ADP667 Analog Devices, ADP667 Datasheet - Page 4

ADP667

Manufacturer Part Number

ADP667

Description

+5 V Fixed, Adjustable Low-Dropout Linear Voltage Regulator

Manufacturer

Analog Devices

Datasheet

1.ADP667.pdf (8 pages)

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ADP667

APPLICATIONS INFORMATION

Circuit Configurations

For a fixed +5 V output the SET input should be grounded, and

no external resistors are necessary. This basic configuration is

shown in Figure 2. The input voltage can range from +5.15 V

to +16.5 V, and output currents up to 250 mA are available

provided that the maximum package power dissipation is not

exceeded.

Output Voltage Setting

If the SET input is connected to a resistor divider network, the

output voltage is set according to the following equation:

where V

The resistor values may be selected by first choosing a value for

R1 and then selecting R2 according to the following equation:

The input leakage current on SET is 10 nA maximum. This

allows large resistor values to be chosen for R1 and R2 with

little degradation in accuracy. For example, a 1 M resistor

may be selected for R1, and then R2 may be calculated accord-

ingly. The tolerance on SET is guaranteed at less than 25 mV,

so in most applications fixed resistors will be suitable.

SET

= 1.255 V.

Figure 2. Fixed +5 V Output Circuit

Figure 3. Adjustable Output Circuit

SET

OUT

SHDN

ADP667

GND

SHDN

SET

OUT

SET

OUT

SET

R1 R2

10µF

+5V

OUTPUT

OUT

–4–

Shutdown Input (SHDN)

The SHDN input allows the regulator to be switched off with a

logic level signal. This will disable the output and reduce the

current drain to a low quiescent (1 A maximum) current. This

is very useful for low power applications. Driving the SHDN in-

put to greater than 1.5 V places the part in shutdown.

If the shutdown function is not being used, then SHDN should

be connected to GND.

Low Supply or Low Battery Detection

The ADP667 contains on-chip circuitry for low power supply or

battery detection. If the voltage on the LBI pin falls below the

internal 1.255 V reference, then the open drain output LBO will

go low. The low threshold voltage may be set to any voltage

above 1.255 V by appropriate resistor divider selection.

where R3 and R4 are the resistive divider resistors and V

the desired low voltage threshold.

Since the LBI input leakage current is less than 10 nA, large val-

ues may be selected for R3 and R4 in order to minimize loading.

For example, a 6 V low threshold, may be set using 10 M for

R3 and 2.7 M for R4.

The LBO output is an open-drain output that goes low sinking

current when LBI is less than 1.255 V. A pull-up resistor of

10 k or greater may be used to obtain a logic output level with

the pull-up resistor connected to V

Figure 4. Low Battery/Supply Detect Circuit

LBI

SHDN

ADP667

GND

SET

OUT

LBO

BATT

OUT

LBI

10k

–1

10µF

LOW BATTERY

STATUS OUTPUT

OUT

BATT

REV. 0

ADP667 Analog Devices, ADP667 Datasheet - Page 4

ADP667

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