MAX8588ETM+T Maxim Integrated Products, MAX8588ETM+T Datasheet - Page 28

MAX8588ETM+T

Manufacturer Part Number

MAX8588ETM+T

Description

IC PMIC HI EFF LOW IQ 48-TQFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX8588ETMT.pdf (31 pages)

Specifications of MAX8588ETM+T

Applications

Processor

Voltage - Supply

2.6 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

48-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Supply

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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High-Efficiency, Low-I

Dynamic Core for PDAs and Smartphones

Figure 8. BKBT connection when no backup battery is used, or

if an alternate backup scheme, not involving the MAX8588, is

used.

Figure 9. A 1-cell rechargeable Li+ battery provides more back-

up power when a primary cell is insufficient. The cell is charged

to 3.3V when V1 is active. Alternately, the battery can be

charged from IN if the voltages are appropriate for the cell type.

Figure 10. A 1-cell NiMH battery can provide backup by boost-

ing with a low-power DC-DC converter. A series resistor-diode

trickle charges the battery when the main power is on.

BACKUP BATTERY

RECHARGEABLE

______________________________________________________________________________________

Li+ RECHARGEABLE

POWER

BACKUP BATTERY

MAIN

1-CELL

NiMH

4.7µF

1-CELL

4.7µF

1N4148

POWER

MAIN

4.7µF

1N4148

10kΩ

BATT

GND

4.7µF

MAX1724

LQH32C 10µH

1kΩ

EZK30

1µF

MURATA

SHDN

OUT

10µF

BKBT

4.7µF

MAIN

POWER

MAX8588

3.0V

1µF

BKBT

MAX8588

PMIC with

If more backup power is needed and a primary cell has

inadequate capacity, a rechargeable lithium cell can be

accommodated as shown in Figure 9. A series resistor

and diode charge the cell when the 3.3V V1 supply is

active. In addition to biasing V7, the rechargeable bat-

tery may be required to also power other supplies.

In some systems, a NiMH battery may be desired for

backup. Usually this requires multiple cells because

the typical NiMH cell voltage is only 1.2V. By adding a

small DC-DC converter (MAX1724), the low-battery

voltage is boosted to 3V to bias BKBT (Figure 10). The

DC-DC converter’s low operating current (1.5µA typ)

allows it to remain on constantly so the 3V BKBT bias is

always present. A resistor and diode trickle charge the

NiMH cell when the main power is present.

Good PC board layout is important to achieve optimal

performance. Conductors carrying discontinuous cur-

rents and any high-current path should be made as

short and wide as possible. A separate low-noise

ground plane containing the reference and signal

grounds should connect to the power-ground plane at

only one point to minimize the effects of power-ground

currents. Typically, the ground planes are best joined

right at the IC.

Keep the voltage feedback network very close to the

IC, preferably within 0.2in (5mm) of the FB_ pin. Nodes

with high dV/dt (switching nodes) should be kept as

small as possible and should be routed away from

high-impedance nodes such as FB_.

Rechargeable NiMH Backup Battery

PC Board Layout and Routing

Rechargeable Li+ Backup Battery

MAX8588ETM+T Maxim Integrated Products, MAX8588ETM+T Datasheet - Page 28

MAX8588ETM+T

Specifications of MAX8588ETM+T

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