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API9221FCG

API9221FCG

  • 厂商:

    DIODES

  • 封装:

  • 描述:

    API9221FCG - Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB - Diodes Incorporated

  • 数据手册
  • 价格&库存
API9221FCG 数据手册
API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Description The API9221 has two supply inputs for highly integrated portable applications, enabling charging from a USB host, wall adapter, or car adapter. The PPR pin indicates to a host controller that a safe and valid supply is connected to either VUSB or VDC. The higher charge current option from VDC will take priority if both supplies are connected. The host controller can control the state of charging via the enable pin EN . The API9221 implements the constant current/constant voltage (CC/CV) charge algorithm for Lithium based battery cells. The connected cell will be charged to 4.2V with an accuracy of 1% over the entire temperature range. The termination current is programmable via an external resistor, RIMIN. The CHG pin indicates when the termination current is reached, and is reset by EN , power off, or battery below 3.9V. The maximum charge current can be programmed independently via the resistors RIUSB and RIVDC. The API9221 comes with several protection features. To prevent system damage, the VUSB pin uses over voltage protection (OVP) at 5.4V, and the VDC OVP is at 6.9V. Above these levels, the non-operating device is protected against damage up to 28V. For control and system start-up the API9221 has a current limited linear regulator. To protect the chip against excessive power dissipation, temperature monitoring is integrated, which folds back the current to a safe level. As the temperature rises, this fold-back begins at 125°C without completely interrupting charging. Pin Assignments ( Top View ) VDC VUSB PPR CHG EN IMIN 1 2 3 12 11 10 VDC_LDO BAT USB_BYP IVDC GND IUSB Exposed Pad 4 5 6 9 8 7 N EW PRODUCT DFN4030-12 Features • • • • • • • • • • • • • • • Linear Lithium Ion / Lithium Polymer charging IC Supplied from USB host or car/wall adapter Overvoltage protection USB: 5.4V, wall:6.9V Supply inputs safe up to 28V Fast charging with maximum current of 1.2A Integrated linear regulator of 4.9V at 10mA with current limit Separate resistor-programmable charging current for wall and USB Resistor programmable end-of-charge Current limit on USB bypass path Indicator pins for charging and power present Enable pin to enable host control charging Reverse current protection Thermal protection DFN4030-12: Available in “Green” Molding Compound (No Br, Sb) Lead Free Finish/ RoHS Compliant (Note 1) Applications • • • • • Handheld Consumer Devices Cell Phones, PDAs, MP3 Players Handheld Test Equipment Digital Still Cameras Multimedia players Note 1. EU Directive 2002/95/EC (RoHS). All applicable RoHS exemptions applied. Please visit our website at http://www.diodes.com/products/lead_free.html. Typical Application Circuit DC Input VDC USB Input VUSB VDC_LDO To Battery BAT LDO Output OFF ON EN GND API9221 USB_BYP PPR To MCU CHG IMIN IUSB RIUSB IVDC RIVDC USB_BYP RIMIN I/O_VDD I/O_VDD API9221 Document number: DS32204 Rev. 1 - 2 1 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Pin Descriptions ( Top View ) VDC VUSB PPR CHG EN 1 2 3 12 11 10 VDC_LDO BAT USB_BYP IVDC GND IUSB Exposed Pad 4 5 6 9 8 7 N EW PRODUCT IMIN DFN4030-12 Name VDC Pin # 1 VUSB 2 PPR 3 CHG 4 EN IMIN 5 6 IUSB GND IVDC USB_BYP BAT 7 8 9 10 11 VDC_LDO 12 Descriptions The recommended input to this pin is 4.5V to 6.7V with a maximum safe value of Input pin from a 28V. If a sufficient voltage is detected on VDC, no charge current is taken from the wall AC/DC or car VUSB pin. Internal OVP trips at 6.9V. The input current can be programmed with a adapter resistor at IVDC (pin 9). Decoupling with a 1μF ceramic capacitor is recommended. The recommended input to this pin is 4.5V to 5.3V with a maximum safe value of 28V. Internal OVP trips at 5.4V. The supply current drawn at this pin is the sum of USB Host device the charge current and the USB_BYP current. Decoupling with a 1μF ceramic input capacitor is recommended. Special attention has to be given to the maximum capacitance on the USB connection. Refer to the USB standard. The power present pin can indicate to a host processor that an external source is Power present present and that current can be derived from the input. This is an open drain signal output, output pin, which goes LOW when a valid source voltage is connected to either active-low VUSB or VDC. If connected to a processor I/O a pull up resistor should be utilized. Alternatively this pin can be used to drive an indicator LED up to 10mA. Open drain pin is pulled LOW when charging is performed. Goes high when charge current reaches IMIN. Remains high (including top-up), until the battery Charge indicator output, active-low voltage falls below 3.9V or the device is power cycled or EN is cycled. If connected to a processor I/O a pull up resistor should be utilized. Alternatively this pin can be used to drive an indicator LED up to 10mA. Logic level input pin to control charging from an external processor. An internal Charge enable 600kΩ (nominally) pull-down resistor is provided, This pin normally requires a pull input, active-low up resistor when connected to a processor I/O. Current setting for The end-of-charge current is set by a resistor connected from this pin to GND. end-of-charge This applies to charging from either VDC or VUSB. state The USB input maximum charging current is set by a resistor connected from this Current setting, pin to GND. This current is also limited by a thermally controlled current fold-back USB Power circuit. Ground Ground return path. Current setting, VDC input maximum charging current is set by a resistor connected from this pin to wall or car adapter GND. This current is also limited by a thermally controlled current fold-back circuit. USB Bypass Provides an external load path from the USB input, with current limiting. Protected output against reverse current. Connect this pin to the positive terminal of the battery. This pin is also used to Battery connector monitor the charge state of the battery. It is not recommended to operate the part without a battery connected to this pin. Protected against reverse current. Low current linear regulator for system supply, available when a valid VDC input LDO output supply is used. Stabilize with a 0.1μF to 1μF ceramic capacitor to ground. Protected against reverse current. API9221 Document number: DS32204 Rev. 1 - 2 2 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Functional Block Diagram USB_BYP VUSB N EW PRODUCT VDC_LDO VDC BAT IVDC IMIN IUSB CHARGER REGULATOR THERMAL CURRENT FOLDBACK PROTECTION 1.25V REFERENCE OVPVDC CC/CV VRCH 4.2V OVPVUSB CHARGE CONTROL VMIN VOSVDC VOSVUSB CHARGE CONDITION COMPARATORS 3.9V 2.6V VDC VUSB EN REN PPR CHG GND API9221 Document number: DS32204 Rev. 1 - 2 3 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Absolute Maximum Ratings Symbol Parameter Rating -0.3 to 28V -0.3 to 7V -0.3 to 7V -0.3 to 7V 2 200 Unit V V V V kV V N EW PRODUCT VDC, VUSB to GND EN , IMIN, IVDC, IUSB, BAT USB_BYP, VDC_LDO CHG , PPR ESD Susceptibility (Note 2) HBM Human Body Model MM Machine Model Thermal Resistance (Note 3) Symbol θJA θJC Parameter Junction to Ambient Junction to Case Rating 41 3.5 Unit °C/W Recommended Operating Conditions (Note 4) Symbol VUSB VDC IVDC_CHRG IUSB_CHRG IUSB-BYP ILDO Notes: Parameter Ambient Temperature Range Supply Voltage (VUSB) Supply Voltage (VDC) Typical Adapter Charge Current Typical USB Charge Current Typical USB Bypass Current Typical LDO Current Rating -40 to +85 4.5 to 5.3 4.5 to 6.7 0.1 to 1.2 46.5 to 465 0 to 200 0 to 10 Unit °C V V A mA mA mA 2. Semiconductor devices are ESD sensitive and may be damaged by exposure to ESD events. Suitable ESD precautions should be taken when handling and transporting this device. 3. Test condition for DFN4030-12: Measured on approximately 1” square of 1 oz copper. 4. The device function is not guaranteed outside of the recommended operating conditions. API9221 Document number: DS32204 Rev. 1 - 2 4 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Electrical Characteristics API9221 is tested at VDC = VUSB = 5V at an ambient temperature of +25°C unless otherwise noted. Symbol Parameter Test Conditions Min 3.4 3.2 Typ. 3.9 3.7 Max 4.2 4.0 Unit V V CHARGER POWER-ON THRESHOLDS Rising VUSB/VDC Threshold VPOR VPOF Falling VUSB/VDC Threshold INPUT VOLTAGE OFFSET N EW PRODUCT VOSHC Rising VDC or VUSB, relative to VBAT VOSLC Falling VDC or VUSB, relative to VBAT VBAT = 4.0V, use CHG pin to indicate the comparator output VBAT = 4.0V, use CHG pin to indicate the comparator output EN = HIGH or both inputs are floating EN = HIGH, ILDO = 0 EN = HIGH, USB_BYP disconnected EN = LOW, ILDO = 0, USB_BYP disconnected - 150 250 mV 20 80 - mV STANDBY CURRENT ISTANDBY IVDC IVUSB IVDC_VUSB BAT Pin Sink Current VDC Pin Supply Current VUSB Pin Supply Current VDC/VUSB Pin Supply Current 0.05 380 330 0.5 460 400 µA µA µA - 0.63 1.1 mA VOLTAGE REGULATION VBATMAX rDS(ON)_VDC rDS(ON)_VUSB Final Output Voltage, BAT Pin Load = 10mA Load = 10mA (TJ = +25°C) VBAT =3.8V, IVDC = 0.3A, (TJ = +25°C) VBAT = 3.8V, IUSB = 0.3A, (TJ = +25°C) VBAT = 3.8V RIVDC = 12.4kΩ, VBAT = 2.7V to 3.8V RIVDC = 12.4kΩ, VBAT = 2.2V, given as a % of the IVDC CHARGE 4.158 4.174 1.22 450 15 4.2 4.2 550 550 1.25 550 17 4.242 4.226 1.28 600 19 V V mΩ mΩ V mA % VDC Linear ON-resistance VUSB Linear ON-resistance CHARGE CURRENT VIVDC VDC Pin Output Voltage IVDC_CHRG IVDC_TRKL VDC Constant Current VDC Trickle Charge Current API9221 Document number: DS32204 Rev. 1 - 2 5 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Electrical Characteristics (Continued) API9221 is tested at VDC = VUSB = 5V at an ambient temperature of +25°C unless otherwise noted. Symbol VIUSB IUSB_CHRG Parameter IUSB Pin Output Voltage VUSB Constant Current N EW PRODUCT IUSB_TRKL IMIN VUSB Trickle Charge Current Test Conditions VBAT = 3.8V RIUSB = 29.4kΩ, VBAT = 2.7V to 3.8V RIUSB = 29.4kΩ, VBAT = 2.2V and if IUSB_CHRG ≤ IVDC_TRKL, then given as a % of the IUSB CHRG If IUSB_CHRG ≤ IVDC_TRKL Min 1.22 180 15 Typ. 1.25 232 17 Max 1.28 260 19 Unit V mA % 40 IUSB_CHRG 55 70 % mA DC and USB End-of-Charge RMIN = 10kΩ Threshold PRECONDITIONING CHARGE THRESHOLD Preconditioning Charge VMIN Threshold Voltage RECHARGE THRESHOLD Recharge Threshold Voltage VRCH PROTECTIONS OVPVDC VDC Overvoltage Level HOVPVDC VDC Overvoltage Hysteresis OVPVUSB VUSB Overvoltage Level VUSB Overvoltage HOVPVUSB Hysteresis IOCP Short Circuit (USB_BYP) BYPASS FETS Resistance VUSB to Measured at 200mA, USB_rDS(ON) USB_BYP 4.3V < VDC < 5.3V IOUT = 150mA Dropout VUSB to USB_BYP VUSBDO VVUSB > 4.3V 2.5 3.8 6.7 5.3 - 2.6 3.9 6.9 240 5.4 150 400 2.7 4.0 7.1 340 5.55 200 600 V V V mV V mV mA Ω mV - 1.16 200 2.0 - API9221 Document number: DS32204 Rev. 1 - 2 6 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Electrical Characteristics (Continued) API9221 is tested at VDC = VUSB = 5V at an ambient temperature of +25°C unless otherwise noted. Symbol Parameter Test Conditions Min 1.4 Typ. 125 600 - Max - Unit °C V V kΩ V V % INTERNAL TEMPERATURE MONITORING TFOLD Current Fold Back Threshold LOGIC INPUT AND OUTPUT VIH EN Pin Logic Input HIGH VIL EN Pin Logic Input LOW 0.4 850 0.8 +1 N EW PRODUCT EN Pin Internal Pull-down Resistance CHG and PPR output voltage VOL LOW LINEAR REGULATOR VLDO Output Voltage REN 350 Pin Current = 10mA Initial Accuracy, ILDO = 10mA; TJ = +25°C Line regulation VDC = VLDO + 0.5V to 6.5V TJ = -40°C to +125°C Load regulation ILDO = 10µA to 10mA, VDC = VLDO + 0.5V to 6.5V TJ = -40°C to +125°C ILDO = 10mA, VLDO= 4.9V, VDC > VLDO+0.5V For ILDO = 10mA, VDC = 5.5V -1 4.94 - -2.8 - +2.8 % VREG Voltage Regulation Accuracy -2.8 - +2.8 % VDO ILIMIT Dropout (VDC to VLDO) Current Limit 12 20 - 50 - mV mA API9221 Document number: DS32204 Rev. 1 - 2 7 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Functional Description Logic Description A Logic State Table and diagrams of timing and charge profile are given at the end of this description. The battery charge function is disabled when the EN input is pulled to logic HIGH. This normally requires an external pull-up resistor connected to the system microcontroller I/O power supply. The API9221 has an internal resistor connected from this pin to GND, typically 600kΩ. In many applications a suitable pull-up resistor value is 100kΩ. When EN is pulled LOW or left open circuit, charging is enabled as described below. N EW PRODUCT There are two open-drain logic outputs, PPR and CHG . Each of these can use an external pull-up resistor to an appropriate supply such as the microcontroller I/O supply, or can be left open circuit. A suitable value is 100kΩ. Alternatively these can each be used to drive an indicator LED up to a maximum of 10mA. The output PPR is LOW when a valid power supply voltage is present at the VDC input or at the VUSB input, independent of EN . One of the two input voltages must be greater than the power-on threshold and less than the overvoltage protection threshold. The output CHG is LOW when the battery is charging, but only until the End-of-Charge (EOC) condition is reached. Together with other conditions as described below, the voltage at the battery connection BAT is used to control the charging current. In the EOC state, CHG is HIGH to indicate that the charging phase has completed and the battery voltage has reached 4.2V (± 1%). In this state, the charger remains active and is able to supply load current and top up the battery as necessary. CHG may be re-set as described below under Charge Conditions. Auxiliary Outputs The USB_BYP and VDC_LDO outputs are available independently of the EN input state. This allows a host controller to power up initially. USB Bypass, USB_BYP The output USB_BYP provides power from the USB input when a valid power supply voltage is present at the VUSB input. It is current limited to 400mA (nominally). It is therefore safely limited in current and voltage within the USB standard. VDC Low dropout regulator VDC_LDO This output provides a regulated 4.94V supply, up to 10mA, when a valid power supply voltage is present at the VDC input. Charge Conditions Before charging can begin, one of the two input voltages must also exceed the battery voltage enough to overcome the input-output comparator offset. When one of the supplies satisfies these conditions, and EN is LOW, charging begins regardless of the state of the other supply. The valid input conditions are: for VDC: for VUSB: VPOR < VDC < OVPVDC VPOR < VUSB < OVPVUSB and and VDC > VBAT + VOSHC VUSB > VBAT + VOSHC where VPOR is the rising power-on threshold voltage, and VOSHC is the rising input offset voltage relative to VBAT. All these threshold voltages have defined hysteresis. API9221 Document number: DS32204 Rev. 1 - 2 8 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Functional Description (Continued) When the charge current falls below IMIN, CHG goes HIGH (provided it has an external pull-up). This state is latched and is not re-set until one of the following events occurs: 1. EN is driven HIGH and LOW again 2. The active supply is removed and re-applied 3. VBAT falls below the re-charge threshold of 3.9V (nominally) Note that the outputs, BAT, USB_BYP and VDC_LDO are reverse current protected. If an external voltage higher than the supply voltage is connected to one of these outputs, that output will be disabled. Charging from Adapter Power (VDC pin) The battery can be charged from an AC powered wall adapter or in-car adapter at a current of up to 1.2A using this input pin. The maximum charge current is set by an external resistor, RIVDC connected between the IVDC and GND pins. If VDC is greater than the power-on threshold voltage (VPOR) and less than the over-voltage protection threshold (OVPVDC), the battery will begin to charge at a rate dependent on the battery voltage. When VDC input is as recommended, (4.5V to 6.7V), no charge current is drawn from the VUSB input as VDC takes precedence. Input operation below 4.5V is also possible, but the charging rate may be affected. The resistor RIVDC determines the charge current according to N EW PRODUCT IVDC = 6820 Amp RIVDC For example, a resistor value of 13kΩ sets a charge current of 0.525A. The recommended IVDC setting is 100mA to 1200mA. The maximum charge current available may be otherwise limited by the car/wall adapter current limit, by thermal protection within the API9221, or by the rDS(ON) of the FET in the VDC charging path. For example, if IVDC is set to 1A, there is a voltage drop of 0.6V due the typical rDS(ON) of 600mΩ at room temperature. Therefore, the voltage at the VDC input must be at least 4.8V to charge the battery to 4.2V in the minimum time. The VDC input is safe from damage up to 28V. Charging from USB Power (VUSB pin) The battery can be charged at a current of up to 0.5A from this pin. In this case the maximum available charge current is set by an external resistor RIUSB connected between the IUSB and GND pins. If VUSB is greater than the power-on threshold voltage (VPOR) and less than the over-voltage protection threshold (OVPVUSB), the battery will begin to charge at a rate dependent on the battery voltage. The resistor RIUSB resistor determines the charge current according to IUSB = 6820 Amp RIUSB API9221 Document number: DS32204 Rev. 1 - 2 9 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Functional Description (Continued) For example, a resistor value of 22kΩ sets a charge current of 0.31A. The recommended IUSB setting is 46.5mA to 465mA. The maximum charge current available may be otherwise limited by the external USB current limit, or by thermal protection within the API9221. The rDS(ON) of the FET in the USB charging path is typically 600mΩ at room temperature. At the IUSB limit of 465mA, there is a voltage drop of nearly 0.3V. Therefore, the voltage at the VUSB input must be at least 4.5V to charge the battery to 4.2V in the minimum time. The VUSB input is safe from damage up to 28V. Trickle Charge When the battery voltage is below the Preconditioning Threshold, VMIN, the charger is in the Trickle Charge state and the charge current is limited to 18% of the available charge current set by RIVDC or RIUSB. If the USB charge current is programmed to a value less than the VDC trickle charge, then this value of the USB current is used in trickle mode (no derating). When the battery voltage reaches VMIN, the charge current increases to 100% of the available charge current. End-of-Charge Current During charging, as the battery voltage approaches the regulated value of 4.2V, the charging current will begin to decrease. Eventually the charging current settles to a value just low enough to maintain the regulated voltage. When the current becomes less than the End-of-Charge threshold current, IMIN, the logic output CHG goes HIGH. The threshold current is set by an external resistor connected between the IMIN and GND pins. This is independent of whether the VDC or VUSB input is valid. The resistor at IMIN determines the EOC threshold current according to IMIN = 550 Amp R IMIN N EW PRODUCT For example, a resistor value of 10kΩ sets the EOC threshold current to 55mA. Accuracy When the constant voltage phase has been reached, the battery is charged to 4.2V ±1%. This is the maximum error over the ambient temperature range from -40°C to +85°C. API9221 Document number: DS32204 Rev. 1 - 2 10 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Functional Description (Continued) Fault Summary and Protection Overvoltage protection: If VDC is greater than OVPVDC (6.9V), the VDC charging path is turned off until VDC falls below OVPVDC - HOVPVDC, where HOVPVDC is the OVP hysteresis. Similarly, if VUSB is greater than OVPVUSB (5.4V), the USB charging path is turned off until VUSB falls below OVPVUSB – HOVPVUSB. USB_BYP current limit: The USB_BYP load current is limited to 400mA (nominally). USB_BYP reverse blocking: If the voltage at USB_BYP is greater than VUSB, the USB bypass path is turned off. N EW PRODUCT BAT reverse blocking: If the battery voltage is greater than either VDC or VUSB, the relevant charge path is turned off. VDC_LDO reverse blocking: If the voltage at VDC_LDO is greater than VDC, the linear regulator is turned off. Thermal protection: When the junction temperature reaches 125°C, a current foldback circuit is activated. This effectively limits the power dissipation to a safe level. Power Supply Filtering and Stability At each of the inputs VDC and VUSB, a local decoupling capacitor is required to be connected to GND. A minimum value of 1µF is recommended, ceramic type X7R. (The USB standard sets an upper bound of capacitance somewhat larger than this.) At the linear regulator output VDC_LDO, a local decoupling capacitor is required, connected to GND. A value of 1µF is recommended, ceramic type X7R. At the battery connection BAT, a local decoupling capacitor is required, connected to GND. A value of 1µF is recommended, ceramic type X7R. API9221 Document number: DS32204 Rev. 1 - 2 11 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Timing Diagram 6.9V OVPVDC OVPVDC - HOVPVDC PO VDC N EW PRODUCT 5.4V OVPVUSB PO VUSB PPR OVPVUSB - HOVPVUSB EN ENABLED CHG ILDO+ICHRG IVDC ILDO IUSB_BYP+ICHRG IUSB VBAT IUSB_BYP USB_BYP 4.94V VDC_LDO 0V PO = Power-ON ICHRG = Battery Charging Current API9221 Document number: DS32204 Rev. 1 - 2 12 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Logic State Table INPUTS VDC INPUT VALID* No Yes Yes No No Yes Yes OUTPUTS Charging State Off Off On (VDC) Off On (VUSB) Off On (VDC) EN X HIGH LOW N EW PRODUCT HIGH LOW HIGH LOW VUSB INPUT VALID* No No No Yes Yes Yes Yes PPR CHG VDC_LDO Off On On Off Off On On USB_BYP Off Off Off On On On On Hi Z LOW LOW LOW LOW LOW LOW Hi Z Hi Z LOW Hi Z LOW Hi Z LOW * Valid VDC input: VPOR < VDC < OVPVDC * Valid VUSB input: VPOR < VUSB < OVPVUSB X = don’t care When the charging state is On, the charge current also depends on the battery terminal voltage as described in the text. Charging Profile Diagram API9221 Document number: DS32204 Rev. 1 - 2 13 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Ordering Information API9221 FC G - 13 Package FC :DFN4030-12 Device Green G : Green Packing 13 : Tape & Reel N EW PRODUCT Package Code FC API9221FCG-13 Notes: Packaging (Note 5) DFN4030-12 13” Tape and Reel Quantity Part Number Suffix 3000/Tape & Reel -13 5. Pad layout as shown on Diodes Inc. suggested pad layout document AP02001, which can be found on our website at http://www.diodes.com/datasheets/ap02001.pdf. Marking Information ( Top View ) XX Y WX XX : BF : API9221 Y : Year : 0~9 W : Week : A~Z : 1~26 week; a~z : 27~52 week; z : represents 52 and 53 X : A~Z : Green Identification Code BF Part Number API9221FCG Package DFN4030-12 API9221 Document number: DS32204 Rev. 1 - 2 14 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Package Outline Dimensions (All Dimensions in mm) TOP MARK 0.10 C 0.08 C 0.55/0.65 0/0.05 0.15 Seating Plane 0.25 A N EW PRODUCT Side View 3.95/4.05 3.2/3.4 C 2X- B A (Pin #1 ID) 2.95/3.05 1.6/1.8 2X- 0.25 B 0.50Typ. 0.20/0.30 0.10 CAB Bottom View API9221 Document number: DS32204 Rev. 1 - 2 15 of 17 www.diodes.com 0.3/0.4 May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO Taping Orientation (Note 6) N EW PRODUCT Notes: 6. The taping orientation of the other package type can be found on our website at http://www.diodes.com/datasheets/ap02007.pdf API9221 Document number: DS32204 Rev. 1 - 2 16 of 17 www.diodes.com May 2010 © Diodes Incorporated API9221 Car/Wall or USB Supply Input Lithium Battery Charger with OVP USB Bypass and 10mA LDO IMPORTANT NOTICE DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION). Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated website, harmless against all damages. Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales channel. Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized application. Products described herein may be covered by one or more United States, international or foreign patents pending. Product names and markings noted herein may also be covered by one or more United States, international or foreign trademarks. LIFE SUPPORT Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein: A. Life support devices or systems are devices or systems which: 1. are intended to implant into the body, or 2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in significant injury to the user. B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or to affect its safety or effectiveness. N EW PRODUCT Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems. Copyright © 2010, Diodes Incorporated www.diodes.com API9221 Document number: DS32204 Rev. 1 - 2 17 of 17 www.diodes.com May 2010 © Diodes Incorporated
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