AP9214L SINGLE CHIP SOLUTION FOR 1-CELL Li+ BATTERY PACK Description Pin Assignments The AP9214L is a single chip protection solution specially designed for 1-cell Li+ rechargeable battery pack application. (Top View) NEW PRODUCT The AP9214L includes a 1-cell Lion battery protection chip and dual N-CH, ultra low RSS(ON) MOSFET with common drain. High Voltage CMOS Process, up to 30V (VDD to VM) Low Quiescent Current (+25C ) In Normal Mode, 3.0A (Typ.), 4.5A (Max.), VDD = 3.5V In Power-Down Mode, 0.1A (Max.) High-Accuracy Voltage Detection Circuit (+25C) Overcharge Detection Voltage: 3.5V to 4.5V (5mV Steps) Accuracy 25mV Overcharge Hysteresis Voltage Range: 0.1V to 0.4V (50mV Steps) Accuracy 50mV Overdischarge Detection Voltage: 2.0V to 3.4V (10mV Steps) Accuracy 35mV Overdischarge Hysteresis Voltage Range: 0V to 0.7V (40mV Steps) Accuracy 65mV Discharge Overcurrent Detection Voltage: 0.05V to 0.32V (10mV Steps) Accuracy 15mV Short Current Detection Voltage: 0.45V to 0.7V (50mV Steps) Accuracy 100mV Charge Overcurrent Detection Voltage: -0.2V to -0.05V (10mV Steps) Accuracy 15mV Overcharger Detection Voltage: 8.0V (Fixed) Accuracy 2V VDD S2 2 5 NC 3 4 VM S1 1 VSS VDD 6 S2 2 5 VM 3 4 NC EP Features VSS 6 U-DFN2535-6 (Option 1) The AP9214L is available in U-DFN2535-6 package with two kinds of pin options. 1 EP The AP9214L provides rich battery protection features and can turnoff the N-CH MOSFET by detecting overcharge voltage/current, over discharge voltage/current, or load short circuit. The AP9214L has built-in fixed delay time to save external components. S1 U-DFN2535-6 (Option 2) Applications Li+ Rechargeable Battery Pack Overcharger Release Voltage: 7.3V (Fixed) Accuracy 2V Built-in Fixed Detection Delay Time (+25C), Accuracy 20% Power-Down Mode Selectable (Yes or No) 0V Battery Charge Selectable (Permission or Inhibition) Overcharge Protection Mode Selectable (Auto Release or Latch) Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2) Halogen and Antimony Free. "Green" Device (Note 3) Notes: 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS), 2011/65/EU (RoHS 2) & 2015/863/EU (RoHS 3) compliant. 2. See https://www.diodes.com/quality/lead-free/ for more information about Diodes Incorporated's definitions of Halogen- and Antimony-free, "Green" and Lead-free. 3. Halogen- and Antimony-free "Green" products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds. AP9214L Document number: DS38413 Rev. 2 - 2 1 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Typical Applications Circuit (Note 4) P+ R1 330 to 470 3(3) NEW PRODUCT BAT VDD C1 100n 2(2) VSS U1 AP9214L (U-DFN2535-6) S1 1(1) VM 4(5) R2 2.7k S2 P- 6(6) A (B) A for Pin-out Option 1 B for Pin-out Option 2 4. R1 and C1 are used to stabilize the supply voltage of the AP9214L. The recommended range of R1 value is 330 to 470 and C1 value is 10nF to 1000nF, typical value is 100nF. R2 should be connected between P- to VM sense terminal to monitor the status of charger and the charge/discharge current. The R2 should be between 300 and 4k, typical value is 2.7k. R1 and R2 are also used as current limit resistors if the battery or charger is connected reversely. Polarity reversing may cause the power consumption of R1 and R2 to go over their power dissipation rating, therefore R1 and R2 values should be selected appropriately for the actual application. If R2 is more than 4k resistor, charge may not be off due to the voltage drop on R2. Note: For power-down mode, when first connecting AP9214L system board to the battery, it is necessary to use charger or to short P- to the battery negative polarity. Once the AP9214L is activated, the charger or connection can be removed, otherwise the battery cannot discharge current through system board. The values selected should follow the recommended typical range mentioned above. It has not been confirmed whether the operation is normal or not in circuits other than the above example of connection. In addition, the example of connection shown above and the typical value do not exactly guarantee proper operation. Please perform the actual application to set the suitable value through your complete evaluation. Pin Descriptions Pin Number Pin Number Option 1 Option 2 1 1 S1 2 2 VSS Negative power supply pin. 3 3 VDD Positive power supply pin, connecting this pin to battery positive pole through R1. 4 5 VM Charger negative input pin, short this pin to S2 pin through R2. 5 4 NC Not connected, leave this pin floating. 6 6 S2 Source pin of charging MOSFET, connecting this pin to charge negative input. EP EP Drain AP9214L Document number: DS38413 Rev. 2 - 2 Pin Name Function Source pin of discharging MOSFET, connecting this pin to battery negative pole. Thermal PAD is common drain of charge and discharge MOSFET, so in PCB layout, prefer to use large copper area to cover this pad for better thermal dissipation, then leave it open. 2 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Functional Block Diagram 0V Charge Option NEW PRODUCT Logic Circuit 3 (3) VDD Level Shift Delay Time Circuit VM 2 (2) 4 (5) VSS RVMD Logic Circuit RVMS G1 1(1) S1 G2 D1 D2 S1 S2 6(6) S2 EP Drain A (B) A for Pin-out Option 1 B for Pin-out Option 2 AP9214L Document number: DS38413 Rev. 2 - 2 3 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Absolute Maximum Ratings (Notes 5 & 6) Symbol VDS NEW PRODUCT VDM Parameter Ratings Supply Voltage (Between VDD and VSS) Charge Input Voltage (Between VDD and VM for Protection Chip) Unit -0.3 to 12 V -0.3 to 24 V VDSS MOSFET Drain-to-Source Voltage 24 V VGSS MOSFET Gate-to-Source Voltage 12 V Continuous Drain Current, VGS = 4.5V, TA = +25C 9.0 A ID Continuous Drain Current, VGS = 4.5V, TA = +70C PD Power Dissipation TJ Maximum Junction Temperature TSTG Notes: Storage Temperature Range 7.1 A 1000 mW +150 C -65 to +150 C 5. Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these conditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. 6. Ratings apply to ambient temperature at +25C. The JEDEC High-K board design used to derive this data was a 2 inch x 2 inch multilayer board with 2ounce internal power and ground planes and 2-ounce copper traces on the top and bottom of the board. Recommended Operating Conditions Symbol Parameter Min Max Unit VDS Supply Voltage (Between VDD and VSS) 1.5 5.5 V VDM Charge Input Voltage (Between VDD and VM) -0.3 5.5 V Operating Ambient Temperature -40 +85 C TA AP9214L Document number: DS38413 Rev. 2 - 2 4 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Electrical Characteristics (TA = +25C, VDD = 3.5V, VSS = 0V, R1 = 220, R2 = 1.0k, C1 = 100nF, unless otherwise specified.) Symbol Parameter VCU Overcharge Detection Voltage VCL Overcharge Release Voltage Conditions VCL VCU NEW PRODUCT VCL = VCU VDL Overdischarge Detection Voltage VDU Overdischarge Release Voltage VDU VDL VDU = VDL Min VCU - 0.025 VCL - 0.050 VCL - 0.025 VDL - 0.035 VDU - 0.100 VDU - 0.035 VDOC -0.015 VSHORT -0.10 VCOC -0.015 Typ VCU VCL VCL VDL VDU VDU Max Units VCU + 0.025 VCL + 0.050 VCL + 0.025 VDL + 0.035 VDU + 0.100 VDU + 0.035 VDOC +0.015 VSHORT +0.10 VCOC +0.015 V V V V V V Discharge Overcurrent Detection Voltage VSHORT Load Short-Circuiting Detection Voltage VCOC Charge Overcurrent Detection Voltage ICC Current Consumption During Operation VDD = 3.5V, VM = 0V 1.5 3.0 4.5 A 0.1 A Current Consumption at Power Down VDD = 1.8V Power Down Mode VM Pin Without Power Down Floating Mode (Auto Wake up) 5.5 A VDOC ISTB VDOC VSHORT VCOC V V V RVMD Resistance Between VM Pin and VDD Pin VDD = 1.8V, VM = 0V 150 300 500 k RVMS Resistance Between VM Pin and VSS Pin VDD = 3.5V, VM = 1.0V 10 30 50 k V0CHA 0V Battery Charge Starting Charge Voltage 0V Battery Charging "Available" 1.2 V V0INH 0V Battery Charge Inhibition Battery Voltage 0V Battery Charging "Unavailable" 0.45 V VOVCHG Overvoltage Charge Detection Voltage VDD = 3.5V 6.0 8.0 10.0 V VOVCHGR Overvoltage Charge Release Voltage VDD = 3.5V 5.3 7.3 9.3 V tCU Overcharge Detection Delay Time tCU * 0.8 tCU tCU * 1.2 ms tCUR Overcharge Release Delay Time tCUR * 0.8 tCUR tCUR * 1.2 ms tDL Overdischarge Detection Delay Time tDL * 0.8 tDL tDL * 1.2 ms tDLR Overdischarge Release Delay Time tDLR * 0.8 tDLR tDLR * 1.2 ms tDOC Discharge Overcurrent Detection Delay Time tDOC * 0.8 tDOC tDOC * 1.2 ms tDOCR Discharge Overcurrent Release Delay Time tDOCR * 0.8 tDOCR tDOCR * 1.2 ms tSHORT Load Short Detection Delay Time tSHORT * 0.8 tSHORT tSHORT * 1.2 s tCOC Charge Overcurrent Detection Delay Time tCOC * 0.8 tCOC tCOC * 1.2 ms tCOCR Charge Overcurrent Release Delay Time tCOCR * 0.8 tCOCR tCOCR * 1.2 ms AP9214L Document number: DS38413 Rev. 2 - 2 5 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Electrical Characteristics (Cont.) (TA = -40C to +85C, VDD = 3.5V, VSS = 0V, R1 = 220, R2 = 1.0k, C1 = 100nF, unless otherwise specified.) Symbol Parameter VCU Overcharge Detection Voltage VCL Overcharge Release Voltage Conditions VCL VCU NEW PRODUCT VCL = VCU VDL Overdischarge Detection Voltage VDU Overdischarge Release Voltage VDU VDL VDU = VDL Min VCU - 0.060 VCL - 0.080 VCL - 0.060 VDL - 0.080 VDU - 0.150 VDU - 0.080 VDOC -0.021 VSHORT -0.34 VCOC -0.040 Typ VCU VCL VCL VDL VDU VDU Max Units VCU + 0.040 VCL + 0.065 VCL + 0.040 VDL + 0.080 VDU + 0.190 VDU + 0.080 VDOC +0.024 VSHORT +0.34 VCOC +0.040 V V V V V V Discharge Overcurrent Detection Voltage Load Short Detection Voltage VCOC Charge Overcurrent Detection Voltage ICC Current Consumption During Operation VDD = 3.5V,VM = 0V 1.0 3.0 7.0 A 1.0 A Current Consumption at Power Down Power Down Mode VDD =1.8V Without Power VM Pin Down Mode (Auto Floating Wake up) 8 A 100 300 650 k 5 30 65 k 1.2 V 0.3 V VDOC VSHORT ISTB RVMD Resistance Between VM Pin and VDD Pin VDD = 1.8V, VM = 0V RVMS Resistance Between VM Pin and VSS Pin VDD = 3.5V, VM = 1.0V V0CHA V0INH 0V Battery Charging 0V Battery Charge Starting Charge Voltage "Available" 0V Battery Charging 0V Battery Charge Inhibition Battery Voltage "Unavailable" VDOC VSHORT VCOC V V V VOVCHG Overvoltage Charge Detection Voltage VDD = 3.5V 5.5 8.0 10.5 V VOVCHGR Overvoltage Charge Release Voltage VDD = 3.5V 5.0 7.3 9.5 V tCU Overcharge Detection Delay Time tCU * 0.6 tCU tCU * 1.4 ms tCUR Overcharge Release Delay Time tCUR * 0.6 tCUR tCUR * 1.4 ms tDL Overdischarge Detection Delay Time tDL * 0.6 tDL tDL * 1.4 ms tDLR Overdischarge Release Delay Time tDLR * 0.6 tDLR tDLR * 1.4 ms tDOC Discharge Overcurrent Detection Delay Time tDOC * 0.6 tDOC tDOC * 1.4 ms tDOCR Discharge Overcurrent Release Delay Time tDOCR * 0.6 tDOCR tDOCR * 1.4 ms tSHORT Load Short Detection Delay Time tSHORT * 0.6 tSHORT tSHORT * 1.4 s tCOC Charge Overcurrent Detection Delay Time tCOC * 0.6 tCOC tCOC * 1.4 ms tCOCR Charge Overcurrent Release Delay Time tCOCR * 0.6 tCOCR tCOCR * 1.4 ms AP9214L Document number: DS38413 Rev. 2 - 2 6 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Electrical Characteristics (Cont., Notes 7, 8) (TA = +25C, VDD = 3.5V, VSS = 0V, R1 = 220, R2 = 1.0k, C1 = 100nF, unless otherwise specified.) Symbol NEW PRODUCT Conditions Min Typ Max Units Zero Gate Voltage Drain Current VDS = 20V, VGS = 0 1.0 A RSS(ON)1 Static Source-Source On-Resistance 1 VDD = 4.0V, ID = 1.0A 10 13 16 m RSS(ON)2 Static Source-Source On-Resistance 2 VDD = 3.9V, ID = 1.0A 10 13.5 16.5 m RSS(ON)3 Static Source-Source On-Resistance 3 VDD = 3.0V, ID = 1.0A 11 14 17 m Diode Forward Voltage VGS = 0V, IS = 1A 0.75 1.0 V IDSS VSD Notes: Parameter 7. In case of Gate-Source voltage of charging MOSFET is 0V. In case of Gate-Source voltage of discharging MOSFET is 0V. 8. These specifications are guaranteed by design - will not be tested in production. AP9214L Document number: DS38413 Rev. 2 - 2 7 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Application Information Operation Mode 1. Normal Status NEW PRODUCT The AP9214L monitors the battery voltage between the VDD pin and VSS pin as well as the voltage difference between the VM pin and VSS pin to control battery charging and discharging. When the battery voltage is between overdischarge detection voltage (V DL) and overcharge detection voltage (VCU) as well as the VM pin voltage is between the charge overcurrent detection voltage (VCOC) and discharge overcurrent detection voltage (VDOC), the AP9214L will turn on discharging and charging MOSFET. In these conditions, the battery can charge and discharge freely. Also, RVMD does not connect to VDD pin and RVMS does not connect to VSS pin in this status. 2. Overcharge Status If the battery voltage is more than VCU during charging status for the overcharge detection delay time (t CU) or longer, the AP9214L turns off the charging MOSFET to stop charging. RVMD and RVMS are not connected in overcharge status. When VM pin voltage is lower than VDOC and battery voltage falls below VCL, the AP9214L will release from overcharge status. When VM pin voltage is equal or more than VDOC and battery voltage falls below VCU, the AP9214L will release from overcharge status. 3. Overdischarge Status If the battery voltage is less than VDL during discharging status for the overdischarge detection delay time (tDL) or longer, the AP9214L turns off the discharging MOSFET to stop discharging. In overdischarge status, RVMD is connected to VDD and VM pin voltage is pulled up to VDD by RVMD, but RVMS is not connected. For power-down mode version, the AP9214L recovers normal status from overdischarge status only by charging the battery through the charger. When VM pin voltage to VSS pin voltage is less than typical -0.7V and the battery voltage rises over VDL, the AP9214L will release from overdischarge status. If VM pin voltage to VSS pin voltage is higher than typical -0.7V, the AP9214L will release from overdischarge status until the battery voltage rises over VDU. For auto-wake-up version AP9214LA, the device recovers to normal status from overdischarge status if either of these two conditions are satisfied: If charger is connected: the AP9214LA overdischarge status is released in the same way as described above in AP9214L overdischarge Status section. If no charger is connected: 1) The battery voltage reaches the overdischarge release voltage (VDU) or higher; 2) Maintains continuous time more than overdischarge release delay time tDLR. 4. Discharge Overcurrent and Short Current Status When battery is in discharge overcurrent status, if the voltage of the VM pin to VSS pin is equal or more than VDOC to VSHORT and detection lasts for the discharge overcurrent detection delay time (tDOC) or longer, the AP9214L turns off the discharging MOSFET to stop discharging. When the battery is in short current status, if the voltage of the VM pin to VSS pin is equal to or more than VSHORT, and the detection lasts for the short current detection delay time or longer, the AP9214L turns off the discharge MOSFET to stop discharging. In discharge overcurrent or short current status, RVMS is connected to VSS but RVMD is not connected. The voltage of VM pin is almost equal to VDD as long as the load is connected. When the load is disconnected, the voltage of VM pin will become almost equal to VSS (due to RVMS being connected) and then the AP9214L will release from discharge overcurrent or short current status. 5. Charge Overcurrent Status When the battery is in charge overcurrent status, if the voltage of the VM pin to VSS pin is equal to or less than VCOC and the detection continues for the charge overcurrent detection delay time (tCOC) or longer, the AP9214L turns off the charging MOSFET to stop charging. 6. 0V Battery Charging Function (Optional) This function is available as an option and can be factory set internally. The AP9214L has this function built in. 0V charging function permits charger to recharge the battery whose voltage is 0V due to self-discharge. If 0V charging function is not present, the device will prevent charger to recharge the battery whose voltage is 0V due to self-discharge. (If a device without 0V charging function is needed, please contact Diodes sales team.) AP9214L Document number: DS38413 Rev. 2 - 2 8 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Application Information (Cont.) 7. Overvoltage Charger Detection Circuit This function is used to monitor the charger voltage between the VDD pin and VM pin, and when this voltage exceeds overvoltage charger detection voltage (8.0V Typ.), the AP9214L will turn off charging MOSFET, when this voltage drops below overvoltage charger release voltage (7.3V Typ.), it then turns on charging MOSFET. There is no delay time setting for detection and release. NEW PRODUCT 8. Power-Down Mode or Auto-Wake-Up Function (Optional) In device with power-down function, during power-down mode, device enters the overdischarge status. The IC enters sleep mode and the current consumption becomes very low, typically 0.1A. To release from power-down status to the normal status, charger connection is required. In device with auto-wakeup mode, the IC remains active in the overdischarge state. The IC is released into the normal state by the operation that increases the battery voltage more than overdischarge release voltage. AP9214L Document number: DS38413 Rev. 2 - 2 9 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Application Information (Timing Chart) 1. Overcharge and Overdischarge Detection VCU VCL NEW PRODUCT VDD VDU VDL VSS VDD DO VSS VDD Red line is for no shutdown mode version CO VVM VDD VM VDOC VSS VCOC VP2 S1 1 3 S2 2 4 S1 P1 Document number: DS38413 Rev. 2 - 2 1 3 P1 1: tDL 2: tCU 3: tCUR 4: tDLR AP9214L 3 S2 S1: Charger connection S2: Load connection P1: RVMD pull-up connection 10 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Application Information (Timing Chart) (Cont.) 2. Discharge Overcurrent Detection VCU NEW PRODUCT VCL VDD VDU VDL VSS ON DO OFF ON CO OFF VDD VSHORT VM VDOC VSS 1 1 3 S1 P1 1: tDOC 2: tSHORT 3: tDOCR AP9214L Document number: DS38413 Rev. 2 - 2 2 3 S2 P1 S1: Connect over current load S2: Connect short current load P1: RVMS pull-down connection 11 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Application Information (Timing Chart) (Cont.) 3. Charge Overcurrent Detection VCU VCL VDD NEW PRODUCT VDU VDL VSS VDD DO VSS VDD CO VVM VDD VM VSS VCOC VP1 2 S1 1: tCOC 2: tCOCR AP9214L Document number: DS38413 Rev. 2 - 2 S1: Connect over current charger 12 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Ordering Information (Note 9) AP9214L X - X - X - X Package Packing HSB: U-DFN2535-6 7: Tape & Reel Product Code Power Down Mode Product Name Voltage & Delay Time Blank: Yes A: No (Auto-wake-up) Combination Code (Pin-out Option 1) NEW PRODUCT HSBR: U-DFN2535-6 (Pin-out Option 2) Device Package Code Packaging Pin Out HSB U-DFN2535-6 HSBR U-DFN2535-6 AP9214L(X)-X-HSB-7 AP9214L(X)-X-HSBR-7 7" Tape and Reel Quantity Part Number Suffix Option 1 3000/Tape & Reel -7 Option 2 3000/Tape & Reel -7 Voltage Combination Part Number Overcharge Detection Voltage Overcharge Release Voltage VCU VCL Overdischarge Overdischarge Detection Release Voltage Voltage VDL VDU Discharge Overcurrent Detection Voltage Load Short Detection Voltage Charge Overurrent Detection Voltage VDOC VSHORT VCOC Over Voltage Charger Detection Voltage Over Voltage Charger Release Voltage VOVCHG VOVCHGR Powr-down Function Overcharge Protection Mode Delay Time 0V Battery Charge Function AP9214L(X)AA-HSB(X)-7 4.375V 4.175V 2.500V 2.900V 0.150V 0.700V -0.150V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AB-HSB(X)-7 4.425V 4.225V 2.500V 2.900V 0.150V 0.700V -0.150V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AC-HSB(X)-7 4.375V 4.175V 2.500V 2.900V 0.095V 0.700V -0.095V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AD-HSB(X)-7 4.375V 4.175V 2.500V 2.900V 0.120V 0.700V -0.120V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AE-HSB(X)-7 4.200V 4.100V 2.500V 3.000V 0.300V 0.550V -0.100V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AF-HSB(X)-7 4.375V 4.175V 2.500V 2.900V 0.180V 0.700V -0.180V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AG-HSB(X)-7 4.375V 4.175V 2.500V 2.900V 0.075V 0.700V -0.075V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AH-HSB(X)-7 4.425V 4.225V 2.500V 2.900V 0.075V 0.700V -0.075V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AI-HSB(X)-7 4.500V 4.300V 2.400V 2.800V 0.150V 0.700V -0.075V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AJ-HSB(X)-7 4.375V 4.175V 2.400V 2.800V 0.125V 0.700V -0.125V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AK-HSB(X)-7 4.250V 4.050V 2.400V 3.000V 0.150V 0.700V -0.150V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AL-HSB(X)-7 4.275V 4.175V 2.300V 2.400V 0.180V 0.700V -0.180V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AM-HSB(X)-7 4.375V 4.175V 2.300V 2.400V 0.180V 0.700V -0.180V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)AN-HSB(X)-7 4.225V 4.025V 3.200V 3.400V 0.060V 0.450V -0.060V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L(X)BA-HSB(X)-7 4.240V 4.140V 3.000V 3.100V 0.081V 0.700V -0.081V 8.0V 7.3V Selectable Auto Release Option Permission 1 AP9214L Document number: DS38413 Rev. 2 - 2 13 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Ordering Information (Cont.) (Note 9) Delay Time Combination NEW PRODUCT Part Number AP9214L(X)-XXHSB(X)-7 Note: Overcharge Detection Delay Time Overcharge Release Delay Time Overdischarge Overdischarge Detection Delay Release Delay Time Time tCU tCUR tDL tDLR 1.0s 2.0ms 115ms 2.0ms Discharge Overcurrent Detection Delay Time Discharge Overcurrent Release Delay Time Charge Overcurrent Detection Delay Time Charge Overcurrent Release Delay Time tDOC tDOCR tCOC tCOCR 10.0ms 2.0ms 10.0ms 2.0ms Load Short Detection Delay Time tSHORT 320s 9. If products of any other voltage versions are needed, please contact with the local sales' office. Marking Information AP9214L Document number: DS38413 Rev. 2 - 2 14 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L Marking Information (Cont.) NEW PRODUCT Part Number AP9214LA-AA-HSB-7 AP9214LA-AB-HSB-7 AP9214LA-AC-HSB-7 AP9214LA-AD-HSB-7 AP9214LA-AE-HSB-7 AP9214LA-AF-HSB-7 AP9214LA-AG-HSB-7 AP9214LA-AH-HSB-7 AP9214LA-AI-HSB-7 AP9214LA-AJ-HSB-7 AP9214LA-AK-HSB-7 AP9214LA-AL-HSB-7 AP9214LA-AM-HSB-7 AP9214LA-AN-HSB-7 AP9214LA-BA-HSB-7 AP9214LA-AA-HSBR-7 AP9214LA-AB-HSBR-7 AP9214LA-AC-HSBR-7 AP9214LA-AD-HSBR-7 AP9214LA-AE-HSBR-7 AP9214LA-AF-HSBR-7 AP9214LA-AG-HSBR-7 AP9214LA-AH-HSBR-7 AP9214LA-AI-HSBR-7 AP9214LA-AJ-HSBR-7 AP9214LA-AK-HSBR-7 AP9214LA-AL-HSBR-7 AP9214LA-AM-HSBR-7 AP9214LA-AN-HSBR-7 AP9214LA-BA-HSBR-7 AP9214L-AA-HSB-7 AP9214L-AB-HSB-7 AP9214L-AC-HSB-7 AP9214L-AD-HSB-7 AP9214L-AE-HSB-7 AP9214L-AF-HSB-7 AP9214L-AG-HSB-7 AP9214L-AH-HSB-7 AP9214L-AI-HSB-7 AP9214L-AJ-HSB-7 AP9214L-AK-HSB-7 AP9214L-AL-HSB-7 AP9214L-AM-HSB-7 AP9214L-AN-HSB-7 AP9214L-AA-HSBR-7 AP9214L-AB-HSBR-7 AP9214L-AC-HSBR-7 AP9214L-AD-HSBR-7 AP9214L-AE-HSBR-7 AP9214L-AF-HSBR-7 AP9214L-AG-HSBR-7 AP9214L-AH-HSBR-7 AP9214L-AI-HSBR-7 AP9214L-AJ-HSBR-7 AP9214L-AK-HSBR-7 AP9214L-AL-HSBR-7 AP9214L-AM-HSBR-7 AP9214L-AN-HSBR-7 AP9214L Document number: DS38413 Rev. 2 - 2 Package U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 U-DFN2535-6 15 of 17 www.diodes.com Identification Code 14AA 14AB 14AC 14AD 14AE 14AF S6 S8 14AI 14AJ 14AK 14AL 14AM 14AN 14BA 14AAR 14ABR 14ACR 14ADR 14AER 14AFR R7 RH 14AIR 14AJR 14AKR 14ALR 14AMR 14ANR 14BAR 14A 14B 14C 14D 14E 14F X8 X9 14I 14J 14K 14L 14M 14N 14AR 14BR 14CR 14DR 14ER 14FR 14GR 14HR 14IR 14JR 14KR 14LR 14MR 14NR April 2018 (c) Diodes Incorporated AP9214L Package Outline Dimensions Please see http://www.diodes.com/package-outlines.html for the latest version. U-DFN2535-6 (Type B) A3 A NEW PRODUCT Seating Plane D A1 e1 L(X6) e R0. (P 150 in # 1 ID ) E E2 D2 U-DFN2535-6 (Type B) Dim Min Max Typ A 0.50 0.60 A1 0.00 0.05 0.02 A3 0.127 b 0.25 0.35 0.30 b2 1.05 1.15 1.10 D 2.45 2.55 2.50 D2 2.01 2.21 2.11 E 3.45 3.55 3.50 E2 2.20 2.40 2.30 e 0.55 e1 0.95 L 0.25 0.35 0.30 z 0.15 All Dimensions in mm b z b2 Suggested Pad Layout Please see http://www.diodes.com/package-outlines.html for the latest version. U-DFN2535-6 (Type B) X1 X X2 Dimensions C C1 X X1 X2 Y Y1 Y1 Y C1 AP9214L Document number: DS38413 Rev. 2 - 2 Value (in mm) 0.550 0.950 0.400 1.200 2.210 0.500 2.400 C 16 of 17 www.diodes.com April 2018 (c) Diodes Incorporated AP9214L IMPORTANT NOTICE NEW PRODUCT 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. 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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. 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 (c) 2018, Diodes Incorporated www.diodes.com AP9214L Document number: DS38413 Rev. 2 - 2 17 of 17 www.diodes.com April 2018 (c) Diodes Incorporated