ISL9209IRZ-T Intersil, ISL9209IRZ-T Datasheet - Page 9

ISL9209IRZ-T

Manufacturer Part Number

ISL9209IRZ-T

Description

IC SAFETY SYSTEM CHARGER 12-TDFN

Manufacturer

Intersil

Datasheet

1.ISL9209IRZ.pdf (11 pages)

Specifications of ISL9209IRZ-T

Function

Battery Monitor

Battery Type

Lithium-Ion (Li-Ion)

Voltage - Supply

4.3 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

12-TDFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The R

battery terminal, in case the ISL9209 fails. The

recommended value should be between 200kΩ to 1MΩ.

With 200kΩ resistance, the worst case current flowing from

the VB pin to the charger output is,

(30V - 4.2V)/200kΩ = 130μA,

assuming the VB pin voltage is 30V under a failure mode

and the battery voltage is 4.2V. Such a small current can be

easily absorbed by the bias current of other components in

the handheld system. Increasing the R

worst case current, but at the same time increases the error

for the 4.4V battery OVP threshold.

The error of the battery OVP threshold is the original

accuracy at the VB pin given in the Electrical Specifications

plus the voltage built across the R

current. The VB pin leakage current is less than 20nA, as

given in the Electrical Specification. With the 200kΩ resistor,

the worst-case additional error is 4mV and with a 1MΩ

resistor, the worst-case additional error is 20mV.

Interfacing to MCU

The ISL9209 has the enable (EN) and the warning (WRN)

digital signals that can be interfaced to a microcontroller unit

(MCU). Both signals can be left floating if not used. When

interfacing to an MCU, it is highly recommended to insert a

resistor between the ISL9209 signal pin and the MCU GPIO

pin, as shown in Figure 24. The resistor creates an isolation

to limit the current, in case a high voltage shows up at the

ISL9209 pins under a failure mode. The recommended

resistance ranges from 10kΩ to 100kΩ. The selection of the

should be selected so that the ISL9209 EN pin voltage is

above the disable threshold when the GPIO output of the

MCU is high.

1000

is dependent on the IO voltage (VIO) of the MCU. R

Selection

FIGURE 23. LITHIUM-SAFE OPERATING REGIONS

prevents a large current from the VB pin to the

ISL9209

LIMITS

ISL6292C

LIMITS

BATTERY VOLTAGE (V)

by the VB pin leakage

value reduces the

ISL9209

Capacitor Selection

The input capacitor (C1 in the Typical Application Circuit) is

for decoupling. Higher value reduces the voltage drop or the

over shoot during transients.

Two scenarios can cause the input voltage over shoot. The

first one is when the AC adapter is inserted live (hot

insertion) and the second one is when the current in the

power PFET of the ISL9209 has a step-down change.

Figure 25 shows an equivalent circuit for the ISL9209 input.

The cable between the AC/DC converter output and the

handheld system input has a parasitic inductor. The parasitic

resistor is the lumped sum of various components, such as

the cable, the adapter output capacitor ESR, the connector

contact resistance, and so on.

During the load current step-down transient, the energy

stored in the parasitic inductor is used to charge the input

decoupling capacitor C2. The ISL9209 is designed to turn off

the power PFET slowly during the OCP, the battery OVP

event, and when the device is disabled via the EN pin.

Because of such design, the input over shoot during those

events is not significant. During an input OVP, however, the

PFET is turned in less than 1µs and can lead to significant

over shoot. Higher capacitance reduces this type of over

shoot.

FIGURE 25. EQUIVALENT CIRCUIT FOR THE ISL9209 INPUT

ISL9209

AC/DC

FIGURE 24. DIGITAL SIGNAL INTERFACE BETWEEN ISL9209

ADAPTER

AND MCU

WRN

CABLE

WRN

VIO

HANDHELD SYSTEM

April 25, 2006

ISL9209

MCU

FN6274.0

ISL9209IRZ-T Intersil, ISL9209IRZ-T Datasheet - Page 9

ISL9209IRZ-T

Specifications of ISL9209IRZ-T

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