MIC23060-G4YMT TR Micrel Inc, MIC23060-G4YMT TR Datasheet - Page 10

MIC23060-G4YMT TR

Manufacturer Part Number

MIC23060-G4YMT TR

Description

IC POWER MGMT SEQUENCE 12TMLF

Manufacturer

Micrel Inc

Datasheet

1.MIC23060-G4YMT_TR.pdf (15 pages)

Specifications of MIC23060-G4YMT TR

Applications

Power Supply Sequencer

Voltage - Supply

2.7 V ~ 5.5 V

Current - Supply

43µA

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

12-TMLF®

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

576-3650-2
MIC23060-G4YMT TR

Current page: 10 of 15
Download datasheet (734Kb)

Application Information

The MIC23060 is a high performance DC/DC step down

regulator plus Dual input Low Dropout linear regulator

offering

recommended maximum output current of 300mA and

300mA respectively inside a tiny 2.5mm x 2.5mm Thin

MLF

components, the MIC23060 meets today’s miniature

portable electronic device needs. Using the HyperLight

Load™ switching scheme, the MIC23060 DC/DC

converter is able to maintain high efficiency throughout

the entire load range while providing ultra-fast load

transient response. The following sections provide

additional device application information.

Input Capacitor

A 4.7μF ceramic capacitor should be placed close to the

DVIN pin and PGND pin for decoupling the high di/dt

pulses of the DC-DC section from the LDO section. 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 MIC23060 was designed for use with a 2.2μF or

greater ceramic output capacitor for the DC-DC section

and 1μF for the LDO. 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. Both the X7R or X5R

temperature rating capacitors are recommended. The

Y5V and Z5U temperature rating capacitors are not

recommended due to their wide variation in capacitance

over temperature and increased resistance at high

frequencies.

Inductor Selection

When selecting an inductor, it is important to consider

the following factors (not necessarily in the order of

importance):

Micrel, Inc.

April 2010

•

package

Inductance

Rated current value

Size requirements

DC resistance (DCR)

small

and

solution

requiring

size.

only

Supporting

four

external

The MIC23060 was designed for use with a 0.47μH to

2.2μH

recommended for a balance of transient response,

efficiency and output ripple. For faster transient

response, a 0.47μH inductor will yield the best result. For

lower output ripple and improved regulation, a 2.2μH

inductor is recommended.

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 does not cause the inductor to

saturate. Peak current can be calculated as follows:

As shown by the calculation above, 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 Typical Application Circuit

and Bill of Materials for details.

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

inversely proportional to size, DCR can represent a

significant efficiency loss. Refer to the Efficiency

Considerations.

Compensation

The MIC23060 is designed to be stable with a 0.47μH to

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

output capacitor for the DC/DC output (SNS) and 1μF

ceramic (X5R) for the LDO (LDO). For 0.47μH inductors,

a 10µF capacitor is recommended to reduce ripple and

improve stability.

Enable Sequencing (S1/S2/S3)

The MIC23060 offers complete flexibility of start-up

sequencing of its two outputs. The sequence mode is set

in hardware (pin-strapping) which requires that only a

single GPIO be used for enable toggling. The Dual Input

LDO™ can turn-on prior to the DC/DC converter and

automatically switch to post regulation from the DC/DC

converter after it starts.

There are 3 modes available:

S3 is responsible for controlling the First-on/First-Off

•

S1=S2: Simultaneous (SIM)

S3 = 0: First On/First Off (FOFO)

S3 = 1: First On/Last Off (FOLO)

inductor.

PEAK

⎡

⎢

⎣

OUT

Typically,

OUT

⎛

⎜ ⎜

⎝

−

1μH

OUT

M9999-042210-B

inductor

MIC23060

⎞

⎟ ⎟

⎠

⎤

⎥

⎦

MIC23060-G4YMT TR Micrel Inc, MIC23060-G4YMT TR Datasheet - Page 10

MIC23060-G4YMT TR

Specifications of MIC23060-G4YMT TR

Related parts for MIC23060-G4YMT TR