ISL6227CAZ-T Intersil, ISL6227CAZ-T Datasheet - Page 24

ISL6227CAZ-T

Manufacturer Part Number

ISL6227CAZ-T

Description

IC CONTROLLER DDR, DDR2 28QSOP

Manufacturer

Intersil

Datasheets

1.ISL6227.pdf (27 pages)

2.ISL6227CAZ-T.pdf (27 pages)

3.ISL6227CAZ-T.pdf (28 pages)

Specifications of ISL6227CAZ-T

Package / Case

28-QSOP

Mounting Type

Surface Mount

Voltage - Output

0.9 ~ 5.5 V

Voltage - Input

5 ~ 28 V

Operating Temperature

-10°C ~ 100°C

Applications

Controller, DDR, DDR2

Number Of Outputs

Peak Reflow Compatible (260 C)

Yes

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Confining the Negative Phase Node Voltage Swing

with Schottky Diode

At each switching cycle, the body diode of the lower MOSFET

will conduct before the MOSFET is turned on, as the inductor

current is flowing to the output capacitor. This will result in a

negative voltage on the phase node. The higher the load

current, the lower this negative voltage. This voltage will ring

back less negative when the lower MOSFET is turned on.

A total 400ns period is given to the current sample-and-hold

circuit on the ISEN pin to sense the current going through

the lower MOSFET after the upper MOSFET turns off. An

excessive negative voltage on the lower MOSFET will be

treated as overcurrent. In order to confine this voltage, a

schottky diode can be used in parallel with the lower

MOSFET for high load current applications. PCB layout

parasitics should be minimized in order to reduce the

negative ringing of phase voltage.

The second concern for the phase node voltage going into

negative is that the boot strap capacitor between the BOOT

and PHASE pin could get be charged higher than VCC

voltage, exceeding the 6.5V absolute maximum voltage

between BOOT and PHASE when the phase node voltage

became negative. A resistor can be placed between the

cathode of the boot strap diode and BOOT pin to increase

the charging time constant of the boot cap. This resistor will

not affect the turn-on and off of the upper MOSFET.

Schottky diode can reduce the reverse recovery of the lower

MOSFET when transition from freewheeling to blocking,

therefore, it is generally good practice to have a schottky

diode closely parallel with the lower MOSFET. B340LA, from

Diodes, Inc.®, can be used as the external schottky diode.

Tuning the Turn-on of Upper MOSFET

The turn-on speed of the upper MOSFET can be adjusted by

the resistor connecting the boot cap to the BOOT pin of the

chip. This resistor can confine the voltage ringing on the boot

capacitor from coupling to the boot pin. This resistor slows

down only the turn-on of the upper MOSFET.

If the upper MOSFET is turned on very fast, it could result in

a very high dv/dt on the phase node, which could couple into

the lower MOSFET gate through the miller capacitor,

causing momentous shoot-through. This phenomenon,

together with the reverse recovery of the body diode of the

lower MOSFET, can over-shoot the phase node voltage to

beyond the voltage rating of the MOSFET. However, a bigger

resistor will slow the turn-on of the MOSFET too much and

lower the efficiency. Trade-offs need to be made in choosing

a suitable resistor value.

ISL6227

System Loop Gain and Stability

The system loop gain is a product of three transfer functions:

These transfer functions are written in a closed form in the

Theory of Operation section on page 18. The external

capacitor, in parallel with the upper resistor of the resistor

divider, C

margin. Other component parameters, such as the inductor

value, can be changed for a wider cross-over frequency of the

system loop gain. A body plot of the loop gain transfer function

with a 45 degree phase margin (a 60 degree phase margin is

better) is desirable to cover component parameter variations.

Testing the Overvoltage on Buck Converters

For synchronous buck converters, if an active source is used

to raise the output voltage for the overvoltage protection test,

the buck converter will behave like a boost converter and

dump energy from the external source to the input. The

overvoltage test can be done on ISL6227 by connecting the

VSEN pin to an external voltage source or signal generator

through a diode. When the external voltage, or signal

generator voltage, is tuned to a higher level than the

overvoltage threshold (the lower MOSFET will be on), it

indicates the overvoltage protection works. This kind of

overvoltage protection does not require an external schottky

in parallel with the output capacitor.

Layout Considerations

Power and Signal Layer Placement on the PCB

As a general rule, power layers should be close together,

either on the top or bottom of the board, with signal layers on

the opposite side of the board. For example, prospective

layer arrangement on a 4 layer board is shown below:

It is a good engineering practice to separate the power

voltage and current flowing path from the control and logic

level signal path. The controller IC will stay on the signal

layer, which is isolated by the signal ground to the power

signal traces.

1. the transfer function from the output voltage to the

2. the transfer function of the internal compensation circuit

3. and the transfer function from the error amplifier output to

1. Top Layer: ISL6227 signal lines

2. Signal Ground

3. Power Layers: Power Ground

4. Bottom Layer: Power MOSFET, Inductors and other

feedback point,

from the feedback point to the error amplifier output voltage,

the converter output voltage.

Power traces

, can be used to tune the loop gain and phase

December 21, 2006

FN9094.4

ISL6227CAZ-T Intersil, ISL6227CAZ-T Datasheet - Page 24

ISL6227CAZ-T

Specifications of ISL6227CAZ-T

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