ltc3025-2 Linear Technology Corporation, ltc3025-2 Datasheet - Page 8

ltc3025-2

Manufacturer Part Number

ltc3025-2

Description

500ma Micropower Vldo Linear Regulators Features

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3025-2.pdf (14 pages)

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LTC3025-1/LTC3025-2/

LTC3025-3/LTC3025-4

applicaTions inForMaTion

Operation (Refer to Block Diagram)

The LTC3025-X is a micropower, VLDO (very low dropout)

linear regulator which operates from input voltages as low

as 0.9V. The device provides a highly accurate output that

is capable of supplying 500mA of output current with a

typical dropout voltage of only 85mV. A single ceramic

capacitor as small as 1µF is all that is required for output

bypassing. A low reference voltage allows the LTC3025-1

output to be programmed to much lower voltages than

available in common LDOs (range of 0.4V to 3. 6V). The

LTC3025-2/LTC3025-3/LTC3025-4 have fixed outputs of

1.2V, 1.5V and 1.8V respectively, eliminating the need for

an external resistor divider.

As shown in the Block Diagram, the BIAS input supplies

the internal reference and LDO circuitry while all output

current comes directly from the IN input for high efficiency

regulation. The low quiescent supply currents I

shutdown making the LTC3025-X an ideal choice for use

in battery-powered systems.

The device includes current limit and thermal overload

protection. The fast transient response of the follower

output stage overcomes the traditional tradeoff between

dropout voltage, quiescent current and load transient

response inherent in most LDO regulator architectures.

The LTC3025-X also includes overshoot detection circuitry

which brings the output back into regulation when going

from heavy to light output loads (see Figure 1).

BIAS

OUT

20mV/DIV

= 50µA drop to I

300mA

0mA

OUT

Figure 1. LTC3025-X Transient Response

OUT

BIAS

OUT

= 1.5V

= 1.2V

= 1µF

= 3.6V

= 1µA, I

100µs/DIV

BIAS

= 0.01µA typical in

30251234 F01

= 4µA,

Adjustable Output Voltage (LTC3025-1)

The output voltage is set by the ratio of two external resis-

tors as shown in Figure 2. The device servos the output

to maintain the ADJ pin voltage at 0.4V (referenced to

ground). Thus, the current in R1 is equal to 0.4V/R1. For

good transient response, stability, and accuracy, the current

in R1 should be at least 8µA, thus the value of R1 should

be no greater than 50k. The current in R2 is the current in

R1 plus the ADJ pin bias current. Since the ADJ pin bias

current is typically <10nA, it can be ignored in the output

voltage calculation. The output voltage can be calculated

using the formula in Figure 2. Note that in shutdown the

output is turned off and the divider current will be zero

once C

The LTC3025-1 operates at a relatively high gain of

–0.7µV/mA referred to the ADJ input. Thus a load cur-

rent change of 1mA to 500mA produces a –0.35mV drop

at the ADJ input. To calculate the change referred to the

output simply multiply by the gain of the feedback network

(i. e. ,1 + R2/R1). For example, to program the output for

1.2V choose R2/R1 = 2. In this example, an output current

change of 1mA to 500mA produces –0.35mV • (1 + 2) =

1.05mV drop at the output.

Because the ADJ pin is relatively high impedance (depend-

ing on the resistor divider used), stray capacitance at this

pin should be minimized (<10pF) to prevent phase shift

in the error amplifier loop. Additionally, special attention

should be given to any stray capacitances that can couple

external signals onto the ADJ pin producing undesirable

output ripple. For optimum performance connect the ADJ

pin to R1 and R2 with a short PCB trace and minimize all

other stray capacitance to the ADJ pin.

OUT

is discharged.

Figure 2. Programming the LTC3025-1

GND

OUT

ADJ

30251234 F02

OUT

= 0.4V 1 +

( )

30251234fe

ltc3025-2 Linear Technology Corporation, ltc3025-2 Datasheet - Page 8

ltc3025-2

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