AP7363-15SP-13_技术文档

AP7363

1.5A LOW QUIESCENT CURRENT, FAST TRANSIENT

ULTRA-LOW DROPOUT LINEAR REGULATOR

Description

Pin Assignments

The AP7363 is a 1.5A adjustable output voltage linear regulator with

ultra-low dropout. The device includes pass element, error amplifier,

band-gap, current limit and thermal shutdown circuitry.

(Top View)

ADJ/

NC

OUT OUTOUT

8

7

6

5

The characteristics of low dropout voltage and fast transient response

to step changes in load make it suitable for low voltage

microprocessor applications. The typical quiescent current is

approximately 0.5mA and changes little with load current. The built-in

current-limit and thermal-shutdown functions prevent IC from damage

in fault conditions.

1

2

3

4

This device is available in U-DFN2030-8, SO-8EP, SOT223 and

TO252 packages.

GND IN IN IN

U-DFN2030-8

(Top View)

Features

•

1.5A ultra-low dropout linear regulator

Ultra-low dropout: 190mV at 1.5A

1

2

3

4

8

7

6

5

GND

IN

ADJ/NC

OUT

Stable with 10µF input/output capacitor, any types

Wide input voltage range: 2.2V to 5.5V

Adjustable output voltage: 0.6V to 5.0V

Fixed output options: 1V, 1.2V, 1.5V, 1.8V, 2.5V, 3.3V

Low ground pin current

OUT

IN

OUT

IN

25nA quiescent current in shutdown mode

SO-8EP

V

_ADJaccuracy of ±1.5% @ +25°C

V_ADJaccuracy of ±3% over line, load and temperature

Excellent Load/Line Transient Response

(Top View)

Current limit and thermal shutdown protection

Ambient temperature range: -40°C to +85°C

OUT

3

2

U-DFN2030-8, SO-8EP, SOT223 and TO252: Available in

“Green” Molding Compound (No Br, Sb)

GND (TAB)

IN

•

Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2)

Halogen and Antimony Free. “Green” Device (Note 3)

1

SOT223

(Fixed Output)

Applications

(Top View)

•

ASIC power supplies in printers, graphics cards, DVD players,

STBs, routers, etc

3

2

•

FPGA and DSP core or I/O power supplies

SMPS regulator

GND

Conversion from 3.3V or 5V rail

1

TO252

Notes:

1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant.

2. See http://www.diodes.com 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.

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December 2012

AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Typical Applications Circuit

V_IN

V_OUT

V_IN

V_OUT

IN

OUT

IN

OUT

AP7363

R1

R2

10µF

ADJ

GND

Fixed Output

Adjustable Output

⎛

⎞

⎟

⎠

R₁

R₂

⎜

V_OUT= V_REF1+

whereR₂≤10kΩ

⎜

⎝

Pin Descriptions

Pin Number

Name

Function

SOT223

TO252

U-DFN2030-8

SO-8EP

GND

IN

2

1

3

1

Ground.

2, 3, 4

5, 6, 7

Voltage input pin.

Voltage output pin.

OUT

Output feedback pin for adjustable version only – a resistor divider from this pin to the OUT

pin and ground sets the output voltage.

ADJ

NC

NA

8

No connection for fixed output version.

The exposed pad (EP) is used to remove heat from the package and it is recommended that

it is connected to a copper area. The die is electrically connected to the exposed pad. It is

recommended to connect it externally to GND, but should not be the only ground connection.

EP/TAB

—

Functional Block Diagram

IN

OUT

IN

OUT

Current Limit

and Thermal

Shutdown

Gate

Driver

Current Limit

and Thermal

Shutdown

Gate

Driver

R

EN

ADJ

0.605V

R

GND

Fixed Version

Adjustable Version

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Absolute Maximum Ratings (cont.) (@T_A= +25°C, unless otherwise specified.)

Symbol

ESD HBM

ESD MM

V_IN

Parameter

Human Body Model ESD Protection

Machine Model ESD Protection

Input Voltage

Ratings

2000

Unit

V

200

V

-0.3 to +6.0

V

OUT Voltage

V

V_OUT

-0.3 to V_IN+0.3

Internal Limited

-65 to +150

150

Continuous Load Current

Storage Temperature Range

Maximum Junction Temperature

I_OUT

T_ST

T_J

°C

Recommended Operating Conditions (@T_A= +25°C, unless otherwise specified.)

Symbol

V_IN

Parameter

Min

2.2

0

Max

5.5

Unit

V

Input voltage

Output Current

1.5

A

I_OUT

T_A

Operating Ambient Temperature

-40

+85

+125

°C

Operating Junction Temperature (Note 5)

T_J

Notes:

4. Stresses beyond 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 are not implied. Exposure to absolute-maximum rated

conditions for extended periods may affect device reliability.

5. Operating junction temperature must be evaluated and derated as needed, based on ambient temperature (T_A), power dissipation (P_D), maximum

allowable operating junction temperature (T_J-MAX), and package thermal resistance (θ_JA).

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Electrical Characteristics (@T_A= +25°C, V_IN= 3.3V, I_OUT= 10mA, C_IN= 10µF, C_OUT= 10µF, unless otherwise specified.)

Minimum and maximum limits are guaranteed through test, design, or statistical correlation. Typical values represent the most likely parametric

norm at T_A= +25°C, and are provided for reference purposes only.

Symbol

Parameter

Test Conditions

Min

Typ

Max

0.626

0.635

Unit

0.584

0.575

0.605

T_A= +25°C

Over temp

T_A= +25°C

Over temp

T_A= +25°C

Over temp

T_A= +25°C

Over temp

T_A= +25°C

Over temp

T_A= +25°C

Over temp

V

_IN= V_IN-MINto V_IN-MAX,

ADJ Pin Voltage

V

V_ADJ

I_OUT= 10mA to 1.5A

50

ADJ Pin Bias Current

nA

mV

I_ADJ

V_IN= V_IN-MINto V_IN-MAX

750

240

280

—

190

Dropout Voltage (Note 6)

Line Regulation (Note 7)

Load Regulation (Note 7)

V_DROPOUT

I_OUT= 1.5A, V_OUT= 2.5V

—

0.04

0.05

0.18

0.33

1.0

%/V

%/A

ΔV_OUT/ΔV_IN

ΔV_OUT/ΔI_OUT

V_IN= V_IN-MINto V_IN-MAX

I_OUT= 10mA to 1.5A

—

1.2

1.3

Ground Pin Current in Normal

Operation Mode

mA

A

I_GND

I_OUT-PK

I_SC

I_OUT= 10mA to 1.5A

V_OUT≥ V_{OUT - NOM}-5%

OUT grounded

Peak Output Current

Short Circuit Current

3.6

3.7

T_A= +25°C

Over temp

A

2

Turn-Off Delay

Turn-On Delay

25

65

61

1.0

μs

t_d(off)

t_d(on)

From V_EN< V_ILto V_OUT= OFF, I_OUT= 1.5A

From V_EN> V_IHto V_OUT= ON, I_OUT= 1.5A

V_IN= 3.0V, I_OUT= 1.5A, f = 120Hz

PSRR

Ripple Rejection

dB

V_IN= 3.0V, I_OUT= 1.5A, f = 1kHz

Output Noise Density

Output Noise Voltage

ρ_n(l/f)

F = 120Hz, C_OUT= 10μF ceramic

BW = 100Hz – 100kHz,

μV/√Hz

μV(rms)

100

e_n

C_OUT= 10μF ceramic

Thermal Shutdown Threshold

Thermal Shutdown Hysteresis

170

10

T_SHDN

T_HYS

T_Jrising

°C

T_Jfalling from T_SHDN

U-DFN2030-8 (Note 8)

SO-8EP (Note 8)

SOT223 (Note 8)

TO252 (Note 8)

174.0

52.8

105.7

87.8

28.2

10.0

18.5

17.3

Thermal Resistance Junction-to-

Ambient

^oC/W

θ_JA

U-DFN2030-8 (Note 8)

SO-8EP (Note 8)

SOT223 (Note 8)

TO252 (Note8)

Thermal Resistance Junction-to-Case

^oC/W

θ_JC

Notes:

6. Dropout voltage is the minimum voltage difference between the input and the output at which the output voltage drops 2% below its nominal value.

For any output voltage less than 2.5V, the minimum V_INoperating voltage is the limiting factor.

7. The line and load regulation specification contains only the typical number. However, the limits for line and load regulation are included in the adjust

voltage tolerance specification.

8. Device mounted on 2” x 2” FR-4 substrate PCB, 2oz copper with minimum recommended pad layout.

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Typical Performance Characteristics (@T_J= +25°C, V_IN= 2.7V, C_IN= 10µF, C_OUT= 10µF, I_OUT= 10mA, V_OUT= 1.8V.)

10k

C

= 10µF CER

C

= 10µF

OUT

1k

100

10

100

10

100

1000

10k

100k

100

1000

10k

100k

FREQUENCY (Hz)

Noise Density

FREQUENCY (Hz)

Noise Density

3

2.5

2

1.5

1

25°C

125°C

-40°C

0.5

0

0.3

0.2

0

0.5

1

1.5

0

1

2

3

V_IN(V)

Turn-On Characteristics

I_LOAD(A)

I_GNDvs. Load Current

0.615

0.610

125°C

25°C

0.605

0.600

0.595

0.590

-40°C

0.1

0

0.5

LOAD CURRENT (A)

Dropout Voltage vs. Load Current

1

1.5

-50 -25

0

25

50

75 100 125

TEMPERATURE (°C)

V_ADJvs. Temperature

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Typical Performance Characteristics (cont.)

(@T_J= +25°C, V_IN= 2.7V, C_IN= 10µF, C_OUT= 10µF, I_OUT= 10mA, V_OUT= 1.8V.)

Turn-On Time

V_OUT= 1.2V (500mV/div)

I_L= 1.5A, C_OUT= 10μF CER

V_OUT= 1.2V (500mV/div)

I_L= 0A, C_OUT= 10μF CER

V_IN= 3.0V (2V/div)

Time (10μs/div)

Load Transient Response

90

80

70

60

50

40

30

20

10

0

V_IN= 3.3V

C_OUT=10μF CER

V_OUT= 1.8V (50mV/div)

V

I

= 3.3V

IN

OUT

= 1.8V

= 1A

OUT

C

= 1µF CER

IN

OUT

I_LOAD= 100mA to 1.5A (1A/div)

100

1k

10k

100k

1M

FREQUENCY (kHz)

PSRR

Time (40μs/div)

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Application Note

Input Capacitor

A minimum 2.2μF ceramic capacitor is recommended between IN and GND pins to decouple input power supply glitch and noise. The amount of

the capacitance may be increased without limit. Larger input capacitor like 10μF will provide better load transient response. This input capacitor

must be located as close as possible to the device to assure input stability and reduce noise. For PCB layout, a wide copper trace is required for

both IN and GND pins. A lower ESR capacitor type allows the use of less capacitance, while higher ESR type requires more capacitance.

Output Capacitor

The output capacitor is required to stabilize and help the transient response of the LDO. The AP7363 is stable with any type of capacitor, with no

limitations on minimum or maximum ESR. The device is designed to have excellent transient response for most applications with a small amount

of output capacitance. The device is also stable with multiple capacitors in parallel, which can be of any type of value. Additional capacitance

helps to reduce undershoot and overshoot during transient loads. This capacitor should be placed as close as possible to OUT and GND pins for

optimum performance.

Adjustable Operation

The AP7363 provides output voltage from 0.6V to 5.0V through external resistor divider as shown below.

The output voltage is calculated by:

⎛

⎜

⎞

⎟

R

1

V

= V

REF

1+

OUT

⎜

⎝

⎟

⎠

R

2

Where V_REF= 0.6V (the internal reference voltage)

Rearranging the equation will give the following that is used for adjusting the output to a particular voltage:

⎛

⎜

⎞

V

OUT

⎟

−1

R = R

1

2

⎜

⎝

⎟

V

REF

⎠

To maintain the stability of the internal reference voltage, R₂need to be kept smaller than 10kΩ.

No Load Stability

Other than external resistor divider, no minimum load is required to keep the device stable. The device will remain stable and regulated in no

load condition.

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Application Note (cont.)

Stability and Phase Margin

Any regulator which operates using a feedback loop must be compensated in such a way as to ensure adequate phase margin, which is defined

as the difference between the phase shift and -180 degrees at the frequency where the loop gain crosses unity (0 dB). For most LDO regulators,

the ESR of the output capacitor is required to create a zero to add enough phase lead to ensure stable operation. The AP7363 has a internal

compensation circuit which maintains phase margin regardless of the ESR of the output capacitor, any type of capacitos can be used.

The two charts on the next page show the gain/phase plot of the AP7363 with an output of 1.2V, 10μF ceramic output capacitor, delivering 1.5A

load current and no load. It can be seen the phase margin is about 90° (which is very stable).

120

100

80

60

40

20

0

140

120

100

80

140

120

100

80

120

100

80

PHASE

GAIN

60 GAIN

40

20

0

60

40

20

0

40

20

0

-20

-40

-60

-20

-40

V_IN= 2.7V

V_OUT= 1.2V

I_L= 0A

-20

-40

-60

-80

V

= 2.7V

-20

-40

-60

-80

IN

-60

-80

= 1.2V

OUT

-80

-100

-120

I

= 1.5A

L

C_OUT= 10µF CER

C

= 10µF CER

OUT

-100

-120

100

1k

10k

FREQUENCY(Hz)

Gain-Bandwidth Plot for no Load

100k

1M

100

1k

10k

FREQUENCY(Hz)

Gain-Bandwidth Plot for 1.5A Load

100k

1M

Short Circuit Protection

When output current at OUT pin is higher than current limit threshold, the current limit protection will be triggered and clamp the output current to

prevent over-current and to protect the regulator from damage due to overheating.

Thermal Shutdown Protection

Thermal protection disables the output when the junction temperature rises to approximately +170°C, allowing the device to cool down. When the

junction temperature reduces to approximately +160°C the output circuitry is enabled again. Depending on power dissipation, thermal resistance,

and ambient temperature, the thermal protection circuit may cycle on and off. This cycling limits the heat dissipation of the regulator, protecting it

from damage due to overheating.

Low Quiescent Current

The AP7363, consuming only around 0.5mA for all input range, provides great power saving in portable and low power applications.

Output Noise

This is the integrated value of the output noise over a specified frequency range. Input voltage and output load current are kept constant during

the measurement. Results are expressed in µVrms or µV√Hz.

The AP7363 is a low noise regulator and needs no external noise reduction capacitor. Output voltage noise is typically 100μVrms overall noise

level between 100 Hz and 100 kHz.

Noise is specified in two ways:

Output noise density is the RMS sum of all noise sources, measured at the regulator output, at a specific frequency (measured with a 1Hz

bandwidth). This type of noise is usually plotted on a curve as a function of frequency.

Output noise voltage is the RMS sum of spot noise over a specified bandwidth. Spot noise is measured in units μV/√Hz or nV/√Hz and total

output noise is measured in μV(rms). The primary source of noise in low-dropout regulators is the internal reference.

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Application Note (cont.)

Power Dissipation

The device power dissipation and proper sizing of the thermal plane that is connected to the thermal pad 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:

P_D= (V_IN- V_OUT) X I_OUT

The maximum power dissipation, handled by the device, depends on the junction to ambient thermal resistance, and maximum ambient

temperature, which can be calculated by the equation in the following:

(+150°C - T )

A

P_{D _ max}

=

R

θJA

Ordering Information

7”/13” Tape and Reel

Packaging

(Note 9)

Part Number

Package Code

Quantity

Part Number Suffix

AP7363-XXHA-7

AP7363-XXSP-13

AP7363-XXE-13

AP7363-XXD-13

HA

SP

E

U-DFN2030-8

SO-8EP

3000/Tape & Reel

2500/Tape & Reel

-7

-13

SOT223-3L

TO252-3L

D

Note:

9. TO252 and SOT223 are only available with fixed output version.

Marking Information

(1) U-DFN2030-8

Device

Package

Identification Code

AP7363ADJ

AP7363-10

AP7363-12

AP7363-15

AP7363-18

AP7363-25

AP7363-33

U-DFN2030-8

SA

SB

SC

SD

SE

SF

SG

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Marking Information (cont.)

(2) SO-8EP

(3) SOT223

(4) TO252

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Package Outline Dimensions (All dimensions in mm.)

Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for latest version.

(1) U-DFN2030-8

A

A1

A3

U-DFN2030-8

Dim Min Max Typ

Seating Plane

A

A1

A3

b

0.57 0.63 0.60

0

-

0.05 0.02

0.15

D

-

L

0.20 0.30 0.25

1.95 2.05 2.00

e

D

D2 1.40 1.60 1.50

(Pin #1 ID)

e

-

0.50

E

2.95 3.05 3.00

E2 1.50 1.70 1.60

C'0.25*45°

L

Z

0.35 0.45 0.40

0.125

E2

E

-

D2

All Dimensions in mm

Z

b

(2) SO-8EP

SO-8EP (SOP-8L-EP)

Dim Min Max Typ

Exposed Pad

A

1.40 1.50 1.45

8

1

5

4

A1 0.00 0.13

-

b

C

D

E

0.30 0.50 0.40

0.15 0.25 0.20

4.85 4.95 4.90

3.80 3.90 3.85

E1

H

F

E0 3.85 3.95 3.90

E1 5.90 6.10 6.00

b

Bottom View

E

e

F

H

L

-

1.27

2.75 3.35 3.05

2.11 2.71 2.41

0.62 0.82 0.72

9° (All sides)

N

45°

7°

Q

C

N

Q

-

0.35

4° ± 3°

A

Gauge Plane

Seating Plane

0.60 0.70 0.65

All Dimensions in mm

e

E0

A1

L

D

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

Package Outline Dimensions (cont.) (All dimensions in mm.)

Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for latest version.

(3) SOT223

SOT223

Dim Min Max Typ

A

1.55 1.65 1.60

A1 0.010 0.15 0.05

b1

b2

C

D

E

E1

e

e1

L

2.90 3.10 3.00

0.60 0.80 0.70

0.20 0.30 0.25

6.45 6.55 6.50

3.45 3.55 3.50

6.90 7.10 7.00

—

4.60

2.30

0.85 1.05 0.95

0.84 0.94 0.89

Q

All Dimensions in mm

A

A1

(4) TO252

TO252

Dim Min Max Typ

E

b3

A

c2

A

2.19 2.39 2.29

L3

D

A1 0.00 0.13 0.08

A2 0.97 1.17 1.07

b

0.64 0.88 0.783

E1

A2

b2 0.76 1.14 0.95

b3 5.21 5.46 5.33

c2 0.45 0.58 0.531

H

D

6.00 6.20 6.10

D1 5.21

−

L4

A1

e

2.286

−

E

6.45 6.70 6.58

E1 4.32

L

−

H

L

9.40 10.41 9.91

1.40 1.78 1.59

e

3X b

2X b2

a

L3 0.88 1.27 1.08

L4 0.64 1.02 0.83

a

0°

10°

−

All Dimensions in mm

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AP7363

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AP7363

Suggested Pad Layout

Please see AP02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version.

(1) U-DFN2030-8

X2

Y

C

Value

(in mm)

0.500

0.250

0.350

1.500

1.850

0.600

1.600

3.300

Dimensions

C

G

X

X1

X2

Y

Y1

Y2

Y1

X1

G

Pin1

X

(2) SO-8EP

X2

Value

Dimensions

(in mm)

1.270

0.802

3.502

4.612

1.505

2.613

6.500

C

X

X1

X2

Y

Y1

Y2

X1

Y1

Y2

Y

C

X

(3) SOT223

X1

Y1

Dimensions Value (in mm)

X1

X2

Y1

Y2

C1

C2

3.3

1.2

1.6

6.4

2.3

C1

Y2

C2

X2

(4) TO252

X2

Dimensions

Value (in mm)

Z

11.6

1.5

7.0

2.5

7.0

6.9

2.3

X1

X2

Y1

Y2

C

Y2

Z

C

E1

Y1

X1

E1

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AP7363

Document number: DS35059 Rev. 8 - 2

AP7363

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.

www.diodes.com

14 of 14

www.diodes.com

December 2012

AP7363

Document number: DS35059 Rev. 8 - 2


型号：	AP7363-15SP-13
厂家：	DIODES INCORPORATED
描述：	Fixed Positive LDO Regulator, 1.5V, 0.28V Dropout, BIPolar, PDSO8, GREEN, SOP-8 光电二极管输出元件调节器
文件：	总14页 (文件大小：375K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

AP7363-15SP-13 [DIODES]

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