ADP1111AN-12 Analog Devices Inc, ADP1111AN-12 Datasheet - Page 6

ADP1111AN-12

Manufacturer Part Number

ADP1111AN-12

Description

IC MULTI CONFIG 12V .2A 8DIP

Manufacturer

Analog Devices Inc

Type

Step-Down (Buck), Step-Up (Boost), Invertingr

Datasheet

1.ADP1111ANZ-5.pdf (15 pages)

Specifications of ADP1111AN-12

Rohs Status

RoHS non-compliant

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

12V

Current - Output

200mA

Frequency - Switching

72kHz

Voltage - Input

2 ~ 30 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Through Hole

Package / Case

8-DIP (0.300", 7.62mm)

Power - Output

500mW

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ADP1111

THEORY OF OPERATION

The ADP1111 is a flexible, low-power, switch-mode power

supply (SMPS) controller. The regulated output voltage can be

greater than the input voltage (boost or step-up mode) or less

than the input (buck or step-down mode). This device uses a

gated-oscillator technique to provide very high performance

with low quiescent current.

A functional block diagram of the ADP1111 is shown on

the first page of this data sheet. The internal 1.25 V reference is

connected to one input of the comparator, while the other input

is externally connected (via the FB pin) to a feedback network

connected to the regulated output. When the voltage at the FB

pin falls below 1.25 V, the 72 kHz oscillator turns on. A driver

amplifier provides base drive to the internal power switch, and

the switching action raises the output voltage. When the voltage

at the FB pin exceeds 1.25 V, the oscillator is shut off. While

the oscillator is off, the ADP1111 quiescent current is only

300 μA. The comparator includes a small amount of hysteresis,

which ensures loop stability without requiring external compo-

nents for frequency compensation.

The maximum current in the internal power switch can be set

by connecting a resistor between V

maximum current is exceeded, the switch is turned OFF. The

current limit circuitry has a time delay of about 1 μs. If an

external resistor is not used, connect I

information on I

section of this data sheet.

The ADP1111 internal oscillator provides 7 μs ON and 7 μs

OFF times that are ideal for applications where the ratio

between V

converting +3 V to + 5 V). However, wider range conversions

(such as generating +12 V from a +5 V supply) can easily be

accomplished.

An uncommitted gain block on the ADP1111 can be connected

as a low-battery detector. The inverting input of the gain block

is internally connected to the 1.25 V reference. The noninverting

input is available at the SET pin. A resistor divider, connected

between V

pin, causes the AO output to go LOW when the low battery set

point is exceeded. The AO output is an open collector NPN

transistor that can sink 300 μA.

Figure 14. Set Pin Bias Current vs. Temperature

350

300

250

200

150

100

–40

and GND with the junction connected to the SET

and V

LIM

OUT

is included in the “APPLICATIONS”

is roughly a factor of two (such as

TEMPERATURE – C

BIAS CURRENT

and the I

LIM

to V

LIM

. Further

pin. When the

–6–

The ADP1111 provides external connections for both the

collector and emitter of its internal power switch that permit

both step-up and step-down modes of operation. For the step-

up mode, the emitter (Pin SW2) is connected to GND, and the

collector (Pin SW1) drives the inductor. For step-down mode,

the emitter drives the inductor while the collector is connected

to V

The output voltage of the ADP1111 is set with two external

resistors. Three fixed-voltage models are also available:

ADP1111–3.3 (+3.3 V), ADP1111–5 (+5 V) and ADP1111–12

(+12 V). The fixed-voltage models are identical to the

ADP1111, except that laser-trimmed voltage-setting resistors

are included on the chip. On the fixed-voltage models of the

ADP1111, simply connect the feedback pin (Pin 8) directly to

the output voltage.

COMPONENT SELECTION

General Notes on Inductor Selection

When the ADP1111 internal power switch turns on, current

begins to flow in the inductor. Energy is stored in the inductor

core while the switch is on, and this stored energy is transferred

to the load when the switch turns off. Since both the collector

and the emitter of the switch transistor are accessible on the

ADP1111, the output voltage can be higher, lower, or of

opposite polarity than the input voltage.

To specify an inductor for the ADP1111, the proper values of

inductance, saturation current and dc resistance must be

determined. This process is not difficult, and specific equations

for each circuit configuration are provided in this data sheet. In

general terms, however, the inductance value must be low

enough to store the required amount of energy (when both

input voltage and switch ON time are at a minimum) but high

enough that the inductor will not saturate when both V

switch ON time are at their maximum values. The inductor

must also store enough energy to supply the load, without

saturating. Finally, the dc resistance of the inductor should be

low so that excessive power will not be wasted by heating the

windings. For most ADP1111 applications, an inductor of

15 μH to 100 μH with a saturation current rating of 300 mA to

1 A and dc resistance <0.4 Ω is suitable. Ferrite-core inductors

that meet these specifications are available in small, surface-

mount packages.

To minimize Electro-Magnetic Interference (EMI), a toroid or

pot-core type inductor is recommended. Rod-core inductors are

a lower-cost alternative if EMI is not a problem.

CALCULATING THE INDUCTOR VALUE

Selecting the proper inductor value is a simple three step

process:

1. Define the operating parameters: minimum input voltage,

2. Select the appropriate conversion topology (step-up, step-

3. Calculate the inductor value using the equations in the

maximum input voltage, output voltage and output current.

down, or inverting).

following sections.

REV. 0

and

ADP1111AN-12 Analog Devices Inc, ADP1111AN-12 Datasheet - Page 6

ADP1111AN-12

Specifications of ADP1111AN-12

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