rt9210 Richtek Technology Corporation, rt9210 Datasheet - Page 12

rt9210

Manufacturer Part Number

rt9210

Description

Dual Synchronous Buck Dc-dc Controller Memory Vddq Termination

Manufacturer

Richtek Technology Corporation

Datasheet

1.RT9210.pdf (17 pages)

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RT9210

Applications Information

Inductor

The inductor is required to supply constant current to the

output load. The inductor is selected to meet the output

voltage ripple requirements and minimize the converter's

response time to the load transient.

A larger value of inductance reduces ripple current and

voltage. However, the larger value of inductance has a larger

physical size, lower output capacitor and slower transient

response time.

A good rule for determining the inductance is to allow the

peak-to-peak ripple current in the inductor to be

approximately 30% of the maximum output current. The

inductance value can be calculated by the following

equation :

Where

The inductance value determines the converter's ripple

current and the ripple current. The ripple voltage is

calculated by the following equation :

Increasing the value of inductance reduces the ripple

current and voltage. However, the large inductance value

raise the converter's response time to a load transient.

One of the parameters limiting the converter's response

to a load transient is the time required to change the

inductor current. Given a sufficiently fast control loop

design, the RT9210 will provide 0% to 100% duty cycle in

response to a load transient.

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OUT

is the switching frequency,

is the input voltage,

is the output voltage,

is the peak-to-peak inductor ripple current.

ΔI

−

OUT

Fs L

) V

ΔI

) V

OUT

Preliminary

The response time is the time required to slew the inductor

current from an initial current value to the transient current

level. The inductor limit input current slew rate during

the load transient. Minimizing the transient response time

can minimize the output capacitance required. The

response time is different for application of load and removal

of load to a transient. The following equations give the

approximate response time for application and removal of

a transient load :

Where

Input Capacitor

The input capacitor is required to supply the AC current to

the Buck converter while maintaining the DC input voltage.

The capacitor should be chosen to provide acceptable ripple

on the input supply lines. Use a mix of input bypass

capacitors to control the voltage overshoot across the

MOSFETs. Use small ceramic capacitors for high

frequency decoupling and bulk capacitors to supply the

current. Place the small ceramic capacitors close to the

MOSFETs and between the drain of Q1/Q3 and the source

of Q2/Q4.

The key specifications for input capacitor are the voltage

rating and the RMS current rating. For reliable operation,

select the bulk capacitor with voltage and current ratings

above the maximum input voltage and largest RMS current.

The capacitor voltage rating should be at least 1.25 times

greater than the maximum input voltage and voltage rating

of 1.5 times is a conservative guideline. The RMS current

rating for the input capacitor of a buck regulator should be

greater than approximately 0.5 the DC load current.

Rise

Fall

OUT

is the response time to the removal of load,

is the response time to the application of load,

is the transient load current step.

Rise

−

ΔI

OUT

DS9210-05 March 2007

Fall

ΔI

OUT

rt9210 Richtek Technology Corporation, rt9210 Datasheet - Page 12

rt9210

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