ADP3050-EVAL Analog Devices Inc, ADP3050-EVAL Datasheet - Page 10

ADP3050-EVAL

Manufacturer Part Number

ADP3050-EVAL

Description

BOARD EVAL FOR ADP3050

Manufacturer

Analog Devices Inc

Datasheet

1.ADP3050ARZ-R7.pdf (24 pages)

Specifications of ADP3050-EVAL

Main Purpose

DC/DC, Step Down

Voltage - Input

3.6 ~ 30V

Regulator Topology

Buck

Board Type

Fully Populated

Utilized Ic / Part

ADP3050

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Current - Output

Voltage - Output

Power - Output

Frequency - Switching

Outputs And Type

Lead Free Status / RoHS Status

Not Compliant, Contains lead / RoHS non-compliant

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ADP3050

THEORY OF OPERATION

The ADP3050 is a fixed frequency, current mode buck regulator.

Current mode systems provide excellent transient response, and

are much easier to compensate than voltage mode systems (refer to

Figure 1). At the beginning of each clock cycle, the oscillator

sets the latch, turning on the power switch. The signal at the

noninverting input of the comparator is a replica of the switch

current (summed with the oscillator ramp). When this signal

reaches the appropriate level set by the output of the error amplifier,

the comparator resets the latch and turns off the power switch. In

this manner, the error amplifier sets the correct current trip

level to keep the output in regulation. If the error amplifier

output increases, more current is delivered to the output; if it

decreases, less current is delivered to the output.

The current sense amplifier provides a signal proportional to

switch current to both the comparator and to a cycle-by-cycle

current limit. If the current limit is exceeded, the latch is reset,

turning the switch off until the beginning of the next clock

cycle. The ADP3050 has a foldback current limit that reduces

the switching frequency under fault conditions to reduce stress

to the IC and to the external components.

Most of the control circuitry is biased from the 2.5 V internal

regulator. When the BIAS pin is left open, or when the voltage

at this pin is less than 2.7 V, all of the operating current for the

ADP3050 is drawn from the input supply. When the BIAS pin is

above 2.7 V, the majority of the operating current is drawn from

this pin (usually tied to the low voltage output of the regulator)

instead of from the higher voltage input supply. This can provide

substantial efficiency improvements at light load conditions,

especially for systems where the input voltage is much higher

than the output voltage.

The ADP3050 uses a special drive stage allowing the power

switch to saturate. An external diode and capacitor provide a

boosted voltage to the drive stage that is higher than the input

supply voltage. Overall efficiency is dramatically improved by

using this type of saturating drive stage.

Pulling the SD pin below 0.4 V puts the device in a low power

mode, shutting off all internal circuitry and reducing the supply

current to under 20 μA.

Rev. B | Page 10 of 24

SETTING THE OUTPUT VOLTAGE

The output of the adjustable version (ADP3050AR and

ADP3050ARZ) can be set to any voltage between 1.25 V and 12 V

by connecting a resistor divider to the FB pin as shown in

Figure 25.

1N5817

1N5818

GND

12V

1N4148

33µH

Figure 25. Adjustable Output Application Circuit

0.22µF

⎛

⎜ ⎜

⎝

Figure 24. Typical Application Circuit

1N4148

22µF

22µH

220nF

OUT

2×10µF

CERAMIC

2 .

21.5kΩ

20kΩ

−

⎞

⎟ ⎟

⎠

0.01µF

ADP3050-3.3

SWITCH

BOOST

BIAS

SWITCH

BOOST

BIAS

ADP3050

COMP

GND

COMP

GND

4kΩ

7.5kΩ

+ C4

100µF

1nF

+ C4

3.3V

4.7nF

2×22µF

CERAMIC

2.5V

OUT

(1)

ADP3050-EVAL Analog Devices Inc, ADP3050-EVAL Datasheet - Page 10

ADP3050-EVAL

Specifications of ADP3050-EVAL

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