ISL6310 INTERSIL [Intersil Corporation], ISL6310 Datasheet - Page 24

ISL6310

Manufacturer Part Number

ISL6310

Description

Two-Phase Buck PWM Controller with High Current Integrated MOSFET Drivers

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL6310.pdf (27 pages)

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Switching Frequency

There are a number of variables to consider when choosing

the switching frequency, as there are considerable effects on

the upper MOSFET loss calculation. These effects are

outlined in MOSFETs, and they establish the upper limit for

the switching frequency. The lower limit is established by the

requirement for fast transient response and small output-

voltage ripple as outlined in Output Filter Design. Choose the

lowest switching frequency that allows the regulator to meet

the transient-response requirements.

Switching frequency is determined by the selection of the

frequency-setting resistor, R

are provided to assist in selecting the correct value for R

Input Capacitor Selection

The input capacitors are responsible for sourcing the AC

component of the input current flowing into the upper

MOSFETs. Their RMS current capacity must be sufficient to

handle the ac component of the current drawn by the upper

MOSFETs which is related to duty cycle and the number of

active phases.

For a Two-phase design, use Figure 25 to determine the

input-capacitor RMS current requirement set by the duty

cycle, maximum sustained output current (I

of the peak-to-peak inductor current (I

bulk capacitor with a ripple current rating which will minimize

the total number of input capacitors required to support the

RMS current calculated. The voltage rating of the capacitors

should also be at least 1.25 times greater than the maximum

input voltage. Figure 26 provides the same input RMS

current information for single-phase designs. Use the same

approach for selecting the bulk capacitor type and number.

Low ESL, high-frequency ceramic capacitors are needed in

addition to the input bulk capacitors to suppress leading and

200

100

FIGURE 24. R

[

10.61 1.035

100K

–

SWITCHING FREQUENCY (Hz)

200K

⋅

log

(

vs SWITCHING FREQUENCY

)

]

. Figure 24 and Equation 33

500K

L,PP

) to I

), and the ratio

. Select a

(EQ. 33)

ISL6310

falling edge voltage spikes. The spikes result from the high

current slew rate produced by the upper MOSFET turn on and

off. Place them as close as possible to each upper MOSFET

drain to minimize board parasitics and maximize suppression.

Layout Considerations

MOSFETs switch very fast and efficiently. The speed with

which the current transitions from one device to another

causes voltage spikes across the interconnecting

impedances and parasitic circuit elements. These voltage

spikes can degrade efficiency, radiate noise into the circuit

and lead to device overvoltage stress. Careful component

layout and printed circuit design minimizes the voltage

spikes in the converter. Consider, as an example, the turnoff

transition of the upper PWM MOSFET. Prior to turnoff, the

upper MOSFET was carrying channel current. During the

turnoff, current stops flowing in the upper MOSFET and is

picked up by the lower MOSFET. Any inductance in the

FIGURE 26. NORMALIZED INPUT-CAPACITOR RMS

FIGURE 25. NORMALIZED INPUT-CAPACITOR RMS

0.3

0.2

0.1

0.6

0.4

0.2

L,PP

CURRENT FOR SINGLE-PHASE CONVERTER

= 0

= 0.5 I

= 0.75 I

CURRENT FOR 2-PHASE CONVERTER

L,PP

0.2

= 0

= 0.5 I

= 0.75 I

DUTY CYCLE (V

0.4

0.6

IN/

)

0.8

December 12, 2006

FN9209.3

1.0

ISL6310 INTERSIL [Intersil Corporation], ISL6310 Datasheet - Page 24

ISL6310

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