ADP5023CP-EVALZ(RevA) View Datasheet(PDF) - Analog Devices

Part Name

Description

Manufacturer

ADP5023CP-EVALZ
(Rev.:RevA)

Dual 3 MHz, 800 mA Buck Regulators with One 300 mA LDO

Analog Devices 

ADP5023

Data Sheet

The peak-to-peak output voltage ripple for the selected output

capacitor and inductor values is calculated using the following

equation:

( ) VRIPPLE

=

8×

I RIPPLE

f SW × COUT

≈

VIN

2π × f SW 2 × L × COUT

Capacitors with lower equivalent series resistance (ESR) are

preferable to guarantee low output voltage ripple, as shown in

the following equation:

ESRCOUT

≤

VRIPPLE

I RIPPLE

The effective capacitance needed for stability, which includes

temperature and dc bias effects, is a minimum of 7 µF and a

maximum of 40 µF.

The buck regulators require 10 µF output capacitors to guaran-

tee stability and response to rapid load variations and to transition

into and out of the PWM/PSM modes. A list of suggested capaci-

tors is shown in Table 9. In certain applications where one or

both buck regulator powers a processor, the operating state is

known because it is controlled by software. In this condition,

the processor can drive the MODE pin according to the operating

state; consequently, it is possible to reduce the output capacitor

from 10 µF to 4.7 µF because the regulator does not expect a

large load variation when working in PSM mode (see Figure 50).

Input Capacitor

Higher value input capacitors help to reduce the input voltage

ripple and improve transient response. Maximum input

capacitor current is calculated using the following equation:

ICIN ≥ I LOAD(MAX)

VOUT (VIN − VOUT )

VIN

To minimize supply noise, place the input capacitor as close as

possible to the VINx pin of the buck. As with the output

capacitor, a low ESR capacitor is recommended.

The effective capacitance needed for stability, which includes

temperature and dc bias effects, is a minimum of 3 µF and a

maximum of 10 µF. A list of suggested capacitors is shown in

Table 10.

Table 9. Suggested 10 μF Capacitors

Vendor

Murata

TDK

Panasonic

Type

X5R

X5R

X5R

Model

GRM188R60J106

C1608JB0J106K

ECJ1VB0J106M

Case

Size

0603

0603

0603

Voltage

Rating

(V)

6.3

6.3

6.3

Table 10. Suggested 4.7 μF Capacitors

Vendor

Murata

Taiyo Yuden

Panasonic

Type

X5R

X5R

X5R

Model

GRM188R60J475ME19D

JMK107BJ475

ECJ-0EB0J475M

Case

Size

0402

0402

0402

Voltage

Rating

(V)

6.3

6.3

6.3

Table 11. Suggested 1.0 μF Capacitors

Vendor

Murata

TDK

Panasonic

Taiyo

Yuden

Type

X5R

X5R

X5R

X5R

Model

GRM155B30J105K

C1005JB0J105KT

ECJ0EB0J105K

LMK105BJ105MV-F

Case

Size

0402

0402

0402

0402

Voltage

Rating

(V)

6.3

6.3

6.3

10.0

2.3V TO

5.5V

1.7V TO

5.5V

CFILT

0.1µF

C1

4.7µF

ON

OFF

AVIN

VIN1

EN1

HOUSEKEEPING

BUCK1

EN1 MODE

C2

4.7µF

ON

OFF

C3

1µF

VIN2

EN2

EN3

VIN3

MODE

BUCK2

EN2

EN3

LDO

(ANALOG)

ADP5023

AGND

VOUT1

SW1

FB1

PGND1

MODE

VOUT2

SW2

FB2

PGND2

L1 1µH

R1

R2

VOUT1 AT

800mA

C5

10µF

PWM

PSM/PWM

L2 1µH

R3

R4

VOUT2 AT

800mA

C6

10µF

VOUT3

FB3

R5

R6

VOUT3 AT

300mA

C7

1µF

Figure 50. Processor System Power Management with PSM/PWM Control

Rev. A | Page 22 of 28

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