ISL9205CIRZ-T - Intersil Corporation

FN9252.2

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

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All other trademarks mentioned are the property of their respective owners.

ISL9205

Li-ion Battery Charger

The ISL9205 is an integrated single-cell Li-ion or Li-polymer

charger capable of operating at an input voltage as low as

2.5V. The low operating voltage allows the charger to work

with a variety of AC adapters.

The ISL9205 operates as a linear charger when the AC

adapter is a voltage source. The battery is charged in a

standard Li-ion charge profile, i.e. a constant current phase

followed be a constant voltage phase (CC/CV). The charge

current during the constant current phase is determined by

the external resistor connected to the IREF pin. When the

adapter output is a current-limited voltage source and the

current limit is smaller than the programmed constant

current of the IC, the ISL9205 operates as a pulse charger

where the charge current is determined by the current limit of

the AC adapter during the constant current phase. The

ISL9205 operates in a linear mode during the constant

voltage phase in both adapter cases.

The ISL9205 incorporates Thermaguard™ which protects the

IC against over temperature. If the die temperature rises

above a typical value of +100°C , the thermal foldback

function reduces the charge current to prevent further

temperature rise. The ISL9205 includes an external

temperature monitoring function (not available in some

package options). A negative temperature coefficient (NTC)

thermistor is connected between the TEMP pin and GND to

monitor the battery or ambient temperature. The ISL9205

also includes a timer to set the time reference for various

charge time limits. The timer is programmable with an

external capacitor. Two logic inputs and two open-drain logic

outputs are available for controlling the charger and

indicating the charger status. The EN pin enables the

charger, TOEN pin (available in ISL9205) enables the

timeout function so that the charge is terminated when the

preset time limits have been reached. The FAULT pin is an

open-drain output which turns on when a fault condition is

encountered. The STATUS pin is also an open-drain output

which turns on when the charger is delivering current.

Features

• Complete Charger for Single-Cell Li-ion/Polymer Batteries

• Integrated Pass Element and Current Sensor

• No External Blocking Diode Required

• Low Component Count and Cost

• 25mV Voltage Accuracy Over-Temperature and Input

Voltage Range

• 15mV Voltage Accuracy at Room Temperature

• Programmable Charge Current

• Programmable End-of-Charge Current (ISL9205)

• Charge Current Thermal Foldback for Thermal

Protection (Thermaguard™)

• Trickle Charge for Fully Discharged Batteries

• Power Presence and Charge Indications

• NTC Interface (not available in some package options)

• Less than 3µA Leakage Current off the Battery when No

Input Power Attached or Charger Disabled

• Ambient Temperature Range: -40°C to +85°C

• DFN, QFN Packages

• Pb-Free (RoHS Compliant)

Applications

• Mobile Phones

• Blue-Tooth Devices

•PDAs

• MP3 Players

• Stand-Alone Cradle or Travel Chargers

• Other Handheld Devices

Data Sheet July 28, 2010

2FN9252.2

July 28, 2010

Ordering Information

PART

NUMBER*

(Note)

PART

MARKING

TEMP.

RANGE (°C) VBAT (V) VSEN TEMP TIMEOUT

PACKAGE

(Pb-free)

PKG

DWG. #

ISL9205IRZ DLBA -40 to +85 4.2 YES YES YES 16 Ld 3x3 QFN L16.3x3B

ISL9205AIRZ DLCA -40 to +85 4.2 YES NO NO 10 Ld 3x3 DFN L10.3x3

ISL9205BIRZ DLDA -40 to +85 4.2 YES NO YES 10 Ld 3x3 DFN L10.3x3

ISL9205CIRZ DLEA -40 to +85 4.256 YES NO YES 10 Ld 3x3 DFN L10.3x3

ISL9205DIRZ DLFA -40 to +85 4.2 NO YES YES 10 Ld 3x3 DFN L10.3x3

*Add “-T” suffix for tape and reel.

NOTE: Intersil Pb-free plus anneal products employ special Pb-free material sets; molding compounds/die attach materials and 100% matte tin

plate termination finish, which are RoHS compliant and compatible with both SnPb and Pb-free soldering operations. Intersil Pb-free products are

MSL classified at Pb-free peak reflow temperatures that meet or exceed the Pb-free requirements of IPC/JEDEC J STD-020.

Pinouts

ISL9205

(16 LD QFN)

TOP VIEW

ISL9205A, ISL9205B, ISL9205C

(10 LD DFN)

TOP VIEW

ISL9205D

(10 LD DFN

TOP VIEW

VSEN

TEMP

IMIN

IREF

VIN

FAULT

STATUS

TIME

GND

TOEN

V2P8

VIN

VBAT

VSEN

IREF

V2P8

VIN

FAULT

STATUS

TIME

GND

VBAT

TEMP

IREF

V2P8

VIN

FAULT

STATUS

TIME

GND

ISL9205

3FN9252.2

July 28, 2010

Typical Applications

For 3x3 QFN Package Option

For 3x3 DFN Package Option

V2P8

GND

VBAT

IREF

VIN5V WALL

ADAPTER

PACK

IMIN

TEMP

TIME

V2P8

1µF 1kΩ

1µF

RIREF

100kΩ

CTIME

15nF

RIMIN

100kΩ

1kΩ

BATTERY

VBAT

FAULT

STATUS

TOEN

VIN

ISL9205IRZ

VSEN

V2P8

GND

VBAT

IREF

FAULT

VIN5V WALL

ADAPTER

PACK

STATUS

TIME

1µF

1kΩ

1µF

RIREF

100kΩ

CTIME

15nF

VSEN

1kΩ

BATTERY

ISL9205AIRZ

ISL9205

4FN9252.2

July 28, 2010

Pin Description

VIN (Pin 1, 15, 16 for ISL9205; Pin 1 for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

VIN is the input power source. Connect to a wall adapter.

FAULT (Pin 2)

FAULT is an open-drain output indicating fault status. This

pin is pulled to LOW under any fault condition. When a fault

condition occurs, the time counter will be reset. When the

charger is disabled, the FAULT pin outputs high impedance.

STATUS (Pin 3)

STATUS is an open-drain output indicating charging and

inhibit states. The STATUS pin is pulled LOW when the

charger is charging a battery. It will be turned into high

impedance when the charge current drops to IMIN. This high

impedance state will be latched until a recharge cycle or a

new charge cycle starts. When the charger is disabled, the

STATUS pin outputs high impedance.

TIME (Pin 4)

The TIME pin determines the oscillation period by

connecting a timing capacitor between this pin and GND.

The oscillator also provides a time reference for the charger.

GND (Pin 5)

GND is the connection to system ground.

TOEN (Pin 6 for ISL9205; N/A for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

TOEN is the TIMEOUT enable input pin. Pulling this pin to

LOW disables the TIMEOUT charge-time limit for the fast

charge modes. Leaving this pin HIGH or floating enables the

TIMEOUT limit. There is an internal 400kΩ pull-up resistor at

this pin.

EN (Pin 7 for ISL9205; Pin 6 for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

EN is the enable logic input. Connect the EN pin to LOW to

disable the charger or leave it floating to enable the charger.

There is an internal 400kΩ pull-up resistor at this pin.

V2P8 (Pin 8 for ISL9205; Pin 7 for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

This is a 2.8V reference voltage output. This pin provides a

2.8V voltage source when the input voltage is above the

POR threshold and outputs zero otherwise. The V2P8 pin

can be used as an indication for adapter presence.

IREF (Pin 9 for ISL9205; Pin 8 for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

This is the charge current programming and monitoring pin.

Connect a resistor between this pin and GND to set the

charge current during the constant current phase, as given

by Equation 1:

Where RIREF is in kΩ.

IMIN (Pin 10 for ISL9205; N/A for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

IMIN is the end-of-charge (EOC) current programming pin.

Connect a resistor between this pin and GND to set the EOC

current, as given by Equation 2:

Where RIMIN is in kΩ.

TEMP (Pin 11 for ISL9205; Pin 9 for ISL9205D; N/A

for ISL9205A, ISL9205B and ISL9205C)

TEMP is the input for an external NTC thermistor. The TEMP

pin is also used for battery removal detection.

VSEN (Pin 12 ISL9205; Pin 9 for ISL9205A,

ISL9205B and ISL9205; N/A for ISL9205D)

VSEN is the remote voltage sense pin. Connect this pin as

close to the battery positive terminal as possible. If the

VSEN pin is left floating, its voltage drops to zero volt and the

charger operates in trickle mode.

VBAT (Pin 13, 14 for ISL9205; Pin 10 for ISL9205A,

ISL9205B, ISL9205C and ISL9205D)

VBAT is the connection to the battery. Typically a 10μF

Tantalum capacitor is needed for stability when there is no

battery attached. When a battery is attached, only a 0.1μF

ceramic capacitor is required.

IREF

RIREF

----------------- A()=(EQ. 1)

IMIN

8000

RIMIN

---------------- mA()=(EQ. 2)

ISL9205

5FN9252.2

July 28, 2010

Absolute Maximum Ratings Thermal Information

Voltage Ratings for All Pins . . . . . . . . . . . . . . . . . . . . . . . -0.3V to 7V

Charge Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.0A

ESD Rating

Human Body Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2kV

Machine Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 200V

Recommended Operating Conditions

Ambient Temperature Range . . . . . . . . . . . . . . . . . . .-40°C to +85°C

Operating Supply Voltage (VIN Pin). . . . . . . . . . . . . . . 4.25V to 6.5V

Programmed Charge Current . . . . . . . . . . . . . . . . . 50mA to 900mA

Thermal Resistance θJA (°C/W) θJC (°C/W)

3x3 DFN Package (Note 1) . . . . . . . . . 48 6

3X3 QFN Package (Note 2) . . . . . . . . 54 6

Maximum Junction Temperature (Plastic Package). . . . . . . . +150°C

Maximum Storage Temperature Range . . . . . . . . .-65°C to +150°C

Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . +300°C

CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the

device at these or any other conditions above those indicated in the operational sections of this specification is not implied.

The 150°C maximum junction temperature is for information purposes only. In reality, the current foldback feature will prevent the junction from rising above a worst case

temperature of 125°C.

NOTES:

1. θJA is measured in free air with the component mounted on a high effective thermal conductivity test board with "direct attach" features. See

Tech Brief TB379.

2. For θJC, the “case temp” location is the center of the exposed metal pad on the package underside.

Electrical Specifications Typical Values Are Tested at VIN = 5V and the Ambient Temperature at +25°C. All Maximum and Minimum

Values Are Guaranteed Under the Recommended Operating Supply Voltage Range and Ambient Temperature

Range, Unless Otherwise Noted.

PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITS

POWER-ON RESET

Rising POR Threshold VPOR VBAT = 3.0V, use V2P8 pin to indicate the

comparator output.

3.2 3.6 3.9 V

Falling POR Threshold VPOR 2.25 2.5 2.7 V

VIN-BAT OFFSET VOLTAGE

Rising Edge VOS VBAT = 4.2V, IBAT = 20mA, use STATUS pin to

indicate the comparator output (Note 3)

45 80 100 mV

STANDBY CURRENT

BAT Pin Sink Current ISTANDBY Charger disabled or the input is floating - - 3.3 μA

VIN Pin Supply Current IVIN Charger disabled - 150 250 μA

VIN Pin Supply Current IVIN Charger enabled - 1.0 - mA

VOLTAGE REGULATION

Output Voltage (Except ISL9205C) VCH Tested at 50mA load, 5V input, and +25°C 4.185 4.20 4.215 V

VCH -40°C < TA < +85°C, 4.3V < VIN < 6.5V 4.175 4.20 4.225 V

Output Voltage (ISL9205C) VCH Tested at 50mA load, 5V input, and +25°C 4.241 4.256 4.271 V

VCH -40°C < TA < +85°C, 4.3V < VIN < 6.5V 4.231 4.256 4.281 V

PMOS ON-Resistance rDS(ON) VBAT = 4.0V, charge current = 0.35A - 500 - mΩ

CHARGE CURRENT (Note 4)

Constant Charge Current ICC RIREF = 100kΩ, VBAT = 3.0V to 4.0V 760 800 840 mA

Trickle Charge Current ITRK RIREF = 100kΩ, VBAT = 0V to 2.5V 64 80 96 mA

End-of-Charge Current IMIN RIMIN = 100kΩ (ISL9205) 70 80 90 mA

End-of-Charge Current IMIN RIREF = 100kΩ (ISL9205A, ISL9205B,

ISL9205C and ISL9205D)

70 80 90 mA

V2P8 PIN OUTPUT

V2P8 Pin Output Voltage VV2P8 Load current less than 1mA 2.8 2.9 3.0 V

ISL9205

6FN9252.2

July 28, 2010

CHARGE THRESHOLDS

Preconditioning Charge Threshold Voltage VMIN 2.7 2.8 2.9 V

Preconditioning Voltage Hysteresis VMINHYS 50 100 150 mV

Recharge Threshold VRCH Referenced to the charger output voltage VCH -225 -150 -70 mV

Recharge Threshold Hysteresis VRCHHYS -50-mV

INTERNAL TEMPERATURE MONITORING

Charge Current Foldback Threshold TFOLD -110- °C

AMBIENT TEMPERATURE MONITORING (ISL9205 and ISL9205D)

High Voltage Threshold V2P8 = 3.0V 1.98 2.0 2.02 V

High Voltage Threshold Hysteresis V2P8 = 3.0V - 1.9 - V

Low Voltage Threshold V2P8 = 3.0V 0.99 1 1.01 V

Low Voltage Threshold Hysteresis V2P8 = 3.0V - 1.1 - V

OSCILLATOR

Oscillation Period tOSC CTIME = 15nF 2.7 3.0 3.3 ms

LOGIC INPUT AND OUTPUTS

EN/TOEN Pin Logic Input High 1.3 - - V

EN/TOEN Pin Logic Input Low --0.5V

EN/TOEN Pin Internal Pull Up Resistance 200 400 600 kΩ

STATUS/FAULT Output Voltage When On 10mA current - - 0.8 V

STATUS/FAULT Leakage Current VSTATUS = 6.5V - - 1 μA

NOTE:

3. The 4.2V VBAT is selected so that the STATUS output can be used as the indication for the offset comparator output indication. If the VBAT is

lower than the POR threshold, no output pin can be used for indication.

4. The charge current can be affected by the thermal foldback function if the IC under the test setup cannot dissipate the heat.

Electrical Specifications Typical Values Are Tested at VIN = 5V and the Ambient Temperature at +25°C. All Maximum and Minimum

Values Are Guaranteed Under the Recommended Operating Supply Voltage Range and Ambient Temperature

Range, Unless Otherwise Noted. (Continued)

PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITS

ISL9205

7FN9252.2

July 28, 2010

Typical Operating Performance The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25°C,

RIREF = RIMIN = 100kΩ, VBAT = 3.7V, Unless Otherwise Noted

FIGURE 1. CHARGER OUTPUT VOLTAGE vs CHARGE

CURRENT

FIGURE 2. CHARGER OUTPUT VOLTAGE vs TEMPERATURE

FIGURE 3. CHARGER OUTPUT VOLTAGE vs INPUT

VOLTAGE CHARGE CURRENT IS 50mA

FIGURE 4. CHARGE CURRENT vs OUTPUT VOLTAGE

FIGURE 5. CHARGE CURRENT vs AMBIENT TEMPERATURE FIGURE 6. CHARGE CURRENT vs INPUT VOLTAGE

4.190

4.194

4.202

4.206

4.210

0.0 0.2 0.4 0.6 0.8 1.0

CHARGE CURRENT (mA)

VBAT (V)

4.198

4.180

4.186

4.192

4.198

4.204

4.210

0 20 40 60 80 100 120

TEMPERATURE (°C)

VBAT (V)

CHARGE CURRENT = 50 mA

4.00

4.06

4.12

4.18

4.24

4.30

4.2 4.5 4.8 5.1 5.4 6.0

VIN (V)

VBAT (V)

IBAT = 50mA

5.7

0.60

0.66

0.72

0.78

0.84

0.90

0.96

3.0 3.2 3.4 3.6 3.8 4.0 4.2

VBAT (V)

IBAT (A)

0.30

0.44

0.58

0.72

0.86

1.00

0 20 40 80 100 120

TEMPERATURE (°C)

CHARGE CURRENT (mA)

0.60

0.66

0.72

0.78

0.84

0.90

0.96

4.2 4.6 5.0 5.4 5.8 6.2

VIN (V)

IBAT (A)

ISL9205

8FN9252.2

July 28, 2010

FIGURE 7. V2P8 OUTPUT vs INPUT VOLTAGE FIGURE 8. V2P8 OUTPUT vs ITS LOAD CURRENT

FIGURE 9. rDS(ON) vs TEMPERATURE AT 3.7V OUTPUT FIGURE 10. rDS(ON) vs OUTPUT VOLTAGE USING CURRENT

LIMITED ADAPTERS

FIGURE 11. INPUT QUIESCENT CURRENT vs INPUT

VOLTAGE

FIGURE 12. INPUT QUIESCENT CURRENT vs TEMPERATURE

Typical Operating Performance The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25°C,

RIREF = RIMIN = 100kΩ, VBAT = 3.7V, Unless Otherwise Noted (Continued)

2.80

2.82

2.84

2.86

2.88

2.90

3.5 4.1 4.7 5.3 5.9 6.5

VIN (V)

V2P8 (V)

2.90

2.80

2.82

2.84

2.86

2.88

2.90

0.0 2.0 4.0 6.0 8.0 10.0

V2P8 LOAD CURRENT (mA)

VIN (V)

2.88

0.5

0.6

0.7

0.8

0.9

1.0

020406080100

TEMPERATURE (°C)

rDS(ON ) (Ω)

0.60

0.72

0.84

0.96

1.08

1.20

2.9 3.1 3.3 3.7 3.9 4.1

VBAT (V)

rDS(ON) (Ω)

3.5

0.00

0.10

0.20

0.30

0.40

0.50

3.0 3.6 4.2 5.4 6.0

VIN (V)

Iq (mA)

ENABLED

DISABLED

4.8

0.10

0.20

0.30

0.40

0.50

0.60

0.70

0.80

0 20 40 60 80 100

TEMPERATURE (°C)

Iq (mA)

DISABLED

ENABLED

120

ISL9205

9FN9252.2

July 28, 2010

Functional Block Diagram

Theory of Operation

The ISL9205 is an integrated charger for single-cell Li-ion or

Li-polymer batteries. The ISL9205 is capable of operating in

two operation modes, linear charge mode and pulse charge

mode. The ISL9205 functions as a traditional linear charger

when powered with a voltage source adapter. When

powered with a current-limited adapter, the charger functions

as a pulse charger by fully turning on the pass element and

the power dissipation is hence drastically reduced.

Constant Current Phase

The ISL9205 starts the charge at a constant current (CC)

phase. The charge current is regulated to fast charge the

battery before the final voltage has been reached. The

charge current is programmable with the IREF pin and has

two operation modes: trickle mode and constant current

mode, depending on the battery voltage. When the battery

voltage is lower than 2.8V, the charger operates in trickle

mode where the charge current is set at 10% of the constant

current mode current. The trickle mode is for preconditioning

a deeply discharged battery. Once the battery voltage is

above the typical 2.8V threshold, the constant current (CC)

mode starts. The constant current is programmable between

50mA to 1A.

Constant Voltage Phase

When the battery reaches the final voltage, the ISL9205

switches the operation to a constant voltage (CV) phase.

The output voltage is regulated at the final voltage value.

LOGIC

STATUS

ISEN

VIN VBAT

100000:1

CURRENT

MIRROR

COUNTER

MIN

VCH

IREF

FAULT

RECHARGE

MINBAT

VRECHRG

MIN_I

ISEN

IMIN

= IR/10

CHRG

STATUS

FAULT

INPUT_OK

VPOR

TRICKLE/FAST

REFERENCES V2P8

TEMPERATURE

MONITORING

CURRENT

REFERENCES

TIME OSC

GND

VIN

VCH

VMIN

VPOR

VRECHRG

QMAIN

QSEN

RIREF

VSEN

80mV

INPUT_OK

ESD DIODE

TEMP

MONITOR

TEMP

ISL9205

10 FN9252.2

July 28, 2010

During the constant voltage phase, the charge current

reduces gradually as the cell voltage rises.

End-of-Charge and Recharge

As the charge current reaches the EOC (end-of-charge)

current threshold during the constant voltage phase, the

STATUS pin open-drain FET is turned off to indicate an EOC

condition. The EOC current is programmable for the

ISL9205 by connecting a resistor from the IMIN pin to GND.

For others, the EOC current is fixed at 10% of the

programmed constant charge current. When the STATUS

pin indicates the EOC condition, the charger will continue to

charge until the EN pin is pulled to logic LOW or the input

power has been removed. After EOC is reached, recharge

will occur when the battery voltage falls to 150mV below the

constant voltage value. The STATUS open-drain FET is

turned on when a recharge condition is met. An internal

delay is implemented at the STATUS pin for both EOC and

recharge conditions to prevent nuisance trips due to noise

and fast load current transitions. The delay time is

approximately one clock cycle (varies between 0.5 and 1.5

clock) of the internal oscillator, which is programmed by the

timer capacitor. The typical charge waveforms in Figure 13

show the complete cycle operation.

Temperature Monitoring and Thermal Foldback

In the event where the die temperature reaches the thermal

foldback threshold (+110°C typical), the charge current is

reduced accordingly to prevent further temperature rise. In

the ISL9205 and ISL9205D versions, there is an external

temperature monitoring function. A negative temperature

coefficient (NTC) thermistor can be connected between the

TEMP pin and GND to monitor the battery temperature or

ambient temperature. The hysteresis comparators internal to

the ISL9205 provide a valid temperature window centered at

the voltage of the TEMP pin, which is programmed by the

NTC and the pull-up resistor connected to the pin. When the

measured temperature is outside this window, the charger is

paused (both the charger and the timer are stopped) and a

fault indication is issued. If the thermistor is attached to the

battery, the TEMP function can be used to discover a battery

removal condition when the TEMP pin voltage is much

higher than the reference threshold.

POR

The power-on reset (POR) function monitors the supply

voltage. The POR has a rising edge threshold of 3.6V typical

and 2.5V typical for falling edge. The charger is expected to

operate when the input voltage is above the POR threshold.

After POR the charger will continue to operate for supply

voltage down to 2.5V typical. It is also required that the

supply voltage be higher than the VBAT pin voltage by a

typical 80mV for the charger to function.

Oscillator, TIMEOUT, and Charge Cycle

The ISL9205 incorporates with an oscillation circuit using an

external timing capacitor connected to the TIME pin. The

oscillator sets the limit for the maximum charge time during

the trickle mode and the fast mode (CC and CV). The

maximum charge time (TIMEOUT) for the fast mode is set

by:

TIMEOUT = 222tOSC

where the tOSC is the oscillator period. The minimum

programmable tOSC is 20μS (CTIME = 100pF). The time limit

for the trickle charge is 1/8 of the fast mode time limit. In the

ISL9205, the time-out function can be disabled by pulling the

TOEN pin to logic LOW. When TIMEOUT is disabled, the

charger will never be turned off in constant current and

constant voltage modes. For the ISL9205B and the

ISL9105D, the timeout function is always enforced. For the

ISL9105A, there is not timeout function.

A charge cycle is the time interval between the time when

the charger is enabled to the moment it is disabled. If the

battery voltage is lower than the trickle charge threshold at

the time the charger is enabled, the charger enters the trickle

mode and the timer is reset and its limit is set to 1/8 of

TIMEOUT. If the timeout function is enabled, the charger will

stop and indicate a TIMEOUT fault if the charge time is

longer than the limit. If the trickle mode completes

successfully before the time limit, the charger moves to CC

mode and the timer is reset and the time limit is set to

TIMEOUT. The charger needs to reach the EOC conditions

before the TIMEOUT interval elapsed, otherwise, a

TIMEOUT fault will be issued. The charger indicates the

EOC with the STATUS pin but does not terminate charging.

Disabling TIMEOUT with TOEN

In the ISL9205, the time-out function in fast charge state

(CC/CV) can be disabled by pulling the TOEN pin to logic

LOW. The timeout function for the trickle charge mode can

not be disabled. Note that in the ISL9205A, there is no

timeout function for both the trickle and the CC/CV intervals

whereas in the ISL9205 with TOEN set pulled to LOW, there

is no timeout for the CC/CV interval but the timeout function

for the trickle interval is still enforced.

FIGURE 13. TYPICAL CHARGE CYCLE WITH TIMEOUT

IREF

Trickle CC CV

IMIN

4.2V

TIME

2.8V

CHG

Charge

Current

Charge

Voltage

STATUS

Indication

VREC

10%IREF

ISL9205

11 FN9252.2

July 28, 2010

Indications

The ISL9205 has two open-drain status indication pins.

These two pins are FAULT and STATUS. These pins require

an external pull-up resistor to function properly. The V2P8

pin can be used as the presence of AC adapter.

Charger Disable

The EN pin allows the user to disable the charger. When the

charger is disabled, all internal circuits are shut down and

the quiescent current at the input pin is less than a typical

value of 150mA.

Remote Battery Voltage Sensing

In the ISL9205 and the ISL9205A, ISL9205B and ISL9205C

versions, a kelvin sense pin is provided for battery terminal

voltage monitoring. Thus, the IR drop due to the connection

leads and PCB traces can be eliminated, resulting a more

accurate battery voltage monitoring, especially when the

battery is located at a significant distance away from the

ISL9205. If remote sensing is not needed, the VSEN pin can

be connected to VBAT at the IC.

Applications Information

PCB Layout Guidance

The ISL9205 uses a thermally-enhanced QFN/DFN

packages that has an exposed thermal pad at the bottom

side of the package. The layout should connect as much as

possible to copper on the exposed pad. Typically the

component layer is more effective in dissipating heat. The

thermal impedance can be further reduced by using other

layers of copper connecting to the exposed pad through a

thermal via array. A minimum of four (4) such thermal vias

are recommended. Each thermal via is recommended to

have 0.3mm diameter and 0.7mm distance from other

thermal vias.

Stability Consideration

The ISL9205 should behave like a current and thermal

limited linear regulator. The charger operation is stable with

an output ceramic decoupling capacitor in the range of 1µF

to 200µF, with or without a battery connected.

Input Bypass Capacitor

Due to the inductance of the power leads of the wall adapter

or USB source, the input capacitor type must be properly

selected to prevent high voltage transient during a hot-plug

event. A tantalum capacitor is a good choice for its high

ESR, providing damping to the voltage transient. Multi-layer

ceramic capacitors, however, have a very low ESR and

hence when chosen as input capacitor, a 1Ω series resistor

must be used, as shown in the “Typical Applications” on

page 3, to provide adequate damping.

State Machine Diagram

The state machine diagram is shown in Figure 14. The

diagram starts with the Power-Off state. When the input

voltage rises above the POR threshold, the charger resets

itself. Then, if the charger is disabled, the charger stays in

the Charger Disabled state. If the charger is enabled, the

trickle charge starts. Anytime when entering the trickle

charge state, the internal TIMEOUT timer is reset. There are

two paths to exit the trickle charge, one is when the battery

voltage rises above the preconditioning charge threshold

within the 1/8 TIMEOUT interval and the other is when the

1/8 TIMEOUT interval has been elapsed before reaching the

preconditioning charge voltage threshold. When TIMEOUT

fault occurs, the charger enters the TIMEOUT fault state.

There are only two ways to exit the TIMEOUT fault state, by

toggling the EN input or re-cycling the input power. If the

charger finishes the trickle charger before the 1/8 TIMEOUT

limit, it moves to the fast charge state. When entering the

fast charge state, the TIMEOUT timer is reset as well. If the

charger hits EOC conditions before the TIMEOUT, the

charger enters Charge Compete state. The charger stays on

but the STATUS indicates EOC condition. When VBAT drops

below the recharge threshold, the STATUS pin will turn to

logic low to indicate charging again.

ISL9205

All Intersil U.S. products are manufactured, assembled and tested utilizing ISO9000 quality systems.

Intersil Corporation’s quality certifications can be viewed at www.intersil.com/design/quality

Intersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without

notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and

reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result

from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries.

For information regarding Intersil Corporation and its products, see www.intersil.com

FN9252.2

July 28, 2010

FIGURE 14. STATE MACHINE DIAGRAM

VIN

> V POR

VBAT

> VMIN BEFORE 1/8

TIMEOUT COMPLETES

VBAT > VRCH

and ICHG

< IMIN

TIMEOUT

TEMP FAULT

REMOVED

ANYTIME A TEMP

FAULT OCCURS

(EXCEPT IN

TIMEOUT FAULT)

VBAT DROPS

BELOW VMIN

VBAT < VMIN WHEN 1/8

TIMEOUT COMPLETES

TIMEOUT

CHARGER: OFF

STATUS: OFF

FAULT: ON

ENABLED

ANYTIME EN PIN

CHANGES TO

DISABLE

NOT

ENABLED POR

STATUS: OFF

FAULT: OFF

DISABLE

TO CHARGER

DISABLED

BLOCK

VBAT

< VRCH

TEMP FAULT

CHARGER: OFF

STATUS: OFF

FAULT: ON

TRICKLE

CHARGE

CHARGER: ON

STATUS: ON

FAULT: OFF

FAST CHARGE

CHARGER: ON

STATUS: ON

FAULT: OFF

CHARGE

COMPLETE

STATUS: OFF

FAULT: OFF

CHARGER

DISABLED

CHARGER: OFF

STATUS: OFF

FAULT: OFF

PWR OFF

CHARGER: OFF

STATUS: OFF

FAULT: OFF

CHARGER: OFF

CHARGER: ON

ISL9205

13 FN9252.2

July 28, 2010

ISL9205

Package Outline Drawing

L16.3x3B

16 LEAD QUAD FLAT NO-LEAD PLASTIC PACKAGE

Rev 1, 4/07

located within the zone indicated. The pin #1 indentifier may be

Unless otherwise specified, tolerance : Decimal ± 0.05

Tiebar shown (if present) is a non-functional feature.

The configuration of the pin #1 identifier is optional, but must be

between 0.15mm and 0.30mm from the terminal tip.

Dimension b applies to the metallized terminal and is measured

Dimensions in ( ) for Reference Only.

Dimensioning and tolerancing conform to AMSE Y14.5m-1994.

either a mold or mark feature.

Dimensions are in millimeters.1.

NOTES:

BOTTOM VIEW

DETAIL "X"

TYPICAL RECOMMENDED LAND PATTERN

TOP VIEW

BOTTOM VIEW

SIDE VIEW

( 2. 80 TYP )

( 1. 70 )

(4X) 0.15

( 12X 0 . 5 )

( 16X 0 . 60)

( 16X 0 . 23 )

0 . 90 ± 0.1

INDEX AREA

PIN 1

3.00

16X 0.40 ± 0.10

0 . 2 REF

0 . 00 MIN.

0 . 05 MAX.

BCMA0.10

- 0.05

BASE PLANE

0.10 C

SEE DETAIL "X"

0.08

SEATING PLANE

+ 0.07

16X 0.23

12X

1.5

0.50

PIN #1 INDEX AREA

1 .70

+ 0.10

- 0.15

14 FN9252.2

July 28, 2010

ISL9205

Package Outline Drawing

L10.3x3

10 LEAD DUAL FLAT PACKAGE (DFN)

Rev 6, 09/09

located within the zone indicated. The pin #1 indentifier may be

Unless otherwise specified, tolerance : Decimal ± 0.05

Tiebar shown (if present) is a non-functional feature.

The configuration of the pin #1 identifier is optional, but must be

between 0.18mm and 0.30mm from the terminal tip.

Lead width applies to the metallized terminal and is measured

Dimensions in ( ) for Reference Only.

Dimensioning and tolerancing conform to AMSE Y14.5m-1994.

either a mold or mark feature.

Dimensions are in millimeters.1.

NOTES:

BOTTOM VIEW

DETAIL "X"

SIDE VIEW

TYPICAL RECOMMENDED LAND PATTERN

TOP VIEW

(4X) 0.10

INDEX AREA

PIN 1

PIN #1 INDEX AREA

SEATING PLANE

BASE PLANE

0.08

SEE DETAIL "X"

0.10 C

PACKAGE

1.00

0.20

8x 0.50

2.00

3.00

(10x 0.23)

(8x 0.50)

2.00

1.60

(10 x 0.55)

3.00

0.05

0.20 REF

10 x 0.23

10x 0.35

1.60

OUTLINE

MAX

(4X) 0.10 AB

0.415

0.23

0.35

0.200