ISL6556ACBZ Intersil, ISL6556ACBZ Datasheet - Page 9

ISL6556ACBZ

Manufacturer Part Number

ISL6556ACBZ

Description

IC CTRLR MULTIPHASE VRM10 28SOIC

Manufacturer

Intersil

Datasheet

1.ISL6556ACBZ.pdf (25 pages)

Specifications of ISL6556ACBZ

Applications

Controller, Intel VR10X

Voltage - Input

3 ~ 12 V

Number Of Outputs

Voltage - Output

0.84 ~ 1.6 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Manufacturer

Quantity

Price

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Part Number:

ISL6556ACBZ

Manufacturer:

ISL

Quantity:

20 000

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Functional Pin Description

VCC

Supplies all the power necessary to operate the chip. The

controller starts to operate when the voltage on this pin

exceeds the rising POR threshold and shuts down when the

voltage on this pin drops below the falling POR threshold.

Connect this pin directly to a +5V supply or through a series

300Ω resistor to a +12V supply.

GND

Bias and reference ground for the IC.

This pin is a threshold-sensitive enable input for the

controller. Connecting the 12V supply to EN through an

appropriate resistor divider provides a means to synchronize

power-up of the controller and the MOSFET driver ICs.

When EN is driven above 1.24V, the ISL6556A is active

depending on status of ENLL, the internal POR, and pending

fault states. Driving EN below 1.14V will clear all fault states

and prime the ISL6556 to soft start when re-enabled.

ENLL

This pin is implemented in QFN ISL6556A only. It’s a logic-

level enable input for the controller. When asserted to a logic

high, the ISL6556A is active depending on status of EN, the

internal POR, VID inputs and pending fault states.

Deasserting ENLL will clear all fault states and prime the

ISL6556A to soft start when re-enabled.

A resistor, placed from FS to ground will set the switching

frequency. There is an inverse relationship between the

value of the resistor and the switching frequency. See

Figure 13 and Equation 26.

VID4, VID3, VID2, VID1, VID0, and VID12.5

These are the inputs to the internal DAC that provides the

reference voltage for output regulation. Connect these pins

either to open-drain outputs with or without external pull-up

resistors or to active-pull-up outputs. VID4-VID12.5 have

50μA internal pull-up current sources that diminish to zero as

the voltage rises above the logic-high level. These inputs

can be pulled up as high as VCC plus 0.3V.

VDIFF, VSEN, and RGND

VSEN and RGND form the precision differential remote-

sense amplifier. This amplifier converts the differential

voltage of the remote output to a single-ended voltage

referenced to local ground. VDIFF is the amplifier’s output

and the input to the regulation and protection circuitry.

Connect VSEN and RGND to the sense pins of the remote

load.

ISL6556A

FB and COMP

Inverting input and output of the error amplifier respectively.

FB is connected to VDIFF through a resistor. A negative

current, proportional to output current is present on the FB

pin. A properly sized resistor between VDIFF and FB sets

the load line (droop). The droop scale factor is set by the

ratio of the ISEN resistors and the lower MOSFET r

COMP is tied back to FB through an external R-C network to

compensate the regulator.

DAC and REF

The DAC output pin is the output of the precision internal

DAC reference. The REF input pin is the positive input of

the error amplifier. In typical applications, a 1kΩ, 1%

resistor is used between DAC and REF to generate a

precise offset voltage. This voltage is proportional to the

offset current determined by the offset resistor from OFS to

ground or VCC. A capacitor is used between REF and

ground to smooth the voltage transition during

Dynamic VID™ operations.

PWM1, PWM2, PWM3, PWM4

Pulse-width modulation outputs. Connect these pins to the

PWM input pins of the Intersil driver IC. The number of

active channels is determined by the state of PWM3 and

PWM4. Tie PWM3 to VCC to configure for 2-phase

operation. Tie PWM4 to VCC to configure for 3-phase

operation.

ISEN1, ISEN2, ISEN3, ISEN4

Current sense inputs. The ISEN1, ISEN2, ISEN3, and

ISEN4 pins are held to a virtual ground such that a resistor

connected between them and the drain terminal of the

associated lower MOSFET will carry a current proportional

to the current flowing through the related channel. The

current is determined by the negative voltage developed

across the lower MOSFET’s r

current scaled by the inverse of the r

used as a reference for channel balancing, protection, and

load-line regulation (via the FB pin). Inactive channels

should have their respective current sense inputs left open.

PGOOD

PGOOD is used as an indication of the end of soft-start per

the microprocessor specification. It is an open-drain logic

output that is low impedance until the soft start is

completed. It will be pulled low again once the undervoltage

point is reached.

OFS

The OFS pin provides a means to program a dc current for

generating an offset voltage at the REF input. The offset

current is generated via an external resistor and precision

internal voltage references. The polarity of the offset is

selected by connecting the resistor to GND or VCC. For no

offset, the OFS pin should be left unterminated.

DS(ON)

which is the channel

. The current is

DS(ON)

ISL6556ACBZ Intersil, ISL6556ACBZ Datasheet - Page 9

ISL6556ACBZ

Specifications of ISL6556ACBZ

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