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ISL9214
Data Sheet November 30, 2006 FN9271.1
Li-ion/Li-Polymer Battery Charger Accepting Two Power Sources
The ISL9214 is a fully integrated low-cost single-cell Li-ion or Li-polymer battery charger. The charger accepts two power inputs, normally one from a USB (Universal Serial Bus) port and the other from a desktop cradle. The ISL9214 is an ideal charger for smart handheld devices that need to communicate with a personal computer via USB. The ISL9214 features 28V maximum voltages for both the cradle and the USB inputs. Due to the 28V rated inputs, lowcost, large output tolerance adapters can be used safely. When both inputs are powered, the cradle input is used to charge the battery. The charge current is programmable for the cradle input with a small resistor. The end-of-charge current is also programmable by another external resistor. The charger incorporates ThermaguardTM which protects the IC against over temperature. If the die temperature rises above a typical value of +125C, a thermal foldback function reduces the charge current automatically to prevent further temperature rise. The charger has two indication pins. The PPR (power present) pin outputs an open-drain logic LOW when either the cradle or the USB input power is attached. The CHG (charge) pin is also an open-drain output that indicates a logic LOW when the charge current is above a minimum current level. When the charge current is below the preset minimum current, the CHG pin will indicate a logic HIGH signal. This status is latched and will be reset under one of these events: (1) the part is disabled and re-enabled; (2) the selected input source has been removed and reapplied, (3) the USBON turns LOW, or (4) the BAT pin voltage falls below the recharge threshold (~3.9V).
Features
* Complete Charger for Single-Cell Li-ion/Polymer Batteries * Dual Input Power Sources for Cradle and USB * Low Component Count * Integrated Pass Elements * Fixed 380mA USB Charge Current * Programmable Cradle Charge Current * Charge Current ThermaguardTM for Thermal Protection * 28V Maximum Voltages for Cradle and USB Inputs * Adapter Presence and Charge Indications * Less than 0.5A Leakage Current off the Battery when No Input Power Attached * Programmable End-of-Charge Current * Ambient Temperature Range: -40C to +85C * No External Blocking Diode Required
Applications
* Smart Handheld Devices * Cell Phones, PDAs, MP3 Players * Digital Still Cameras * Handheld Test Equipment
Related Literature
* Technical Brief TB363 "Guidelines for Handling and Processing Moisture Sensitive Surface Mount Devices (SMDs)" * Technical Brief TB389 "PCB Land Pattern Design and Surface Mount Guidelines for QFN Packages"
Ordering Information
PART # ISL9214IRZ (Note) ISL9214IRZ-T (Note) PART TEMP. MARKING RANGE (C) 214Z 214Z -40 to +85 -40 to +85 PACKAGE PKG. DWG. #
10 Ld 3x3 DFN L10.3x3C (Pb-free) 10 Ld 3x3 DFN L10.3x3C (Pb-free) Tape and Reel
Pinout
ISL9214 10 LD DFN TOP VIEW
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.
CRDL USB PPR CHG EN
1 2 3 4 5
10 BAT 9 8 7 6 ICDL GND USBON IMIN
1
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. 2005. All Rights Reserved. Thermaguard is a trademark of Intersil Americas Inc. All other trademarks mentioned are the property of their respective owners.
ISL9214 Block Diagram
CRDL USB BAT
TEMP MONITOR CA + CPPR
+ VA ICDL REFERENCE CURRENT IMIN CONTROL IR VREF
ENA USB CPPR LBAT CRDL BAT
PPR CONTROL CHG
EN GND
USBON
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FN9271.1 November 30, 2006
ISL9214 Typical Applications
A Simple Charger Accepting Power from Both a USB Port and a Desktop Cradle
TO CRADLE CONNECTOR CRDL C1 R1 TO USB CONNECTOR USB C2 R2 USBON PPR CHG EN IMIN RIMIN GND DISABLE ENABLE ISL9214 TO BATTERY BAT ICDL ON OFF R3 D1 R4 D2 RICDL C3
COMPONENT SELECTION RICDL RIMIN R3, R4 C1, C2, C3 R1, R2 D1, D2 12.4k for 0.55A cradle charge current 10k for 55mA end-of-charge current 350 1F ceramic capacitor 1 LEDs
A Simple Charger with Programmable Charge Current and Wide Input Voltage Range
TO CRADLE CONNECTOR CRDL C1 R1 USBON PPR CHG EN RIMIN IMIN GND DISABLE ENABLE D1 D2 ISL9214 TO BATTERY BAT ICDL R3 R4 RICDL C3
USB
COMPONENT SELECTION RICDL RIMIN R3, R4 C1, C3 R1 D1, D2 12.4k for 0.55A cradle charge current 10k for 55mA end-of-charge current 350 1F ceramic capacitor 1 LEDs
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ISL9214
Absolute Maximum Ratings
Supply Voltage (CRDL, USB) . . . . . . . . . . . . . . . . . . . . -0.3V to 28V Other Input Voltage (EN, USBON, ICDL, IMIN, BAT) . . . -0.3V to 7V Open-Drain Pull-Up Voltage (PPR, CHG) . . . . . . . . . . . . -0.3V to 7V ESD Rating Human Body Model (JEDEC JESD22-A114-D) . . . . . . . . . .7000V Machine Model (JEDEC JESD22-A115-A). . . . . . . . . . . . . . .300V
Thermal Information
Thermal Resistance JA (C/W) JC (C/W) DFN Package (Notes 1, 2) . . . . . . . . . . 40 2.5 Maximum Junction Temperature (Plastic Package) . . . . . . . +150C Maximum Storage Temperature Range . . . . . . . . . .-65C to +150C Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . +300C
Recommended Operating Conditions
Ambient Temperature Range . . . . . . . . . . . . . . . . . . .-40C to +85C Supply Voltage (USB Pin) . . . . . . . . . . . . . . . . . . . . . . 4.3V to 5.5V Supply Voltage (CRDL Pin) . . . . . . . . . . . . . . . . . . . . . . 4.3V to 24V Typical Cradle Charge Current . . . . . . . . . . . . . . . . . . 100mA to 1A Typical USB Charge Current . . . . . . . . . . . . . . . . . . . . . . . . . 380mA
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. +150C max junction temperature is intended for short periods of time to prevent shortening the lifetime. Operation close to +150C junction may trigger the shutdown of the device even before +150C, since this number is specified as typical.
NOTES: 1. JA 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 theta JC the "case temp." location is the center of the exposed metal pad on the package underside.
Electrical Specifications
PARAMETER POWER-ON RESET Rising USB/CRDL Threshold Falling USB/CRDL Threshold VIN-BAT OFFSET VOLTAGE Rising Edge Falling Edge STANDBY CURRENT BAT Pin Sink Current CRDL Pin Supply Current USB Pin Supply Current CRDL/USB Pin Supply Current VOLTAGE REGULATION Output Voltage Output Voltage CRDL PMOS On Resistance USB PMOS On Resistance CHARGE CURRENT (Note 4) ICDL Pin Output Voltage
Typical Values Are Tested at USB = CRDL = 5V and ambient temperature is at +25C, Unless Otherwise Noted. All Maximum and Minimum Values Are Guaranteed Under the Recommended Operating Conditions SYMBOL TEST CONDITIONS MIN TYP MAX UNITS
3.4 3.2
3.9 3.7
4.2 4.0
V V
VOS VOS
VBAT = 4.0V, use CHG pin to indicate the comparator output (Note 3)
20
150 80
250 -
mV mV
ISTANDBY EN = HIGH or both inputs are floating ICRDL IUSB EN = LOW or floating EN = HIGH
-
0.05 150 150 0.55
0.5 220 220 0.8
A A A mA
VCH VCH
Load = 10mA Load = 10mA (Tj = +25C) VBAT = 3.8V, ICHARGER = 0.3A, (Tj = +25C) VBAT = 3.8V, ICHARGER = 0.3A, (Tj = +25C)
4.158 4.174 200 200
4.2 4.2 600 600
4.242 4.226 850 850
V V m m
VICDL
VBAT = 3.8V
1.19 520 16 46.5
1.22 550 18 55
1.25 580 20 63.5
V mA % mA
CRDL Input Constant Charge Current CRDL Input Trickle Charge Current CRDL and USB End-of-Charge Threshold
ICHARGE RICDL = 12.4k, VBAT: 2.7 - 3.8V ITRICKLE IMIN RICDL = 12.4k, VBAT = 2.2V Given as a % of the CRDL ICHARGE RIMIN = 10.0k
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ISL9214
Electrical Specifications
PARAMETER USB Input Constant Charge Current USB Input Trickle Charge Current Typical Values Are Tested at USB = CRDL = 5V and ambient temperature is at +25C, Unless Otherwise Noted. All Maximum and Minimum Values Are Guaranteed Under the Recommended Operating Conditions (Continued) SYMBOL TEST CONDITIONS MIN 332 66 TYP 380 80 MAX 410 91 UNITS mA mA
ICHARGE USBON = HIGH, VBAT: 2.7 - 3.8V ITRICKLE VBAT = 2.2V
PRECONDITIONING CHARGE THRESHOLD Preconditioning Charge Threshold Voltage RECHARGE THRESHOLD Recharge Threshold Voltage INTERNAL TEMPERATURE MONITORING Current Foldback Threshold (Note 5) LOGIC INPUT AND OUTPUT USBON Logic Input High USBON Logic Input LOW EN Pin Logic Input High EN Pin Logic Input Low EN Pin Internal Pull Down Resistance USBON Pin internal Pull Down Resistance CHG/PPR Sink Current NOTES: 3. The 4.0V VBAT is selected so that the CHG 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. 5. Guaranteed by characterization. Pin Voltage = 0.8V 1.3 1.3 350 700 10 600 1000 0.4 0.4 850 1300 V V V V k k mA TFOLD 110 125 140 C VRCH 3.8 3.9 4.0 V VMIN 2.5 2.6 2.7 V
Typical Operating Performance The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25C,
RICDL = 12.4k, RIMIN = 10.0k, VBAT = 3.7V, Unless Otherwise Noted
4.2100 4.200 CRDL 4.2075 4.2050 VBAT (V) 4.2025 4.2000 4.1975 4.1950 4.1925 4.100 -40 -20 0 80 TEMPERATURE (C) 20 40 60 100 120 140 4.1900 0 5 10 15 VIN (V) 20 25 CHARGE CURRENT = 1mA USB CRDL
4.180 VBAT (V)
4.160 USB 4.140 CHARGE CURRENT = 1mA 4.120
FIGURE 1. CHARGER OUTPUT VOLTAGE vs TEMPERATURE
FIGURE 2. CHARGER OUTPUT VOLTAGE vs INPUT VOLTAGE
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FN9271.1 November 30, 2006
ISL9214 Typical Operating Performance The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25C,
RICDL = 12.4k, RIMIN = 10.0k, VBAT = 3.7V, Unless Otherwise Noted (Continued)
600 550 CHARGE CURRENT (mA) 500 450 400 350 300 250 200 2.5 2.8 3.0 3.3 VBAT (V) 3.5 3.8 4.0 USB CRDL, RICDL = 12.4K CHARGE CURRENT (mA) 600 550 CRDL, RICDL = 12.4K 500 450 400 350 300 250 200 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) 120 140 USB
FIGURE 3. CHARGE CURRENT vs OUTPUT VOLTAGE
FIGURE 4. CHARGE CURRENT vs AMBIENT TEMPERATURE
2.0 1.8 1.6 1.4 rDS(ON) () 1.2 1.0 0.8 0.6 0.4 0.2 0 -40 -20 0 20 40 60 TEMPERATURE (C) 80 100 USB CRDL LEAKAGE CURRENT (A)
2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 -40 -20 0 20 40 60 80 100 120 140 VBAT = 4.2V
TEMPERATURE (C)
FIGURE 5. rDS(ON) vs TEMPERATURE AT 3.7V OUTPUT
FIGURE 6. REVERSE CURRENT vs TEMPERATURE
700 600 500 400 300 200 100 0 -40 IOUT = 0mA USB CRDL
700 QUIESCENT CURRENT (A) 600 500 400 300 200 100 0 -40 IOUT = 0mA USB CRDL
QUIESCENT CURRENT (A)
-20
0
20
40
60
80
100
120
140
-20
0
20
40
60
80
100
120
140
TEMPERATURE (C)
TEMPERATURE (C)
FIGURE 7. CRADLE INPUT QUIESCENT CURRENT vs TEMPERATURE
FIGURE 8. USB INPUT QUIESCENT CURRENT vs TEMPERATURE
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FN9271.1 November 30, 2006
ISL9214 Typical Operating Performance The test conditions for the Typical Operating Performance are: VIN = 5V, TA = +25C,
RICDL = 12.4k, RIMIN = 10.0k, VBAT = 3.7V, Unless Otherwise Noted (Continued)
800 700 QUIESCENT CURRENT (A) QUIESCENT CURRENT (A) 600 ENABLED 500 400 300 200 100 0 0 5 10 15 20 25 TEMPERATURE (C) DISABLED IOUT = 0mA 800 700 600 ENABLED 500 400 300 200 100 0 0 5 10 15 20 25 TEMPERATURE (C) DISABLED IOUT = 0mA
FIGURE 9. CRADLE INPUT QUIESCENT CURRENT vs INPUT VOLTAGE
FIGURE 10. USB INPUT QUIESCENT CURRENT vs INPUT VOLTAGE
Functional Pin Description
CRDL (Pin 1)
Cradle input. This pin is usually connected to a cradle power input. The maximum input voltage is 28V. The charge current from this pin is programmable with the ICDL pin up to 1A. When this pin is connected to a power source, no charge current is drawn from the USB pin. A 1F or larger value ceramic capacitor is recommended for decoupling.
IMIN (Pin 6)
IMIN is the programmable input for the end-of-charge current. IMIN is calculated by the following equation:
550 I MIN = ---------------R IMIN ( mA ) (EQ. 1)
USB (Pin 2)
USB input. This pin is usually connected to a USB port power connector. Other sources that are also acceptable. The charge current from the USB pin is fixed at typically 380mA. A 1F or larger value ceramic capacitor is recommended for decoupling. It is also recommended to have a 1 resistor in series with the decoupling capacitor to prevent an over-shoot voltage when a USB cable is plugged in.
Where RIMIN is in k. IMIN is applicable for both cradle and USB charging.
USBON (Pin 7)
The USBON pin is a control input to turn off the USB charge function if desired. Connect to LOW or leave floating to turn off USB charge.
GND (Pin 8)
System ground.
PPR (Pin 3)
Power presence indication. An open-drain output pin which turns ON when either the USB input voltage or the CRDL input voltage is above its POR level, regardless if the charger is enabled or disabled. Otherwise turns OFF. This pin provides a wake-up signal to a microprocessor when either the cradle or the USB power is connected.
ICDL (Pin 9)
The ICDL pin has two functions. The first function is to program the cradle charge current during the constantcurrent mode. The voltage of this pin is 1.22V during the constant-current mode of the cradle charger. The constantcurrent mode current is programmed by the following equations:
6820 I CDL = ---------------R ICDL ( mA ) (EQ. 2)
CHG (Pin 4)
Charge indication pin. An open-drain output which turns ON when the charge current is above programmable threshold. Otherwise turns OFF.
where RICDL is the resistor in k, connected to the ICDL pin (see the Typical Application). It is recommended that the charge current be programmed in the range of 100mA to 1000mA.
EN (Pin 5)
Enable logic input. Connect to LOW or leave floating to enable the charger.
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ISL9214
The second function of the ICDL pin is to monitor the actual charge current. The voltage of this pin, VICDL, is proportional to the actual charge current, ICHG. The cradle charge current should be programmed equal or higher than the USB current; otherwise, the ICDL pin voltage will be higher than 1.22V during the constant current mode when the USB charger is working. The charger still works properly but the accuracy of the current monitoring voltage degrades and saturates at approximately 2.1V. The USBON pin is equivalent to a logic LOW when left floating. Typically the P-channel MOSFET for the USB input has an rDS(ON) of 600m at room temperature. With a 380mA charge current, the typical head room is 228mV. Thus, if the input voltage drops to a level that the voltage difference between the USB pin and the BAT pin is less than 228mV, the rDS(ON) becomes a limiting factor of the charge current; and the charger drops out the constant current regulation.
BAT (Pin 10)
Charger output pin. Connect this pin to the battery pack or the battery cell. A 1F or larger value ceramic capacitor is recommended for decoupling. The charger relies on the battery for stability so a battery should always be connected to the BAT pin.
Cradle Charge Current
The cradle charge current is enabled by the EN pin only, the USBON pin has no control on the cradle charge current. The cradle charge current is programmed with the external resistor connected between the ICDL pin and the GND pin. The current can be calculated with the equation given in the ICDL pin description. The typical rDS(ON) of the P-channel MOSFET for the CRDL input is 600m at room temperature. When the head room between the input and output voltages is small, the actual charge current, similar to the USB case, could be limited by the rDS(ON). On the other hand, if the head room between the input and output voltages is large, the charge current may be limited by the thermal foldback threshold.
Description
The ISL9214 is designed for a single-cell Li-ion or Li-polymer battery charging circuit that accepts both a USB port and a desktop cradle as its power source. While the charge current from the USB input source is fixed at 380mA, the charge current from the cradle input is programmable between 0.1A and 1.0A by the resistor RICDL. Similarly, the end-of-charge current is programmable by connecting a resistor at the IMIN pin. The end-of-charge threshold can be calculated with the equation given on the Functional Pin Description section. The same threshold applies to both the cradle and the USB inputs.
Floating Charge Voltage
The floating voltage during the constant voltage phase is 4.2V. The floating voltage has an 1% accuracy over the ambient temperature range of -40C to +85C.
Input Auto Selection
When both input sources are present, the charger selects only one power source to charge the battery. When the CRDL input is higher than the POR threshold, CRDL is selected as the power source. Otherwise the USB input is selected. If the CRDL input voltage is below the battery voltage but the USB input voltage is higher than the battery voltage, then the USB input is used to charge the battery. The control circuit always breaks both internal power devices before switching from one power source to the other to avoid a cross conduction of both power MOSFETs.
Trickle Charge Current
When the battery voltage is below the minimum battery voltage VMIN given in the electrical specification, the charger operates in a trickle/preconditioning mode, where the charge current is typically 18% of the programmed charge current for the cradle input. If power comes from the USB input, the trickle current is approximately 80mA.
End-Of-Charge Indication
When an EOC condition (charge current falls below IMIN during constant voltage charge) is encountered, the CHG pin internal open-drain MOSFET turns off. The IMIN threshold is programmable by the resistor at the IMIN pin for both cradle and USB inputs. Once the EOC condition is reached, the status is latched and can be reset at one of the following conditions: 1. The part is disabled and re-enabled 2. The selected input source has been removed and reapplied 3. The USBON turns LOW and turns back to HIGH for the USB input 4. The BAT pin voltage falls below the recharge threshold (~3.9V)
USB Charge Current
When the USB port is selected as the power source, the charge current enabled by the logic input at the USBON pin. When the USBON is driven to logic LOW, the charger is disabled. When the USBON is driven to logic HIGH, the charge current is fixed at a typical value of 380mA. Thus for the USB input, the USBON pin has a similar function as the EN pin. The following table describes the USB charge control by both the USBON pin and EN pin:
TABLE 1. USB CHARGE CONTROL EN = LOW USBON = LOW USBON = HIGH Disabled Enabled EN = HIGH Disabled Disabled
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ISL9214
State Diagram
TRICKLE 4.2V IREF CHARGE VOLTAGE 3.9V CC CV
2.6V
18 IREF 100
CHARGE CURRENT IMIN
CHG INDICATION TIME
FIGURE 11. TYPICAL CHARGE CYCLE
The state diagram for the charger functions is shown in Figure 12. The diagram starts with the Power-Off state. When at least one input voltage rises above the POR threshold, the charge resets it self. If both input voltages are above the POR threshold, the charger selects the CRDL input as the power source. Then if the EN pin is at a logic HIGH voltage, the charger stays in disabled state. If the EN pin goes LOW, the fast charge starts. Any time the EN pin turns HIGH, the charger returns to the disabled state. When the EOC condition is reached, the CHG will turn to logic HIGH to indicate a charge complete status but the charge will continue. The EOC condition is then latched until one of the four re-charge conditions is encountered, as shown in Figure 11.
Figure 11 shows the typical charge profile including the endof-charge event.
Power Presence Indication
When either the USB or the cradle input voltage is above the POR threshold, the PPR pin internal open-drain MOSFET turns on indicating the presence of input power.
Power-Good Conditions
Even if there is a power present, the charger will not deliver any current to the output if the power-good conditions are not met. The following two conditions together define the power-good voltage range: 1. VCDRL or VUSB > VPOR 2. VCDRL or VUSB - VBAT > VOS where VPOR is the power on reset threshold, VOS is the offset voltage for the input and output voltage comparator, All these thresholds have hysteresis, as given in the Electrical Specification table. The charger will not charge the battery if the input voltage does not meet the power-good conditions.
Thermal Foldback (ThermaguardTM)
The thermal foldback function reduces the charge current when the internal temperature reaches the thermal foldback threshold, which is typically 125C. This protects the charger from excessive thermal stress at high input voltages.
Input Bypass Capacitors
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 capacitors 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 capacitors, a 1- series resistor must be used, as shown in the Typical Applications Section, to provide adequate damping.
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FN9271.1 November 30, 2006
ISL9214
VCRDL < VPOR VUSB < VPOR
PWR OFF
Charger: OFF PPR: OFF CHG: OFF VCRDL > VPOR VUSB > VPOR EN=HI
VCRDL < VPOR VUSB > VPOR EN=HI
VCRDL > VPOR VUSB < VPOR EN=HI
POR
USB input selected Charger: OFF PPR: ON CHG: OFF
POR
CRDL input selected Charger: OFF PPR: ON CHG: OFF
POR
CRDL input selected Charger: OFF PPR: ON CHG: OFF
SOURCE SELECTED CHARGER DISABLED
Charger: OFF PPR: ON CHG: OFF Anytime EN pin changes to disable Enabled, VBAT>VMIN
Not Enabled
Enabled, VBATVMIN
FAST CHARGE
Charger: ON PPR: ON CHG: ON
RECHARGE CONDITION is MET and VBAT> VMIN RECHARGE CONDITION is MET and VBAT< VMIN
VBAT > VRCH and ICHG < IMIN
CHARGE COMPLETE
Charger: ON PPR: ON CHG: OFF
FIGURE 12. STATE DIAGRAM
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FN9271.1 November 30, 2006
ISL9214 Dual Flat No-Lead Plastic Package (DFN)
2X 0.10 C A A D 2X 0.10 C B
L10.3x3C
10 LEAD DUAL FLAT NO-LEAD PLASTIC PACKAGE MILLIMETERS SYMBOL A
E
MIN 0.85 -
NOMINAL 0.90 0.20 REF
MAX 0.95 0.05
NOTES -
A1 A3 b D
6 INDEX AREA TOP VIEW B
0.20
0.25 3.00 BSC
0.30
5, 8 -
D2
// 0.10 C 0.08 C
2.33
2.38 3.00 BSC
2.43
7, 8 -
E E2 e k L 0.20 0.35 1.59
A C SEATING PLANE SIDE VIEW A3
1.64 0.50 BSC 0.40 10 5
1.69
7, 8 -
0.45
8 2 3 Rev. 1 4/06
D2 (DATUM B) 1 2 D2/2
7
8
N Nd NOTES:
NX k E2
6 INDEX AREA (DATUM A)
1. Dimensioning and tolerancing conform to ASME Y14.5-1994. 2. N is the number of terminals. 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 NX L N 8 N-1 NX b e (Nd-1)Xe REF. BOTTOM VIEW C L NX (b) 5 SECTION "C-C" CC e TERMINAL TIP (A1) 9L 5 0.10 M C A B
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. 7. Dimensions D2 and E2 are for the exposed pads which provide improved electrical and thermal performance. 8. Nominal dimensions are provided to assist with PCB Land Pattern Design efforts, see Intersil Technical Brief TB389. 9. COMPLIANT TO JEDEC MO-229-WEED-3 except for dimensions E2 & D2.
FOR ODD TERMINAL/SIDE
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 11
FN9271.1 November 30, 2006

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