. 20)

⋅

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

OUT

ISL6323

overcurrent shutdown will be initiated. This will result in a

continuous hiccup mode.

Note that the energy delivered during trip-retry cycling is

much less than during full-load operation, so there is no

thermal hazard.

NORTH BRIDGE REGULATOR OVERCURRENT

The overcurrent shutdown sequence for the North Bridge

regulator is identical to the Core regulator with the exception

that it is a single phase regulator and will only disable the

MOSFET drivers for the North Bridge. Once 7 retry attempts

have been executed unsuccessfully, the controller will disable

UGATE and LGATE signals for both Core and North Bridge

and will latch off requiring a POR of VCC to reset the ISL6323.

Note that the energy delivered during trip-retry cycling is

much less than during full-load operation, so there is no

thermal hazard.

Individual Channel Overcurrent Limiting

The ISL6323 has the ability to limit the current in each

individual channel of the Core regulator without shutting

down the entire regulator. This is accomplished by

continuously comparing the sensed currents of each channel

with a constant 140µA OCL reference current. If a channel’s

individual sensed current exceeds this OCL limit, the UGATE

signal of that channel is immediately forced low, and the

LGATE signal is forced high. This turns off the upper

MOSFET(s), turns on the lower MOSFET(s), and stops the

rise of current in that channel, forcing the current in the

channel to decrease. That channel’s UGATE signal will not

be able to return high until the sensed channel current falls

back below the 140µA reference.

Exclusive Operation in Parallel Mode

The ISL6323 was designed such that the processor would

be the determining factor of whether the ISL6323 operated

in PVI mode or in SVI mode. If, however, the ISL6323 is to

be used in a system that will be used exclusively in parallel

mode and the North Bridge regulator will not be populated at

FIGURE 16. OVERCURRENT BEHAVIOR IN HICCUP MODE

OUTPUT CURRENT, 50A/DIV

OUTPUT VOLTAGE,

500mV/DIV

3ms/DIV

October 21, 2008

FN9278.4

ISL6323EVAL1Z Intersil, ISL6323EVAL1Z Datasheet - Page 23

ISL6323EVAL1Z

Specifications of ISL6323EVAL1Z

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