INTERSIL ISL9205DIRZ-T

ISL9205
®
Data Sheet
March 20, 2007
FN9252.0
Li-ion Battery Charger
Features
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.
• Complete Charger for Single-Cell Li-ion/Polymer Batteries
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.
• Low Component Count and Cost
The ISL9205 incorporates ThermaguardTM 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. A logic
input and two open-drain logic outputs are available for
controlling the charger and indicating the charger status. The
EN pin enables the charger. The ISL9205B, ISL9205C, and
ISL9205D incorporate a a 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.
1
• Integrated Pass Element and Current Sensor
• No External Blocking Diode Required
• 25mV Voltage Accuracy Over-Temperature and Input
Voltage Range
• 15mV Voltage Accuracy at Room Temperature
• Programmable Charge Current
• Charge Current Thermal Foldback for Thermal
Protection (ThermaguardTM)
• Trickle Charge for Fully Discharged Batteries
• Power Presence and Charge Indications
• NTC Interface (ISL9205D)
• 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 Packages
• Pb-free plus anneal available (RoHS compliant)
Applications
• Mobile Phones
• Blue-Tooth Devices
• PDAs
• MP3 Players
• Stand-Alone Cradle or Travel Chargers
• Other Handheld Devices
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
1-888-INTERSIL or 1-888-468-3774 | Intersil (and design) is a registered trademark of Intersil Americas Inc.
Copyright Intersil Americas Inc. 2007. All Rights Reserved. Thermaguard is a trademark of Intersil Americas Inc.
All other trademarks mentioned are the property of their respective owners.
ISL9205
Ordering Information
PART
NUMBER
(NOTE)
PART
MARKING
TEMP.
RANGE (°C)
VBAT (V)
VSEN
TEMP
TIMEOUT
PACKAGE
(Pb-free)
PKG
DWG. #
ISL9205AIRZ
DLCA
-40 to +85
4.2
YES
NO
NO
10 Ld 3x3 DFN L10.3x3
ISL9205AIRZ-T
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
ISL9205BIRZ-T
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
ISL9205CIRZ-T
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
ISL9205DIRZ-T
DLFA
-40 to +85
4.2
NO
YES
YES
10 Ld 3x3 DFN L10.3x3
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.
2
FN9252.0
March 20, 2007
ISL9205
Pin Description
EN (Pin 6)
VIN is the input power source. Connect to a wall adapter.
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.
FAULT (Pin 2)
V2P8 (Pin 7)
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.
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.
STATUS (Pin 3)
IREF (Pin 8)
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.
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:
TIME (Pin 4)
Where RIREF is in kΩ.
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.
TEMP (Pin 9 for ISL9205D; N/A for ISL9205A,
ISL9205B, and ISL9205C)
VIN (Pin 1)
GND (Pin 5)
GND is the connection to system ground.
80
I REF = ----------------R IREF
(A)
(EQ. 1)
TEMP is the input for an external NTC thermistor. The TEMP
pin is also used for battery removal detection.
VSEN (Pin 9 for ISL9205A,ISL9205B, and
ISL9205C; 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 0V and the
charger operates in trickle mode.
VBAT (Pin 10)
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.
3
FN9252.0
March 20, 2007
ISL9205
Pinouts
ISL9205D
(10 LD DFN)
TOP VIEW
ISL9205A, ISL9205B,
ISL9205C
(10 LD DFN
TOP VIEW)
VIN
1
10 VBAT
FAULT
2
9
VSEN
STATUS
3
8
IREF
TIME
4
7
V2P8
GND
5
6
EN
VIN
1
10 VBAT
FAULT
2
9
TEMP
STATUS
3
8
IREF
TIME
4
7
V2P8
GND
5
6
EN
Typical Applications
ISL9205A, ISL9205B AND ISL9205C
5V WALL
ADAPTER
VBAT
VIN
1 mF
C1
1 kΩ
1 kΩ
R1
R2
1Ω
1µF
C2
+
-
R3
ISL9205A
ISL9205B
ISL9205C
D1
BATTERY
PACK
D2
VSEN
FAULT
STATUS
EN
IMIN
EN
DIS
V2P8
TIME
1µF
C3
IREF
RIREF
80kΩ
GND
CTIME
15nF
ISL9205D
5V WALL
ADAPTER
VIN
1µF
C1
VBAT
1µF
1Ω
R3
1 kΩ
1 kΩ
R1
R2
C2
V2P8
+
-
BATTERY
PACK
ISL9205D
RU
D1
D2
RT
T
TEMP
FAULT
STATUS
EN
EN
DIS
IREF
IMIN
V2P8
TIME
GND
RIREF
80kΩ
1µF
C3
CTIME
15nF
4
FN9252.0
March 20, 2007
ISL9205
Absolute Maximum Ratings
Thermal Information
Voltage Ratings for All Pins . . . . . . . . . . . . . . . . . . . . . . . -0.3V to 7V
Charge Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.0A
ESD Rating
Human Body Model (Per EIA JESD22 Method A114-B) . . . . .2kV
Machine Model (Per EIA JED-4701 Method C-111) . . . . . . . 200V
Thermal Resistance
θJA (°C/W)
θJC (°C/W)
3x3 DFN Package (Note 1), (Note 2) . .
48
6
Maximum Junction Temperature (Plastic Package). . . . . . . . +150°C
Maximum Storage Temperature Range . . . . . . . . .-65°C to +150°C
Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . +300°C
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
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 150C 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 125C.
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
3.2
3.6
3.9
V
2.25
2.5
2.7
V
45
80
100
mV
-
-
3.3
μA
POWER-ON RESET
Rising POR Threshold
VPOR
Falling POR Threshold
VPOR
VBAT = 3.0V, use V2P8 pin to indicate the
comparator output.
VIN-BAT OFFSET VOLTAGE
Rising Edge
VOS
VBAT = 4.2V, IBAT = 20mA, use STATUS pin to
indicate the comparator output (Note 3
STANDBY CURRENT
ISTANDBY Charger disabled or the input is floating
BAT Pin Sink Current
VIN Pin Supply Current
IVIN
Charger disabled
-
150
250
μA
VIN Pin Supply Current
IVIN
Charger enabled
-
1.0
-
mA
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
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
VOLTAGE REGULATION
Output Voltage (Except ISL9205C)
Output Voltage (ISL9205C)
PMOS ON-Resistance
rDS(ON)
VBAT = 4.0V, charge current = 0.35A
-
500
-
mΩ
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
RIREF = 100kΩ
70
80
90
mA
Load current less than 1mA
2.8
2.9
3.0
V
CHARGE CURRENT (Note 4)
V2P8 PIN OUTPUT
V2P8 Pin Output Voltage
VV2P8
5
FN9252.0
March 20, 2007
ISL9205
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
VMIN
2.7
2.8
2.9
V
VMINHYS
50
100
150
mV
-225
-150
-70
mV
-
50
-
mV
TRICKLE CHARGE THRESHOLDS
Preconditioning Charge Threshold Voltage
Preconditioning Voltage Hysteresis
Recharge Threshold
VRCH
Recharge Threshold Hysteresis
Referenced to the charger output voltage VCH
VRCHHYS
INTERNAL TEMPERATURE MONITORING
Charge Current Foldback Threshold
TFOLD
110
°C
AMBIENT TEMPERATURE MONITORING (ISL9205D only)
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
2.7
3.0
3.3
ms
EN/TOEN Pin Logic Input High
1.3
-
-
V
EN/TOEN Pin Logic Input Low
-
-
0.5
V
200
400
600
kΩ
OSCILLATOR
Oscillation Period
tOSC
CTIME = 15nF
LOGIC INPUT AND OUTPUTS
EN/TOEN Pin Internal Pull Up Resistance
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.
6
FN9252.0
March 20, 2007
ISL9205
The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25°C,
RIREF = RIMIN = 100kΩ, VBAT = 3.7V, Unless Otherwise Noted
4.210
4.210
4.206
4.204
4.202
4.198
VBAT (V)
VBAT (V)
Typical Operating Performance
4.198
4.194
4.192
4.186
CHARGE CURRENT = 50 mA
4.190
0.0
4.180
0.2
0.4
0.6
0.8
0
1.0
20
CHARGE CURRENT (mA)
40
60
80
100
120
TEMPERATURE (°C)
FIGURE 2. CHARGER OUTPUT VOLTAGE vs TEMPERATURE
FIGURE 1. CHARGER OUTPUT VOLTAGE vs CHARGE
CURRENT
4.30
0.96
IBAT = 50mA
0.90
4.18
0.84
IBAT (A)
VBAT (V)
4.24
4.12
0.78
0.72
4.06
0.66
4.00
4.2
0.60
4.5
4.8
5.1
5.4
5.7
3.0
6.0
3.2
3.4
3.6
3.8
4.0
4.2
VBAT (V)
VIN (V)
FIGURE 3. CHARGER OUTPUT VOLTAGE vs INPUT
VOLTAGE CHARGE CURRENT IS 50mA
FIGURE 4. CHARGE CURRENT vs OUTPUT VOLTAGE
1.00
0.86
0.90
0.72
IBAT (A)
CHARGE CURRENT (mA)
0.96
0.84
0.78
0.58
0.72
0.44
0.66
0.60
4.2
0.30
0
20
40
60
80
100
120
TEMPERATURE (°C)
FIGURE 5. CHARGE CURRENT vs AMBIENT TEMPERATURE
7
4.6
5.0
5.4
5.8
6.2
VIN (V)
FIGURE 6. CHARGE CURRENT vs INPUT VOLTAGE
FN9252.0
March 20, 2007
ISL9205
The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25°C,
RIREF = RIMIN = 100kΩ, VBAT = 3.7V, Unless Otherwise Noted (Continued)
2.90
2.90
2.88
2.88
2.86
2.86
VIN (V)
V2P8 (V)
Typical Operating Performance
2.84
2.84
2.82
2.82
2.80
3.5
4.1
4.7
5.3
5.9
2.80
0.0
6.5
2.0
VIN (V)
6.0
8.0
10.0
FIGURE 8. V2P8 OUTPUT vs ITS LOAD CURRENT
1.0
1.20
0.9
1.08
0.8
0.96
rDS(ON) (Ω)
rDS(ON ) (Ω)
FIGURE 7. V2P8 OUTPUT vs INPUT VOLTAGE
0.7
0.6
0.5
4.0
V2P8 LOAD CURRENT (mA)
0.84
0.72
0
20
40
60
80
0.60
100
2.9
3.1
3.3
TEMPERATURE (°C)
FIGURE 9. rDS(ON) vs TEMPERATURE AT 3.7V OUTPUT
3.5
3.7
VBAT (V)
3.9
4.1
FIGURE 10. rDS(ON) vs OUTPUT VOLTAGE USING CURRENT
LIMITED ADAPTERS
0.50
0.80
0.70
ENABLED
0.40
ENABLED
Iq (mA)
Iq (mA)
0.60
0.30
DISABLED
0.20
0.50
0.40
0.30
0.10
0.00
DISABLED
0.20
0.10
3.0
3.6
4.8
4.2
5.4
VIN (V)
FIGURE 11. INPUT QUIESCENT CURRENT vs INPUT
VOLTAGE
8
6.0
0
20
40
60
80
100
120
TEMPERATURE (°C)
FIGURE 12. INPUT QUIESCENT CURRENT vs TEMPERATURE
FN9252.0
March 20, 2007
ISL9205
Functional Block Diagram
Q MAIN
VIN
C1
VBAT
REFERENCES
ISEN
INPUT_OK
+
CA
-
IR
V POR
+
-
IREF
+
80mV
-
CURRENT
REFERENCES
VSEN
VIN
+
-
R IREF
V2P8
VRECHRG
IT
V MIN
100000:1
CURRENT
MIRROR
V CH
QSEN
V POR
TEMPERATURE
MONITORING
CHRG
+
VA
-
IMIN = IR/10
V CH
+
TRICKLE/FAST
-
MINBAT
VMIN
I SEN
+
(16 LD OPTION)
-
VRECHRG
+
MIN_I
-
INPUT_OK
RECHARGE
LOGIC
ESD DIODE
STATUS
EN
STATUS
TEMP
MONITOR
TEMP
OSC
TIME
COUNTER
FAULT
FAULT
GND
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
9
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.
During the constant voltage phase, the charge current
reduces gradually as the cell voltage rises.
FN9252.0
March 20, 2007
ISL9205
Charge Termination 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 fixed at 10% of the
programmed constant charge current. If the timeout function
is available (ISL9205B, ISL9205C and ISL9205D), the
charger will be terminated when the user programmed
charge time limit has been reached. If the timeout function is
not available (ISL9205A), the charger will continue to charge
until the EN pin is pulled to logic LOW or the input power has
been removed. Should the charge is terminated by the
timeout function, 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, whether the charger is previously
terminated or not. 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.
TRICKLE
CC
CV
4.2V
IREF
CHARGE
VOLTAGE
1/8 OF
TIMEOUT
VREC
CHARGE
CURRENT
2.8V
TIMEOUT
10%
IREF
IMIN
CHG
STATUS
INDICATION
TIME
FIGURE 13. TYPICAL CHARGE CYCLE WITH TIMEOUT
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 ISL9205D, 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
10
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 = 2
22
t OSC
(EQ. 21)
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. For
the ISL9205A, there is no time-out function and hence the
charger will never be turned off after the EOC but will
indicate the EOC condition through the STATUS pin.
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. For ISL9205B, ISL9205C and ISL9205D, 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 until the
TIMEOUT interval elapsed.
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.
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ISL9205
Remote Battery Voltage Sensing
In 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 DFN package 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.
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, until the TIMEOUT
(starting from entering the fast charge state) is reached then
the charger moves to the Inhibit state. In the Inhibit state, the
charger is off and the EOC condition continues to be
indicated.
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 4, to provide adequate damping.
2.8V Bias Voltage
The ISL9205 provides a 2.8V voltage for biasing the internal
control and logic circuit. This voltage is also available for
external circuits such as the NTC thermistor circuit. The
maximum allowed external load is 2mA. A bypass capacitor
is needed at this pin for best performace. It is recommentded
to use a minimum 1.0μF, X5R type of ceramic capacitor.
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
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ISL9205
PWR OFF
CHARGER: OFF
STATUS: OFF
FAULT: OFF
V IN > V POR
NOT
ENABLED
POR
CHARGER: OFF
STATUS: OFF
FAULT: OFF
CHARGER
DISABLED
CHARGER: OFF
STATUS: OFF
FAULT: OFF
NOTE 3: ISL6292 AND
ISL6292C ALWAYS HAVE 1/8
TIMEOUT LIMIT FOR TRICKLE
ANYTIME EN PIN
CHANGES TO
DISABLE
CHARGE, BUT NOT ISL9203.
ENABLED
TRICKLE
TEMP FAULT
REMOVED
CHARGE
CHARGER: ON
VBAT < V MIN WHEN 1/8
TIMEOUT COMPLETES
TIMEOUT
CHARGER: OFF
STATUS: OFF
FAULT: ON
STATUS: ON
FAULT: OFF
TEMP FAULT
CHARGER: OFF
DISABLE
STATUS: OFF
FAULT: ON
V BAT DROPS
BELOW VMIN
VBAT> VMIN BEFORE 1/8
TIMEOUT COMPLETES
ANYTIME A TEMP
FAULT OCCURS
(EXCEPT IN
FAST CHARGE
CHARGER: ON
TIMEOUT FAULT)
STATUS: ON
FAULT: OFF
TO CHARGER
DISABLED
BLOCK
TIMEOUT
VBAT > VRCH
AND ICHG < IMIN
CHARGE
COMPLETE
CHARGER: ON
STATUS: OFF
FAULT: OFF
VBAT < VRCH
TIMEOUT
V BAT < VRCH
INHIBIT
CHARGER: OFF
STATUS: OFF
FAULT: OFF
FIGURE 14. STATE MACHINE DIAGRAM
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ISL9205
Dual Flat No-Lead Plastic Package (DFN)
2X
0.15 C A
D
A
L10.3x3
10 LEAD DUAL FLAT NO-LEAD PLASTIC PACKAGE
MILLIMETERS
2X
0.15 C B
SYMBOL
MIN
6
INDEX
AREA
0.80
0.90
1.00
-
-
-
0.05
-
0.28
5,8
2.05
7,8
1.65
7,8
0.20 REF
0.18
D
1.95
E
0.10 C
0.08 C
SIDE VIEW
C
SEATING
PLANE
1
e
1.60
-
0.50 BSC
-
k
0.25
-
-
L
0.30
0.35
0.40
N
10
Nd
5
3
3. Nd refers to the number of terminals on D.
4. All dimensions are in millimeters. Angles are in degrees.
5. Dimension b applies to the metallized terminal and is measured
between 0.15mm and 0.30mm from the terminal tip.
E2/2
6. The configuration of the pin #1 identifier is optional, but must be
located within the zone indicated. The pin #1 identifier may be
either a mold or mark feature.
NX L
N-1
7. Dimensions D2 and E2 are for the exposed pads which provide
improved electrical and thermal performance.
NX b
5
(Nd-1)Xe
REF.
8
2
2. N is the number of terminals.
E2
e
-
1. Dimensioning and tolerancing conform to ASME Y14.5-1994.
NX k
8
1.55
NOTES:
D2/2
2
N
-
Rev. 3 6/04
D2
(DATUM B)
2.00
8
7
6
INDEX
AREA
(DATUM A)
A3
-
3.00 BSC
E2
A
0.23
3.00 BSC
D2
B
NOTES
A
b
TOP VIEW
MAX
A1
A3
E
NOMINAL
0.10 M C A B
8. Nominal dimensions are provided to assist with PCB Land
Pattern Design efforts, see Intersil Technical Brief TB389.
BOTTOM VIEW
C
L
0.415
NX (b)
(A1)
0.200
5
L
NX L
e
SECTION "C-C"
NX b
C
C C
TERMINAL TIP
FOR ODD TERMINAL/SIDE
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