mic33153yhj Micrel Semiconductor, mic33153yhj Datasheet - Page 11

mic33153yhj

Manufacturer Part Number

mic33153yhj

Description

4mhz Pwm 1.2a Internal Inductor Buck Regulator With Hyperlight Load And Power Good

Manufacturer

Micrel Semiconductor

Datasheet

1.MIC33153YHJ.pdf (17 pages)

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Application Information

The MIC33153 is a high performance DC-to-DC step

down regulator offering a small solution size. With the

HyperLight Load™ switching scheme, the MIC33153 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 2.2µF ceramic capacitor or greater should be placed

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

Murata GRM188R60J475ME84D, size 0603, 4.7µF

ceramic

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 MIC33153 is 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 also increase solution size

or cost. A low equivalent series resistance (ESR)

ceramic

GRM188R60J475ME84D, 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.

Compensation

The MIC33153 is designed to be stable with a 4.7µF

ceramic (X5R) output capacitor.

Duty Cycle

The typical maximum duty cycle of the MIC33153 is

80%.

Efficiency Considerations

Efficiency is defined as the amount of useful output

power, divided by the amount of power supplied:

Micrel Inc.

September 2010

Efficiency

capacitor

output

capacitor

⎛

⎜ ⎜

⎝

recommended

OUT

such

OUT

⎞

⎟ ⎟

⎠

100

based

the

Murata

upon

Maintaining high efficiency serves two purposes. It

reduces power dissipation in the power supply, reducing

the

considerations and it reduces consumption of current for

battery powered applications. Reduced current draw

from a battery increases the devices operating time and

is critical in hand held devices.

There are two types of losses in switching converters;

DC losses and switching losses. DC losses are simply

the power dissipation of I

high side switch during the on cycle. Power loss is equal

to the high side MOSFET R

Current squared. During the off cycle, the low side N-

channel MOSFET conducts, also dissipating power.

Device operating current also reduces efficiency. The

product of the quiescent (operating) current and the

supply voltage represents another DC loss. The current

required driving the gates on and off at a constant 4MHz

frequency and the switching transitions make up the

switching losses.

Figure 3 shows an efficiency curve. From no load to

100mA, efficiency losses are dominated by quiescent

current losses, gate drive and transition losses. By using

the HyperLight Load™ mode, the MIC33153 is able to

maintain high efficiency at low output currents.

need

Figure 3. Efficiency Under Load

for

heat

sinks

R. Power is dissipated in the

DSON

multiplied by the Switch

and

M9999-092910-A

thermal

MIC33153

design

mic33153yhj Micrel Semiconductor, mic33153yhj Datasheet - Page 11

mic33153yhj

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