MIC4681_05 Datasheet, PDF(11/16 Page) Micrel Semiconductor – 2A-Peak SuperSwitcher SOP-8 Buck Regulator

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MIC4681_05 Datasheet, PDF (11/16 Pages) Micrel Semiconductor – 2A-Peak SuperSwitcher SOP-8 Buck Regulator

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MIC4681

Functional Description

The MIC4681 is a variable duty cycle switch-mode regulator

with an internal power switch. Refer to the block diagrams.

Supply Voltage

The MIC4681 operates from a +4V to +30V unregulated

input. Highest efficiency operation is from a supply voltage

around +12V. See the efficiency curves on page 6.

Enable/Shutdown

The shutdown (SHDN) input is TTL compatible. Ground the

input if unused. A logic-low enables the regulator. A logic-

high shuts down the internal regulator which reduces the

current to typically 35ÂµA when VSHDN = VIN = 12V and 6ÂµA

when VSHDN = 5V. See âShutdown Input Behavior: Shutdown

Hysteresis.â

Feedback

Require an external resistive voltage divider from the output

voltage to ground, center tapped to the FB pin. See Figure 1b

for recommended resistor values.

Duty Cycle Control

A fixed-gain error amplifier compares the feedback signal

with a 1.23V bandgap voltage reference. The resulting error

amplifier output voltage is compared to a 200kHz sawtooth

waveform to produce a voltage controlled variable duty cycle

output.

A higher feedback voltage increases the error amplifier

output voltage. A higher error amplifier voltage (comparator

Micrel

inverting input) causes the comparator to detect only the

peaks of the sawtooth, reducing the duty cycle of the com-

parator output. A lower feedback voltage increases the duty

cycle. The MIC4681 uses a voltage-mode control architec-

ture.

Output Switching

When the internal switch is ON, an increasing current flows

from the supply VIN, through external storage inductor L1, to

output capacitor COUT and the load. Energy is stored in the

inductor as the current increases with time.

When the internal switch is turned OFF, the collapse of the

magnetic field in L1 forces current to flow through fast

recovery diode D1, charging COUT.

Output Capacitor

External output capacitor COUT provides stabilization and

reduces ripple. See âBode Plotsâ for additional information.

Return Paths

During the ON portion of the cycle, the output capacitor and

load currents return to the supply ground. During the OFF

portion of the cycle, current is being supplied to the output

capacitor and load by storage inductor L1, which means that

D1 is part of the high-current return path.

Applications Information

Adjustable Regulators

Adjustable regulators require a 1.23V feedback signal. Rec-

ommended voltage-divider resistor values for common out-

put voltages are included in Figure 1b.

For other voltages, the resistor values can be determined

using the following formulas:

VIN

SHUTDOWN

ENABLE

CIN

MIC4681BM

2 IN

SW 3

1 SHDN

FB 4

VOUT

COUT

VOUT

VREF

ï£«ï£ï£¬

+ 1ï£¶ï£¸ï£·

GND

5â8

ï£«

ï£ï£¬

VOUT

VREF

ï£¶

â 1ï£¸ï£·

VREF = 1.23V

Figure 1a. Adjustable Regulator Circuit

VOUT R1* R2*

CIN

1.8V 3.01k 6.49k

2.5V 3.01k 2.94k

3.3V 3.01k 1.78k

5.0V 3.01k 976â¦

22ÂµF 35V

Vishay Dale

593D226X035E2T

6.0V 3.01k 787â¦

* All resistors 1%

** shielded magnetics for low RFI applications

*** Vishay-Diode, Inc. (805) 446-4800

3A 40V Schottky

68ÂµH 2.0A

B340A Vishay-Diode, Inc.***

Coiltronics UP3B-680

SS36 General Semiconductor Sumida CDRH127-680MC**

COUT

220ÂµF 10V

Vishay Dale

594D227X0010D2

Figure 1b. Recommended Components for Common Ouput Voltages

April 2005

MIC4681

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