ISL6744EVAL1 Intersil, ISL6744EVAL1 Datasheet - Page 11

ISL6744EVAL1

Manufacturer Part Number

ISL6744EVAL1

Description

EVALUATION BOARD ISL6744

Manufacturer

Intersil

Datasheet

1.ISL6744AUZ.pdf (18 pages)

Specifications of ISL6744EVAL1

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Isolated

Power - Output

100W

Voltage - Output

12V

Current - Output

Voltage - Input

43.2 ~ 52.8V

Regulator Topology

Buck

Frequency - Switching

235kHz

Board Type

Fully Populated

Utilized Ic / Part

ISL6744

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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FIGURE 7F. BOTTOM LAYER: 1 TURN SECONDARY AND SR

FIGURE 7E. INT. LAYER 4: 1 TURN SECONDARY WINDING

FIGURE 7D. INT. LAYER 3: 2 TURNS PRIMARY WINDING

FIGURE 7C. INT. LAYER 2: 2 TURNS PRIMARY WINDING

WINDINGS

ISL6744

MOSFET Selection

The criteria for selection of the primary side half-bridge FETs

and the secondary side synchronous rectifier FETs is largely

based on the current and voltage rating of the device.

However, the FET drain-source capacitance and gate

charge cannot be ignored.

The zero voltage switch (ZVS) transition timing is dependent

on the transformer’s leakage inductance and the

capacitance at the node between the upper FET source and

the lower FET drain. The node capacitance is comprised of

the drain-source capacitance of the FETs and the

transformer parasitic capacitance. The leakage inductance

and capacitance form an LC resonant tank circuit which

determines the duration of the transition. The amount of

energy stored in the LC tank circuit determines the transition

voltage amplitude. If the leakage inductance energy is too

low, ZVS operation is not possible and near or partial ZVS

operation occurs. As the leakage energy increases, the

voltage amplitude increases until it is clamped by the FET

body diode to ground or V

conducts. When the leakage energy exceeds the minimum

required for ZVS operation, the voltage is clamped until the

energy is transferred. This behavior increases the time

window for ZVS operation. This behavior is not without

consequences, however. The transition time and the period

of time during which the voltage is clamped reduces the

effective duty cycle.

The gate charge affects the switching speed of the FETs.

Higher gate charge translates into higher drive requirements

and/or slower switching speeds. The energy required to

drive the gates is dissipated as heat.

The maximum input voltage, V

determines the voltage rating required. With a maximum

input voltage of 53V for this application, and if we allow a

10% adder for transients, a voltage rating of 60V or higher

will suffice.

∅0.358

0.000

0.184

FIGURE 7G. PWB DIMENSIONS

0.479

, depending on which FET

, plus transient voltage,

0.774

1.054

∅0.689

September 22, 2005

0.807

0.639

0.403

0.169

0.000

FN9147.8

ISL6744EVAL1 Intersil, ISL6744EVAL1 Datasheet - Page 11

ISL6744EVAL1

Specifications of ISL6744EVAL1

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