MIC23250-SKYMT TR Micrel Inc, MIC23250-SKYMT TR Datasheet - Page 12

High Efficiency Dual 400mA Synchronous Buck Switcher

MIC23250-SKYMT TR

Manufacturer Part Number

MIC23250-SKYMT TR

Description

High Efficiency Dual 400mA Synchronous Buck Switcher

Manufacturer

Micrel Inc

Series

HyperLight Load™r

Type

Step-Down (Buck)r

Datasheet

1.MIC23250-S4YMT_TR.pdf (20 pages)

Specifications of MIC23250-SKYMT TR

Internal Switch(s)

Yes

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

2.6V, 3.3V

Current - Output

400mA

Frequency - Switching

4MHz

Voltage - Input

2.7 ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

10-TMLF®

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

576-3316-2

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Applications Information

The MIC23250 is designed for high performance with a

small solution size. With a dual 400mA output inside a tiny

2mm x 2mm Thin MLF

external components, the MIC23250 meets today’s

miniature portable electronic device needs. While small

solution size is one of its advantages, the MIC23250 is big

in performance. Using the HyperLight Load™ switching

scheme, the MIC23250 is able to maintain high efficiency

throughout the entire load range while providing ultra-fast

load transient response. Even with all the given benefits,

the MIC23250 can be as easy to use as linear regulators.

The

implementing MIC23250 into related applications

Input Capacitor

A minimum of 2.2µF ceramic capacitor should be placed

close to the VIN pin and PGND pin for bypassing. A TDK

C1608X5R0J475K, size 0603, 4.7µF ceramic capacitor is

recommended based upon performance, size and cost. A

X5R or X7R temperature rating is recommended for the

input capacitor. Y5V temperature rating capacitors, aside

from losing most of their capacitance over temperature,

can also become resistive at high frequencies. This

reduces their ability to filter out high frequency noise.

Output Capacitor

The MIC23250 was designed for use with a 2.2µF or

greater ceramic output capacitor. Increasing the output

capacitance will lower output ripple and improve load

transient response but could increase solution size or cost.

A low equivalent series resistance (ESR) ceramic output

capacitor such as the TDK C1608X5R0J475K, size 0603,

4.7µF ceramic capacitor is recommended based upon

performance, size and cost. Either the X7R or X5R

temperature rating capacitors are recommended. The Y5V

and Z5U temperature rating capacitors, aside from the

undesirable effect of their wide variation in capacitance

over temperature, become resistive at high frequencies.

Inductor Selection

Inductor selection will be determined by the following (not

necessarily in the order of importance);

The MIC23250 was designed for use with an inductance

range from 0.47µH to 4.7µH. Typically, a 1µH inductor is

recommended for a balance of transient response,

efficiency and output ripple. For faster transient response a

0.47µH inductor may be used. For lower output ripple, a

4.7µH is recommended.

Micrel, Inc.

June 2010

•

following

Inductance

Rated current value

Size requirements

DC resistance (DCR)

sections

package and requiring only six

provide

over

view

Maximum current ratings of the inductor are generally

given in two methods; permissible DC current and

saturation current. Permissible DC current can be rated

either for a 40°C temperature rise or a 10% to 20% loss in

inductance. Ensure the inductor selected can handle the

maximum operating current. When saturation current is

specified, make sure that there is enough margin so that

the peak current of the inductor does not cause it to

saturate. Peak current can be calculated as follows:

As shown by the previous calculation, the peak inductor

current is inversely proportional to the switching frequency

and the inductance; the lower the switching frequency or

the inductance the higher the peak current. As input

voltage increases the peak current also increases.

The size of the inductor depends on the requirements of

the application. Refer to the Application Circuit and Bill of

Material for details.

DC resistance (DCR) is also important. While DCR is

inversely proportional to size, DCR can represent a

significant

Considerations.

Compensation

The MIC23250 is designed to be stable with a 0.47µH to

4.7µH inductor with a minimum of 2.2µF ceramic (X5R)

output capacitor. For the adjustable MIC23250, the total

feedback resistance should be kept around 1MΩ to reduce

current loss down the feedback resistor network. This

helps to improve efficiency. A feed-forward capacitor

(CFF) of 120pF must be used in conjunction with the

external feedback resistors to reduce the effects of

parasitic capacitance that is inherent of most circuit board

layouts. Figure 1 and Table 1 shows the recommended

feedback resistor values along with the recommended

feed-forward capacitor values for the MIC23250 adjustable

device.

PEAK

Figure 1. Feedback Resistor Network

efficiency

⎡

⎢

⎣

OUT

TOP

loss.

OUT

BOTTOM

⎛

⎜ ⎜

⎝

Refer

−

OUT

M9999-061110-E

the

⎞

⎟ ⎟

⎠

⎤

⎥

⎦

MIC23250

Efficiency

MIC23250-SKYMT TR Micrel Inc, MIC23250-SKYMT TR Datasheet - Page 12

MIC23250-SKYMT TR

Specifications of MIC23250-SKYMT TR

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