AP23x1A

AP2301A/AP2311A
2.0A SINGLE CHANNEL CURRENT-LIMITED
LIMITED POWER SWITCH
Description
Pin Assignments
The AP2301A and AP2311A are single channel
channel, current-limited,
integrated high-side
side power switches optimized for Universal Serial
Bus (USB) and other hot-swap
swap applications. The family of devices
complies with USB standards and is available with both polarities of
Enable input.
( Top View )
The devices have fast short-circuit response
ponse time for improved overall
system robustness, and have integrated output discharge function to
ensure completely controlled discharging of the output voltage
capacitor. They provide a complete protection solution for applications
subject to heavy capacitive
citive loads and the prospect of short circuit,
and offer reverse current blocking, over-current,
current, over
over-temperature
and short-circuit
circuit protection, as well as controlled rise time and under
undervoltage lockout functionality. A 7ms deglitch capability on the open
opendrain Flag output prevents false over-current
current reporting and does not
require any external components.
GND 1
8
NC
IN 2
7
OUT
IN 3
6
OUT
EN 4
5
FLG
SOSO-8
( Top View )
GND
1
8
NC
IN
2
7
OUT
IN
3
6
OUT
EN
4
5
FLG
MSOP-8 /MSOP-8EP
Note: latter with exposed pad
(dotted
dotted line)
line
All devices are available in SO-8, MSOP-8,
8, MSOP
MSOP-8EP, U-DFN30308 and U-DFN2020-6 packages.
(Top View)
Features
GND 1
•
•
Single Channel Current-Limited Power Switch
witch
Output Discharge Function
Fast Short-Circuit Response Time: 2µs
2.5A Accurate Current Limiting
Reverse Current Blocking
70mΩ on-Resistance
Input Voltage Range: 2.7V - 5.5V
Built-in Soft-Start with 0.6ms Typical Rise T
Time
Over-Current and Thermal Protection
Fault Report (FLG) with Blanking Time
ime (7ms typ)
ESD Protection: 2kV HBM, 200V MM
Ambient Temperature Range: -40°C to +85°
°C
SO-8, MSOP-8, MSOP-8EP, U-DFN3030-8
8 and U-DFN2020-6:
Available in “Green” Molding Compound (No Br, Sb)
Totally Lead-Free
ree & Fully RoHS Compliant (Notes 1 & 2)
Halogen and Antimony Free. “Green” Device (Note 3)
•
•
UL Recognized, File Number E322375
IEC60950-1 CB Scheme Certified
•
•
•
•
•
•
•
•
•
•
•
•
•
Notes:
8
NC
IN 2
7 OUT
IN 3
6 OUT
EN 4
5 FLG
U-DFN3030-8 Type E
DFN2020-6
U-DFN2020
Applications
•
•
•
LCD TVs & Monitors
Set-Top-Boxes,
Boxes, Residential Gateways
Laptops, Desktops, Servers, E-Readers,
Readers, Printers, Docking
Stations, HUBs
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 HalogenHal
and Antimony-free, "Green"
and Lead-free.
3. Halogen- and Antimony-free
free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and
<1000ppm antimony compounds.
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
1 of 17
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March 2015
© Diodes Incorporated
AP2301A/AP2311A
Typical Applications Circuit
Enable Active High
IN
Power Supply
2.7V to 5.5V
0.1uF
0.1uF
10k
Load
OUT
120uF
FLG
EN
ON
GND
OFF
Available Options
Part Number
Channel
Enable Pin (EN)
AP2301A
1
Active Low
AP2311A
1
Active High
Recommended Maximum
Continuous Load Current (A)
2A
Typical Current
Limit (A)
Package
2.5A
SO-8
MSOP-8
MSOP-8EP
U-DFN3030-8
U-DFN2020-6
Pin Descriptions
Pin
Name
SO-8,
MSOP-8
Pin Number
MSOP-8EP,
U-DFN2020-6
U-DFN3030-8
GND
1
1
IN
2, 3
2, 3
EN
4
4
FLG
5
5
OUT
6, 7
6, 7
NC
8
8
Exposed
Pad
—
Exposed
Pad
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
2
1
3
4
5
6
Exposed
Pad
Function
Ground
Voltage Input Pin; Connect a 0.1µF or larger ceramic capacitor from IN to GND as close
as possible. (all IN pins must be tied together externally)
Enable input, active low (AP2301A) or active high (AP2311A)
Over-temperature and over-current fault reporting with 7ms deglitch; active low opendrain output. FLG is disabled for 7ms after turn-on.
Voltage Output Pin All OUT pins must be tied together externally.
NC:
No Internal Connection; recommend tie to OUT pins
Exposed pad.
It should be externally connected to GND and thermal mass for enhanced thermal
impedance. It should not be used as electrical ground conduction path.
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AP2301A/AP2311A
Functional Block Diagram
Current
Sense
IN
Discharge
Control
UVLO
Driver
EN
OUT
Current
Limit
FLG
Deglitch
Thermal
Sense
GND
Absolute Maximum Ratings (@TA = +25°C, unless otherwise specified.)
Symbol
ESD HBM
ESD MM
Parameter
Human Body Model ESD Protection
Machine Model ESD Protection
Input Voltage (Note 4)
Ratings
2
200
Unit
kV
V
-0.3 to 6.5
V
VOUT
Output Voltage (Note 4)
-0.3 to (VIN +0.3) or 6.5
V
VEN , VFLG
Enable Voltage (Note 4)
-0.3 to (VIN +0.3) or 6.5
V
VIN
ILOAD
TJ(MAX)
TST
Notes:
Maximum Continuous Load Current
Maximum Junction Temperature
Storage Temperature Range (Note 5)
Internal Limited
A
150
°C
-65 to +150
°C
4. All voltages referred to GND pin. Maximums are the lower of (VIN +0.3) and 6.5V.
5. UL Recognized Rating from -30°C to +70°C (Diodes qualified TST from -65°C to +150°C).
Caution: Stresses greater than the 'Absolute Maximum Ratings' specified above, may cause permanent damage to the device. These are stress ratings
only; functional operation of the device at these or any other conditions exceeding those indicated in this specification is not implied. Device reliability
may be affected by exposure to absolute maximum rating conditions for extended periods of time.
Semiconductor devices are ESD sensitive and may be damaged by exposure to ESD events. Suitable ESD precautions should be taken when handling
and transporting these devices.
Recommended Operating Conditions (@TA = +25°C, unless otherwise specified.)
Symbol
Parameter
Min
Max
2.7
5.5
V
IOUT
Output Current
0
2
A
V
VIN
Input Voltage
Unit
VIL
EN Input Logic Low Voltage
0
0.8
VIH
EN Input Logic High Voltage
2
VIN
V
TA
Operating Ambient Temperature
-40
+85
°C
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
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AP2301A/AP2311A
Electrical Characteristics (@TA = +25°C, VIN = +5V, CIN = 0.1µF, CL = 1µF, unless otherwise specified.)
Symbol
VUVLO
Parameter
Input UVLO
Test Conditions
VIN rising
Min
Typ
Max
1.6
2.0
2.4
50
Unit
V
∆VUVLO
Input UVLO Hysteresis
VIN decreasing
-
ISHDN
Input Shutdown Current
Disabled, OUT = open
-
0.1
1
µA
IQ
Input Quiescent Current
Enabled, OUT = open
-
60
100
µA
ILEAK
Input Leakage Current
Disabled, OUT grounded
-
0.1
1
µA
IREV
Reverse Leakage Current
Disabled, VIN = 0V, VOUT = 5V, IREV at VIN
µA
VIN = 5V, IOUT= 2.0A
RDS(ON) Switch on-Resistance
VIN = 3.3V, IOUT = 2.0A
-
0.01
1
TA = +25°C
-
70
84
-40°C ≤ TA ≤ +85°C
-
-
105
TA = +25°C
-
90
108
mΩ
-40°C ≤ TA ≤ +85°C
-
-
135
-40°C ≤ TA ≤ +85°C
2.05
2.50
2.85
Current Limiting Trigger Threshold Output Current Slew rate (<100A/s)
-
2.5
-
A
Short-Circuit Current Limit
Enabled into short circuit
-
2.75
-
A
ILIMIT
Over-Load Current Limit (Note 6)
ITrig
ISHORT
mV
VIN = 5V, VOUT = 4.5V
A
TSHORT
Short-Circuit Response Time
VOUT = 0V to IOUT = ILIMIT (OUT shorted to ground)
-
2
-
µs
VIL
EN Input Logic Low Voltage
VIN = 2.7V to 5.5V
-
-
0.8
V
VIH
EN Input Logic High Voltage
VIN = 2.7V to 5.5V
2
-
-
V
µA
ILEAK-EN EN Input Leakage
VIN = 5V, VEN = 0V and 5.5V
-
0.01
1
ILEAK-O
Output Leakage Current
Disabled, VOUT = 0V
-
0.5
1
µA
TD(ON)
Output Turn-on Delay Time
CL= 1µF, RLOAD = 5Ω
-
0.1
-
ms
TR
Output Turn-on Rise Time
CL= 1µF, RLOAD = 5Ω
-
0.6
1.5
ms
TD(OFF)
Output Turn-off Delay Time
CL= 1µF, RLOAD = 5Ω
-
0.1
-
ms
Output Turn-off Fall Time
CL= 1µF, RLOAD = 5Ω
-
0.05
0.1
ms
RFLG
FLG Output FET on-Resistance
IFLG = 10mA
-
25
40
Ω
IFOH
FLG Off Current
VFLG= 5V
-
0.01
1
µA
FLG Blanking Time
Assertion or deassertion due to overcurrent and overtemperature condition
4
7
15
ms
TF
TBlank
TDIS
Discharge Time
CL= 1µF, VIN = 5V, disabled to VOUT < 0.5V
-
0.6
-
ms
RDIS
Discharge Resistance (Note 7)
VIN = 5V, disabled, IOUT= 1mA
-
105
-
Ω
TSHDN
Thermal Shutdown Threshold
Enabled
-
140
-
°C
THYS
Thermal Shutdown Hysteresis
-
-
20
-
°C
Thermal Resistance Junction-toAmbient
SO-8 (Note 8)
MSOP-8 (Note 8)
MSOP-8-EP (Note 9)
U-DFN3030-8 (Note 9)
U-DFN2020-6 (Note 10)
-
96
130
92
84
90
-
°C/W
°C/W
°C/W
°C/W
°C/W
θJA
Notes:
6. Pulse-testing techniques maintain junction temperature close to ambient temperature; thermal effects must be taken into account separately.
7. The discharge function is active when the device is disabled (when enable is de-asserted or during power-up power-down when VIN < VUVLO).
The discharge function offers a resistive discharge path for the external storage capacitor for limited time.
8. Device mounted on 2” x 2” FR-4 substrate PCB, 2oz copper, with minimum recommended pad layout.
9. Device mounted on 2” x 2” FR-4 substrate PCB, 2oz copper, with minimum recommended pad on top layer and thermal vias to bottom layer ground
plane.
10. Device mounted on 1"x1" FR-4 substrate PCB, 2oz copper, with minimum recommended padon top layer and thermal vias to bottom layer ground.
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
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March 2015
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AP2301A/AP2311A
Typical Performance Characteristics
VEN
50%
50%
VEN
50%
50%
TD(OFF)
OFF)
TR
TD(ON)
ON)
TD(ON)
ON)
90%
90%
VOUT
TD(OFF)
OFF)
TR
TF
90%
90%
50%
50%
50%
50%
TF
90%
90%
90%
90%
VOUT
10%
10%
10%
10%
10%
10%
10%
10%
Figure 1. Voltage Waveforms: AP2301A (left), AP2311A (right)
All Enable Plots are for Enable Active Low
Turn-On Delay and Rise Time
TA=25°C
VIN=5V
CL=1uF
ROUT=2.5
VOUT
2V/div
VEN
5V/div
Turn-Off Delay and Fall Time
VOUT
2V/div
Ω
TA=25°C
VIN=5V
CL=1uF
ROUT=2.5
Ω
VEN
5V/div
Device enabled
Device disabled
IIN
1A/div
IIN
1A/div
Turn-On Delay and Rise Time
Turn-Off Delay and Fall Time
TA=25°C
VIN=5V
CL=120uF
ROUT=2.5
VOUT
2V/div
Ω
Ω
VEN
5V/div
Device enabled
Device disabled
VEN
5V/div
IIN
1A/div
TA=25°C
VIN=5V
CL=120uF
ROUT=2.5
VOUT
2V/div
Inrush current limit
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
IIN
1A/div
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AP2301A/AP2311A
Typical Performance Characteristics (continued)
Device Enabled Into Short-Circuit
Inrush Current
TA=25°C
VIN=5V
CL=120uF
ROUT=1
VEN
5V/div
TA=25°C
VIN=5V
ROUT=2.5
VEN
5V/div
Ω
Ω
CL=120uF
IOUT
1A/div
IOUT
1A/div
Full-Load to Short-Circuit
Transient Response
VOUT
2V/div
Output short
circuited
CL=220uF
CL=470uF
Short-Circuit to Full-Load
Recovery Response
Output short
circuit removed
TA=25°C
VIN=5V
ROUT=2.5
Ω
VOUT
2V/div
Ω
IIN
2A/div
Device turns off and re-enables
into current limit
FLG
5V/div
IIN
2A/div
IIN
2A/div
Short circuit present and
device thermal cycles
FLG
5V/div
No-Load to Short-Circuit
Transient Response
VOUT
2V/div
TA=25°C
VIN=5V
ROUT=2.5
Output short
circuited
Short-Circuit to No-Load
Recovery Response
Output short
circuit removed
TA=25°C
VIN=5V
ROUT=0
Ω
VOUT
2V/div
TA=25°C
VIN=5V
ROUT=0
Ω
Device enters current limit
IIN
2A/div
FLG
5V/div
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
Short circuit present and
device thermal cycles
FLG
5V/div
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AP2301A/AP2311A
Typical Performance Characteristics (cont.)
Short-Circuit with Blanking Time and
Recovery
Power ON
FLG
5V/div
FLG
5V/div
TA=25°C
VIN=5V
ROUT=2.5
CL=120uF
IOUT
1A/div
Ω
TA=25°C
VIN=5V
VOUT
5V/div
VOUT
5V/div
IOUT
2A/div
VIN
5V/div
UVLO Increasing
VIN
2V/div
UVLO Decreasing
TA=25°C
VIN=5V
ROUT=2.5
CL=120uF
VIN
2V/div
Ω
IOUT
2A/div
TA=25°C
VIN=5V
ROUT=2.5
CL=120uF
Ω
IOUT
2A/div
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
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AP2301A/AP2311A
Typical Performance Characteristics (cont.)
Turn-off Time vs. Input voltage
Turn-on Time vs. Input voltage
100
Turn-off Time (us)
Turn-on Time (us)
90
80
70
60
50
40
CL=1uF
RL=5
TA=25°C
Ω
30
20
10
0
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
260
240
220
200
180
160
140
120
100
80
60
40
20
0
2.0
2.5
3.5
4.0
4.5
5.0
5.5
6.0
5.5
6.0
Fall Time vs. Input voltage
100
90
Fall Time (us)
Rise Time (us)
Rise Time vs. Input voltage
1000
900
800
700
600
500
400
300
200
100
0
2.0
3.0
Input Voltage (V)
Input Voltage (V)
CL=1uF
RL=5
TA=25°C
Ω
80
70
60
50
40
30
20
10
0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
Document number: DS37743 Rev. 1 - 2
2.5
3.0
3.5
4.0
4.5
5.0
Input Voltage (V)
Input Voltage (V)
AP2301A/AP2311A
2.0
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AP2301A/AP2311A
Typical Performance Characteristics (cont.)
Supply Current,Output Disabled vs. Temperature
Supply Current,Output Enabled vs. Temperature
Supply Current Output Disabled
(uA)
Supply Current Output Enabled
(uA)
100
VIN=5.5V
90
80
VIN=5V
70
60
50
40
VIN=3.3V
VIN=2.7V
30
20
10
0.30
VIN=5.5V
0.25
0.20
VIN=5V
0.15
0.10
0.05
0.00
VIN=3.3V
-0.05
VIN=2.7V
-0.10
-0.15
-0.20
-0.25
-0.30
0
-50
-25
0
25
50
75
100
-50
125
-25
0
Temperature (°C)
100
125
Short-Circuit Output Current vs. Temperature
Short-Circuit Output Current (A)
RDS(ON) (mΩ)
75
3.0
VIN=2.7V
VIN=3.3V
VIN=5V
VIN=5.5V
VIN=2.7V
2.9
VIN=3.3V
2.8
2.7
2.6
VIN=5V
2.5
VIN=5.5V
2.4
2.3
2.2
2.1
2.0
-50
-25
0
25
50
75
100
125
-50
-25
0
25
50
75
100
Temperature (°C)
Temperature (°C)
Undervoltage Lockout vs. Temperature
Threshold Trip Current vs. Input Voltage
2.2
125
3.5
3.4
2.1
2.0
Threshold Trip Current (A)
Undervoltage Lockout (V)
50
Temperature (°C)
RDS(ON) vs. Temperature
180
170
160
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
0
25
UVLO Rising
1.9
1.8
UVLO Falling
1.7
CL=120uF
TA=25°C
3.3
3.2
3.1
3.0
2.9
2.8
2.7
2.6
1.6
-50
-25
0
25
50
75
100
125
2.5
Temperature (°C)
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
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2.0
2.5
3.0
3.5 4.0 4.5
Input Voltage (V)
5.0
5.5
6.0
March 2015
© Diodes Incorporated
AP2301A/AP2311A
Application Information
Power Supply Considerations
A 0.1µF to 2.2µF X7R or X5R ceramic bypass capacitor placed between IN and GND, close to the device, is recommended. When an external
power supply is used, or an additional ferrite bead is added to the input, high inrush current may cause voltage spikes higher than the device
maximum input rating during short circuit condition. In this case a 2.2µF, or bigger capacitor is recommended. Placing a high-value electrolytic
capacitor on the input and output pin(s) is recommended when the output load is heavy. This precaution reduces power-supply transients that may
cause ringing on the input. Additionally, bypassing the output with a 0.1µF to 1.0µF ceramic capacitor improves the immunity of the device to short
circuit transients.
Over-Current and Short Circuit Protection
An internal sensing FET is employed to check for over-current conditions. Unlike current-sense resistors, sense FETs do not increase the series
resistance of the current path. When an over-current condition is detected, the device maintains a constant output current and reduces the output
voltage accordingly. Complete shutdown occurs only if the fault stays long enough to activate thermal limiting.
Three possible overload conditions can occur. In the first condition, the output has been shorted to GND before the device is enabled or before VIN
has been applied. The AP2301A/AP2311A senses the short circuit and immediately clamps output current to a certain safe level, namely ILIMIT.
In the second condition, an output short or an overload occurs while the device is enabled. At the instance the overload occurs, higher inrush
current may flow for a very short period of time before the current limit function can react. The input capacitor(s) rapidly discharge through the
device, activating current limit circuitry. Protection is achieved by momentarily opening the P-MOS high-side power switch and then gradually
turning it on. After the current limit function has tripped (reached the over-current trip threshold), the device switches into current limiting mode and
the current is clamped at ILIMIT.
In the third condition, the load has been gradually increased beyond the recommended operating current. The current is permitted to rise until the
current-limit threshold (ITRIG) is reached or until the thermal limit of the device is exceeded. The AP2301A/AP2311A is capable of delivering current
up to the current-limit threshold without damaging the device. Once the threshold has been reached, the device switches into its current limiting
mode and is set at ILIMIT.
FLG Response
When an over-current or over-temperature shutdown condition is encountered, the FLG open-drain output goes active low after a nominal 7-ms
deglitch timeout. The FLG output remains low until both over-current and over-temperature conditions are removed. Connecting a heavy capacitive
load to the output of the device can cause a momentary over-current condition, which does not trigger the FLG due to the 7-ms deglitch timeout.
The AP2301A/AP2311A is designed to eliminate false, over-current reporting without the need of external components to remove unwanted pulses.
Power Dissipation and Junction Temperature
The low on-resistance of the internal MOSFET allows the small surface-mount packages to pass large current. Using the maximum operating
ambient temperature (TA) and RDS(ON), the power dissipation can be calculated by:
PD = RDS(ON)× I2
Finally, calculate the junction temperature:
TJ = PD x RθJA + TA
Where:
TA= Ambient Temperature °C
RθJA = Thermal Resistance
PD = Total Power Dissipation
Thermal Protection
Thermal protection prevents the IC from damage when heavy-overload or short-circuit faults are present for extended periods of time. The
AP2301A/AP2311A implements a thermal sensing to monitor the operating junction temperature of the power distribution switch. Once the die
temperature rises to approximately 140°C due to excessive power dissipation in an over-current or short-circuit condition, the internal thermal
sense circuitry turns the power switch off, thus preventing the power switch from damage. Hysteresis is built into the thermal sense circuit allowing
the device to cool down approximately 20°C before the switch turns back on. The switch continues to cycle in this manner until the load fault or
input power is removed. The FLG open-drain output is asserted when an over-temperature shutdown or over-current occurs with 7-ms deglitch.
Undervoltage Lockout (UVLO)
Undervoltage lockout function (UVLO) keeps the internal power switch from being turned on until the power supply has reached at least 2V, even if
the switch is enabled. Whenever the input voltage falls below approximately 2V, the power switch is quickly turned off. This facilitates the design of
hot-insertion systems where it is not possible to turn off the power switch before input power is removed.
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
10 of 17
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AP2301A/AP2311A
Application Information (continued)
Discharge Function
The discharge function of the device is active when enable is disabled or de-asserted. The discharge function with the N-MOS power switch
implementation is activated and offers a resistive discharge path for the external storage capacitor. This is designed for discharging any residue of
the output voltage when either no external output resistance or load resistance is present at the output.
Dual-Purpose Port Applications
AP2301A/AP2311A is suitable for use in dual-purpose port applications in which a single port is used for data communication between the host and
peripheral devices, while simultaneously maintaining a charge to the battery of the peripheral device. An example of this is a shared HDMI/MHL
(Mobile High-definition Link) port that allows streaming video between an HDTV or set-top box and a smartphone or tablet while maintaining a
charge to the smartphone or tablet battery. In such dual-purpose port applications, it is important to insure Vin of the AP2301A/AP2311A is ramped
to its operating voltage prior to enabling the output. Since the AP2301A/AP311A includes an embedded discharge feature that discharges the
output load of the device when the device is disabled, the batteries of the connected peripheral device will be subject to continual discharge
whenever the AP2301A/AP311A is disabled. An overstress condition to the device's discharge MOS transistor may result.
Ordering Information
Part Number
Package
Code
Packaging
AP23X1AS-13
AP23X1AM8-13
AP23X1AMP-13
AP23X1AFGE-7
AP23X1ASN-7
S
M8
MP
FGE
SN
SO-8
MSOP-8
MSOP-8EP
U-DFN3030-8 Type E
U-DFN2020-6
Quantity
7”/13” Tape and Reel
Part Number Suffix
2,500/Tape & Reel
2,500/Tape & Reel
2,500/Tape & Reel
3,000/Tape & Reel
3,000/Tape & Reel
-13
-13
-13
-7
-7
Marking Information
(1)
SO-8
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
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© Diodes Incorporated
AP2301A/AP2311A
Marking Information (continued)
(2)
MSOP-8
(3) MSOP-8EP
(3)
U-DFN3030-8 Type E
( Top View )
XX
YW X
XX : Identification Code
Y : Year : 0~9
W : Week : A~Z : 1~26 week;
a~z : 27~52 week; z represents
52 and 53 week
X : A~Z : Green
Part Number
Package
Identification Code
AP2301AFGE-7
AP2311AFGE-7
U-DFN3030-8
U-DFN3030-8
3W
3X
(5) U-DFN2020-6
( Top View )
XX
YW X
Part Number
AP2301ASN-7
AP2311ASN-7
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
XX : Identification Code
Y : Year : 0~9
W : Week : A~Z : 1~26 week;
a~z : 27~52 week; z represents
52 and 53 week
X : A~Z : Internal Code
Package
U-DFN2020-6
U-DFN2020-6
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Identification Code
3Y
3Z
March 2015
© Diodes Incorporated
AP2301A/AP2311A
Package Outline Dimensions (All dimensions in mm.)
Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for the latest version.
Package type: SO-8
0.254
(1)
E1 E
A1
L
Gauge Plane
Seating Plane
Detail ‘A’
7°~9°
h
45°
Detail ‘A’
A2 A A3
b
e
D
(2)
SO-8
Dim
Min
Max
A
1.75
A1
0.10
0.20
A2
1.30
1.50
A3
0.15
0.25
b
0.3
0.5
D
4.85
4.95
E
5.90
6.10
E1
3.85
3.95
e
1.27 Typ
h
0.35
L
0.62
0.82
0°
8°
θ
All Dimensions in mm
Package type: MSOP-8
D
4x
10
°
0.25
E Gauge Plane
x
Seating Plane
a
y
4x10°
L
Detail C
1
b
E3
A3
A2
A
e
A1
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
E1
c
See Detail C
13 of 17
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MSOP-8
Dim Min Max Typ
A
1.10
A1 0.05 0.15 0.10
A2 0.75 0.95 0.86
A3 0.29 0.49 0.39
b 0.22 0.38 0.30
c 0.08 0.23 0.15
D 2.90 3.10 3.00
E 4.70 5.10 4.90
E1 2.90 3.10 3.00
E3 2.85 3.05 2.95
e
0.65
L 0.40 0.80 0.60
a
0°
8°
4°
x
0.750
y
0.750
All Dimensions in mm
March 2015
© Diodes Incorporated
AP2301A/AP2311A
Package Outline Dimensions (continued) (All dimensions in mm.)
Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for latest version.
(3)
Package type: MSOP-8EP
D
4X
10
°
x
E
0.25
D1
E2
Gauge Plane
Seating Plane
a
y
4X
10
°
1
8Xb
e
Detail C
E3
A1
L
A3
c
A2
A
D
E1
See Detail C
(4)
MSOP-8EP
Dim Min Max Typ
A
1.10
A1 0.05 0.15 0.10
A2 0.75 0.95 0.86
A3 0.29 0.49 0.39
b
0.22 0.38 0.30
c
0.08 0.23 0.15
D
2.90 3.10 3.00
D1 1.60 2.00 1.80
E
4.70 5.10 4.90
E1 2.90 3.10 3.00
E2 1.30 1.70 1.50
E3 2.85 3.05 2.95
e
0.65
L
0.40 0.80 0.60
a
0°
8°
4°
x
0.750
y
0.750
All Dimensions in mm
Package type: U-DFN3030-8 Type E
A
A1
A3
Seating Plane
D
D2
(Pin #1 ID)
E
R0
.20
0
E2
e
z
(5)
L
U-DFN3030-8
(TYPE E)
Dim
Min
Max
Typ
A
0.57
0.63
0.60
A1
0.00
0.05
0.02
A3
0.15
b
0.20
0.30
0.25
D
2.95
3.05
3.00
D2
2.15
2.35
2.25
E
2.95
3.05
3.00
E2
1.40
1.60
1.50
e
0.65
L
0.30
0.60
0.45
z
0.40
All Dimensions in mm
b
Package type: U-DFN2020-6
A1
A3
A
U-DFN2020-6
Dim Min Max Typ
A
0.57 0.63 0.60
A1
0
0.05 0.03
A3
0.15


b
0.20 0.30 0.25
D
1.95 2.075 2.00
D2 1.45 1.65 1.55
e
0.65


E
1.95 2.075 2.00
E2
0.76 0.96 0.86
L
0.30 0.40 0.35
All Dimensions in mm
Seating Plane
D
D2
D2/2
100
R0.
E E2
E2/2
Pin #1 ID
L
e
b
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
14 of 17
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March 2015
© Diodes Incorporated
AP2301A/AP2311A
Suggested Pad Layout
Please see AP02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version.
(1) Package type: SO-8
X
Dimensions
X
Y
C1
C2
C1
C2
Value (in mm)
0.60
1.55
5.4
1.27
Y
(2) Package type: MSOP-8
X
C
Y
Dimensions Value (in mm)
C
0.650
X
0.450
Y
1.350
Y1
5.300
Y1
(3) Package type: MSOP-8EP
X
C
Dimensions
C
G
X
X1
Y
Y1
Y2
Y
G
Y2
Y1
X1
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
15 of 17
www.diodes.com
Value
(in mm)
0.650
0.450
0.450
2.000
1.350
1.700
5.300
March 2015
© Diodes Incorporated
AP2301A/AP2311A
Suggested Pad Layout (continued)
Please see AP02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version.
(4) Package type: U-DFN3030-8 Type E
X (x8)
C
Y
(x8)
Y1
Dimensions
C
C1
X
Y
Y1
Y2
Y2
Value (in mm)
0.65
2.35
0.30
0.65
1.60
2.75
C1
(5) Package type: U-DFN2020-6
X
C
G
Y
Dimensions
C
G
X
X1
Y
Y1
Y1
G
Value
(in mm)
0.65
0.15
0.37
1.67
0.45
0.90
X
X1
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
16 of 17
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March 2015
© Diodes Incorporated
AP2301A/AP2311A
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 © 2015, Diodes Incorporated
www.diodes.com
AP2301A/AP2311A
Document number: DS37743 Rev. 1 - 2
17 of 17
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March 2015
© Diodes Incorporated