ISL6553EVAL1 Intersil, ISL6553EVAL1 Datasheet - Page 6

ISL6553EVAL1

Manufacturer Part Number

ISL6553EVAL1

Description

EVALUATION BOARD ISL6553

Manufacturer

Intersil

Series

Endura™r

Datasheets

1.ISL6553CBZ.pdf (15 pages)

2.ISL6553EVAL1.pdf (9 pages)

Specifications of ISL6553EVAL1

Main Purpose

Special Purpose DC/DC, VRM Supply

Outputs And Type

1, Non-Isolated

Power - Output

45W

Voltage - Output

1.5V

Current - Output

30A

Voltage - Input

5V, 12V

Regulator Topology

Buck

Frequency - Switching

350kHz

Board Type

Fully Populated

Utilized Ic / Part

HIP6601, ISL6553

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Operation

Figure 1 shows a simplified diagram of the voltage regulation

and current control loops. Both voltage and current feedback

are used to precisely regulate voltage and tightly control

output currents, I

voltage loop comprises the Error Amplifier, Comparators,

gate drivers and output MOSFETs. The Error Amplifier is

essentially connected as a voltage follower that has as an

input, the Programmable Reference DAC and an output that

is the CORE voltage.

Voltage Loop

Feedback from the CORE voltage is applied via resistor R

to the inverting input of the error amplifier. This signal can

drive the error amplifier output either high or low, depending

upon the CORE voltage. Low CORE voltage makes the

amplifier output move towards a higher output voltage level.

Amplifier output voltage is applied to the positive inputs of

the comparators via the correction summing networks. Out-

of-phase sawtooth signals are applied to the two

comparators inverting inputs. Increasing error amplifier

FIGURE 1. SIMPLIFIED BLOCK DIAGRAM OF THE ISL6553 VOLTAGE AND CURRENT CONTROL LOOPS FOR A TWO POWER

AMPLIFIER

PROGRAMMABLE

REFERENCE

DAC

ERROR

CHANNEL REGULATOR

and I

CORRECTION

, of the two power channels. The

∑

I AVERAGE

COMPARATOR

AVERAGING

COMPARATOR

CURRENT

ISL6553

CURRENT

SENSING

ISL6553

CIRCUIT

PWM

voltage results in increased comparator output duty cycle.

This increased duty cycle signal is passed through the PWM

circuit with no phase reversal and on to the HIP6601, again

with no phase reversal for gate drive to the upper MOSFETs,

Q1 and Q3. Increased duty cycle or ON time for the

MOSFET transistors results in increased output voltage to

compensate for the low output voltage sensed.

Current Loop

The current control loop works in a similar fashion to the

voltage control loop, but with current control information

applied individually to each channel’s comparator. The

information used for this control is the voltage that is

developed across r

Q4, when they are conducting. A single resistor converts and

scales the voltage across the MOSFETs to a current that is

applied to the current sensing circuit within the ISL6553.

Output from these sensing circuits is applied to the current

averaging circuit. Each PWM channel receives the difference

current signal from the summing circuit that compares the

average sensed current to the individual channel current.

When a power channel’s current is greater than the average

PWM1

PWM2

ISEN1

ISEN2

HIP6601

ISEN2

ISEN1

DS(ON)

of each lower MOSFET, Q2 and

PHASE

CORE

OUT

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ISL6553EVAL1 Intersil, ISL6553EVAL1 Datasheet - Page 6

ISL6553EVAL1

Specifications of ISL6553EVAL1

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