AOZ1300AI.pdf

Samsung PS42B430PZW - Zasilacz BN44-00273B, zamiennik AOZ1300AI

Uszkodzony AOZ1300AI (Power distribution switch) SO-8L w zasilaczu BN44-00273B, czy istnieje jakiś zamiennik? Brak STBY 5 volt.AOZ1300AI zwarte do masy. Proszę o odpowiedź.

AOZ1300
Programmable 4A Power Distribution Switch

General Description

Features

The AOZ1300 is a current-limited power distribution
switch intended for applications that require circuit
protection. The device operates from a 2.7V to 6.0V
input supply and provides up to 4A load current.
AOZ1300 offers robust fault protection features including
over-current/short-circuit protection and thermal overload
protection. The current limit is programmable with an
external resistor. An open-drain fault indicator is provided
to alert a system controller of thermal overload, overcurrent, and short-circuit events. A 24ms fault blanking
time eliminates false alarms.

●

The AOZ1300 employs internal soft-start circuitry to
control inrush current due to highly capacitive loads
associated with hot-plug events. An adjustable slew rate
control pin provides additional slew rate control if needed.

●
●
●
●
●
●
●
●
●

Open-drain fault indicator
1µA shutdown current

Applications
●
●

The AOZ1300 is available in SO-8 package.

40mΩ maximum on-resistance
4A maximum continuous current
2.7V to 6.0V operating voltage
Resistor programmable current limit
Reverse current blocking
Thermal overload protection
Very fast short-circuit response time
Fault latch with 24ms blanking time

●
●
●
●

Docking stations
Notebook PCs
RAID systems
Telecom and Server hot-plug
USB Power Distribution
Compact PCI adapter Cards

Typical Application
VOUT

VIN
OUT

IN
C1
1µF

C2
4.7µF

R1
100kΩ

TO USB
PORT

AOZ1300
FLT

FAULT
OFF ON

GND

EN
SLEW
C3
10nF

ISET
R2
10kΩ

Figure 1. High Current USB Host

Rev. 1.3 August 2008

www.aosmd.com

Page 1 of 12

AOZ1300
Ordering Information
Part Number

Temperature Range

Package

Environmental

AOZ1300AI

-40°C to +85°C

SO-8

RoHS Compliant

AOZ1300AIL

-40°C to +85°C

SO-8

Green Product

• All AOS products are offered in packages with Pb-free plating and compliant to RoHS standards.
• Parts marked as Green Products (with “L” suffix) use reduced levels of Halogens, and are also RoHS compliant.
Please visit www.aosmd.com/web/quality/rohs_compliant.jsp for additional information.

Pin Configuration
IN

1

8

OUT

SLEW

2

7

IC

GND

3

6

FLT

ISET

4

5

EN

SO-8
(Top View)

Pin Description
Pin Number

Pin Name

Pin Function

1

IN

Switch Power Input. IN also supplies power to internal circuitry.

2

SLEW

Slew Rate Control Pin. Leaving this pin open results in a minimum output slew rate.
Connect a capacitor from SLEW to GND to increase output slew rate.

3

GND

Ground.

4

ISET

Current-Limit Setting Pin. Connect a resistor from ISET to GND to set the currentlimit.

5

EN

Enable Input. Pull EN high to enable the device. The part enters into low-power
shutdown when EN is pulled low.

6

FLT

Fault Indicator. FLT is an open-drain output. FLT is asserted low during over-current
or thermal overload events. FLT is asserted after the fault blanking period.

7

IC

Internally Connected Pin. No external connection is allowed to this pin. Leave this
pin floating.

8

OUT

Switch Output Pin.

Rev. 1.3 August 2008

www.aosmd.com

Page 2 of 12

AOZ1300
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
IN, OUT, EN, FLT, ISET, SLEW to GND

Parameter

Rating

Rating

6.5V

Input Supply Voltage (VIN)

+2.7V to +6.0V

OUT Maximum Continuous Current

5A

Ambient Temperature

-40°C to +85°C

Junction Temperature (TJ)

+150°C

SO-8 Thermal Resistance (ΘJA)(1)

87°C/W

Storage Temperature (TS)

-65°C to +150°C

Note:
1.The package ΘJA is measured with the device mounted on 1-in2 FR-4
printed-circuit board with 2-oz. copper in a still air environment with
TA = 25°C. The value may vary depending on user’s specific board
design.

Electrical Characteristics
VIN = 5V, TA = -40°C to +85°C unless otherwise stated. Typical values are at 25°C.

Parameter

Symbol

Conditions

VIN

Supply Voltage

IIN

Supply Current
Undervoltage Lockout Threshold

VIN rising

VUVHYS

Undervoltage Lockout Hysteresis

VEN
VENHYS

Enable Input Voltage

Max.

Units

6.0

V

380
1

Switch on, no load
Switch off, no load

VUV

Min.

Typ.

530
2

mA

2.3

2.68

V

2.7

1.9

300
Enable Input Low Voltage
Enable Input High Voltage

mV
0.8

Enable Input Voltage Hysteresis

400

IEN

Enable Input Current

VIN = 4.5V

RDS(ON)

Switch On Resistance

VIN = 4.5V
VIN = 2.5V

ILIM

Short-circuit Current

RSET =76.8kΩ, TA = +25°C to +85°C

IOFF

Output Leakage Current

VOL

FLT Output Voltage

V

2.0
mV
1

µA

35
48

45
60

mΩ

4.0

4.8

A

Switch Off

1

µA

IOL = 5mA

0.4

V

3.2

FLT Output Leakage Current

1

tFLT

FLT Timeout Period

ILIM to FLT assertion,
TA = +25°C to +85°C

tON

Output Turn-on Delay

RL = 10Ω, CL = 1µF

18

24

µA

30

ms

750

µs

Output Turn-off Delay

RL = 10Ω, CL = 1µF

43

µs

tr

Output Rise-time

RL = 10Ω, CL = 1µF

460

µs

tf

Output Fall-time

RL = 10Ω, CL = 1µF

15

µs

tOFF

Rev. 1.3 August 2008

www.aosmd.com

Page 3 of 12

AOZ1300

Typical Performance Characteristics
Supply Current vs. Temperature
500

Enable Input Threshold (Falling) vs. Temperature
1.60

5.5V

1.40

350

1.30

Ven (V)

1.50

400

Supply Current (µA)

450

300
250

3.6V

200

1.10

2.5V

2.5V

-20

0.90

0

20
40
60
Temperature (°C)

80

0.80
-40

100

Enable Input Threshold (Rising) vs. Temperature
2.00
1.90
1.80
1.70
1.60
1.50
1.40
1.30
1.20
1.10
1.00

-20

0

100

3.6V

2.5V

50
40
30
2.5V, 3.6V, 5.5V
20
10
0

-20

0

20

40

60

80

100

-40

-20

0

Temperature (C)

80

100

65
On Resistance (mΩ)

2.30
UVLO+

2.25
2.20
2.15
2.10

UVLO-

2.05
2.00
-40

20
40
60
Temperature (C)

On Resistenace vs. Temperature

UVLO Threshold vs. Temperature
2.35

UVLO (V)

80

Output Leakage Current vs. Temperature

5.5V

-40

-20

0

20
40
60
Temperature (°C)

80

60
55

2.5V

50
45
3.6V

40
35

5.5V

30
25
20

100

-40

-20

0

20
40
60
Temperature (°C)

80

100

80

100

Turn-On Delay vs. Temperature

Fault Delay vs. Temperature
1.50

26

1.40

Turn-On Delay (µS)

27
Fault Delay (ms)

20
40
60
Temperature (°C)

60
Output Leakage (nA)

Ven (V)

3.6V

1.20

1.00

150
100
-40

5.5V

25
3.6V

24

5.0V
5.5V

23
22
21
20
-40

1.30

2.5V

1.20
1.10

3.6V

1.00
0.90

5.5V

0.80
-20

Rev. 1.3 August 2008

0

20
40
60
Temperature (°C)

80

100

0.70
-40

www.aosmd.com

-20

0

20
40
60
Temperature (°C)

Page 4 of 12

AOZ1300
Turn-On

Turn-Off
EN
5V/div

EN
5V/div

VOUT
2V/div

VOUT
2V/div

I OUT
1A/div

I OUT
1A/div
Time (1ms/div.)

Time (200µs/div.)

Output Slew Rate Control

Short Circuit Response

EN
5V/div

VOUT
5V/div

FLT
5V/div

FLT
5V/div
I OUT
1A/div

VOUT
2V/div
I OUT
1A/div
Time (4ms/div.)

Time (4ms/div.)

Latched Output

UVLO Response

EN
5V/div
VIN
5V/div

FLT
5V/div
VOUT
5V/div

VOUT
5V/div

I OUT
5A/div
Time (4ms/div.)

Rev. 1.3 August 2008

Time (20ms/div.)

www.aosmd.com

Page 5 of 12

AOZ1300

Timing Diagrams
50%

50%

EN
90%
10%

VOUT
t ON

t OFF
Active-High Enable

ILIM

IOUT
FLT

t FLT
Over-current Fault Output Response

Functional Block Diagram
IN

OUT

Switch

Charge Pump

Gate Driver &
Slew Rate
Control

SLEW

Current Limit

ISET

2.3V
UVLO
Comparator

Thermal
Shutdown

EN
FLT
Fault Delay &
Latch

Rev. 1.3 August 2008

www.aosmd.com

Page 6 of 12

AOZ1300

Detailed Description
The AOZ1300 is a high-side, current-limited, N-channel
MOSFET switch optimized for power distribution
applications which require circuit protection. The device
operates from 2.7V to 6.0V input voltage and offers
current limiting and thermal overload protection. The
device can be programmed for load current up to 4A
using a single resistor. An open-drain fault output is
provided to indicate over-current and thermal overload
fault conditions. The AOZ1300’s soft-start circuitry
minimizes the inrush current in applications that employ
highly capacitive loads. The output slew-rate may be
increased with an external capacitor if longer soft-start
time is desired. The AOZ1300 features a circuit breaker
mode that latches the output off upon detecting an overcurrent condition lasting more than 24ms or detecting a
thermal overload condition. The AOZ1300 features
reverse current blocking function. Therefore, the output
voltage can be higher than the input voltage.

output shuts off, it remains off until the fault load is
removed from output and the EN input is toggled or the
input power is recycled. If the fault is still present after EN
has been cycled, the AOZ1300 will again shut off all
power to the load after 24ms.

Enable

The FLT pin is an open drain output that is asserted low
when either an over-current, short-circuit or thermal
overload condition occurs. To prevent false alarm, the
AOZ1300 implements a 24ms fault blanking time for
over-current and short-circuit fault conditions. The FLT
pin becomes high impedance when the fault conditions
are removed. A 100kΩ pull-up resistor must be
connected between FLT to VIN to provide a logic signal.

The EN pin is the ON/OFF control for the output switch.
It is an active-high input. The EN pin is active after VIN is
above the UVLO threshold of 2.3V. Conversely, the
Enable will be de-activated if the VIN falls below the
UVLO of 2.0V. The EN pin must be driven to a logic high
or logic low state to guarantee operation. While disabled,
the AOZ1300 only draws about 1µA supply current. The
EN is a high impedance input with an ESD protection
diode to ground and should not be forced below ground.
This input level is compatible with most microcontroller
outputs and other logic families.

Under-Voltage Lockout (UVLO)
The under-voltage lockout (UVLO) circuit of AOZ1300
monitors the input voltage and prevents the output
MOSFET from turning on until VIN exceeds 2.3V. The
AOZ1300 will trigger a fault condition and shut down
the device when VIN falls below 2.0V.

Over-Current and Short-Circuit Protection
The AOZ1300 is designed to shut off all power to the load
when the output current exceeds the limit for more than
the fault blanking period. In the event of an output short
circuit the current through the switch is limited by an
internal current-limiting amplifier. The current-limit circuit
employs a current- sensing algorithm that uses the
on-state resistance of the high-side MOSFET as a
current-sensing element. If the current-sense voltage is
above the current-limit threshold, the AOZ1300 will turn
off the internal MOSFET. The AOZ1300 has a very fast
short-circuit response time, nominally 25µs. Once the

Rev. 1.3 August 2008

Thermal Overload Protection
The thermal overload protection of AOZ1300 is engaged
to protect the device from damage should the die
temperature exceeds safe margins due to a short circuit,
extreme loading or heating from external sources.
Thermal overload protection sets a fault latch and shuts
off the internal MOSFET and asserts the FLT output if the
junction temperature exceeds +120°C. The AOZ1300 can
be re-enabled by toggling EN pin or cycling the input
supply after the die temperature drops below +110°C.

Fault Indicator

Slew Rate Control
The output voltage rise time is controlled to a minimum of
400µs and is controlled by an internal slew-rate limiting
circuit. The slew-rate can be increased by placing a
capacitor between SLEW and ground. As a result, longer
rise times can be achieved for specific applications. The
slew rate is independent from the load. Please see Slew
Rate Setting section for detailed information.

Applications Information
Input and Output Capacitor Selection
The input capacitor prevents large voltage transients
from appearing at the input, and provides the instantaneous current needed each time the switch turns on
and to limit input voltage droop. Also it is to prevent
high-frequency noise on the power line from passing
through the output of the power side. The choice of the
input capacitor is based on its ripple current and voltage
ratings rather than its capacitor value. The input capacitor
should be a low ESR type and located as close to the
VIN pin as possible. A 0.1µF 6.3V ceramic cap is
recommended. However, higher capacitor values further
reduce the voltage drop at the input.

www.aosmd.com

Page 7 of 12

AOZ1300
The output capacitor acts in a similar way. A small 0.1µF
capacitor prevents high-frequency noise from going into
the system. Also, the output capacitor has to supply
enough current for a large load that it may encounter
during system transients. This bulk capacitor must be
large enough to supply fast transient load in order to
prevent the output from dropping.

Current Limit Setting
The AOZ1300 features internal current-limiting circuitry
with a maximum programmable value of 4.0A. This
current limit remains in effect throughout the input
supply-voltage range. The current limit is program by
using external resistor connected to the ISET pin. The
current-limit adjustment resistor range is from 70kΩ to
600kΩ.

Current Limit vs. Rset @ 5.5V

400

Rset (kΩ)

500

400

Current Limit vs. Rset @ 3.6V

600

500
Rset (kΩ)

600

300

300

200

200

100

100

0
0.5

1.0

1.5

2.0
2.5
3.0
Current Limit (A)

3.5

4.0

0
0.5

1.0

1.5

2.0
2.5
3.0
Current Limit (A)

3.5

4.0

Current Limit vs. Rset @ 2.5V

600

Rset (kΩ)

500
400
300
200
100
0
0.5

1.0

1.5

2.0
2.5
3.0
Current Limit (A)

Slew Rate Setting
Slew rate is set by changing the capacitor value on the
Slew pin of the device. A capacitor connected between
this pin and ground will reduce the output slew-rate. The

3.5

4.0

capacitor requires a 6.3V rating or greater. The capacitive
range is 0.001µF to 0.1µF. Please see graph for Output
Slew Rate Adjustment vs. Capacitance.

Output Slew Rate Adjustment

3.00

5.5V

50.000

3.6V

40.000

2.5V

30.000
20.000

5.5V

2.50
3.6V

2.00
1.50

2.5V

1.00
0.50

10.000
0.000
0

Slew Rate (mS)

3.50

60.000

Output Slew Rate Adjustment

4.00

70.000
Slew Rate (mS)

80.000

0.00
0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.1
Capacitance (µF)

Rev. 1.3 August 2008

www.aosmd.com

0

1

2
3
Capacitance (nF)

4

5

Page 8 of 12

AOZ1300
Power Dissipation Calculation
Calculate the power dissipation for normal load condition
using the following equation:
PD = RON x (IOUT)2
The worst case power dissipation occurs when the load
current hits the current limit due to over-current or short
circuit faults. The power dissipation under these conditions can be calculated using the following equation:
PD = (VIN – VOUT) x ILIMIT

PCB Layout Guidelines
Proximity of passive devices and adequate power and
ground planes are critical for reliable operation of the
circuit. In general, use the top layer for the high current
connections and the bottom or inner layer for the quiet
connections such as GND. The power traces must be
as short and wide as possible, because of large current.
Long metal traces and component leads may cause
unwanted parasitic inductance and capacitance. In order
to achieve the best performance special care has to be
taken for proper grounding. A good practice is always the
use of a separate ground plane or at least a single point
ground structure. It is recommended to use a PCB with at
least two sides. It is very important to place the input and
output capacitor as close as possible to the pin of the
device.

Silk Screen Top

Top Layer

Bottom Layer
Rev. 1.3 August 2008

www.aosmd.com

Page 9 of 12

AOZ1300

Package Dimensions, SO-8L
D

Gauge Plane

Seating Plane

e

0.25

8
L

E

E1

h x 45°
1

C
θ

7° (4x)

A2 A

0.1

b

A1

Dimensions in millimeters
2.20

5.74

1.27

0.80
Unit: mm

Symbols
A
A1
A2
b
c
D
E1
e
E
h
L
θ

Min.
1.35
0.10
1.25
0.31
0.17
4.80
3.80

Nom.
1.65
—
1.50
—
—
4.90
3.90
1.27 BSC
5.80
6.00
0.25
—
0.40
—
0°
—

Max.
1.75
0.25
1.65
0.51
0.25
5.00
4.00
6.20
0.50
1.27
8°

Dimensions in inches
Symbols
A
A1
A2
b
c
D
E1
e
E
h
L
θ

Min.
0.053
0.004
0.049
0.012
0.007
0.189
0.150

Nom. Max.
0.065 0.069
—
0.010
0.059 0.065
—
0.020
—
0.010
0.193 0.197
0.154 0.157
0.050 BSC
0.228 0.236 0.244
0.010
—
0.020
0.016
—
0.050
0°
—
8°

Notes:
1. All dimensions are in millimeters.
2. Dimensions are inclusive of plating
3. Package body sizes exclude mold flash and gate burrs. Mold flash at the non-lead sides should be less than 6 mils.
4. Dimension L is measured in gauge plane.
5. Controlling dimension is millimeter, converted inch dimensions are not necessarily exact.

Rev. 1.3 August 2008

www.aosmd.com

Page 10 of 12

AOZ1300

Tape and Reel Dimensions, SO-8L
SO-8 Carrier Tape

P1
D1

See Note 3

P2

T

See Note 5
E1
E2

E

See Note 3
B0
K0
A0

D0

P0

Feeding Direction

Unit: mm
Package
SO-8
(12mm)

A0
6.40
±0.10

B0
5.20
±0.10

K0
2.10
±0.10

D0
1.60
±0.10

D1
1.50
±0.10

E
12.00
±0.10

SO-8 Reel

E1
1.75
±0.10

E2
5.50
±0.10

P0
8.00
±0.10

P2
2.00
±0.10

P1
4.00
±0.10

T
0.25
±0.10

W1

S
G
N

M

K

V

R
H
W
W
N
Tape Size Reel Size
M
12mm
ø330
ø330.00 ø97.00 13.00
±0.10 ±0.30
±0.50

W1
17.40
±1.00

K
H
10.60
ø13.00
+0.50/-0.20

S
2.00
±0.50

G
—

R
—

V
—

SO-8 Tape
Leader/Trailer
& Orientation

Trailer Tape
300mm min. or
75 empty pockets

Rev. 1.3 August 2008

Components Tape
Orientation in Pocket

www.aosmd.com

Leader Tape
500mm min. or
125 empty pockets

Page 11 of 12

AOZ1300

Package Marking

Z1300AI
Part Number Code
Underscore Denotes Green Product

FAYWLT

Assembly Lot Code

Fab & Assembly Location
Year & Week Code

Rev. 1.3 August 2008

www.aosmd.com

Page 12 of 12