ISL6559EVAL1 Intersil, ISL6559EVAL1 Datasheet - Page 9

ISL6559EVAL1

Manufacturer Part Number

ISL6559EVAL1

Description

EVALUATION BOARD ISL6559

Manufacturer

Intersil

Datasheets

1.ISL6559CBZ-T.pdf (21 pages)

2.ISL6559EVAL1.pdf (11 pages)

Specifications of ISL6559EVAL1

Main Purpose

Special Purpose DC/DC, VRM Supply

Outputs And Type

1, Non-Isolated

Power - Output

125W

Voltage - Output

1.25V

Current - Output

100A

Voltage - Input

5V, 12V

Regulator Topology

Buck

Frequency - Switching

600kHz

Board Type

Fully Populated

Utilized Ic / Part

ISL6559, ISL6605

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Most multi-phase controllers simply have the output voltage

fed back to the inverting input of the error amplifier through a

resistor. The ISL6559 features an internal differential

remote-sense amplifier in the feedback path. The amplifier

removes the voltage error encountered when measuring the

output voltage relative to the local controller ground

reference point, resulting in a more accurate means of

sensing output voltage. Connect the microprocessor sense

pins to the non-inverting input, VSEN, and inverting input,

RGND, of the remote-sense amplifier. The remote-sense

amplifier output, V

resistor to the inverting input of the error amplifier.

A digital to analog converter (DAC) generates a reference

voltage based on the state of logic signals at pins VID4

through VID0. The DAC decodes the a 5-bit logic signal

(VID) into one of the discrete voltages shown in Table 1.

Each VID input offers a 20µA pull-up to an internal 2.5V

source for use with open-drain outputs. External pull-up

resistors or active-high output stages can augment the pull-

up current sources, but a slight accuracy error can occur if

they are pulled above 2.9V. The DAC-selected reference

voltage is connected to the non-inverting input of the error

amplifier.

The ISL6559 features a second non-inverting input to the

error amplifier which allows the user to directly offset the

DAC reference voltage in the positive direction only. The

offset voltage is created by an internal current source which

REMOTE

POINTS

SENSE

FIGURE 5. OUTPUT-VOLTAGE AND LOAD-LINE

EXTERNAL CIRCUIT

OFS

GND

OUT

DROOP

REGULATION

OFS

DIFF

COMP

VDIFF

RGND

VSEN

IOUT

OFS

, is then tied through an external

ISL6559 INTERNAL CIRCUIT

REFERENCE

VOLTAGE

AVG

ERROR AMPLIFIER

DIFFERENTIAL

REMOTE-SENSE

AMPLIFIER

100µA

1/10

OFFSET

VOLTAGE

COMP

ISL6559

feeds out the OFS pin into a user selected external resistor

to ground. The resulting voltage across the resistor, V

internally divided down by ten to create the offset voltage.

This method of offsetting the DAC voltage is more accurate

than external methods of level-shifting the FB pin.

The integrating compensation network shown in Figure 5

assures that the steady-state error in the output voltage is

limited to the error in the reference voltage (output of the

DAC) plus offset errors in the OFS current source, remote-

sense and error amplifiers. Intersil specifies the guaranteed

tolerance of the ISL6559 to include all variations in current

VID4

TABLE 1. VOLTAGE IDENTIFICATION CODES

VID3

VID2

VID1

VID0

December 29, 2004

Shutdown

1.550

1.525

1.500

1.475

1.450

1.425

1.400

1.375

1.350

1.325

1.300

1.275

1.250

1.225

1.200

1.175

1.150

1.125

1.100

1.075

1.050

1.025

1.000

0.975

0.950

0.925

0.900

0.875

0.850

0.825

0.800

DAC

OFS

FN9084.8

, is

ISL6559EVAL1 Intersil, ISL6559EVAL1 Datasheet - Page 9

ISL6559EVAL1

Specifications of ISL6559EVAL1

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