AOZ1336DI - Alpha & Omega Semiconductor

AOZ1336DI
Single Channel Smart Load Switch
General Description
Features
The AOZ1336DI is a single channel load switch with
typical 27mΩ on-resistance in a small package. It
contains an n-channel MOSFET for up to 5.5V input
voltage operation and 4A current channel with 2.5V to 5V
bias supply. The load switch is independently controlled
by a low voltage control signal through ON pin.

0.8V to 5.5V input voltage range

4A continuous current

Low RDS(ON) internal NFETs

50µA low quiescent current
The AOZ1336DI integrates an internal 220Ω load
resistor for quick output discharge when load switch is
off. The optional external capacitor connected CT for
output slew rate control.

Adjustable rise time

2.5V to 5V bias voltage

Integrated quick output discharge resistor

Thermally enhanced 2mm x 2mm DFN-8L package
The AOZ1336DI is available in a 2mm x 2mm DFN-8L
package with bottom thermal pad and is rated over a
-40°C to +85°C ambient temperature range.
– 27mΩ at VBIAS = 2.5V to 5V & VBIAS > VIN
Applications

Portable computers

Ultrabooks

Tablet PC

Set top boxes

LCD TVs

Telecom/Networking/Datacom
equipment

SSD

Consumer electronics
Typical Application
VIN
IN
VOUT
OUT
CIN
CL
IN
OUT
AOZ1336DI
ON
ON
CT
OFF
CT
VBIAS
GND
VBIAS
CBIAS
Rev. 1.0 January 2014
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Page 1 of 14
AOZ1336DI
Ordering Information
Part Number
Temperature Range
Package
Environmental
AOZ1336DI
-40°C to +85°C
2mm x 2mm DFN-8L
Green
All AOS products are offered in packages with Pb-free plating and compliant to RoHS standards.
Please visit www.aosmd.com/media/AOSGreenPolicy.pdf for additional information.
Pin Configuration
IN
1
8
OUT
IN
2
7
OUT
ON
3
6
CT
VBIAS
4
5
GND
EPAD
2mm x 2mm DFN-8
(Top View)
Pin Description
Pin Number
Pin Name
Pin Function
1, 2
IN
Load Switch Input. Bypass IN and GND with ceramic capacitor.
3
ON
Enable Input. Load switch is on when ON is pulled high. Load switch is off when ON is
pulled low.
4
VBIAS
5
GND
6
CT
7, 8
OUT
EPAD
Exposed Pad
Rev. 1.0 January 2014
Supply input for the device.
Ground.
Load switch slew rate control.
Load switch output.
The exposed bottom pad must be connected to GND.
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Page 2 of 14
AOZ1336DI
Functional Block Diagram
IN
OUT
IN
OUT
Typical Performance
Characteristics
Charge
Pump
ON
Control
Logic
Timing Diagram
CT
VBIAS
Rev. 1.0 January 2014
GND
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Page 3 of 14
AOZ1336DI
Absolute Maximum Ratings
Recommend Operating Ratings
Exceeding the Absolute Maximum ratings may damage the
device.
The device is not guaranteed to operate beyond the Maximum
Operating Ratings.
Parameter
Rating
IN, ON, VBIAS, OUT to GND
Parameter
-0.3V to 6V
Junction Temperature (TJ)
+150°C
Storage Temperature (TS)
-65°C to +150°C
ESD Rating HBM/CDM
2kV/1kV
Rating
Supply Voltage (VIN)
5.5V
Ambient Temperature (TA)
-40°C to +85°C
Package Thermal Resistance
2x2 DFN-8 (JC)
2x2 DFN-8 (JA)
12°C/W
90°C/W
Electrical Characteristics
TA = 25°C, VBIAS = 5V, unless otherwise specified. Specifications in BOLD indicate a temperature range of -40°C to +85°C.
Symbol
VIN
VBIAS
Iq
IOFF
ID
IPLS
IINOFF
Parameter
Conditions
Typ.
Max.
Units
IN Supply Voltage
0.8
VBIAS
V
VBIAS Supply Voltage
2.5
5.5
V
Quiescent Supply Current of VBIAS
IOUT = 0V, VON = 0V,
VIN = VON = 5V
50
75
µA
VBIAS Shutdown Supply Current
VON = 0V, VOUT = 0V
1
2
µA
Maximum Continuous Current
VIN = VON = 5V
4
A
Maximum Pulsed Switch Current
VIN = VON = 5V
Pulse < 300µs, 2% Duty Cycle
6
A
VON = 0V, VOUT = 0V, VIN = 5V
2.1
8
VON = 0V, VOUT = 0V, VIN = 3.3V
0.3
3
VON = 0V, VOUT = 0V, VIN = 1.8V
0.07
2
VON = 0V, VOUT = 0V, VIN = 0.8V
0.04
1
IN Shutdown Supply Current
ON Leakage Current
VON = 5V
VONH
ON High Level Voltage
VIN = 0.8V to 5V
VONL
ON Low Level Voltage
VIN = 0.8V to 5V
ION
Min.
1
1.2
µA
µA
V
0.5
V
Switching ON Resistance
RON
Switch ON-State Resistance
IOUT = -200mA, VIN = 0.8V to 5V
27
33
mΩ
RPD
Output Pull-Down Resistance
IOUT = 15mA, VIN = 5V, VON = 0V
220
300
Ω
Note:
Greater on-resistance if VIN > VBIAS.
Rev. 1.0 January 2014
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Page 4 of 14
AOZ1336DI
Switching Characteristics
VON
50%
50% t
OFF
tON
90%
VOUT
90%
tD-ON
50%
50%
10%
1%
tR
10%
tF
Test conditions: TA = 25°C, CIN = 1µF, CT = 1nF, CL = 0.1µF, RL = 10Ω (unless otherwise specified).
Symbol
Parameter
Min.
Typ.
Max.
Units
VIN = 5V, VBIAS = VON = 5V
tON
Turn-ON Time
1420
tD-ON
Turn-ON Delay time
450
tR
Turn-ON Rise Time
1740
tOFF
tF
Turn-OFF Time
7.7
Turn-OFF Fall Time
2.5
µs
VIN = 0.8V, VBIAS = VON = 5V
Turn-ON Time
620
tD-ON
Turn-ON Delay time
450
tR
Turn-ON Rise Time
280
tON
tOFF
tF
Turn-OFF Time
89
Turn-OFF Fall Time
10
µs
VIN = 2.5V, VBIAS = VON = 2.5V
tON
Turn-ON Time
2100
tD-ON
Turn-ON Delay time
780
tR
Turn-ON Rise Time
2200
tOFF
tF
Turn-OFF Time
µs
8
Turn-OFF Fall Time
2.5
VIN = 0.8V, VBIAS = VON = 2.5V
Turn-ON Time
1250
tD-ON
Turn-ON Delay time
730
tR
Turn-ON Rise Time
750
tON
tOFF
tF
Turn-OFF Time
76
Turn-OFF Fall Time
10
Rev. 1.0 January 2014
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µs
Page 5 of 14
AOZ1336DI
Typical Characteristics
Quiescent Current vs. VBIAS
RPD vs. VIN
(VIN=VBIAS, VON=5V)
70
60
-40ºC
228
25ºC
70ºC
85ºC
227
226
RPD (Ω)
50
IBIAS (μA)
(VBIAS=5.5V)
229
40
225
224
-40ºC
223
30
25ºC
70ºC
85ºC
222
20
221
220
10
2.5
2.8
3.0
3.3
3.5
3.8 4.0 4.3
VBIAS (V)
4.5
4.8
5.0
0.8
5.3 5.5
1.3
1.8
RDSON vs. VIN
3.3
3.8
VIN (V)
4.3
4.8
5.3
5.8
(TA=25ºC, VOUT=2V)
2.5
40
2.0
35
VOUT (V)
RSDON (mΩ)
2.8
VOUT vs. VON
(VBIAS=2.5V, IOUT=-200mA)
45
2.3
30
1.5
1.0
25
VBIAS = 2.5V
-40ºC
20
0.5
25ºC
70ºC
85ºC
VBIAS = 3.3V
VBIAS = 5.0V
VBIAS = 5.5V
0
15
0.8
1.1
1.4
1.7
VIN (V)
2.0
2.3
2.6
0.5
0.7
0.9
VON (V)
1.1
1.3
RDSON vs. VIN
(VBIAS=5.5V, IOUT=-200mA)
40
RDSON (mΩ)
35
30
25
20
-40ºC
25ºC
70ºC
85ºC
15
10
0.8
1.1
Rev. 1.0 January 2014
1.4
1.7
VIN (V)
2.0
2.3
2.6
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Page 6 of 14
AOZ1336DI
Typical Characteristics (Continued)
tON vs. VIN
tD-ON vs. VIN
(VBIAS=2.5V)
2500
(VBIAS=5.5V)
500
450
400
2000
1500
tD-ON (μs)
tON (μs)
350
1000
300
250
200
150
-40ºC
500
-40ºC
100
25ºC
70ºC
85ºC
25ºC
70ºC
85ºC
50
0
0
0.8
1.0
1.2
1.4
1.6
1.8
VIN (V)
2.0
2.2
2.4
0.8
2.6
1.2
1.6
2.0
2.4
tON vs. VIN
3.2 3.6
VIN (V)
4.0
4.4
4.8
5.2 5.6
tR vs. VIN
(VBIAS=5.5V)
1600
2.8
(VBIAS=2.5V)
2500
1400
2000
1200
tR (μs)
tON (μs)
1000
800
1500
1000
600
400
-40ºC
200
25ºC
70ºC
85ºC
-40ºC
500
25ºC
70ºC
85ºC
0
0
0.8
1.2
1.6
2.0
2.4
1200
2.8 3.2 3.6
VIN (V)
4.0
4.4
4.8
0.8
5.2 5.6
1.0
1.2
1.4
1.6
1.8
VIN (V)
tD-ON vs. VIN
tR vs. VIN)
(VBIAS=2.5V)
(VBIAS=5.5V)
2000
2.0
2.2
2.4
2.6
1800
1000
1600
1400
tR (μs)
tD-ON (μs)
800
600
1200
1000
800
400
600
-40ºC
200
-40ºC
25ºC
70ºC
85ºC
400
25ºC
70ºC
85ºC
200
0
0
0.8
1.0
1.2
Rev. 1.0 January 2014
1.4
1.6
1.8
VIN (V)
2.0
2.2
2.4
2.6
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0.8
1.2
1.6
2.0
2.4
2.8 3.2 3.6
VIN (V)
4.0
4.4
4.8
5.2 5.6
Page 7 of 14
AOZ1336DI
Typical Characteristics (Continued)
tOFF vs. VIN
tOFF vs. VIN
(VBIAS=2.5V)
90
80
70
-40ºC
90
-40ºC
25ºC
70ºC
85ºC
80
25ºC
70ºC
80ºC
70
tOFF (μs)
60
tOFF (μs)
(VBIAS=5.5V)
100
50
40
30
60
50
40
30
20
20
10
10
0
0
0.8
1.0
1.2
1.4
1.6
1.8
VIN (V)
2.0
2.2
2.4
0.8
2.6
1.2
1.6
2.0
2.4
tF vs. VIN
4.4
4.8
5.2 5.6
(VBIAS=5.5V)
14
-40ºC
-40ºC
12
12
25ºC
70ºC
85ºC
10
25ºC
70ºC
85ºC
10
8
tF (μs)
tF (μs)
4.0
tF vs. VIN
(VBIAS=2.5V)
14
2.8 3.2 3.6
VIN (V)
6
8
6
4
4
2
2
0
0
0.8
1.0
1.2
Rev. 1.0 January 2014
1.4
1.6
1.8
VIN (V)
2.0
2.2
2.4
2.6
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0.8
1.2
1.6
2.0
2.4
2.8 3.2 3.6
VIN (V)
4.0
4.4
4.8
5.2 5.6
Page 8 of 14
AOZ1336DI
Functional Characteristics
Turn-ON & Turn-ON Rise Times
Turn-ON & Turn-ON Rise Times
(VIN=0.8V, VBIAS=5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
(VIN=5V, VBIAS=5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
VON
(5V/div)
VON
(5V/div)
VOUT
(200mV/div)
VOUT
(2V/div)
Turn-ON & Turn-ON Rise Times
Turn-ON & Turn-ON Rise Times
(VIN=0.8V, VBIAS=2.5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
(VIN=2.5V, VBIAS=2.5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
VON
(5V/div)
VON
(5V/div)
VOUT
(200mV/div)
VOUT
(1V/div)
Turn-OFF & Turn-OFF Fall Times
Turn-OFF & Turn-OFF Fall Times
(VIN=0.8V, VBIAS=5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
(VIN=5V, VBIAS=5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
Rev. 1.0 January 2014
VON
(5V/div)
VON
(5V/div)
VOUT
(1V/div)
VOUT
(200mV/div)
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Page 9 of 14
AOZ1336DI
Functional Characteristics (Continued)
Turn-OFF Fall Times
Turn-OFF Fall Times
(VIN=0.8V, VBIAS=2.5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
(VIN=2.5V, VBIAS=2.5V, CIN=1μF, CT=1nF, CL=0.1μF, RL=10Ω)
VON
(5V/div)
VON
(5V/div)
VOUT
(1V/div)
VOUT
(200mV/div)
Turn-ON & Turn-OFF @ IOUT = 4A
Turn-ON & Turn-OFF @ IOUT = 4A
(VIN=2.5V, VBIAS=5V, CIN=4.7μF, CL=4.7μF)
(VIN=5V, VBIAS=5V, CIN=4.7μF, CL=4.7μF)
Rev. 1.0 January 2014
VON
(5V/div)
VON
(5V/div)
VOUT
(2V/div)
VOUT
(1V/div)
IOUT
(2A/div)
IOUT
(2A/div)
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Page 10 of 14
AOZ1336DI
Detailed Description
Applications Information
ON/OFF Control
The basic AOZ1336DI application circuit is shown in the
first page. Component selection is explained below.
The AOZ1336DI is enabled when the ON pin is on active
high with 1.2V or above voltage. The device is disabled
when the ON pin voltage is 0.5V or lower. The EN input is
compatible with both TTL and CMOS logic.
VBIAS Voltage Range
For optimal on-resistance of load switch, make sure VIN ≤
VBIAS and VBIAS is within the voltage range from 2.5V to
5.5V. On-resistance of load switch will be higher if VIN >
VBIAS. Resistance curves of a typical sample device at
different VBIAS and different VIN are shown as below.
60
VBIAS = 2.5V
RDSON (mΩ)
55
VBIAS = 3.3V
VBIAS = 3.6V
VBIAS = 4.2V
VBIAS = 5.0V
VBIAS = 5.5V
50
40
35
30
25
1.0
1.5
2.0
Output Capacitor Selection
A capacitor of 0.1μF or higher value is recommended to
be place between the OUT pins and GND. The switching
times are affected by the capacitance. A larger capacitor
makes the initial turn-on transient smoother. This capacitor must be large enough to supply a fast transient load in
order to prevent the output from dropping.
Thermal Considerations
To ensure proper operation, the maximum junction temperature of the AOZ1336DI should not exceed 150°C.
Several factors attribute to the junction temperate rise:
load current, MOSFET on-resistance, junction-to-ambient thermal resistance, and ambient temperature. The
maximum load current can be determined by:
45
0.5
Input Capacitor Selection
A capacitor of 1μF or higher value is recommended to be
place close to the IN pins of AOZ1336DI. This capacitor
can reduce the voltage drop caused by the in-rush
current during the turn-on transient of the load switch. A
higher value capacitor can be used to further reduce the
voltage drop during high-current application.
2.5
3.0
3.5
4.0
4.5
5.0
5.5
VIN (V)
I LOAD  MAX  =
Adjustable Rise Time
The slew rate of VOUT can be adjusted by external
capacitors connected to the corresponding CT and GND
pins. Multiply the input voltage and the slew rate to obtain
the rise time. The table below shows rise times, which
are measured on a typical device at VBIAS = 5V.
CT
(pF)
Rise Time (µs) 10%~90%, CL=0.1µF, CIN1µF, RL=10Ω (Typical
values at 25°C, 25V X7R 10% Ceramic Cap)
VIN=5V
3.3V
1.8V
1.5V
1.2V
1.05V
0.8V
0
58
42
33
29
26
24
22
220
372
226
130
104
91
81
66
470
740
486
255
198
169
148
115
1000
1607
1021
570
452
366
322
252
2200
3532
2447
1351
1139
904
785
664
4700
7275
4708
2802
2277
1920
1663
1286
10000
16640
10700
6372
5176
4425
3868
3098
Rev. 1.0 January 2014
T J  MAX  – T C
---------------------------------- JC  R DSON
It is noted that the maximum continuous load current is
4A.
Layout Guidelines
Good PCB is important for improving the thermal performance of AOZ1336DI. Place the input and output bypass
capacitors close to the IN and OUT pins. The input and
output PCB traces should be as wide as possible for the
given PCB space. Use a ground plane to enhance the
power dissipation capability of the device.
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Page 11 of 14
AOZ1336DI
Package Dimensions, DFN2x2_8L, EP1_S
b
D
e
R
Pin#1 Identification
Option 1
E1
E
L
D1
TOP VIEW
A
c
BOTTOM VIEW
A1
Seating
Plane
SIDE VIEW
Dimensions in millimeters
RECOMMENDED LAND PATTERN
0.50
0.25
0.25
0.85
0.90
1.70
0.30
Symbols
A
A1
Min.
0.70
0.00
Nom.
0.75
0.02
b
c
D
0.18
0.25
D1
E
E1
e
L
1.50
UNIT: mm
1.90
1.10
1.90
0.50
Max.
0.80
0.05
0.30
0.20 REF
2.00
2.10
1.50
1.60
2.00
2.10
0.90
1.00
0.50 BSC
0.20
0.30
0.40
Dimensions in inches
Symbols
A
A1
Min.
0.028
0.000
Nom.
0.030
0.001
b
c
D
0.007
0.010
0.075
0.043
D1
E
E1
e
0.075
0.020
L
0.008
Max.
0.031
0.002
0.012
0.008 REF
0.079 0.083
0.059 0.063
0.079 0.083
0.035 0.039
0.020 BSC
0.012
R
aaa
0.20
0.15
R
aaa
0.008
0.006
bbb
ccc
0.10
0.10
bbb
ccc
0.004
0.004
ddd
0.08
ddd
0.003
0.016
Notes:
1. Dimensions and tolerances conform to ASME Y14.5M-1994.
2. Controlling dimension is millimeter, converted inch dimensions are not necessarily exact.
3. Dimension b applied to metallized terminal and is measured between 0.10mm and 0.30mm from the terminal tip. If the terminal
has the optional radius on the other end of the terminal, dimension b should not be measured in that radius area.
4. Coplanarity ddd applies to the terminals and all other bottom surface metallization.
Rev. 1.0 January 2014
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Page 12 of 14
AOZ1336DI
Tape and Reel Dimensions, DFN2x2_8L, EP1_S
Carrier Tape
T
P1
D1
P2
E1
E2
E
B0
P0
D0
A0
K0
Feeding Direction
UNIT: mm
Package
DFN 2x2
A0
B0
K0
2.30 2.30
±0.20 ±0.20
1.00
±0.20
D0
D1
E
1.00
1.50
MIN. +0.10/-0.0
E1
8.00
1.75
+0.30/-0.10 ±0.10
Reel
E2
P0
P1
P2
T
3.50
±0.05
4.00
±0.20
4.00
±0.20
2.00
±0.05
0.30
±0.05
W1
S
G
K
N
M
V
R
H
W
UNIT: mm
Tape Size Reel Size
M
W1
H
K
S
G
N
W
8mm
ø178
ø178.00 ø70.50 9.00 11.80 ø13.00 10.25 2.40 ø9.80
±1.00
±1.00 ±0.50 ±1.10 +0.5/-0.2 ±0.20 ±0.10
R
N/A
V
N/A
Leader / Trailer
& Orientation
Unit Per Reel:
3000pcs
Trailer Tape
300mm Min. OR
75 Empty Pockets
Rev. 1.0 January 2014
Components Tape
Orientation in Pocket
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Leader Tape
500mm Min. OR
125 Empty Pockets
Page 13 of 14
AOZ1336DI
Package Marking
AOZ1336DI
(DFN2x2-8)
B C XX
Part Number Code
Y W LT
Week & Year Code
Assembly Location Code
Option Code
Assembly Lot Code
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completeness of the information provided herein and takes no liabilities for the consequences of use of such
information or any product described herein. Alpha and Omega Semiconductor reserves the right to make changes
to such information at any time without further notice. This document does not constitute the grant of any intellectual
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COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS.
As used herein:
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the body or (b) support or sustain life, and (c) whose
failure to perform when properly used in accordance
with instructions for use provided in the labeling, can be
reasonably expected to result in a significant injury of
the user.
Rev. 1.0 January 2014
2. A critical component in any component of a life
support, device, or system whose failure to perform can
be reasonably expected to cause the failure of the life
support device or system, or to affect its safety or
effectiveness.
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