MAX8900BEWV+T Maxim Integrated Products, MAX8900BEWV+T Datasheet - Page 29

MAX8900BEWV+T

Manufacturer Part Number

MAX8900BEWV+T

Description

IC LI-ION/POLY BATT CHRGR 30WLP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX8900AEWVT.pdf (35 pages)

Specifications of MAX8900BEWV+T

Function

Battery Monitor

Battery Type

Lithium-Ion (Li-Ion), Lithium-Polymer (Li-Pol)

Voltage - Supply

3.4 V ~ 8.7 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

30-WLP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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If the input voltage approaches the BAT voltage during

fast-charge constant current state, the maximum current

is no longer limited by the current loop, but by the drop-

out resistance. The total dropout resistance is:

A low R

Choose the nominal BAT capacitance to be 2.2FF. The

BAT capacitor is required to keep the BAT voltage ripple

small and to ensure regulation loop stability. The BAT

capacitor must have low impedance at the switching

frequency. Ceramic capacitors with X5R or X7R dielectric

are highly recommended due to their small size, low ESR,

and small temperature coefficients. For optimum load-

transient performance and very low output voltage ripple,

the BAT capacitor value can be increased above 2.2FF.

As the case sizes of ceramic surface-mount capaci-

tors decreases, their capacitance vs. DC bias voltage

characteristic becomes poor. Due to this characteristic,

it is possible for 0603 capacitors to perform well while

0402 capacitors of the same value perform poorly. The

MAX8900_ require a nominal BAT capacitance of 2.2FF,

however, after initial tolerance, bias voltage, aging, and

temperature derating, the capacitance must be greater

than 1.5FF. With the capacitor technology that is available

at the time the MAX8900_ was released to production, the

BAT capacitance is best achieved with a single ceramic

capacitor (X5R or X7R) in an 0603 or 0805 case size. The

capacitor voltage ratings should be 6.3V or greater.

Figure 13. Calculated Fast-Charge Current vs. Dropout Voltage

Rating and JEITA Battery Temperature Monitoring

DROPOUT

1.2A Switch-Mode Li+ Chargers with ±22V Input

SNS

is required to maximize performance.

DROPOUT

heavily depends upon the inductor ESR (R

1.4

1.2

1.0

0.8

0.6

0.4

0.2

= 0.120I + 0.100I + R

CALCULATED FAST-CHARGE CURRENT

= 40mI

= R

0.2

vs. DROPOUT VOLTAGE

IN2INBP

0.4

= 300mI

- V

BAT

+ R

0.6

(V)

BAT Capacitor

0.8

= 1200mA

+ 0.040I

= 500mA

+ R

1.0

Choose the INBP capacitance (C

Larger values of C

DC-DC step-down converter, but they cause a larger IN to

INBP inrush current when the input adapter is connected.

To limit the IN inrush current (I

(see the Absolute Maximum Ratings section), limit C

by the maximum input voltage slew rate (V

or input power source during switch-mode operation and

reduces switching noise in the MAX8900_. The impedance

of the input capacitor at the switching frequency should be

very low. Ceramic capacitors with X5R or X7R dielectric are

highly recommended due to their small size, low ESR, and

small temperature coefficients. For optimum noise immunity

and low input voltage ripple, the input capacitor value can

be increased. To fully utilize the Q22V input capability of the

MAX8900_, the INBP capacitor voltage rating must be 25V

or greater. Note that if V

at the V

INBP). Because V

use a polarized capacitor (Maxim recommends a ceramic

capacitor).

INBP is a critical discontinuous current path that requires

careful bypassing. In the PCB layout, place C

close as possible to the power pins (INBP and PGND)

to minimize parasitic inductance. If making connections

to the INBP capacitor through vias, ensure that the vias

are rated for the expected input current so they do not

contribute excess inductance and resistance between the

bypass capacitor and the power pins. The expected INBP

current is the same as the I

section). See the PCB Layout section for more details.

The input capacitor must meet the input ripple current

requirement imposed by the step-down converter. Ceramic

capacitors are preferred due to their low ESR and resilience

to surge currents. Choose the INBP capacitor so that its tem-

perature rise due to ripple-current does not exceed approxi-

mately T

mum input ripple current is half of the output current. This

maximum input ripple current occurs when the step-down

converter operates as 50% duty cycle (V

The minimum IN capacitor (C

rating of 25V or greater. Note that although the MAX8900_

needs only 0.47FF, larger capacitors can be used. Some

specifications from USB-IF require a 2.2FF capacitor to

have proper handshaking during OTG operation. The BST

INBP

< 2.4A/V

reduces the current peaks drawn from the battery

BAT

= +10NC. For a step-down regulator, the maxi-

potential (i.e., a -20V at IN does not pull down

INSR

INBP

never goes negative, it is possible to

improve the decoupling for the

falls below V

SAT

(see the Inductor Selection

) is 0.47FF with a voltage

) to the 2.4A maximum

Other Capacitors

INBP

INBP Capacitor

BAT

) to be 0.47FF.

= 2 x V

, V

INBP

INSR

BAT

) on IN:

INBP

remains

INBP

MAX8900BEWV+T Maxim Integrated Products, MAX8900BEWV+T Datasheet - Page 29

MAX8900BEWV+T

Specifications of MAX8900BEWV+T

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