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AAT8661 Schematic ( PDF Datasheet ) - AAT

Teilenummer AAT8661
Beschreibung ONE-CELL LI-ION BATTERY PROTECTION IC
Hersteller AAT
Logo AAT Logo 




Gesamt 25 Seiten
AAT8661 Datasheet, Funktion
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:
3μA Supply Current (Typical)
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
0.1μA Shutdown Current
z 3-Level Over Current Detection:
Over-Current Level 1 /Over Current Level 2
/ Short Circuit
consumption.
Each of the AAT8661 devices incorporates
voltage comparators, bandgap reference voltage
generator, signal delay circuit, short circuit
z Wide Operating Temperature
40οC to 85οC
z Small SOT26 Package
Range: detector, and digital control circuit.
In the charge process, when the battery voltage is
www.DataSheet4U.com
charged to a value greater than VC1(Over-Charge
Threshold Voltage), the output of Cout pin
PIN CONFIGURATION
switches to the low level, i.e., the VN pin level.
The output of Cout pin will switch to high level
when the battery voltage falls lower than VC2
(Over-Charge Release Voltage), or when the
charger is disconnected from the battery pack and
D out
GND the battery voltage level ranges between VC1 and
VC2.
VN
VDD
During the discharge process, when the battery
voltage drops to a value lower than VD1
C out
NULL
(Over-Discharge Threshold Voltage), the output
of Dout pin switches to low level immediately
after the internal delay time elapses. The output
of Dout pin will switch to high level when the
battery voltage is at a level higher than VD2
(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






AAT8661 Datasheet, Funktion
Advanced Analog Technology, Inc.
AAT8661 Series
AAT8661C DETECTION VOLTAGE AND DELAY TIME (25)
PARAMETER
SYMBOL TEST CONDITION MIN
Over Charge Threshold Voltage
VC1
Detect Rising Edge of Supply
Voltage
4.275
Over Charge Release Voltage
VC2
Detect Falling Edge of Supply
Voltage
VC1-0.25
Over Discharge Threshold
Voltage
VD1
Detect Falling Edge of Supply
Voltage
2.220
Over Discharge Release Voltage
VD2
Detect Rising Edge of Supply
Voltage
VD1-0.08
Over Charge Delay Time
t C1 VDD = 3.6V to 4.5V
0.700
Over Discharge Delay Time
t D1 VDD = 3.6V to 2.2V
87.5
Over Current Level 1 Detection
Voltage
VOC1
Detect Rising Edge of “VN” Pin
Voltage ( D out Response with tOC1
Delay Time)
80
Over Current Level 2 Detection
Voltage
VOC2
Detect Rising Edge of “VN”
Pin Voltage ( Dout Response
with tOC2 Delay Time)
400
VDD = 3.0V , Detect Rising Edge
Short Circuit Detection Voltage
Vshort
of “VN” Pin Voltage ( Dout
Response with t short Delay
Time)
VDD 1.7
Over Current Level 1 Detection
Delay Time
t OC1
VDD = 3.0V
5.6
Room Temp.
Over Current Level 2 Detection
Delay Time
t OC2
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
Detect Rising Edge of “ Dout
Pin Voltage
(when VD1VDDVD2)
2.0
Cout High Level Resistance
R COH
VDD = 3.5V ;
Cout = 3.0V ; VN = 0V
1
Cout Low Level Resistance
R COL
VDD = 4.5V ;
Cout = 0.5V ; VN = 0V
150
Dout High Level Resistance
R DOH
VDD = 3.5V ;
Dout = 3.0V ; VN = 0V
2.5
Dout Low Level Resistance
R DOL
VDD = 1.8V ;
Dout = 0.5V ; VN = 1.8V
2.5
Internal Resistance between VN
and VDD
R VND
VDD = 1.8V ; VN = 0V
100
Internal Resistance between VN
and GND
R VNG
VDD = 3.5V ; VN = 3.5V
10
TYP
4.300
VC1-0.2
2.300
VD1
1.000
125.0
100
480
VDD 1.3
8.0
2.0
2.0
10
1.3
2
602
5.0
5.0
300
20
MAX UNIT
4.325
V
VC1-0.15 V
2.380
V
VD1+0.08
1.300
162.5
V
s
ms
120 mV
600 mV
VDD 0.9
V
10.4 ms
2.6 ms
3.4 ms
50 μs
0.6 V
10 kΩ
2,380 kΩ
10.0 kΩ
10.0 kΩ
900 kΩ
40 kΩ
台灣類比科技股份有限公司
Advanced Analog Technology, Inc.
Page 6 of 25
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AAT8661 pdf, datenblatt
Advanced Analog Technology, Inc.
AAT8661 Series
AAT8661I DETECTION VOLTAGE AND DELAY TIME (25)
PARAMETER
SYMBOL TEST CONDITION MIN TYP MAX UNIT
Over Charge Threshold Voltage
VC1
Detect Rising Edge of Supply
Voltage
4.275 4.300 4.325 V
Over Charge Release Voltage
VC2
Detect Falling Edge of Supply
Voltage
VC1-0.25 VC1-0.20 VC1-0.15
V
Over Discharge Threshold
Voltage
VD1
Detect Falling Edge of Supply
Voltage
2.220 2.300 2.380
V
Over Discharge Release Voltage
VD2
Detect Rising Edge of Supply
Voltage
VD1-0.08 VD1 VD1+0.08 V
Over Charge Delay Time
t C1 VDD = 3.6V to 4.5V
0.700 1.000 1.300
s
Over Discharge Delay Time
t D1 VDD = 3.6V to 2.2V
87.5 125.0 162.5 ms
Over Current Level 1 Detection
Voltage
VOC1
Detect Rising Edge of “VN” Pin
Voltage ( D out Response with tOC1
Delay Time)
110
130
150 mV
Over Current Level 2 Detection
Voltage
Short Circuit Detection Voltage
VOC2
Vshort
Detect Rising Edge of “VN”
Pin Voltage ( Dout Response
400
with tOC2 Delay Time)
VDD = 3.0V , Detect Rising Edge
of “VN” Pin Voltage ( Dout
Response with t short Delay
VDD 1.7
Time)
490
VDD 1.3
600
VDD 0.9
mV
V
Over Current Level 1 Detection
Delay Time
t OC1
VDD = 3.0V
5.6 8.0 10.4 ms
Room Temp.
Over Current Level 2 Detection
Delay Time
t OC2
Low or High Temp.
VDD = 3.0V
1.4 2.0 2.6 ms
1.1 2.0 3.4 ms
Short Circuit Detection Delay
Time
t short
VDD = 3.0V
10 50 μs
Charger Detection Voltage
Detect Rising Edge of “ Dout
VCHR
Pin Voltage
2.0 1.3 0.6
(when VD1VDDVD2)
V
Cout High Resistance Level
R COH
VDD = 3.5V ;
Cout = 3.0V ;VN=0V
1 2 10 kΩ
Cout Low Resistance Level
R COL
VDD = 4.5V ;
Cout = 0.5V ;VN=0V
150 602 2,380 kΩ
Dout High Resistance Level
R DOH
VDD = 3.5V ;
D out = 3.0V ;VN=0V
2.5 5.0 10.0 kΩ
Dout 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 k
台灣類比科技股份有限公司
Advanced Analog Technology, Inc.
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