ISL6556ACBZ-T Intersil, ISL6556ACBZ-T Datasheet - Page 15

ISL6556ACBZ-T

Manufacturer Part Number

ISL6556ACBZ-T

Description

IC CTRLR MULTIPHASE VRM10 28SOIC

Manufacturer

Intersil

Datasheet

1.ISL6556ACBZ.pdf (25 pages)

Specifications of ISL6556ACBZ-T

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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Dynamic VID

Modern microprocessors need to make changes to their

core voltage as part of normal operation. They direct the

core-voltage regulator to do this by making changes to the

VID inputs during regulator operation. The power

management solution is required to monitor the DAC inputs

and respond to on-the-fly VID changes in a controlled

manner. Supervising the safe output voltage transition within

the DAC range of the processor without discontinuity or

disruption is a necessary function of the core-voltage

regulator.

The ISL6556A checks the VID inputs six times every

switching cycle. If the VID code is found to have changed,

the controller waits half of a complete cycle before executing

a 12.5mV change. If during the half-cycle wait period, the

difference between DAC level and the new VID code

changes sign, no change is made. If the VID code is more

than 1 bit higher or lower than the DAC (not recommended),

the controller will execute 12.5mV changes six times per

cycle until VID and DAC are equal. It is for this reason that it

is important to carefully control the rate of VID stepping in 1-

bit increments.

In order to ensure the smooth transition of output voltage

during VID change, a VID step change smoothing network

composed of R

based voltage regulator. The selection of R

the desired offset as detailed above in Output-Voltage Offset

Programming. The selection of C

duration for 1 bit VID change and the allowable delay time.

Assuming the microprocessor controls the VID change at 1

bit every T

Typically R

change rate of 5μs per bit, the value of C

on Equation 9.

Initialization

Prior to initialization, proper conditions must exist on the

enable inputs and VCC. When the conditions are met, the

controller begins soft-start. Once the output voltage is within

the proper window of operation, PGOOD asserts logic 1.

Enable and Disable

While in shutdown mode, the PWM outputs are held in a

high-impedance state to assure the drivers remain off. The

following input conditions must be met before the ISL6556A

is released from shutdown mode.

1. The bias voltage applied at VCC must reach the internal

REF

power-on reset (POR) rising threshold. Once this

threshold is reached, proper operation of all aspects of

the ISL6556A is guaranteed. Hysteresis between the

and C

REF

VID

REF

, the relationship between the time constant of

REF

4 T

is selected to be 1kΩ, so with a VID step

network and T

VID

and C

REF

is required for an ISL6556A

VID

REF

is given by Equation 9.

is based on the time

REF

is 22nF based

is based on

(EQ. 9)

ISL6556A

To enable the controller, VCC must be greater than the POR

threshold; the voltage on EN must be greater than 1.24V; for

ISL6556ACR, ENLL must be logic high; and VID cannot be

equal to 111111 or 111110. When each of these conditions is

true, the controller immediately begins the soft-start

sequence.

2. The ISL6556A features an enable input (EN) for power

3. (ISL6556ACR only) The voltage on ENLL must be logic

4. The VID code must not be 111111 or 111110. These codes

FIGURE 8. POWER SEQUENCING USING THRESHOLD-

rising and falling thresholds assure that once enabled,

the ISL6556A will not inadvertently turn off unless the

bias voltage drops substantially (see Electrical

Specifications).

sequencing between the controller bias voltage and

another voltage rail. The enable comparator holds the

ISL6556A in shutdown until the voltage at EN rises above

1.24V. The enable comparator has about 100mV of

hysteresis to prevent bounce. It is important that the

driver ICs reach their POR level before the ISL6556A

becomes enabled. The schematic in Figure 8

demonstrates sequencing the ISL6556A with the

HIP660X family of Intersil MOSFET drivers, which require

12V bias.

high to enable the controller. This pin is typically

connected to the VID_PGOOD. The ISL6556ACB has

this signal internally connected high.

signal the controller that no load is present. The controller

will enter shut-down mode after receiving either of these

codes and will execute soft start upon receiving any other

code. These codes can be used to enable or disable the

controller but it is not recommended. After receiving one

of these codes, the controller executes a 2-cycle delay

before changing the overvoltage trip level to the shut-

down level and disabling PWM. Overvoltage shutdown

cannot be reset using one of these codes.

FAULT LOGIC

CIRCUIT

SOFT START

POR

ISL6556A INTERNAL CIRCUIT

AND

SENSITIVE ENABLE (EN) FUNCTION

ENABLE

COMPARATOR

1.24V

VCC

ENLL

(ISL6556ACR only)

EXTERNAL CIRCUIT

10.7kΩ

1.40kΩ

+12V

ISL6556ACBZ-T Intersil, ISL6556ACBZ-T Datasheet - Page 15

ISL6556ACBZ-T

Specifications of ISL6556ACBZ-T

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