AP9101C

AP9101C
SINGLE CHIP SOLUTION FOR 1-CELL Li+ BATTERY PACK
Description
Features
The AP9101C is a protection IC developed for lithium-ion/lithium
polymer rechargeable battery with a high-precision voltage detection
circuit.

The AP9101C provides a function to protect batteries by detecting
overcharge voltage, overdischarge voltage, overcharge current,
overdischarge current and other abnormalities and turning off the
external MOSFET switch.



Power-Down Mode: 0.01µA (Typ)
High-Accuracy Voltage Detection Circuit (+25°C)

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

Overcharger Release Voltage: 7.3V (Fixed) Accuracy ±2V
Built-In Fixed Detection Delay Time (+25°C): Accuracy ±20%
Power-Down Mode can be Selectable: Available/Unavailable
0V
Battery
Charge
Function
can
be
Selectable:
Available/Unavailable
Overcharge Protection Mode: Release
High-Voltage CMOS Process: Up to 30V between VDD and VM


Pins
Totally Lead-free & Fully RoHS Compliant (Note 1 & 2)
Halogen and Antimony Free. “Green” Device (Note 3)

The AP9101C also has a built-in fixed time circuit (external capacitors
are unnecessary); the protection circuitry can be comprised with fewer
external components.
The AP9101C is available in standard packages of SOT25 and
SOT26.
Applications

Lithium-Ion Battery Packs

Lithium Polymer Battery Packs
Low Current Consumption (+25°C)

Operation Mode: 3.0µA (Typ) VDD = 3.5V



Pin Assignments
(Top View)
(Top View)
Pin 1 Mark
Pin 1 Mark
VM
1
VDD
2
VSS
3
5
4
CO
DO
SOT25
Notes:
DO
1
6
VSS
VM
2
5
VDD
CO
3
4
NC
SOT26
1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant.
2. See http://www.diodes.com/quality/lead_free.html 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.
AP9101C
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AP9101C
Typical Applications Circuit (Note 4)
P+
R1
2(5)
330Ω to 470Ω
VDD
AP9101C
3(6)
Battery
C1
100nF
VM
1(2)
VSS
DO
4(1)
CO
5(3)
R2
2.7KΩ
Q1
Q2
P-
A(B)
A for SOT25
B for SOT26
Note: 4. R1 and C1 are used to stabilize the supply voltage of the AP9101C. The recommended range of R1 value is 330Ω to 470Ω 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 300Ω and 4kΩ, typical value is 2.7kΩ. 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 4kΩ resistor, CO may not cut off Q2 due to the voltage drop on R2.
For power-down mode, when first connecting AP9101C system board to the battery, it is necessary to use charger or to short P- to the battery negative
polarity. Once the AP9101C is activated, the charger or connection can be removed, otherwise the battery cannot discharge current through the system board.
The values selected should follow the recommended typical range mentioned above.
Pin Descriptions
Pin Number
Pin Name
Function
SOT25
SOT26
1
2
VM
Charger Negative Input Pin
2
5
VDD
Positive Power Input Pin
3
6
VSS
Negative Power Input Pin
4
1
DO
FET Gate Control Pin for Discharge
5
3
CO
FET Gate Control Pin for charge
—
4
NC
Not Connected
AP9101C
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AP9101C
Functional Block Diagram
DO
4(1)
Logic Circuit
Level Shift
CO
OV
Charge
Option
2(5)
VDD
5(3)
Delay Time
Circuit
3(6)
1(2)
VM
VSS
RVMD
RVMS
Logic Circuit
A(B)
A for SOT25
B for SOT26
AP9101C
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AP9101C
Absolute Maximum Ratings (Note 5)
Symbol
Rating
Unit
VDS
Supply Voltage (Between VDD and VSS)
-0.3 to 12
V
VDM
Charger Input Voltage (Between VDD and VM)
-0.3 to 30
V
VCO
CO Pin Output Voltage
VM-0.3 to VDD+0.3
V
VDO
DO Pin Output Voltage
VSS-0.3 to VDD+0.3
V
TOPR
Operating Temperature Range
-40 to +85
°C
+150
°C
-65 to +150
°C
TJ
Note:
Parameter
Junction Temperature
TSTG
Storage Temperature Range
TLEAD
Lead Temperature (Soldering, 10sec)
+300
°C
PD
Power Dissipation (+25°C)
250
mW
—
ESD (Machine Model)
200
V
—
ESD (Human Body Model)
2,000
V
5. Stresses greater than 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 or any other conditions beyond those indicated under “Recommended Operating Conditions” is not implied.
Exposure to “Absolute Maximum Ratings” for extended periods may affect device reliability.
Recommended Operating Conditions
Symbol
Parameter
Min
Max
Unit
VDS
Supply Voltage (Between VDD and VSS)
1.5
5.5
V
VDM
Charger Input Voltage (Between VDD and VM)
-0.3
5.5
V
Operating Ambient Temperature
-40
+85
°C
TA
AP9101C
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AP9101C
Electrical Characteristics
(TA = +25°C, VDD = 3.5V, VSS = 0V, R1 = 330Ω, R2 = 2.7kΩ, C1 = 100nF, unless otherwise specified.)
Symbol
Parameter
VCU
Overcharge Detection Voltage
VCL
Overcharge Release Voltage
VDL
Overdischarge Detection Voltage
VDU
Overdischarge Release Voltage
Test Conditions
Min
Typ
Max
Unit
VM = 0
VCU-0.025
VCU
VCU+0.025
V
VCL ≠ VCU, VM = 0
VCL-0.050
VCL
VCL+0.050
V
VCL = VCU
VCL-0.025
VCL
VCL+0.025
V
VM = 0
VDL-0.035
VDL
VDL+0.035
V
VDU ≠ VDL, VM = 0
VDU-0.100
VDU
VDU+0.100
V
VDU = VDL
VDU-0.035
VDU
VDU+0.035
V
VDOC
VDOC+0.015
V
VSHORT VSHORT+0.10
V
Discharge Overcurrent Detection Voltage
—
VDOC-0.015
VSHORT
Load Short-Circuiting Detection Voltage
—
VSHORT-0.10
VCOC
Charge Overcurrent Detection Voltage
—
VCOC-0.015
VCOC
VCOC+0.015
V
ICC
Current Consumption during Operation
VDD = 3.5V, VM = 0V
1.5
3
4.5
µA
—
0.1
Current Consumption at Power-Down
VDD=1.8V, Power-Down Mode
VM Pin
Without Power-Down
Floating
Mode (Auto-Wake-up)
—
ISTB
—
—
5.5
RCOH
CO Pin Resistance “H”
VDD = 3.5V, VCO = 3.0V, VM = 0V
2
6
10
kΩ
RCOL
CO Pin Resistance “L”
VDD = 4.5V, VCO = 0.5V, VM = 0V
2
4
10
kΩ
RDOH
DO Pin Resistance “H”
VDD = 3.5V, VDO = 3.0V, VM = 0V
2
5
10
kΩ
RDOL
DO Pin Resistance “L”
VDD = 1.8V, VDO = 0.5V, VM = 0V
2
5
10
kΩ
RVMD
Resistance between VM Pin and VDD Pin
VDD = 1.8V, VM = 0V
150
300
500
kΩ
RVMS
Resistance between VM Pin and VSS Pin
VDD = 3.5V, VM = 1.0V
10
30
50
kΩ
V0CHA
0V Battery Charge Starting Charger Voltage
0V Battery Charging “Available”
1.2
—
—
V
V0INH
0V Battery Charge Inhibition Battery Voltage
0V Battery Charging “Unavailable”
—
—
0.45
V
VOVCHG
Overvoltage Charger Detection Voltage
VDD = 3.5V
6.0
8.0
10.0
V
VOVCHGR
Overvoltage Charger Release Voltage
VDD = 3.5V
5.3
7.3
9.3
V
VDOC
µA
tCU
Overcharge Detection Delay Time
—
tCU×0.8
tCU
tCU×1.2
ms
tDL
Overdischarge Detection Delay Time
—
tDL×0.8
tDL
tDL×1.2
ms
Discharge Overcurrent Detection Delay Time
—
tDOC×0.8
tDOC
tDOC×1.2
ms
tSHORT
Load Short-Circuiting Detection Delay Time
—
tSHORT×0.8
tSHORT
tSHORT×1.2
µs
tCOC
Charge Overcurrent Detection Delay Time
—
tCOC×0.8
tCOC
tCOC×1.2
ms
tDOC
AP9101C
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AP9101C
Electrical Characteristics
(Continued)
(TA = -40°C to +85°C, VDD = 3.5V, VSS = 0V, R1 = 330Ω, R2 = 2.7kΩ, C1 = 100nF, unless otherwise specified.)
Symbol
Parameter
VCU
Overcharge Detection Voltage
VCL
Overcharge Release Voltage
VDL
Overdischarge Detection Voltage
VDU
Overdischarge Release Voltage
Test Conditions
Min
Typ
Max
Unit
VM = 0
VCU-0.060
VCU
VCU+0.040
V
VCL ≠ VCU, VM = 0
VCL-0.080
VCL
VCL+0.065
V
VCL = VCU
VCL-0.060
VCL
VCL+0.040
V
VM = 0
VDL-0.110
VDL
VDL+0.130
V
VDU ≠ VDL, VM = 0
VDU-0.150
VDU
VDU+0.190
V
VDU = VDL
VDU-0.110
VDU
VDU+0.130
V
VDOC
VDOC+0.024
V
VSHORT VSHORT+0.34
V
Discharge Overcurrent Detection Voltage
—
VDOC-0.021
VSHORT
Load Short-Circuiting Detection Voltage
—
VSHORT-0.34
VCOC
Charge Overcurrent Detection Voltage
—
VCOC-0.040
VCOC
VCOC+0.040
V
ICC
Current Consumption during Operation
VDD = 3.5V, VM = 0V
1.0
3.0
7.0
µA
VDD =
1.8V, VM
Power-Down Mode
—
—
Pin
Floating
Without Power-Down
Mode (Auto-Wake-up)
—
—
VDOC
ISTB
Current Consumption at Power-Down
1.0
µA
8
RCOH
CO Pin Resistance “H”
VDD = 3.5V, VCO = 3.0V, VM = 0V
1.2
6
15
kΩ
RCOL
CO Pin Resistance “L”
VDD = 4.5V, VCO = 0.5V, VM = 0V
1.2
4
15
kΩ
RDOH
DO Pin Resistance “H”
VDD = 3.5V, VDO = 3.0V, VM = 0V
1.2
5
15
kΩ
RDOL
DO Pin Resistance “L”
VDD = 1.8V, VDO = 0.5V, VM = 0V
1.2
5
15
kΩ
RVMD
Resistance between VM Pin and VDD Pin
VDD = 1.8V, VM = 0V
100
300
650
kΩ
RVMS
Resistance between VM Pin and VSS Pin
VDD = 3.5V, VM = 1.0V
5
30
65
kΩ
V0CHA
0V Battery Charge Starting Charger Voltage
0V Battery Charging “Available”
1.2
—
—
V
V0INH
0V Battery Charge Inhibition Battery Voltage
0V Battery Charging “Unavailable”
—
—
0.3
V
VOVCHG
Overvoltage Charger Detection Voltage
VDD = 3.5V
5.5
8.0
10.5
V
VOVCHGR
Overvoltage Charger 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
tDL
Overdischarge Detection Delay Time
—
tDL×0.6
tDL
tDL×1.4
ms
Discharge Overcurrent Detection Delay Time
—
tDOC×0.6
tDOC
tDOC×1.4
ms
tSHORT
Load Short-Circuiting Detection Delay Time
—
tSHORT×0.6
tSHORT
tSHORT×1.4
µs
tCOC
Charge Overcurrent Detection Delay Time
—
tCOC×0.6
tCOC
tCOC×1.4
ms
tDOC
AP9101C
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AP9101C
Operation Description
Operation Mode
1.
Normal Status
The AP9101C monitors the battery voltage between the VDD Pin and VSS Pin as well as the voltage difference between the V M Pin and VSS Pin to
control battery charging and discharging by the CO and DO Pins. When the battery voltage is between overdischarge detection voltage (V DL) and
overcharge detection voltage (VCU)—as well as the VM Pin voltage being between the charge overcurrent detection voltage (VCOC) and discharge
overcurrent detection voltage (VDOC)—the CO and DO Pin of the AP9101C will output high level and turn on charge and discharge MOSFETs. In
these conditions, the battery can charge and discharge freely. Also, RVMD and RVMS do not connect to VDD and VSS Pins in this status.
2.
Overcharge Status
If the battery voltage is more than VCU during charging status for the overcharge detection delay time (tCU) or longer, the AP9101C turns off the charge
MOSFET by setting low level to the CO Pin to stop charging. RVMD and RVMS are not connected in overcharge status.
When the VM Pin voltage is lower than VDOC and battery voltage falls below VCL, the AP9101C will release from overcharge status.
When the VM Pin voltage is equal to or more than VDOC and battery voltage falls below VCU, the AP9101C 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 AP9101C turns off the
discharge MOSFET by setting low level to the DO Pin to stop discharging. In overdischarge status, RVMD is connected to VDD, and the VM Pin voltage is
pulled up to VDD by RVMD, but RVMS is not connected. For standby version, the AP9101C recovers normal status from overdischarge status only by
charging the battery through the charger.
When the VM Pin voltage to the VSS Pin voltage is less than typical -0.7V and the battery voltage rises over VDL, the AP9101C will release from
overdischarge status. If the VM Pin voltage to the VSS Pin voltage is higher than typical -0.7V, the AP9101C will release from overdischarge status until the
battery voltage rises over VDU.
For auto-wake-up version AP9101CA, the device recovers to normal status from overdischarge status if either of these two conditions are satisfied.
If charger is connected:
the AP9101CA overdischarge status is released in the same way as described above in AP9101C 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 the battery is in discharge overcurrent status, if the voltage of the VM Pin to VSS Pin is equal or more than VDOC to VSHORT, for the
overdischarge current detection delay time (t DOC) or longer, the AP9101C turns off the discharge MOSFET by setting low level to the DO pin 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, for the short current detection
delay time or longer, the AP9101C turns off the discharge MOSFET by setting low level to the DO pin 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 V M Pin will become almost equal to VSS (due to RVMS being
connected) then the AP9101C 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, for the charge overcurrent
detection delay time (tCOC) or longer, the AP9101C turns off the charge MOSFET by setting low level to the CO pin to stop charging.
AP9101C
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AP9101C
Operation Description (Continued)
6.
0V Battery Charging Function (Option)
This function is available as an option and can be factory set internally. AP9101C 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 the 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).
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 AP9101C will set the CO Pin low level to turn off charge MOSFET. When this voltage drops below overvoltage
charger release voltage (7.3V Typ.), the CO Pin will be set to high level and turn on charge MOSFET. There are no delay times set for detection
and release.
8.
Power-Down Mode or Auto-Wake-Up Function (Option)
In the device with power-down function, during power-down mode, the device enters the overdischarge status. The IC enters sleep mode and the
current consumption becomes very low, typically 0.1µA. To release from power-down status to normal status, charger connection is required.
In the device with auto-wake-up mode, the IC remains active in the overdischarge state. The IC is released into normal state by the operation that
increases the battery voltage more than the overdischarge release voltage.
AP9101C
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AP9101C
Time Chart
(1)
Overcharge and Overdischarge Detection
VCU
VCL
VDD
VDU
VDL
VSS
VDD
DO
VSS
VDD
Red line is for
no shutdown
mode version
CO
VM
VDD
VM
VDOC
VSS
VCOC
VP2
S1
1
S2
Document number: DS37771 Rev. 4 - 2
S1
1
S2
S1: Charger connection
S2: Load connection
1: tDL
2: tCU
AP9101C
2
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AP9101C
Time Chart (Continued)
(2)
Discharge Overcurrent Detection
VCU
VCL
VDD
VDU
VDL
VSS
VDD
DO
VSS
VDD
CO
VM
VDD
VSHORT
VM
VDO
C
VSS
1
2
S2
S1
1: tDOC
2: tSHORT
AP9101C
Document number: DS37771 Rev. 4 - 2
S1: Connect over current load
S2: Connect short current load
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AP9101C
Time Chart (Cont.)
(3)
Charge Overcurrent Detection
VCU
VCL
VDD
VDU
VDL
VSS
VDD
DO
VSS
VDD
CO
VM
VDD
VM
VSS
VCOC
VP1
S1
1: tCOC
AP9101C
Document number: DS37771 Rev. 4 - 2
S1: Connect over current charger
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AP9101C
Ordering Information
AP9101C X XX – XX XX XX
Product Name
Package
Power Down Mode
K : SOT25
Blank: Yes
A: No (Auto-wake-up) K6 : SOT26
Product Code
Packing
Voltage & Delay Time TR : Tape & Reel
combination code
RoHS/Green
G1 : Green
Voltage and Delay Time Combination
Over
Over
OverOverDischarge
Charge
Load Short
Voltage
Voltage
discharge discharge Overcurrent
Overurrent
Detection
Charger
Charger
Overcharge
Detection Release
Detection
Detection
Power-Down
Voltage
Detection Release
Protection
Voltage
Voltage
Voltage
Voltage
Function
Voltage
Voltage
Mode
VSHORT
VDL
VDU
VDOC
VCOC
VOVCHG VOVCHGR
Overcharge
Detection
Voltage
Overcharge
Release
Voltage
VCU
VCL
AP9101CxxxAATRG1
4.375V
4.175V
2.500V
2.900V
0.150V
0.700V
-0.150V
8.0V
7.3V
Selectable
AP9101CxxxABTRG1
4.425V
4.225V
2.500V
2.900V
0.150V
0.700V
-0.150V
8.0V
7.3V
AP9101CxxxACTRG1
4.375V
4.175V
2.500V
2.900V
0.095V
0.700V
-0.095V
8.0V
AP9101CxxxADTRG1
4.375V
4.175V
2.500V
2.900V
0.120V
0.700V
-0.120V
AP9101CxxxAETRG1
4.200V
4.100V
2.500V
3.000V
0.300V
0.550V
AP9101CxxxAFTRG1
4.375V
4.175V
2.500V
2.900V
0.180V
AP9101CxxxAGTRG1
4.375V
4.175V
2.500V
2.900V
AP9101CxxxAHTRG1
4.425V
4.225V
2.500V
AP9101CxxxAITRG1
4.500V
4.300V
AP9101CxxxAJTRG1
4.375V
AP9101CxxxAKTRG1
Delay
Time
0V Battery
Charge
Function
Auto
Release
Option 1
Permission
Selectable
Auto
Release
Option 1
Permission
7.3V
Selectable
Auto
Release
Option 1
Permission
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
0.700V
-0.180V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
0.075V
0.700V
-0.075V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
2.900V
0.075V
0.700V
-0.075V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
2.400V
2.800V
0.150V
0.700V
-0.075V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
4.175V
2.400V
2.800V
0.125V
0.700V
-0.125V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
4.250V
4.050V
2.400V
3.000V
0.150V
0.700V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxALTRG1
4.275V
4.175V
2.300V
2.400V
0.180V
0.700V
-0.180V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxAMTRG1
4.375V
4.175V
2.300V
2.400V
0.180V
0.700V
-0.180V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxANTRG1
4.225V
4.025V
3.200V
3.400V
0.060V
0.450V
-0.060V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxAOTRG1
4.425V
4.225V
2.500V
2.900V
0.064V
0.450V
-0.073V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxASTRG1
3.800V
3.700V
2.300V
2.400V
0.180V
0.700V
-0.180V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxATTRG1
4.400V
4.200V
2.800V
3.000V
0.150V
0.700V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
Part
Number
AP9101C
Document number: DS37771 Rev. 4 - 2
12 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Ordering Information (Continued)
AP9101CxxxAUTRG1
4.300V
4.100V
2.500V
2.900V
0.100V
0.700V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxAXTRG1
4.280V
4.080V
2.800V
2.800V
0.100V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxAYTRG1
4.275V
4.075V
2.800V
2.900V
0.150V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxAZTRG1
4.275V
4.075V
2.500V
2.900V
0.150V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxBATRG1
4.475V
4.275V
2.500V
2.900V
0.150V
0.500V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBBTRG1
4.475V
4.275V
2.500V
2.900V
0.200V
0.500V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBCTRG1
4.465V
4.265V
2.100V
2.100V
0.150V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBDTRG1
4.425V
4.225V
2.500V
2.500V
0.160V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBETRG1
4.425V
4.225V
2.500V
2.500V
0.160V
0.500V
-0.160V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBFTRG1
4.425V
4.225V
2.500V
2.800V
0.160V
0.500V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBGTRG1
4.425V
4.225V
2.500V
2.800V
0.200V
0.500V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBHTRG1
4.425V
4.225V
2.500V
2.900V
0.200V
0.500V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBITRG1
4.425V
4.225V
2.500V
2.900V
0.130V
0.500V
-0.130V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBJTRG1
4.400V
4.300V
3.000V
3.200V
0.250V
0.600V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBKTRG1
4.400V
4.200V
2.800V
3.000V
0.150V
0.600V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxBLTRG1
4.380V
4.280V
2.600V
2.800V
0.150V
0.600V
-0.175V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBMTRG1
4.375V
4.175V
2.300V
2.400V
0.150V
0.600V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBNTRG1
4.325V
4.075V
2.500V
2.900V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxBOTRG1
4.325V
4.075V
2.500V
2.900V
0.150V
0.500V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxBPTRG1
4.325V
4.125V
2.500V
2.800V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBQTRG1
4.300V
4.100V
2.300V
2.300V
0.250V
0.600V
-0.100
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBRTRG1
4.280V
4.080V
3.000V
3.300V
0.080V
0.500V
-0.080V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBSTRG1
4.280V
4.080V
3.000V
3.300V
0.080V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBTTRG1
4.280V
4.080V
2.300V
2.300V
0.160v
0.500v
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBUTRG1
4.280V
4.080V
2.300V
2.300V
0.125V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101C
Document number: DS37771 Rev. 4 - 2
13 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Ordering Information (Cont.)
AP9101CxxxBVTRG1
4.280V
4.080V
2.800V
3.000V
0.100V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBWTRG1
4.280V
4.180V
3.000V
3.000V
0.180V
0.600
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBXTRG1
4.280V
4.180V
2.800V
2.800V
0.050V
0.600V
-0.050V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBYTRG1
4.280V
4.180V
2.800V
2.800V
0.250V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxBZTRG1
4.280V
4.130V
2.800V
3.100V
0.100V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCATRG1
4.275V
4.175V
2.300V
2.800V
0.250V
0.600V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCBTRG1
4.275V
4.175V
2.300V
2.400V
0.200V
0.500V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCCTRG1
4.275V
4.075V
2.500V
2.900V
0.150V
0.500V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxCDTRG1
4.275V
4.075V
2.300V
2.300V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCETRG1
4.275V
4.175V
2.300V
2.400V
0.100V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCFTRG1
4.275V
4.075V
2.800V
2.800V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCGTRG1
4.275V
4.075V
2.800V
3.000V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCHTRG1
4.250V
4.150V
2.500V
2.700V
0.250V
0.600V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCITRG1
4.250V
4.150V
2.700V
3.000V
0.250V
0.600V
-0.200V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCJTRG1
4.250V
4.050V
2.500V
2.800V
0.200V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCKTRG1
4.250V
4.150V
2.800V
3.000V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCLTRG1
4.250V
4.150V
2.500V
3.000V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCMTRG1
4.200V
4.100V
2.800V
3.000V
0.150V
0.550V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxCNTRG1
4.200V
4.100V
2.500V
2.500V
0.150V
0.600V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCOTRG1
4.190V
4.090V
2.700V
3.000V
0.100V
0.600V
-0.050V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101CxxxCPTRG1
3.650V
3.450V
2.100V
2.300V
0.150V
0.550V
-0.150V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Permission
AP9101CxxxCQTRG1
4.250V
4.050V
2.800V
3.000V
0.150V
0.500V
-0.100V
8.0V
7.3V
Selectable
Auto
Release
Option 1
Prohibition
AP9101C
Document number: DS37771 Rev. 4 - 2
14 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Ordering Information (Cont.)
Delay Time Option Overview
Delay Time
Option
Overcharge
Detection
DelayTime (tCU)
Overdischarge
Detection
Delay Time (tDL)
Overdischarge
Current Detection
Delay Time (tDOC)
Overcharge
Current Detection
Delay Time (tCOC)
Load Short
Circuiting Detection
Delay Time (tSHORT)
1
1,000ms
115ms
10ms
10ms
320µs
2
125ms
32ms
8ms
8ms
160µs
3
1,000ms
20ms
12ms
10ms
320µs
4
1,000ms
42ms
10ms
10ms
320µs
5
1,000ms
115ms
10ms
10ms
160µs
AP9101C
Document number: DS37771 Rev. 4 - 2
15 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Marking Information (Note 6)
Product
AP9101C
Note:
Part Number
Marking ID
Green
Green
AP9101CK-AATRG1
GQA
Tape & Reel
AP9101CK-ABTRG1
G6U
Tape & Reel
AP9101CK-ACTRG1
GQJ
Tape & Reel
AP9101CK-ADTRG1
GQK
Tape & Reel
AP9101CK-AETRG1
GQD
Tape & Reel
AP9101CK-AFTRG1
GQL
Tape & Reel
AP9101CK-AGTRG1
GQM
Tape & Reel
AP9101CK-AHTRG1
GQN
Tape & Reel
AP9101CK-AITRG1
GQP
Tape & Reel
AP9101CK-AJTRG1
GQQ
Tape & Reel
AP9101CK-AKTRG1
GQG
Tape & Reel
AP9101CK-ALTRG1
GQR
Tape & Reel
AP9101CK-AMTRG1
GQS
Tape & Reel
AP9101CK-ANTRG1
GQT
Tape & Reel
AP9101CK-AOTRG1
GRT
Tape & Reel
AP9101CK-ASTRG1
GQV
Tape & Reel
AP9101CAK-AATRG1
GRA
Tape & Reel
AP9101CAK-ABTRG1
GSC
Tape & Reel
AP9101CAK-ACTRG1
GRJ
Tape & Reel
AP9101CAK-ADTRG1
GRK
Tape & Reel
AP9101CAK-AETRG1
GRD
Tape & Reel
AP9101CAK-AFTRG1
GRL
Tape & Reel
AP9101CAK-AGTRG1
GRM
Tape & Reel
AP9101CAK-AHTRG1
GRN
Tape & Reel
AP9101CAK-AITRG1
GRP
Tape & Reel
AP9101CAK-AJTRG1
GRQ
Tape & Reel
AP9101CAK-AKTRG1
GRG
Tape & Reel
AP9101CAK-ALTRG1
GRR
Tape & Reel
AP9101CAK-AMTRG1
GRS
Tape & Reel
AP9101CAK-ANTRG1
GST
Tape & Reel
AP9101CAK-AOTRG1
GTT
Tape & Reel
AP9101CAK-ASTRG1
GSV
Tape & Reel
AP9101CAK-ATTRG1
GSW
Tape & Reel
Package
SOT25
Packing Type
6. Current voltage versions are built by delay time option 1. If any other voltage versions or delay time option products are needed, please contact with the
local sale’s office.
AP9101C
Document number: DS37771 Rev. 4 - 2
16 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Marking Information (Continued)
AP9101C
SOT26
AP9101C
Document number: DS37771 Rev. 4 - 2
AP9101CK6-AATRG1
GQB
Tape & Reel
AP9101CK6-ABTRG1
GQC
Tape & Reel
AP9101CK6-ACTRG1
GSJ
Tape & Reel
AP9101CK6-ADTRG1
GSK
Tape & Reel
AP9101CK6-AETRG1
GQE
Tape & Reel
AP9101CK6-AFTRG1
GSL
Tape & Reel
AP9101CK6-AGTRG1
GSM
Tape & Reel
AP9101CK6-AHTRG1
GSN
Tape & Reel
AP9101CK6-AITRG1
GSP
Tape & Reel
AP9101CK6-AJTRG1
GSQ
Tape & Reel
AP9101CK6-AKTRG1
GQH
Tape & Reel
AP9101CK6-ALTRG1
GSR
Tape & Reel
AP9101CK6-AMTRG1
GSS
Tape & Reel
AP9101CK6-ANTRG1
GQU
Tape & Reel
AP9101CK6-AOTRG1
GRU
Tape & Reel
AP9101CK6-ASTRG1
GRW
Tape & Reel
AP9101CK6-ATTRG1
GRV
Tape & Reel
AP9101CK6-AUTRG1
GQW
Tape & Reel
AP9101CK6-AXTRG1
GPU
Tape & Reel
AP9101CK6-AYTRG1
GPV
Tape & Reel
AP9101CK6-AZTRG1
GPW
Tape & Reel
AP9101CK6-BATRG1
GXA
Tape & Reel
AP9101CK6-BBTRG1
GXB
Tape & Reel
AP9101CK6-BCTRG1
GXC
Tape & Reel
AP9101CK6-BDTRG1
GXD
Tape & Reel
AP9101CK6-BETRG1
GXE
Tape & Reel
AP9101CK6-BFTRG1
GXF
Tape & Reel
AP9101CK6-BGTRG1
GXG
Tape & Reel
AP9101CK6-BHTRG1
GXH
Tape & Reel
AP9101CK6-BITRG1
GXJ
Tape & Reel
AP9101CK6-BJTRG1
GXK
Tape & Reel
AP9101CK6-BKTRG1
GXL
Tape & Reel
AP9101CK6-BLTRG1
GXM
Tape & Reel
AP9101CK6-BMTRG1
GXN
Tape & Reel
AP9101CK6-BNTRG1
GXP
Tape & Reel
17 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Marking Information (Cont.)
AP9101C
AP9101CK6-BOTRG1
GXQ
Tape & Reel
AP9101CK6-BPTRG1
GXR
Tape & Reel
AP9101CK6-BQTRG1
GXS
Tape & Reel
AP9101CK6-BRTRG1
GXT
Tape & Reel
AP9101CK6-BSTRG1
GXU
Tape & Reel
AP9101CK6-BTTRG1
GXZ
Tape & Reel
AP9101CK6-BUTRG1
GXV
Tape & Reel
AP9101CK6-BVTRG1
GXW
Tape & Reel
AP9101CK6-BWTRG1
GYS
Tape & Reel
AP9101CK6-BXTRG1
GYT
Tape & Reel
AP9101CK6-BYTRG1
GYU
Tape & Reel
AP9101CK6-BZTRG1
GYV
Tape & Reel
AP9101CK6-CATRG1
GYA
Tape & Reel
AP9101CK6-CBTRG1
GYB
Tape & Reel
AP9101CK6-CCTRG1
GYC
Tape & Reel
AP9101CK6-CDTRG1
GYD
Tape & Reel
AP9101CK6-CETRG1
GYE
Tape & Reel
AP9101CK6-CFTRG1
GYF
Tape & Reel
AP9101CK6-CGTRG1
GYG
Tape & Reel
AP9101CK6-CHTRG1
GYH
Tape & Reel
AP9101CK6-CITRG1
GYJ
Tape & Reel
AP9101CK6-CJTRG1
GYK
Tape & Reel
AP9101CK6-CKTRG1
GYL
Tape & Reel
AP9101CK6-CLTRG1
GYM
Tape & Reel
AP9101CK6-CMTRG1
GYN
Tape & Reel
AP9101CK6-CNTRG1
GYP
Tape & Reel
AP9101CK6-COTRG1
GYQ
Tape & Reel
AP9101CK6-CPTRG1
GYR
Tape & Reel
AP9101CK6-CQTRG1
GYW
Tape & Reel
AP9101CAK6-AATRG1
GRB
Tape & Reel
AP9101CAK6-ABTRG1
GRC
Tape & Reel
AP9101CAK6-ACTRG1
GTJ
Tape & Reel
AP9101CAK6-ADTRG1
GTK
Tape & Reel
AP9101CAK6-AETRG1
GRE
Tape & Reel
AP9101CAK6-AFTRG1
GTL
Tape & Reel
AP9101CAK6-AGTRG1
GTM
Tape & Reel
SOT26
AP9101C
Document number: DS37771 Rev. 4 - 2
18 of 23
www.diodes.com
May 2016
© Diodes Incorporated
AP9101C
Marking Information (Cont.)
AP9101C
AP9101CAK6-AHTRG1
GTN
Tape & Reel
AP9101CAK6-AITRG1
GTP
Tape & Reel
AP9101CAK6-AJTRG1
GTQ
Tape & Reel
AP9101CAK6-AKTRG1
GRH
Tape & Reel
AP9101CAK6-ALTRG1
GTR
Tape & Reel
AP9101CAK6-AMTRG1
GTS
Tape & Reel
AP9101CAK6-ANTRG1
GSU
Tape & Reel
AP9101CAK6-AOTRG1
GTU
Tape & Reel
AP9101CAK6-ASTRG1
GTW
Tape & Reel
AP9101CAK6-ATTRG1
GTV
Tape & Reel
AP9101CAK6-AUTRG1
GUT
Tape & Reel
AP9101CAK6-AXTRG1
GUU
Tape & Reel
AP9101CAK6-AYTRG1
GUV
Tape & Reel
AP9101CAK6-AZTRG1
GUW
Tape & Reel
AP9101CAK6-BATRG1
GVA
Tape & Reel
AP9101CAK6-BBTRG1
GVB
Tape & Reel
AP9101CAK6-BCTRG1
GVC
Tape & Reel
AP9101CAK6-BDTRG1
GVD
Tape & Reel
AP9101CAK6-BETRG1
GVE
Tape & Reel
AP9101CAK6-BFTRG1
GVF
Tape & Reel
AP9101CAK6-BGTRG1
GVG
Tape & Reel
AP9101CAK6-BHTRG1
GVH
Tape & Reel
AP9101CAK6-BITRG1
GVJ
Tape & Reel
AP9101CAK6-BJTRG1
GVK
Tape & Reel
AP9101CAK6-BKTRG1
GVL
Tape & Reel
AP9101CAK6-BLTRG1
GVM
Tape & Reel
AP9101CAK6-BMTRG1
GVN
Tape & Reel
AP9101CAK6-BNTRG1
GVP
Tape & Reel
AP9101CAK6-BOTRG1
GVQ
Tape & Reel
AP9101CAK6-BPTRG1
GVR
Tape & Reel
AP9101CAK6-BQTRG1
GVS
Tape & Reel
AP9101CAK6-BRTRG1
GVT
Tape & Reel
AP9101CAK6-BSTRG1
GVU
Tape & Reel
AP9101CAK6-BTTRG1
GVV
Tape & Reel
AP9101CAK6-BUTRG1
GVW
Tape & Reel
AP9101CAK6-BVTRG1
GWS
Tape & Reel
SOT26
AP9101C
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AP9101C
Marking Information (Cont.)
AP9101C
AP9101CAK6-BWTRG1
GWT
Tape & Reel
AP9101CAK6-BXTRG1
GWU
Tape & Reel
AP9101CAK6-BYTRG1
GWV
Tape & Reel
AP9101CAK6-BZTRG1
GWW
Tape & Reel
AP9101CAK6-CATRG1
GWA
Tape & Reel
AP9101CAK6-CBTRG1
GWB
Tape & Reel
AP9101CAK6-CCTRG1
GWC
Tape & Reel
AP9101CAK6-CDTRG1
GWD
Tape & Reel
AP9101CAK6-CETRG1
GWE
Tape & Reel
AP9101CAK6-CFTRG1
GWF
Tape & Reel
AP9101CAK6-CGTRG1
GWG
Tape & Reel
AP9101CAK6-CHTRG1
GWH
Tape & Reel
AP9101CAK6-CITRG1
GWJ
Tape & Reel
AP9101CAK6-CJTRG1
GWK
Tape & Reel
AP9101CAK6-CKTRG1
GWL
Tape & Reel
AP9101CAK6-CLTRG1
GWM
Tape & Reel
AP9101CAK6-CMTRG1
GWN
Tape & Reel
AP9101CAK6-CNTRG1
GWP
Tape & Reel
AP9101CAK6-COTRG1
GWQ
Tape & Reel
AP9101CAK6-CPTRG1
GWR
Tape & Reel
SOT26
AP9101C
Document number: DS37771 Rev. 4 - 2
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AP9101C
Package Outline Dimensions
Please see http://www.diodes.com/package-outlines.html for the latest version.
SOT25
A
SOT25
Dim Min Max Typ
A
0.35 0.50 0.38
B
1.50 1.70 1.60
C
2.70 3.00 2.80
D
0.95
H
2.90 3.10 3.00
J
0.013 0.10 0.05
K
1.00 1.30 1.10
L
0.35 0.55 0.40
M
0.10 0.20 0.15
N
0.70 0.80 0.75
0°
8°
-

All Dimensions in mm
B C
H
K
M
N
J
L
D
SOT26
D
E1
SOT26
Dim Min Max
Typ
A1 0.013 0.10
0.05
A2 1.00 1.30
1.10
A3 0.70 0.80
0.75
b
0.35 0.50
0.38
c
0.10 0.20
0.15
D
2.90 3.10
3.00
e
0.95
e1
1.90
E
2.70 3.00
2.80
E1 1.50 1.70
1.60
L
0.35 0.55
0.40
a
8°
a1
7°
All Dimensions in mm
E
b
a1
e1
A2
A3
A1
Seating Plane
e
AP9101C
Document number: DS37771 Rev. 4 - 2
c
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L
a
May 2016
© Diodes Incorporated
AP9101C
Suggested Pad Layout
Please see http://www.diodes.com/package-outlines.html for the latest version.
SOT25
C2
Z
C2
Dimensions
Z
G
X
Y
C1
C2
C1
G
Y
X
Value
3.20
1.60
0.55
0.80
2.40
0.95
SOT26
C1
Y1
G
Dimensions
C
C1
G
X
Y
Y1
C
Y
Value (in mm)
2.40
0.95
1.60
0.55
0.80
3.20
X
AP9101C
Document number: DS37771 Rev. 4 - 2
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AP9101C
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.
This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is the
final and determinative format released by Diodes Incorporated.
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 © 2016, Diodes Incorporated
www.diodes.com
AP9101C
Document number: DS37771 Rev. 4 - 2
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© Diodes Incorporated