Advanced Analog Technology, Inc. AAT8661 Series Product information presented is current as of publication date. Details are subject to change without notice. ONE-CELL LI-ION BATTERY PROTECTION IC FEATURES GENERAL DESCRIPTION z Ideal for One-Cell Rechargeable Li-Ion Battery Packs z High Accuracy Voltage Detection z Low Current Consumption: The AAT8661 series are designed to protect one-cell rechargeable Li-Ion battery pack against over-charge, over-discharge, over-current and short circuit. They use CMOS process to provide high accuracy voltage detection and low current consumption. Each of the AAT8661 devices incorporates voltage comparators, bandgap reference voltage generator, signal delay circuit, short circuit detector, and digital control circuit. In the charge process, when the battery voltage is charged to a value greater than VC1 (Over-Charge Threshold Voltage), the output of C out pin 3μA Supply Current (Typical) 0.1μA Shutdown Current z 3-Level Over Current Detection: Over-Current Level 1 /Over Current Level 2 / Short Circuit z Wide Operating − 40 ο C to 85 ο C z Small SOT26 Package Temperature Range: switches to the low level, i.e., the VN pin level. The output of C out pin will switch to high level PIN CONFIGURATION D out GND VN V DD C out NULL when the battery voltage falls lower than VC2 (Over-Charge Release Voltage), or when the charger is disconnected from the battery pack and the battery voltage level ranges between VC1 and VC2. During the discharge process, when the battery voltage drops to a value lower than VD1 (Over-Discharge Threshold Voltage), the output of D out pin switches to low level immediately after the internal delay time elapses. The output of D out pin will switch to high level when the battery voltage is at a level higher than VD 2 (Over-Discharge Release Voltage). Over current level 1 voltage ( VOC1 ) is used to – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 1 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series monitor the amount of discharge current. If the discharge current is high enough to cause VN pin voltage increase to a value greater than VOC1 , the output of D out pin will switch to a low level after a delay time t OC1 . If the load is removed from battery pack, the output of D out will circuit current is high enough to cause VN pin voltage increase to greater than Vshort , the output of D out pin will move to the low level after a delay time t short , and the output of D out level will change to high when the load is removed from battery pack. change to a high level again. The mechanism of short circuit protection is identical to a discharge current. If the short BLOCK DIAGRAM: VDD D out C out GND VN – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 2 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series PIN DESCRIPTION PIN NAME I/O NO. 1 D out 2 3 VN C out NULL VDD GND 4 5 6 DESCRIPTION O Discharge Control Pin which Connects to External MOSFET Gate I Voltage Detection Pin between VN and GND O Charge Control Pin which Connects to External MOSFET Gate. ╳ Null Pad. I Power Supply Input Pin I Ground ABSOLUTE MAXIMUM RATINGS CHARACTERISTICS SYMBOL VALUE UNIT Supply Voltage VDD −0.3 to 8 V VN Pin Input Voltage VVN VDD − 20 to VDD + 0.3 V D out Pin Output Voltage VDout −0.3 to VDD + 0.3 V C out Pin Output Voltage VCout VVN − 0.3 to VDD + 0.3 Power Dissipation Pd 150 V mW Operating Temperature Range TC −40 to +85 Tstorage −40 to +125 Storage Temperature Range ο C ο C RECOMMENDED OPERATING CONDITIONS TEST CONDITION MIN MAX UNIT Voltage Defined as VDD to GND 1.5 7.0 V D out Output Voltage GND VDD V C out Output Voltage VN VDD V Supply Voltage, VDD OPERATION VOLTAGE AND OPERATION CURRENT PARAMETER Supply Current at Normal Operation Mode Standby Current at Power Down Mode TEST CONDITION - Operation Voltage between VDD and VN – MIN VDD =3.3V; VN=0V; GND=0V TYP MAX UNIT 3.0 5.0 μA - 0.1 μA 20.0 V 1.5 – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 3 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661A DETECTION VOLTAGE AND DELAY TIME ( 25 ο C ) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.4V MIN TYP MAX UNIT 4.300 4.325 4.350 V VC1-0.3 VC1-0.25 VC1-0.2 V 2.420 2.500 2.580 V VD1+0.3 VD1+0.4 VD1+0.5 V 0.700 1.000 1.300 s 125.0 162.5 ms 150 170 mV 500 600 mV VDD −1.3 VDD − 0.9 V ms 87.5 Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 130 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response 400 with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out VDD −1.7 Response with t short Delay Time) Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 5.6 8.0 10.4 Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 2.0 2.0 2.6 3.4 Short Circuit Detection Delay Time t short VDD = 3.0V 10 50 μs Charger Detection Voltage VCHR −2.0 −1.3 −0.6 V C out High Level Resistance R COH 1 2 10 kΩ C out Low Level Resistance R COL 150 602 2,380 kΩ D out High Level Resistance R DOH 2.5 5.0 10.0 kΩ D out Low Level Resistance R DOL 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN = 0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN = 3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD< VD2) VDD = 3.5V ; C out = 3.0V ; VN = 0V VDD = 4.5V ; C out = 0.5V ; VN = 0V VDD = 3.5V ; D out = 3.0V ; VN = 0V VDD = 1.8V ; D out = 0.5V ; VN = 1.8V ms ms – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 4 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661B DETECTION VOLTAGE and DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) MIN TYP MAX UNIT 4.325 4.350 4.375 V VC1-0.25 VC1-0.2 VC1-0.15 V 2.220 2.300 2.380 V VD1+0.6 VD1+0.7 VD1+0.8 V 0.088 0.125 0.163 s 22.4 32 41.6 ms 130 150 170 mV 400 500 600 mV VDD −1.7 VDD −1.3 VDD − 0.9 V Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 2.8 4.0 5.2 ms Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 2.0 2.0 2.6 3.4 ms ms Short Circuit Detection Delay Time t short VDD = 3.0V 10 50 μs Charger Detection Voltage VCHR −2.0 −1.3 −0.6 V C out High Level Resistance R COH 1 2 10 kΩ C out Low Level Resistance R COL 150 602 2,380 kΩ D out High Level Resistance R DOH 2.5 5.0 10.0 kΩ D out Low Level Resistance R DOL 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN = 0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN = 3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD<VD2) VDD = 3.5V ; C OUT = 3.0V ; VN = 0V VDD = 4.5V ; C OUT = 0.5V ; VN = 0V VDD = 3.5V ; D out = 3.0V ; VN = 0V VDD = 1.8V ; D out = 0.5V ; VN = 1.8V – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 5 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661C DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V MIN TYP MAX UNIT 4.275 4.300 4.325 V VC1-0.15 V VC1-0.25 VC1-0.2 2.220 2.300 2.380 V VD1-0.08 VD1 VD1+0.08 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 100 120 mV 480 600 mV VDD − 1.3 VDD − 0.9 V 10.4 ms 2.0 2.0 2.6 3.4 ms ms 10 50 μs −2.0 −1.3 −0.6 V 1 2 10 kΩ 150 602 2,380 kΩ 2.5 5.0 10.0 kΩ 2.5 5.0 10.0 kΩ Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 80 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response 400 with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out VDD −1.7 Response with t short Delay Time) Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 5.6 Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 Short Circuit Detection Delay Time t short VDD = 3.0V Charger Detection Voltage VCHR C out High Level Resistance R COH C out Low Level Resistance R COL D out High Level Resistance R DOH D out Low Level Resistance R DOL Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN = 0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN = 3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD<VD2) VDD = 3.5V ; C out = 3.0V ; VN = 0V VDD = 4.5V ; C out = 0.5V ; VN = 0V VDD = 3.5V ; D out = 3.0V ; VN = 0V VDD = 1.8V ; D out = 0.5V ; VN = 1.8V 8.0 – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 6 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661D DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge Voltage Detect Falling Edge Voltage Detect Falling Edge Voltage Detect Rising Edge Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V of Supply of Supply of Supply of Supply Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) MIN TYP MAX UNIT 4.255 4.280 4.305 V VC1-0.25 VC1-0.2 VC1-0.15 V 2.201 2.281 2.361 V VD1-0.08 VD1 VD1+0.08 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 110 130 150 mV 400 490 600 mV VDD −1.7 VDD −1.3 VDD − 0.9 V Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 5.6 8.0 10.4 ms Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 2.0 2.0 2.6 3.4 ms ms Short Circuit Detection Delay Time t short VDD = 3.0V 10 50 μs Charger Detection Voltage VCHR −2.0 −1.3 −0.6 V C out High Level Resistance R COH 1 2 10 kΩ C out Low Level Resistance R COL VDD = 4.5V ; C out = 0.5V ; VN = 0V 150 602 2,380 kΩ D out High Level Resistance R DOH VDD = 3.5V ; D out = 3.0V ; VN = 0V 2.5 5.0 10.0 kΩ D out Low Level Resistance R DOL VDD = 1.8V ; D out = 0.5V ; VN = 1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN=0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN = 3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD<VD2) VDD = 3.5V ; C out = 3.0V ; VN = 0V – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 7 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661E DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge Voltage Detect Falling Edge Voltage Detect Falling Edge Voltage Detect Rising Edge Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V of Supply of Supply of Supply of Supply Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) MIN TYP MAX UNIT 4.255 4.280 4.305 V VC1-0.25 VC1-0.2 VC1-0.15 V 2.201 2.281 2.361 V VD1+0.5 VD1+0.6 VD1+0.7 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 80 100 120 mV 400 480 600 mV VDD −1.7 VDD −1.3 VDD − 0.9 V Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 5.6 8.0 10.4 ms Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 2.0 2.0 2.6 3.4 ms ms Short Circuit Detection Delay Time t short 10 50 μs Charger Detection Voltage VCHR −2.0 −1.3 −0.6 V C out High Level Resistance R COH 1 2 10 kΩ C out Low Level Resistance R COL 150 602 2,380 kΩ D out High Level Resistance R DOH 2.5 5.0 10.0 kΩ D out Low Level Resistance R DOL 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN = 0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN = 3.5V 10 20 40 kΩ – VDD = 3.0V Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD<VD2) VDD = 3.5V ; C out = 3.0V ; VN = 0V VDD = 4.5V ; C out = 0.5V ; VN = 0V VDD = 3.5V ; D out = 3.0V ; VN = 0V VDD = 1.8V ; D out = 0.5V ; VN = 1.8V – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 8 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661F DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.4V Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) MIN TYP MAX UNIT 4.300 4.325 4.350 V VC1-0.3 2.420 VD1+0.3 VC1-0.25 VC1-0.2 2.500 2.580 VD1+0.4 VD1+0.5 V V V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 80 100 120 mV 400 480 600 mV VDD −1.7 VDD −1.3 VDD − 0.9 V 10.4 ms 2.0 2.0 2.6 3.4 ms ms 10 50 μs −2.0 −1.3 −0.6 V 1 2 10 kΩ 150 602 2,380 kΩ 2.5 5.0 10.0 kΩ Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 5.6 Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 Short Circuit Detection Delay Time t short VDD = 3.0V Charger Detection Voltage VCHR C out High Level Resistance R COH C out Low Level Resistance R COL D out High Level Resistance R DOH D out Low Level Resistance R DOL VDD = 1.8V ; D out = 0.5V ;VN=1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN = 0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN=3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (When VD1<VDD<VD2) VDD = 3.5V ; C out = 3.0V ; VN = 0V VDD = 4.5V ; C out = 0.5V ; VN = 0V VDD = 3.5V ; D out = 3.0V ;VN=0V 8.0 – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 9 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661G DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) MIN TYP MAX UNIT 4.325 4.350 4.375 V VC1-0.25 VC1-0.20 VC1-0.15 2.220 VD1+0.6 2.300 2.380 VD1+0.7 VD1+0.8 V V V 0.088 0.125 0.163 s 22.4 32.0 41.6 ms 180 200 220 mV 400 510 600 mV VDD −1.7 VDD −1.3 VDD − 0.9 V Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 2.8 4.0 5.2 ms Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 2.0 2.0 2.6 3.4 ms ms Short Circuit Detection Delay Time t short VDD = 3.0V 10 50 μs Charger Detection Voltage VCHR −2.0 −1.3 −0.6 V C out High Resistance Level R COH 1 2 10 kΩ C out Low Resistance Level R COL VDD = 4.5V ; C out = 0.5V ;VN=0V 150 602 2,380 kΩ D out High Resistance Level R DOH VDD = 3.5V ; D out = 3.0V ;VN=0V 2.5 5.0 10.0 kΩ D out Low Resistance Level R DOL VDD = 1.8V ; D out = 0.5V ;VN=1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN=0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN=3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage(when VD1 <VDD < VD2) VDD = 3.5V ; C out = 3.0V ;VN=0V – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 10 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661H DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V MIN TYP MAX UNIT 4.275 4.300 4.325 V VC1-0.25 VC1-0.20 VC1-0.15 V 2.220 2.300 2.380 V VD1-0.08 VD1 VD1+0.08 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 150 170 mV 500 600 mV VDD −1.3 VDD − 0.9 V 10.4 ms 2.0 2.0 2.6 3.4 ms ms 10 50 μs −2.0 −1.3 −0.6 V 1 2 10 kΩ Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 130 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response 400 with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out VDD −1.7 Response with t short Delay Time) VDD = 3.0V 5.6 Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V Short Circuit Detection Delay Time t short VDD = 3.0V Charger Detection Voltage VCHR C out High Resistance Level R COH C out Low Resistance Level R COL VDD = 4.5V ; C out = 0.5V ;VN=0V 150 602 2,380 kΩ D out High Resistance Level R DOH VDD = 3.5V ; D out = 3.0V ;VN=0V 2.5 5.0 10.0 kΩ D out Low Resistance Level R DOL VDD = 1.8V ; D out = 0.5V ;VN=1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN=0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN=3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD<VD2) VDD = 3.5V ; C out = 3.0V ;VN=0V 1.4 1.1 8.0 – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 11 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661I DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V MIN TYP MAX UNIT 4.275 4.300 4.325 VC1-0.25 VC1-0.20 VC1-0.15 V V 2.220 2.300 2.380 V VD1-0.08 VD1 VD1+0.08 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 130 150 mV 490 600 mV VDD −1.3 VDD − 0.9 V 8.0 10.4 ms 2.0 2.0 2.6 3.4 ms ms 10 50 μs −2.0 −1.3 −0.6 V 1 2 10 kΩ Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 110 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response 400 with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out VDD −1.7 Response with t short Delay Time) VDD = 3.0V 5.6 Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V Short Circuit Detection Delay Time t short VDD = 3.0V Charger Detection Voltage VCHR C out High Resistance Level R COH C out Low Resistance Level R COL VDD = 4.5V ; C out = 0.5V ;VN=0V 150 602 2,380 kΩ D out High Resistance Level R DOH VDD = 3.5V ; D out = 3.0V ;VN=0V 2.5 5.0 10.0 kΩ D out Low Resistance Level R DOL VDD = 1.8V ; D out = 0.5V ;VN=1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN=0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN=3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD<VD2) VDD = 3.5V ; C out = 3.0V ;VN=0V 1.4 1.1 – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 12 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661J DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 3.6V to 2.2V Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) VDD = 3.0V MIN TYP MAX UNIT 4.255 4.280 4.305 VC1-0.25 VC1-0.20 VC1-0.15 V V 2.201 2.281 2.361 V VD1-0.08 VD1 VD1+0.08 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 180 200 220 mV 400 510 600 mV VDD −1.7 VDD −1.3 VDD − 0.9 V 5.6 8.0 10.4 ms 1.4 1.1 2.0 2.0 2.6 3.4 ms ms 10 50 μs −2.0 −1.3 −0.6 V 1 2 10 kΩ Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V Short Circuit Detection Delay Time t short VDD = 3.0V Charger Detection Voltage VCHR C out High Level Resistance R COH C out Low Level Resistance R COL VDD = 4.5V ; C out = 0.5V ;VN=0V 150 602 2,380 kΩ D out High Level Resistance R DOH VDD = 3.5V ; D out = 3.0V ;VN=0V 2.5 5.0 10.0 kΩ D out Low Level Resistance R DOL VDD = 1.8V ; D out = 0.5V ;VN=1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD = 1.8V ; VN=0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD = 3.5V ; VN=3.5V 10 20 40 kΩ – Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD< VD2) VDD = 3.5V ; C out = 3.0V ;VN=0V – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 13 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series AAT8661K DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL TEST CONDITION Over Charge Threshold Voltage VC1 Over Charge Release Voltage VC 2 Over Discharge Threshold Voltage VD1 Over Discharge Release Voltage VD 2 Over Charge Delay Time t C1 Detect Rising Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Falling Edge of Supply Voltage Detect Rising Edge of Supply Voltage VDD = 3.6V to 4.5V Over Discharge Delay Time t D1 VDD = 2 .8 V to 2.2V Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC1 Delay Time) Detect Rising Edge of “VN” Pin Voltage ( D out Response with tOC2 Delay Time) VDD = 3.0V , Detect Rising Edge of “VN” Pin Voltage ( D out Response with t short Delay Time) MIN TYP MAX UNIT 4.225 4.250 4.275 V VC1-0.25 VC1-0.20 VC1-0.15 V 2.201 2.281 2.361 V VD1+0.5 VD1+0.6 VD1+0.7 V 0.700 1.000 1.300 s 87.5 125.0 162.5 ms 80 100 120 mV 400 480 600 mV VDD −1.3 VDD − 0.9 V Over Current Level 1 Detection Voltage VOC1 Over Current Level 2 Detection Voltage VOC 2 Short Circuit Detection Voltage Vshort Over Current Level 1 Detection Delay Time t OC1 VDD = 3.0V 5.6 8.0 10.4 ms Over Current Level 2 Detection Delay Time t OC 2 Room Temp. ⇒ Low or High Temp. ⇒ VDD = 3.0V 1.4 1.1 2.0 2.0 2.6 3.4 ms ms Short Circuit Detection Delay Time t short VDD = 3.0V 10 50 μs Charger Detection Voltage VCHR −2.0 −1.3 −0.6 V C out High Level Resistance R COH Detect Rising Edge of “ D out ” Pin Voltage (when VD1<VDD< VD2) VDD =3.5V; C out =3.0V;VN=0V 1 2 10 kΩ C out Low Level Resistance R COL VDD =4.5V; C out =0.5V;VN=0V 150 602 2,380 kΩ D out High Level Resistance R DOH VDD =3.5V; D out =3.0V;VN=0V 2.5 5.0 10.0 kΩ D out Low Level Resistance R DOL VDD =1.8V; D out =0.5V;VN=1.8V 2.5 5.0 10.0 kΩ Internal Resistance between VN and VDD R VND VDD =1.8V; VN=0V 100 300 900 kΩ Internal Resistance between VN and GND R VNG VDD =3.5V; VN=3.5V 10 20 40 kΩ – VDD −1.7 – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 14 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series SUMMARY OF AAT8661 DETECTION VOLTAGE AND DELAY TIME ( 25οC ) PARAMETER SYMBOL DEVICE MIN TYP MAX UNIT VC1 AAT8661A 4.300 4.325 4.350 V AAT8661B 4.325 4.350 4.375 V AAT8661C 4.275 4.300 4.325 V AAT8661D 4.255 4.280 4.305 V AAT8661E 4.255 4.280 4.305 V AAT8661F 4.300 4.325 4.350 V AAT8661G 4.325 4.350 4.375 V AAT8661H 4.275 4.30 4.325 V AAT8661I 4.275 4.30 4.325 V AAT8661J 4.255 4.280 4.305 V AAT8661K 4.225 4.250 4.275 V AAT8661A VC1 − 0.30 VC1 − 0.25 VC1 − 0.20 V AAT8661B VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661C VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661D VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661E VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661F VC1 − 0.30 VC1-0.25 VC1 − 0.20 V AAT8661G VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661H VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661I VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661J VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661K VC1 − 0.25 VC1 − 0.20 VC1 − 0.15 V AAT8661A 2.420 2.500 2.580 V AAT8661B 2.220 2.300 2.380 V AAT8661C 2.220 2.300 2.380 V AAT8661D 2.201 2.281 2.361 V AAT8661E 2.201 2.281 2.361 V AAT8661F 2.420 2.500 2.580 V AAT8661G 2.220 2.300 2.380 V AAT8661H 2.220 2.300 2.380 V AAT8661I 2.220 2.300 2.380 V AAT8661J 2.201 2.281 2.361 V AAT8661K 2.201 2.281 2.361 V Over Charge Threshold Voltage VC 2 Over Charge Release Voltage VD1 Over Discharge Threshold Voltage – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 15 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series SUMMARY OF AAT8661 DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL DEVICE MIN TYP MAX UNIT VD 2 AAT8661A VD1+0.3 VD1+0.4 VD1+0.5 V AAT8661B VD1+0.6 VD1+0.7 VD1+0.8 V AAT8661C VD1 − 0.08 VD1 − 0.08 VD1 VD1+0.08 V AAT8661D VD1 VD1+0.08 V AAT8661E VD1+0.5 VD1+0.6 VD1+0.7 V AAT8661F VD1+0.3 VD1+0.4 VD1+0.5 V AAT8661G VD1+0.6 VD1+0.7 VD1+0.8 V AAT8661H VD1 − 0.08 VD1 VD1+0.08 V AAT8661I VD1 − 0.08 VD1 VD1+0.08 V AAT8661J VD1 − 0.08 VD1 VD1+0.08 V AAT8661K VD1+0.5 VD1+0.6 VD1+0.7 V AAT8661A 0.700 1.000 1.300 s AAT8661B 0.088 0.125 0.163 s AAT8661C 0.700 1.000 1.300 s AAT8661D 0.700 1.000 1.300 s AAT8661E 0.700 1.000 1.300 s AAT8661F 0.700 1.000 1.300 s AAT8661G 0.088 0.125 0.163 s AAT8661H 0.700 1.000 1.300 s AAT8661I 0.700 1.000 1.300 s AAT8661J 0.700 1.000 1.300 s AAT8661K 0.700 1.000 1.300 s AAT8661A 87.5 125.0 162.5 ms AAT8661B 22.4 32.0 41.6 ms AAT8661C 87.5 125.0 162.5 ms AAT8661D 87.5 125.0 162.5 ms AAT8661E 87.5 125.0 162.5 ms AAT8661F 87.5 125.0 162.5 ms AAT8661G 22.4 32.0 41.6 ms AAT8661H 87.5 125.0 162.5 ms AAT8661I 87.5 125.0 162.5 ms AAT8661J 87.5 125.0 162.5 ms AAT8661K 87.5 125.0 162.5 ms Over Discharge Release Voltage t C1 Over Charge Delay Time t D1 Over Discharge Delay Time – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 16 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series SUMMARY OF AAT8661 DETECTION VOLTAGE AND DELAY TIME (25℃) PARAMETER SYMBOL DEVICE VOC1 Over Current Level 1 Detection Voltage VOC 2 Over Current Level 2 Detection Voltage t OC1 Over Current Level 1 Detection Delay Time – MIN TYP MAX UNIT AAT8661A 130 150 170 mV AAT8661B 130 150 170 mV AAT8661C 80 100 120 mV AAT8661D 110 130 150 mV AAT8661E 80 100 120 mV AAT8661F 80 100 120 mV AAT8661G 180 200 220 mV AAT8661H 130 150 170 mV AAT8661I 110 130 150 mV AAT8661J 180 200 220 mV AAT8661K 80 100 120 mV AAT8661A 400 500 600 mV AAT8661B 400 500 600 mV AAT8661C 400 480 600 mV AAT8661D 400 490 600 mV AAT8661E 400 480 600 mV AAT8661F 400 480 600 mV AAT8661G 400 510 600 mV AAT8661H 400 500 600 mV AAT8661I 400 490 600 mV AAT8661J 400 510 600 mV AAT8661K 400 480 600 mV AAT8661A 5.6 8.0 10.4 ms AAT8661B 2.8 4.0 5.2 ms AAT8661C 5.6 8.0 10.4 ms AAT8661D 5.6 8.0 10.4 ms AAT8661E 5.6 8.0 10.4 ms AAT8661F 5.6 8.0 10.4 ms AAT8661G 2.8 4.0 5.2 ms AAT8661H 5.6 8.0 10.4 ms AAT8661I 5.6 8.0 10.4 ms AAT8661J 5.6 8.0 10.4 ms AAT8661K 5.6 8.0 10.4 ms – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 17 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series TIMING CHART AAT8661 (CHARGE AND DISCHARGE) V VC1 VC2 DD VD2 VD1 V D t DD t D 1 D 1 out GND t V DD C 1 t C 1 C out VN V DD GND VCHR – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 18 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series TIMING CHART AAT8661 (UNUSUAL CHARGE CURRENT, OVER CURRENT, SHORT CIRCUIT) V DD t OC1 V DD D t OC 2 t OC 2 t short t OC1 out V DD V t C1 DD C out V DD Time – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 19 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series TYPICAL APPLICATION + R1 100Ω C1 0.1μF VDD Li Battery VN GND DOUT COUT R2 1kΩ − – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 20 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series PACKAGE DIMENSION – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 21 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series PACKAGE DIMENSION (CONT.) VARIATION (ALL DIMENSIONS SHOWN IN MILLIMETERS) SYMBOL MIN TYP MAX A ------ ------ 1.45 A1 ------ ------ 0.15 A2 0.90 1.15 1.30 b 0.30 ------ 0.50 c 0.08 ------ 0.22 D 2.90 BSC E 2.80 BSC E1 1.60 BSC e 0.95 BSC e1 1.90 BSC L 0.30 0.45 L1 0.60 REF L2 0.25 BSC 0.60 R 0.10 ------ ------ R1 0.10 ------ 0.25 ο θ 0 θ1 5ο ο 4 10 ο 8ο 15 ο NOTE: 1 JEDEC OUTLINE: MO-178 AB – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 22 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series TAPE AND REEL – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 23 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series TAPE AND REEL (CONT.) X.XXX X ± 0.0025 X.XXX ± 0.006 X.XX ± 0.025 X.X ± 0.10 X ± 0.25 UNIT: MILLIMETERS – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 24 of 25 V2.0 Advanced Analog Technology, Inc. AAT8661 Series PART MARKING PREVIOUS SOT26 TOP MARKING AXXX NOTE: SOT26 HAS NO BACK MARKING. CURRENT SOT26 TOP MARKING AXX ORDERING INFORMATION – – 台灣類比科技股份有限公司 – Advanced Analog Technology, Inc. – Page 25 of 25 V2.0