AP22913 Datasheet by Diodes Incorporated

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Description Pin Assignments X1 -WL50909-4 1 2 2 1 .I"\ /’\\ A I‘Voulem) A \_1 \_/ /7\\ /7\\ I I B \GND)\ON) Q® B \ / \ / Top View Bottom Viww Features Applications contact us hugs :waw.diodes.comlg ual ilxlgroducI-definitions/ AP22913 1 0' ‘6 Document number 0541203 Rev 572
AP22913
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AP22913
SINGLE SLEW RATE CONTROLLED LOAD SWITCH
Description
The AP22913 slew rate controlled load switch is a single P-channel
MOSFET power switch designed for high-side load-switching
applications. The MOSFET has a typical RDS(ON) of 54m at 5V(X1-
WLB0909-4), allowing increased load current handling capacity with a
low forward voltage drop. The turn-on slew rate of the device is
controlled internally. VIN and VOUT are isolated during OFF state with
TRCB (True Reverse Current Blocking) feature.
The AP22913 load switch is designed to operate from 1.4V to 5.5V,
making it ideal for 1.8V, 2.5V, 3.3V, and 5V systems. The typical
quiescent supply current is only A.
The AP22913 is available in the wafer level chip scale 4-pin, X1-
WLB0909-4 0.5mm pitch package.
Features
Wide Input Voltage Range: 1.4V to 5.5V
Low On-Resistance(X1-WLB0909-4):
92mΩ Typical @1.5V
76 Typical @1.8V
56 Typical @3.3V
54 Typical @5.0V
High DC Current Capability up to 2A
Truly Reverse Current Block (TRCB)
Discharging Resistor on VOUT When Disabled
Ultra-Low Quiescent Current 1µA
Active-High Control Pin
Minimum 1.1V VIH of ON
ESD Protection:
Human Body Model: 2kV
Charged Device Model: 1kV
Package:
X1-WLB0909-4 with Backside Laminate
0.9mm x 0.9mm, 0.5mm Ball Pitch
Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2)
Halogen- and Antimony-Free. “Green” Device (Note 3)
For automotive applications requiring specific change
control (i.e. parts qualified to AEC-Q100/101/200, PPAP
capable, and manufactured in IATF 16949 certified facilities),
please contact us or your local Diodes representative.
https://www.diodes.com/quality/product-definitions/
Pin Assignments
Applications
Mobile Device and Smart Phones
Portable Media Devices
Wearable Devices
Advanced Notebook, UMPC and MID
Portable Medical Devices
GPS and Navigation Equipment
Notes: 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS), 2011/65/EU (RoHS 2) & 2015/863/EU (RoHS 3) compliant.
2. See https://www.diodes.com/quality/lead-free/ for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free, "Green" and
Lead-free.
3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and
<1000ppm antimony compounds.
X1-WLB0909-4
Top View Bottom View
............ ” AP22913 Pin Descriptions Pin Number SOUS WLCSP Functional Block Diagram E ii AP22913 2 0' ‘6 Dacumem number 0541203 Rev 572
AP22913
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AP22913
Typical Applications Circuit
AP22913
V
IN
ON GND
V
OUT
VIN VOUT
CIN
1μF
COUT
0.1μF~1μF
Pin Descriptions
Pin Name
Function
SOT26
WLCSP
VOUT 1 A1
Voltage output pin. This is the pin to the P-channel MOSFET drain connection. Bypass to ground
through a 0.1µF or 1µF capacitor.
VIN 4,6 A2
Voltage input pin. This is the pin to the P-channel MOSFET source. Bypass to ground through a 1µF
capacitor.
GND 2,5 B1 Ground.
ON
3 B2 Enable input, active high
Functional Block Diagram
VIN
ON
GND
VOUT
Slew Rate
Control
Output
Discharge
AP22913 Absolute Maximum Ratings Recommended Operating Conditions Symbol Parame‘er N N u ur AP22913 3 0' ‘6 Dacumeni number 0541203 Rev 572
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AP22913
Absolute Maximum Ratings (@ TA = +25°C, unless otherwise specified.)
Symbol Parameter Ratings Unit
ESD HBM Human Body Model ESD Protection 6 kV
ESD CDM Charged Device Model ESD Protection 2 kV
VIN
Input Voltage -0.3 to 6 V
V
OUT
Output Voltage -0.3 to 6 V
VON
ON Voltage -0.3 to 6 V
I
LOAD
Maximum Continuous Load Current 2 A
ILOAD
Maximum Pulse Load Current, Pulse <300µs, 2% Duty Cycle 2.5 A
T
J
Maximum Junction Temperature +125 °C
TST
Storage Temperature Range -65 to +150 °C
PD Power Dissipation WLB0909-4 930 mW
RθJA Thermal Resistance, Junction to Ambient (Note 4) WLB0909-4
136 °C/W
RθJC Thermal Resistance, Junction to Case (Note 5) WLB0909-4
31 °C/W
Notes: 4. The JEDEC high-K (2s2p) board used to derive this data was a 3 inch x 3 inch, multilayer board with 1oz internal power and ground planes with 2oz
copper traces on top and bottom of the board.
5. Thermal resistance from junction to case.
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.
Recommended Operating Conditions (@ TA = +25°C, unless otherwise specified.)
Symbol
Parameter
Min
Max
Unit
VIN
Input Voltage 1.4 5.5 V
VON
ON Voltage Range 0 5.5 V
VOUT
Output Voltage 1.4 5.5 V
IOUT
Output Current 0 2.0 A
VIH
ON High-Level Input Voltage
1.1
5.5
V
VIL ON Low-Level Input
Voltage
VIN = 3.6V to 5.5V
0
0.6
V
VIN = 1.4V to 3.6V 0 0.4 V
T
A
Operating Ambient Temperature -40 +85 °C
AP22913 Electrical Characteristics 5) A Vw ON w ON Cw Com ed.) VIN = 3.3V, V TA: +25°C AP22913 4 0' ‘6 Dacumem number 0541203 Rev 572
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AP22913
Electrical Characteristics (Note 6)
(TA = -40°C to +85°C, VIN = 1.4 to 5.5V, VON = VIN (Enabled), VON = 0V (Disabled), CIN = 1μF, COUT = 0.1μF, unless otherwise specified.)
Symbol Parameters Test Conditions Min Typ Max Unit
IQ Input Quiescent Current IOUT = 0mA,
VON = Enabled
VIN = 5.25V
1.4 7
μA
VIN = 4.2V
1 5
VIN = 3.6V
0.7 5
VIN = 2.5V
0.5
3.5
VIN = 1.5V
0.3
3.5
ISHDN Input Shutdown Current RL = 1MΩ,
VON = Disabled
VIN = 5.25V 0.1 1
μA
V
IN
= 4.2V 0.1 1
V
IN
= 3.6V 0.1 1
V
IN
= 2.5V 0.1 1
VIN = 1.5V
0.1
1
IIN_LEAK Input Leakage Current VOUT = 0V,
VON = Disabled
VIN = 5.25V
0.1 2
μA
VIN = 4.2V
0.1 2
VIN = 3.6V
0.1
2
VIN = 2.5V
0.1
2
VIN = 1.5V
0.1
2
RDS(ON) Switch On-resistance, IOUT = -200mA at
X1-WLB0909-4 package
VIN = 5.0V
+25°C
54
70
m
Full
95
VIN = 4.2V
+25°C
55
70
Full
95
VIN = 3.3V
+25°C
56
80
Full
95
VIN = 2.5V
+25°C
60
85
Full
115
VIN = 1.8V
+25°C
76
100
Full
130
VIN = 1.5V
+25°C
92
120
Full
150
RDIS Discharge FET On-resistance
V
IN
= 3.3V, V
ON
= 0V, I
OUT
= 30mA,
TA = +25°C
150 200
UVLO Under-Voltage Lockout
VIN increasing
1.2
V
VIN decreasing
0.5
VT_RCB TRCB Trigger Point VOUT - VIN 44 mV
VR_RCB TRCB Release Point VIN - VOUT 0 mV
tT_RCB TRCB Response Time VIN = 5V, VON = VIN 10 μs
IRCB TRCB Reverse Leakage Current
(Current from VIN)
VOUT - VIN > VT_RCB, VON = Enabled
0.3 μA
VIN = 0V, VOUT = 5.5V, VON = Disabled
I
ON
ON Input Leakage V
ON
= 0V, 5.25V or V
ON
=
V
IN
1 μA
Note: 6. Specifications are over -40°C to +85°C and are guaranteed by characterization and design.
m5» AP22913 Timing Characteristics Symbol AP22913 5 0' ‘6 Dacumem number 0541203 Rev 572
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AP22913
Timing Characteristics (Note 7)
Symbol
Parameters
Test Conditions
Min
Typ
Max
Unit
tON Output Turn-on Time
VIN = 5V, RL = 10Ω, COUT = 0.1µF
720 μs
tOFF Output Turn-off Time 5 μs
tR
Output Rise Time 660 μs
tF Output Fall Time 2.5 μs
t
ON
Output Turn-on Time
VIN = 3.3V, RL = 10Ω, COUT = 0.1µF
1050 μs
tOFF Output Turn-off Time 6.5 μs
tR
Output Rise Time
770
μs
tF Output Fall Time 3.0 μs
tON
Output Turn-on Time
VIN = 1.5V, RL = 10Ω, COUT = 0.1µF
2300 μs
tOFF Output Turn-off Time 18 μs
t
R
Output Rise Time 1400 μs
tF Output Fall Time 5.0 μs
Note: 7. Rise and fall time of the control signal are less than 100ns.
VOUT
ON
t
R
t
F
10% 10%
90% 90%
Output Rise (tR) and Fall (tF) Time
VOUT
ON
t
ON
t
OFF
50% 50%
50% 50%
Output Turn On (tON) and Turn Off (tOFF) Time
D'IODES. AP22913 Typical Performance Characteristics Switch on-resistance vs Input Voltage 140 iouy=200mA —4mc — 25%: 100 — 55°C 120 so so Rou (mo) 40 2o 1.5 2 25 3 3.5 4 4.5 5 55 VMVD Input Quiescenlcunentvs tnput Voltage —r4o°c — 25%: — 85°C 15225335445555 VMV) tnput Leakage Current vs Input Voltage 1 i i an 7 —~40”c —25°c _ 05 7—ssoc 3 i 04 z ——-// 02 0 1.5 2 25 3 35 4 4.5 5 5,5 VnM AP22913 Document number 0541203 Rev 572 Swttch onrreslstance vs Temperature 180 ‘50 —123 10“,:200m4 140 2:33 120 :ng A 100 _55V c 5 so 5 m 50 40 20 0 40 .15 1o 35 so as Temperature (‘Ci Inpui shutdown Current us input Vottage 1 08 i —-4D°C —25“C as i —es°c i i 04 / az .__—————-"' 0 #/ 1.5 2 2,5 3 55 ¢ 45 5 5,5 o 0.2 0,4 as as 1 12 1.4 on tnpunnresnetu Valiage m 60(16
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AP22913
Typical Performance Characteristics (CIN = 1µF, COUT = 0.1µF, unless otherwise specified.)
Typical Performance Characteristics nued) Output Rise Tlme vs, Temperature 1200 ‘ —vw=5 Dv moo eon \ Z 600 \ -\ m mu 0 AD .15 in :5 so 35 Temp-mum rc> Output Rise Time vs. Temperature 12m ‘ —vw=a av moo 300 i \\ »; sun 5 m m a 4w 45 to 35 so 55 T.mp.rutum (ic) output Rise Time vs, Temperature 3000 ‘ _er.1 5v 25m 2000 r \ 5 1500 g s \\ 1000 500 o 40 45 «u 35 so as lumperalum(°cl AP22913 7 o! 16 Document number 0341203 Rev 572 firm (VS) 3 m Output Fall Time vs. Temperature \ _vru.5 av 40 .1 5 1 0 35 60 85 Tulip-rami- (’CD Output Fall Time vs. Temperature \ _vm=a 3v / #f/ ~40 -1 5 1 0 35 60 55 Tulip-rami- (’CD Output Fall Tlme vs. Temperature \ _vru=1 5v /// / ~40 4 5 | D 35 $0 55 hmmrlluru [’C)
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AP22913
Typical Performance Characteristics (CIN = 1µF, COUT = 0.1µF, RL = 10Ω, unless otherwise specified.) (continued)
D'IODES. AP22913 Typical Performance Characteristics nued) output Turn-on 11m: vst 'remperature output Turn-off 11m: vs Temperature 12m 1 m ‘ —V1N-5 W —\/1N=5 av mm \ 3 500 - \ A s m r. 1 3 E 500 t if— _ 3 ¢ 190 200 2 0 D .50 ~15 ID 35 SD 55 40 ~15 10 35 50 85 humor-tun [’Cj TImp-umrl (’Cb output Turn-on mm vs Temperature output Tum-off Tlme vs. Temperature 1600 1D —VIN=3 3V ‘ unn —V1N=a 3v 3 1200 / man 5 f/ e; E / v: son 1 ‘ Sun 3 ¢ ‘00 2 znn D D 40 ~15 ID 35 $0 55 40 -15 10 35 50 55 I'Imporllun rcy TImp-umrl ('cp Oulpul mrmn Tune vs. Temperature Output Turn-oil Tlme vs. Temperature mm 25 ‘ _vw=1 sv 35W —VIN-1 5V 2.) 3000 / / 25m ‘5 / 3 2000 &_ 15m 3 to 10W 5 SW 0 0 do 45 to as so as do 45 to as so as Tempamtumi‘ci Tempamtumi‘CD AP22913 8 o! 16 Document number 0341203 Rev 572
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AP22913
Typical Performance Characteristics (CIN = 1µF, COUT = 0.1µF, RL = 10Ω, unless otherwise specified.) (continued)
wDESl ”(0.“...‘En AP22913 Typical Performance Characteristics ruled) output Rlse 'nme vs. Input voltage output Fall Time vs. Input voltage 3000 2500 2000 E i v,l500 'i j .9 low 500 0 1,5 20 25 3,0 15 40 45 5.0 VmM VtuW) Output Tum-on 11m: vs. Input voltage Oulpul Turn-elf Time vs. Inpul vnltage 25 20 -3000 A 15 g 3 \ 5 3 1o 5 \\ 0 L5 2.0 25 3.0 3.5 40 45 so 15 20 25 30 as 40 45 50 VINM AP22913 90'16 Document number 0541203 Rev 572
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AP22913
Typical Performance Characteristics (CIN = 1µF, COUT = 0.1µF, RL = 10Ω, unless otherwise specified.) (continued)
D'ufiDES AP22913 Typical Performance Characteristics Oulpul Turn On Response VIN : SV‘ Cw : WF. Com : 0.1qu RL: 10“ Oulpul Turn Off Response vm = 5V,C|N=1UF,Cou1= o1uF, RL :10!) u u "' . .m____._. .m um .m —'—“—w._‘“’"" ” WV“ ".2, MM 'ibifmwomHWQ-LR H “’ ““3” T'—“—‘“’"L: WV“ ".2, ma 'inv-‘vnmaoJLmEAi. H “‘ “m, QB“... 2132:: 11:2” 1233: 2232 ‘ {9“ mi 1:: 132: 12;?” 132: 2232 ‘4 Oulpul Turn On Response Oulpul Turn Off Response \lm = 3.3V CIN : luF, Com: 01uF. FR: 1011 VIN: 3.3V. Cm =1pF,Com : O.1uF,&=1Dfl u - .m——.—— .m Mm mm 4%’ Wham.) i “ ’ “W 4%’ i “ ‘ “W QB“... 3111:: $2: 315:” :m: 2232 I [ {9“ mi 337:: 731: 3223” 731: 2232 In [ Oulpul Turn On Response Oulpul Turn Off Response \lm =1.5V‘C|N : luF, Com: 01uF. FR: 1011 VIN: 1.5V. Cm =1pF,Com : O.1uF,&=1Dfl u u m»...— m» Iva-n 'vmn ‘ 3 mm w. my . , mm H . , «W i 3 mm w. my . , ‘ [ . \ my 833"; $2212: 1122}: {£22 11221: 2232 AP22913 Document number 0341203 Rev 572 m m, h.” MmHuammamimfmhi 10 0'16
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AP22913
Typical Performance Characteristics (TA = +25°C, VON = 1.8V, unless otherwise specified.) (continued)
Output Turn On Response
VIN = 5V, CIN = 1μF, COUT = 0.1μF, RL = 10Ω
Output Turn Off Response
VIN = 5V, CIN = 1μF, COUT = 0.1μF, RL = 10Ω
Output Turn On Response
VIN = 3.3V, CIN = 1μF, COUT = 0.1μF, RL = 10Ω
Output Turn Off Response
VIN = 3.3V, CIN = 1μF, COUT = 0.1μF, RL = 10Ω
Output Turn On Response
VIN = 1.5V, CIN = 1μF, COUT = 0.1μF, RL = 10Ω
Output Turn Off Response
VIN = 1.5V, CIN = 1μF, COUT = 0.1μF, RL = 10Ω
[HODES AP22913 Typical Performance Characteristics Oulpul Turn On Response Vw : 5V, Cw = IOuF. Com :1uF, RL : 101] Oulpul Turn Off Response VIN: 5V,CIN=10pF,CouT=1pF‘RL=1DQ W i a W i . Ivmm .m um mm w:~‘"'Te~” “:5 m its-"3mm :m‘ H ' ' —'+"—~\ Ham. H ' \ Oulpul Turn On Response Oulpul Turn Off Response VIN: 3 3V, Cw =1DpF.Cour:IuF,RL :10!) VW = 3.3V,Cm=10pECom=1uERL=1Dfl u u .m..___ .m m.“ mm ‘ QB“... 3131:: $2": 32': I” $3": 2232 I ‘ I?“ um; $1” KC: 1715: 9:32“ 1715: 2232 I“: Oulpul Turn On Response Oulpul Turn Off Response V|N=15V,C\N=1DpF.Cour:IuF,RL=IOD ViN=1.5\/,Cm=10pF‘Cou-r=1pF,RL=1Dfl u - "mm NM NM mm WW . “W . mm. mm ‘ .1 «an ‘ . SW at “W . MW Human ‘ -\ “W 8:33.; Hill: Hill: 1112: 1‘51}: 2:32 AP22913 Document number 0341203 Rev 572 11 0'16
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Typical Performance Characteristics (TA = +25°C, VON = 1.8V, unless otherwise specified.) (continued)
Output Turn On Response
VIN = 5V, CIN = 10μF, COUT = 1μF, RL = 10Ω
Output Turn Off Response
VIN = 5V, CIN = 10μF, COUT = 1μF, RL = 10Ω
Output Turn On Response
VIN = 3.3V, CIN = 10μF, COUT = F, RL = 10Ω
Output Turn Off Response
VIN = 3.3V, CIN = 10μF, COUT = F, RL = 10Ω
Output Turn On Response
VIN = 1.5V, CIN = 10μF, COUT = F, RL = 10Ω
Output Turn Off Response
VIN = 1.5V, CIN = 10μF, COUT = F, RL = 10Ω
WES» AP22913 Typical Performance Characteristics True Reverse Current Blocking Vw = 3V, Vow ramp (ram 3V to 3.3V /,.._ ‘ a W . n W. Wm". ‘ W m." . ,.,, mm n.~w.namiiih";3£.i[ '“ ”W AP22913 12 OHS Document number DSMZDS Rev 5 , 2
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AP22913
Typical Performance Characteristics (TA = +25°C, CIN = 1µF, COUT = 0.1µF, unless otherwise specified.) (continued)
True Reverse Current Blocking
VIN = 3V, VOUT ramp from 3V to 3.3V
m5» mm Application Information (125°C 7 TA) JA AP22913 13 OHS Document number DSMZDS Rev 5 , 2
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AP22913
Application Information
Input Capacitor
A F capacitor is recommended to connect between the VIN and GND pins to decouple input power supply glitch and noise. The input capacitor
has no specific type or ESR (Equivalent Series Resistance) requirement. However, for higher current applications, ceramic capacitors are
recommended due to their capability to withstand input current surges from low impedance sources, such as batteries in portable applications.
This input capacitor must be located as close as possible to the device to assure input stability and less noise. For PCB layout, a wide copper
trace is required for both VIN and GND.
Output Capacitor
The 0.1μF to 1μF capacitor is recommended to connect between the VOUT and GND pins to stabilize and accommodate load transient condition.
The output capacitor has no specific type or ESR requirement. The amount of the capacitance may be increased without limit. For PCB layout, the
output capacitor must be placed as close as possible to VOUT and GND pins, and keep the traces as short as possible.
Enable/Shutdown Operation
The AP22913 is turned on by setting the ON pin high, and is turned off by pulling it low. To ensure proper operation, the signal source used to
drive the ON pin must be able to swing above and below the specified turn-on/off voltage thresholds listed in the Electrical Characteristics section
under VIL and VIH.
True Reverse Current Blocking
An internal reverse voltage comparator disables the power-switch when the output voltage (VOUT) is driven higher than the input voltage (VIN), by
VT_RCB , to quickly (10μs typ) stop the flow of current towards the input side of the switch.
Reverse current protection is always active, even when the power switch is disabled. Additionally, under-voltage lockout (UVLO) protection turns
the switch off if the input voltage is too low.
Discharge Operation
The AP22913 offers discharge option that helps to discharge the output charge when disabled.
Power Dissipation
The maximum IC junction temperature should be restricted to +125°C under normal operating conditions. The device power dissipation and
proper sizing of the thermal plane is critical to avoid thermal shutdown and ensure reliable operation. Power dissipation of the device depends on
input voltage and load conditions and can be calculated by:
DSON
2
OUTD
xRIP =
(1)
However, the maximum power dissipation that can be handled by the device depends on the maximum junction to ambient thermal resistance,
maximum ambient temperature, and maximum device junction temperature, which can be approximated by the equation below:
JA
A
)MAX(D
)TC125(
Pθ
°
=
(2)
Layout Guildline
Good PCB layout is important for improving the thermal performance of the device. All trace lengths should be kept as short as possible. The input
(VIN) and output (VOUT) PCB traces should be as wide as possible to reduce stray impedance.
Use a ground plane to enhance the power dissipation capability of the device if applicable. Place input and output capacitors close to the device to
minimize the effects of parasitic inductance.
m5» Im(unan|YEn AP22913 Ordering Information 3 xxx 1; —i 7" Tape and Reel Quantity Pan Number Suffix Marking Information Y . Y E AP22913 ‘4 0'16 Dacumeni number 0541203 Rev 572
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Ordering Information
AP22913 xxx -x-36
Packing
Package
CN4 : X1-WLB0909-4
W6 : SOT26
-7 : Tape & Reel
Part Number Package Code Packaging
7” Tape and Reel
Quantity
Part Number Suffix
AP22913CN4-7-36
CN4
X1-WLB0909-4
3,000/Tape & Reel
-7
Marking Information
(1) X1-WLB0909-4
Y : Year : 0~9
X : Identification Code
W : Week : A~Z : 1~26 week;
a~z : 27~52 week; z represents
52 and 53 week
X
Y W
(Top View)
Part Number
Package
Identification Code
AP22913CN4-7-36 X1-WLB0909-4
C
unzunnuunrsn)t AP22913 Package Outline Dimensions . Q i Q i A 0,410 0,500 0.455 L7,,707,7W A1 0160 0,200 0.100 ‘ A2 0225 0,275 0.250 ‘ i ‘ b 0,215 0,255 0.235 i i i D 0840 0,900 0.870 I. . D1 0450 0,550 0.500 i E 0840 0,900 0.870 E1 0450 0,550 0.500 a 0.500 BSC 30 0.250 BSC l i SE 0.250 BSC A2 i i % ‘ Suggested Pad Layout x1.WLausos.4 ‘ '1 Value (in mm) f \ c 0.500 A i 0 0.235 x 0.250 L,i,i4‘iri,i v 0.250 AP22913 ‘5 0'15 Dacumeni number 0541203 Rev 5 , 2
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Package Outline Dimensions
Please see http://www.diodes.com/package-outlines.html for the latest version.
X1-WLB0909-4
Suggested Pad Layout
Please see http://www.diodes.com/package-outlines.html for the latest version.
X1-WLB0909-4
Dimensions
Value
(in mm)
C
0.500
D
0.235
X
0.250
Y
0.250
Øb ( 4x)
E1
D1
SD
SE
e
A1 CORNER
BY MARKING
E
D
A
A2
A1
SEATING PLANE
ØD ( 4x)
C
Y
C
X
X1-WLB0909-4
Dim
Min
Max
Typ
A
0.410
0.500
0.455
A1
0.160
0.200
0.180
A2
0.225
0.275
0.250
b
0.215
0.255
0.235
D
0.840
0.900
0.870
D1
0.450
0.550
0.500
E
0.840
0.900
0.870
E1
0.450
0.550
0.500
e
0.500 BSC
SD
0.250 BSC
SE
0.250 BSC
All Dimensions in mm
m5» mm ‘22? a'esc prod pro 18! 5. Diodes producls are pmwded sumac: m Diodes‘ Slanda (hups //www.duodesLom/about/compan (Ierms-and-condifions/Ierms-and-conmtions-of—sales/ AP22913 ‘6 OHS Document number 0541203 Rev 5 , 2
AP22913
Document number: DS41203 Rev. 5 - 2
16 of 16
www.diodes.com
February 2021
© Diodes Incorporated
AP22913
IMPORTANT NOTICE
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WITH REGARDS TO ANY INFORMATION CONTAINED IN THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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INTELLECTUAL PROPERTY RIGHTS (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).
2. The Information contained herein is for informational purpose only and is provided only to illustrate the operation of Diodes products
described herein and application examples. Diodes does not assume any liability arising out of the application or use of this document or any
product described herein. This document is intended for skilled and technically trained engineering customers and users who design with Diodes
products. Diodes products may be used to facilitate safety-related applications; however, in all instances customers and users are responsible for
(a) selecting the appropriate Diodes products for their applications, (b) evaluating the suitability of the Diodes products for their intended
applications, (c) ensuring their applications, which incorporate Diodes products, comply the applicable legal and regulatory requirements as well
as safety and functional-safety related standards, and (d) ensuring they design with appropriate safeguards (including testing, validation, quality
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Copyright © 2021 Diodes Incorporated
www.diodes.com

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