2024年10月20日发(作者：敖浚)

PMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

18 November 2016Product data sheet

1. General description

Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an

integrated guard ring for stress protection, encapsulated in a very small SOD323 (SC-76) Surface-

Mounted Device (SMD) plastic package.

2. Features and benefits

•

•

•

•

•

•

Average forward current: I

F(AV)

≤ 1 A

Reverse voltage: V

R

≤ 40 V

Low forward voltage typ. V

F

= 720 mV

Low reverse current typ. I

R

= 1.5 µA

Very small SMD plastic package

AEC-Q101 qualified

3. Applications

•

•

•

•

•

•

Low voltage rectification

High efficiency DC-to-DC conversion

Switch mode power supply

Reverse polarity protection

Low power consumption applications

Automotive applications

4. Quick reference data

Table 1. Quick reference data

Symbol

I

F(AV)

V

R

V

F

I

R

Parameter

average forward

current

reverse voltage

forward voltage

reverse current

Conditions

δ = 0.5 ; f = 20 kHz; T

sp

≤ 110 °C;

square wave

T

j

= 25 °C

I

F

= 1 A; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

V

R

= 40 V; T

j

= 25 °C; pulsed

V

R

= 40 V; T

j

= 125 °C; pulsed

[1]Very short test pulse to keep junction temperature unchanged.

[1]

[1]

Min

-

-

-

-

-

Typ

-

-

720

1.5

1

Max

1

40

840

8

8

Unit

A

V

mV

µA

mA

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

5. Pinning information

Table 2. Pinning information

Pin

1

2

SymbolDescription

K

A

cathode

anode

SOD323

Simplified outline

12

Graphic symbol

12

sym001

6. Ordering information

Table 3. Ordering information

Type number

PMEG4010CEA

Package

Name

SOD323

Description

plastic surface-mounted package; 2 leads

Version

SOD323

7. Marking

Table 4. Marking codes

Type number

PMEG4010CEA

Marking code

4M

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Product data sheet18 November 20162 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

8. Limiting values

Table 5. Limiting values

In accordance with the Absolute Maximum Rating System (IEC 60134).

Symbol

V

R

I

F

I

F(AV)

I

FRM

I

FSM

P

tot

T

j

T

amb

T

stg

[1]

[2]

Parameter

reverse voltage

forward current

average forward current

repetitive peak forward

current

non-repetitive peak

forward current

total power dissipation

junction temperature

ambient temperature

storage temperature

Conditions

T

j

= 25 °C

T

sp

≤ 110 °C; δ = 1

δ = 0.5 ; f = 20 kHz; T

sp

≤ 110 °C; square

wave

t

p

≤ 1 ms; δ ≤ 0.25

t

p

= 8 ms; T

j(init)

= 25 °C; square wave

T

amb

≤ 25 °C

[1]

[2]

Min

-

-

-

-

-

-

-

-

-55

-65

Max

40

1

1

2

8

380

555

150

150

150

Unit

V

A

A

A

A

mW

mW

°C

°C

°C

Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.

2

Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm.

9. Thermal characteristics

Table 6. Thermal characteristics

Symbol

R

th(j-a)

Parameter

thermal resistance

from junction to

ambient

thermal resistance

from junction to solder

point

Conditions

in free air

[1][2]

Min

-

-

-

[1][3]

[4]

Typ

-

-

-

Max

330

225

45

Unit

K/W

K/W

K/WR

th(j-sp)

[1]

[2]

[3]

[4]

For Schottky barrier diodes thermal runaway has to be considered, as in some applications the reverse power losses P

R

are a

significant part of the total power losses.

Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.

2

Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm.

Soldering point of cathode tab.

PMEG4010CEAAll information provided in this document is subject to legal disclaimers.

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Product data sheet18 November 20163 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

10

3

Z

th(j-a)

(K/W)

10

2

duty cycle = 1

0.75

0.5

0.25

0.1

0.05

10

0.02

0.01

0.33

0.2

aaa-022350

1

10

-5

0

10

-4

10

-3

10

-2

10

-1

11010

2

t

p

(s)

10

3

FR4 PCB, standard footprint

Fig. 1.

10

3

Z

th(j-a)

(K/W)

10

2

Transient thermal impedance from junction to ambient as a function of pulse duration; typical values

aaa-022351

duty cycle = 1

0.75

0.5

0.25

0.1

0.33

0.2

0.05

0.02

0.01

10

1

10

-5

0

10

-4

10

-3

10

-2

2

10

-1

11010

2

t

p

(s)

10

3

FR4 PCB, mounting pad for cathode 1 cm

Fig. ent thermal impedance from junction to ambient as a function of pulse duration; typical values

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Product data sheet18 November 20164 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

10. Characteristics

Table 7. Characteristics

Symbol

V

(BR)R

V

F

Parameter

reverse breakdown

voltage

forward voltage

Conditions

I

R

= 1 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 10 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 100 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 200 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 500 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 1 A; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 1 A; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 125 °C

I

R

reverse currentV

R

= 30 V; T

j

= 25 °C; pulsed

V

R

= 40 V; T

j

= 25 °C; pulsed

V

R

= 40 V; T

j

= 125 °C; pulsed

C

d

diode capacitanceV

R

= 1 V; f = 1 MHz; T

j

= 25 °C

V

R

= 4 V; f = 1 MHz; T

j

= 25 °C

V

R

= 10 V; f = 1 MHz; T

j

= 25 °C

t

rr

[1]

[1]

[1]

[1]

Min

40

-

-

-

-

-

-

-

-

-

-

-

-

-

Typ

-

300

390

435

550

720

650

1

1.5

1

24

13.5

9

1.8

Max

-

380

470

510

640

840

-

5

8

8

-

-

-

-

Unit

V

mV

mV

mV

mV

mV

mV

µA

µA

mA

pF

pF

pF

nsreverse recovery timeI

F

= 0.5 A; I

R

= 0.5 A; I

R(meas)

= 0.1 A;

T

j

= 25 °C

Very short test pulse to keep junction temperature unchanged.

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Product data sheet18 November 20165 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

10

I

F

(A)

1

aaa-025115

I

R

(A)

10

-2

10

-3

10

-4

10

-5

aaa-022353

(1)

(2)

(3)

(4)

(5)

10

-1

10

-6

(1)

10

-2

10

-7

10

-8

10

-9

10

-10

1.21.8

10

-11

010203040

(6)

(2)

10

-3

(3)

(4)

(5)

10

-4

00.6

V

F

(V)V

R

(V)

pulsed condition

(1) T

j

= 150 °C

(2) T

j

= 125 °C

(3) T

j

= 85 °C

(4) T

j

= 25 °C

(5) T

j

= -40 °C

Fig. d current as a function of forward

voltage; typical values

50

C

d

(pF)

40

aaa-022354

pulsed condition

(1) T

j

= 150 °C

(2) T

j

= 125 °C

(3) T

j

= 85 °C

(4) T

j

= 65 °C

(5) T

j

= 25 °C

(6) T

j

= −40 °C

Fig. 4.

1

P

F(AV)

(W)

0.8

(3)

Reverse current as a function of reverse

voltage; typical values

aaa-025116

(4)

300.6

(2)

(1)

200.4

100.2

0

0102030

V

R

(V)

40

0

00.40.81.2

I

F(AV)

(A)

1.6

f = 1 MHz; T

amb

= 25 °C

Fig. capacitance as a function of reverse

voltage; typical values

Fig. 6.

T

j

= 150 °C

(1) δ = 0.1

(2) δ = 0.2

(3) δ = 0.5

(4) δ = 1 (DC)

Average forward power dissipation as a

function of average forward current; typical

values

PMEG4010CEAAll information provided in this document is subject to legal disclaimers.

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Product data sheet18 November 20166 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

0.04

P

R(AV)

(W)

0.03

(2)

(3)

aaa-025118

1.5

I

F(AV)

(A)

(1)

aaa-025120

(1)

1

(2)

(3)

0.02

(4)

0.5

0.01

(4)

0

0102030

V

R

(V)

40

0

5150175

T

amb

(°C)

T

j

= 125 °C

(1) δ = 1; DC

(2) δ = 0.9; f = 20 kHz

(3) δ = 0.8; f = 20 kHz

(4) δ = 0.5; f = 20 kHz

Fig. e reverse power dissipation as a

function of reverse voltage; typical values

aaa-025121

FR4 PCB, standard footprint

T

j

= 150 °C

(1) δ = 1; DC

(2) δ = 0.5; f = 20 kHz

(3) δ = 0.2; f = 20 kHz

(4) δ = 0.1; f = 20 kHz

Fig. 8.

1.5

(1)

Average forward current as a function of

ambient temperature; typical values

aaa-025123

1.5

I

F(AV)

(A)

1

(1)

(2)

(3)

(4)

I

F(AV)

(A)

1

(2)

(3)

0.50.5

(4)

0

5

FR4 PCB, mounting pad for cathode 1 cm

T

j

= 150 °C

(1) δ = 1; DC

(2) δ = 0.5; f = 20 kHz

(3) δ = 0.2; f = 20 kHz

(4) δ = 0.1; f = 20 kHz

Fig. 9.

150175

T

amb

(°C)

2

0

5150175

T

sp

(°C)

T

j

= 150 °C

(1) δ = 1; DC

(2) δ = 0.5; f = 20 kHz

(3) δ = 0.2; f = 20 kHz

(4) δ = 0.1; f = 20 kHz

Fig. e forward current as a function of solder

point temperature; typical valuesAverage forward current as a function of

ambient temperature; typical values

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Product data sheet18 November 20167 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

11. Test information

I

F

I

R(meas)

time

I

R

t

rr

006aad022

Fig. e recovery definition

P

t

2

t

1

dutycycleδ=

t

1

t

2

t

006aaa812

Fig. cycle definition

The current ratings for the typical waveforms are calculated according to the equations: I

F(AV)

= I

M

× δ with I

M

defined as peak current, I

RMS

= I

F(AV)

at DC, and I

RMS

= I

M

× √δ with I

RMS

defined as

RMS current.

Quality information

This product has been qualified in accordance with the Automotive Electronics Council (AEC)

standard Q101 - Stress test qualification for discrete semiconductors, and is suitable for use in

automotive applications.

PMEG4010CEAAll information provided in this document is subject to legal disclaimers.

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Product data sheet18 November 20168 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

12. Package outline

1.35

1.15

1

0.45

0.15

1.1

0.8

2.7

2.3

1.8

1.6

2

0.40

0.25

Dimensionsinmm

0.25

0.10

03-12-17

Fig. e outline SOD323

13. Soldering

3.05

2.1

solderlands

solderresist

1.650.950.5(2×)0.6(2×)

solderpaste

occupiedarea

2.2

0.5

(2×)

0.6

(2×)

Dimensionsinmm

sod323_fr

Fig. soldering footprint for SOD323

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Product data sheet18 November 20169 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

5

2.9

1.5(2×)

solderlands

solderresist

occupiedarea

2.75

1.2

(2×)

Dimensionsinmm

preferredtransport

directionduringsoldering

sod323_fw

Fig. soldering footprint for SOD323

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Product data sheet18 November 201610 / 14

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

14. Revision history

Table 8. Revision history

Data sheet IDRelease date

PMEG4010CEA v. 120161118

PMEG4010CEA

Product data sheet

Data sheet statusChange notice

Product data sheet-

All information provided in this document is subject to legal disclaimers.

18 November 2016

Supersedes

-

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NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

Notwithstanding any damages that customer might incur for any reason

whatsoever, Nexperia’s aggregate and cumulative liability towards

customer for the products described herein shall be limited in accordance

with the Terms and conditions of commercial sale of Nexperia.

Right to make changes — Nexperia reserves the right to

make changes to information published in this document, including without

limitation specifications and product descriptions, at any time and without

notice. This document supersedes and replaces all information supplied prior

to the publication hereof.

Suitability for use in automotive applications — This Nexperia

product has been qualified for use in automotive

applications. Unless otherwise agreed in writing, the product is not designed,

authorized or warranted to be suitable for use in life support, life-critical or

safety-critical systems or equipment, nor in applications where failure or

malfunction of a Nexperia product can reasonably be expected

to result in personal injury, death or severe property or environmental

damage. Nexperia and its suppliers accept no liability for

inclusion and/or use of Nexperia products in such equipment or

applications and therefore such inclusion and/or use is at the customer's own

risk.

Quick reference data — The Quick reference data is an extract of the

product data given in the Limiting values and Characteristics sections of this

document, and as such is not complete, exhaustive or legally binding.

Applications — Applications that are described herein for any of these

products are for illustrative purposes only. Nexperia makes

no representation or warranty that such applications will be suitable for the

specified use without further testing or modification.

Customers are responsible for the design and operation of their

applications and products using Nexperia products, and Nexperia

accepts no liability for any assistance with applications or

customer product design. It is customer’s sole responsibility to determine

whether the Nexperia product is suitable and fit for the

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associated with their applications and products.

Nexperia does not accept any liability related to any default,

damage, costs or problem which is based on any weakness or default

in the customer’s applications or products, or the application or use by

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necessary testing for the customer’s applications and products using Nexperia

products in order to avoid a default of the applications

and the products or of the application or use by customer’s third party

customer(s). Nexperia does not accept any liability in this respect.

Limiting values — Stress above one or more limiting values (as defined in

the Absolute Maximum Ratings System of IEC 60134) will cause permanent

damage to the device. Limiting values are stress ratings only and (proper)

operation of the device at these or any other conditions above those

given in the Recommended operating conditions section (if present) or the

Characteristics sections of this document is not warranted. Constant or

repeated exposure to limiting values will permanently and irreversibly affect

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Terms and conditions of commercial sale — Nexperia

products are sold subject to the general terms and conditions of commercial

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between the translated and English versions.

15. Legal information

Data sheet status

Document

[1][2]

status

Objective

[short] data

sheet

Preliminary

[short] data

sheet

Product

[short] data

sheet

[1]

[2]

[3]

Product

[3]

status

Definition

DevelopmentThis document contains data from

the objective specification for product

development.

QualificationThis document contains data from the

preliminary specification.

This document contains the product

specification.

Production

Please consult the most recently issued document before initiating or

completing a design.

The term 'short data sheet' is explained in section "Definitions".

The product status of device(s) described in this document may have

changed since this document was published and may differ in case of

multiple devices. The latest product status information is available on

the Internet at URL .

Definitions

Preview — The document is a preview version only. The document is still

subject to formal approval, which may result in modifications or additions.

Nexperia does not give any representations or warranties as to

the accuracy or completeness of information included herein and shall have

no liability for the consequences of use of such information.

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modifications or additions. Nexperia does not give any

representations or warranties as to the accuracy or completeness of

information included herein and shall have no liability for the consequences

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Short data sheet — A short data sheet is an extract from a full data sheet

with the same product type number(s) and title. A short data sheet is

intended for quick reference only and should not be relied upon to contain

detailed and full information. For detailed and full information see the

relevant full data sheet, which is available on request via the local Nexperia

sales office. In case of any inconsistency or conflict with the

short data sheet, the full data sheet shall prevail.

Product specification — The information and data provided in a Product

data sheet shall define the specification of the product as agreed between

Nexperia and its customer, unless Nexperia and

customer have explicitly agreed otherwise in writing. In no event however,

shall an agreement be valid in which the Nexperia product

is deemed to offer functions and qualities beyond those described in the

Product data sheet.

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Limited warranty and liability — Information in this document is believed

to be accurate and reliable. However, Nexperia does not give

any representations or warranties, expressed or implied, as to the accuracy

or completeness of such information and shall have no liability for the

consequences of use of such information. Nexperia takes no

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damages are based on tort (including negligence), warranty, breach of

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40 V, 1 A low VF MEGA Schottky barrier rectifier

Trademarks

Notice: All referenced brands, product names, service names and

trademarks are the property of their respective owners.

PMEG4010CEA

Product data sheet

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40 V, 1 A low VF MEGA Schottky barrier rectifier

16. Contents

1. 1

2. Features 1

3. 1

4. Quick 1

5. 2

6. 2

7. 2

8. 3

9. 3

10. 5

11. 8

12. .9

13. 9

14. 11

©

15.

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12

For more information, please visit:

Forsalesofficeaddresses,pleasesendanemailto:***************************

Date of release:

18 November 2016

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:

PMEG4010CEAX

2024年10月20日发(作者：敖浚)

PMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

18 November 2016Product data sheet

1. General description

Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an

integrated guard ring for stress protection, encapsulated in a very small SOD323 (SC-76) Surface-

Mounted Device (SMD) plastic package.

2. Features and benefits

•

•

•

•

•

•

Average forward current: I

F(AV)

≤ 1 A

Reverse voltage: V

R

≤ 40 V

Low forward voltage typ. V

F

= 720 mV

Low reverse current typ. I

R

= 1.5 µA

Very small SMD plastic package

AEC-Q101 qualified

3. Applications

•

•

•

•

•

•

Low voltage rectification

High efficiency DC-to-DC conversion

Switch mode power supply

Reverse polarity protection

Low power consumption applications

Automotive applications

4. Quick reference data

Table 1. Quick reference data

Symbol

I

F(AV)

V

R

V

F

I

R

Parameter

average forward

current

reverse voltage

forward voltage

reverse current

Conditions

δ = 0.5 ; f = 20 kHz; T

sp

≤ 110 °C;

square wave

T

j

= 25 °C

I

F

= 1 A; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

V

R

= 40 V; T

j

= 25 °C; pulsed

V

R

= 40 V; T

j

= 125 °C; pulsed

[1]Very short test pulse to keep junction temperature unchanged.

[1]

[1]

Min

-

-

-

-

-

Typ

-

-

720

1.5

1

Max

1

40

840

8

8

Unit

A

V

mV

µA

mA

NexperiaPMEG4010CEA

40 V, 1 A low VF MEGA Schottky barrier rectifier

5. Pinning information

Table 2. Pinning information

Pin

1

2

SymbolDescription

K

A

cathode

anode

SOD323

Simplified outline

12

Graphic symbol

12

sym001

6. Ordering information

Table 3. Ordering information

Type number

PMEG4010CEA

Package

Name

SOD323

Description

plastic surface-mounted package; 2 leads

Version

SOD323

7. Marking

Table 4. Marking codes

Type number

PMEG4010CEA

Marking code

4M

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40 V, 1 A low VF MEGA Schottky barrier rectifier

8. Limiting values

Table 5. Limiting values

In accordance with the Absolute Maximum Rating System (IEC 60134).

Symbol

V

R

I

F

I

F(AV)

I

FRM

I

FSM

P

tot

T

j

T

amb

T

stg

[1]

[2]

Parameter

reverse voltage

forward current

average forward current

repetitive peak forward

current

non-repetitive peak

forward current

total power dissipation

junction temperature

ambient temperature

storage temperature

Conditions

T

j

= 25 °C

T

sp

≤ 110 °C; δ = 1

δ = 0.5 ; f = 20 kHz; T

sp

≤ 110 °C; square

wave

t

p

≤ 1 ms; δ ≤ 0.25

t

p

= 8 ms; T

j(init)

= 25 °C; square wave

T

amb

≤ 25 °C

[1]

[2]

Min

-

-

-

-

-

-

-

-

-55

-65

Max

40

1

1

2

8

380

555

150

150

150

Unit

V

A

A

A

A

mW

mW

°C

°C

°C

Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.

2

Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm.

9. Thermal characteristics

Table 6. Thermal characteristics

Symbol

R

th(j-a)

Parameter

thermal resistance

from junction to

ambient

thermal resistance

from junction to solder

point

Conditions

in free air

[1][2]

Min

-

-

-

[1][3]

[4]

Typ

-

-

-

Max

330

225

45

Unit

K/W

K/W

K/WR

th(j-sp)

[1]

[2]

[3]

[4]

For Schottky barrier diodes thermal runaway has to be considered, as in some applications the reverse power losses P

R

are a

significant part of the total power losses.

Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.

2

Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm.

Soldering point of cathode tab.

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40 V, 1 A low VF MEGA Schottky barrier rectifier

10

3

Z

th(j-a)

(K/W)

10

2

duty cycle = 1

0.75

0.5

0.25

0.1

0.05

10

0.02

0.01

0.33

0.2

aaa-022350

1

10

-5

0

10

-4

10

-3

10

-2

10

-1

11010

2

t

p

(s)

10

3

FR4 PCB, standard footprint

Fig. 1.

10

3

Z

th(j-a)

(K/W)

10

2

Transient thermal impedance from junction to ambient as a function of pulse duration; typical values

aaa-022351

duty cycle = 1

0.75

0.5

0.25

0.1

0.33

0.2

0.05

0.02

0.01

10

1

10

-5

0

10

-4

10

-3

10

-2

2

10

-1

11010

2

t

p

(s)

10

3

FR4 PCB, mounting pad for cathode 1 cm

Fig. ent thermal impedance from junction to ambient as a function of pulse duration; typical values

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40 V, 1 A low VF MEGA Schottky barrier rectifier

10. Characteristics

Table 7. Characteristics

Symbol

V

(BR)R

V

F

Parameter

reverse breakdown

voltage

forward voltage

Conditions

I

R

= 1 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 10 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 100 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 200 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 500 mA; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 1 A; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 25 °C

I

F

= 1 A; t

p

≤ 300 µs; δ ≤ 0.02 ;

T

j

= 125 °C

I

R

reverse currentV

R

= 30 V; T

j

= 25 °C; pulsed

V

R

= 40 V; T

j

= 25 °C; pulsed

V

R

= 40 V; T

j

= 125 °C; pulsed

C

d

diode capacitanceV

R

= 1 V; f = 1 MHz; T

j

= 25 °C

V

R

= 4 V; f = 1 MHz; T

j

= 25 °C

V

R

= 10 V; f = 1 MHz; T

j

= 25 °C

t

rr

[1]

[1]

[1]

[1]

Min

40

-

-

-

-

-

-

-

-

-

-

-

-

-

Typ

-

300

390

435

550

720

650

1

1.5

1

24

13.5

9

1.8

Max

-

380

470

510

640

840

-

5

8

8

-

-

-

-

Unit

V

mV

mV

mV

mV

mV

mV

µA

µA

mA

pF

pF

pF

nsreverse recovery timeI

F

= 0.5 A; I

R

= 0.5 A; I

R(meas)

= 0.1 A;

T

j

= 25 °C

Very short test pulse to keep junction temperature unchanged.

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40 V, 1 A low VF MEGA Schottky barrier rectifier

10

I

F

(A)

1

aaa-025115

I

R

(A)

10

-2

10

-3

10

-4

10

-5

aaa-022353

(1)

(2)

(3)

(4)

(5)

10

-1

10

-6

(1)

10

-2

10

-7

10

-8

10

-9

10

-10

1.21.8

10

-11

010203040

(6)

(2)

10

-3

(3)

(4)

(5)

10

-4

00.6

V

F

(V)V

R

(V)

pulsed condition

(1) T

j

= 150 °C

(2) T

j

= 125 °C

(3) T

j

= 85 °C

(4) T

j

= 25 °C

(5) T

j

= -40 °C

Fig. d current as a function of forward

voltage; typical values

50

C

d

(pF)

40

aaa-022354

pulsed condition

(1) T

j

= 150 °C

(2) T

j

= 125 °C

(3) T

j

= 85 °C

(4) T

j

= 65 °C

(5) T

j

= 25 °C

(6) T

j

= −40 °C

Fig. 4.

1

P

F(AV)

(W)

0.8

(3)

Reverse current as a function of reverse

voltage; typical values

aaa-025116

(4)

300.6

(2)

(1)

200.4

100.2

0

0102030

V

R

(V)

40

0

00.40.81.2

I

F(AV)

(A)

1.6

f = 1 MHz; T

amb

= 25 °C

Fig. capacitance as a function of reverse

voltage; typical values

Fig. 6.

T

j

= 150 °C

(1) δ = 0.1

(2) δ = 0.2

(3) δ = 0.5

(4) δ = 1 (DC)

Average forward power dissipation as a

function of average forward current; typical

values

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Product data sheet18 November 20166 / 14

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40 V, 1 A low VF MEGA Schottky barrier rectifier

0.04

P

R(AV)

(W)

0.03

(2)

(3)

aaa-025118

1.5

I

F(AV)

(A)

(1)

aaa-025120

(1)

1

(2)

(3)

0.02

(4)

0.5

0.01

(4)

0

0102030

V

R

(V)

40

0

5150175

T

amb

(°C)

T

j

= 125 °C

(1) δ = 1; DC

(2) δ = 0.9; f = 20 kHz

(3) δ = 0.8; f = 20 kHz

(4) δ = 0.5; f = 20 kHz

Fig. e reverse power dissipation as a

function of reverse voltage; typical values

aaa-025121

FR4 PCB, standard footprint

T

j

= 150 °C

(1) δ = 1; DC

(2) δ = 0.5; f = 20 kHz

(3) δ = 0.2; f = 20 kHz

(4) δ = 0.1; f = 20 kHz

Fig. 8.

1.5

(1)

Average forward current as a function of

ambient temperature; typical values

aaa-025123

1.5

I

F(AV)

(A)

1

(1)

(2)

(3)

(4)

I

F(AV)

(A)

1

(2)

(3)

0.50.5

(4)

0

5

FR4 PCB, mounting pad for cathode 1 cm

T

j

= 150 °C

(1) δ = 1; DC

(2) δ = 0.5; f = 20 kHz

(3) δ = 0.2; f = 20 kHz

(4) δ = 0.1; f = 20 kHz

Fig. 9.

150175

T

amb

(°C)

2

0

5150175

T

sp

(°C)

T

j

= 150 °C

(1) δ = 1; DC

(2) δ = 0.5; f = 20 kHz

(3) δ = 0.2; f = 20 kHz

(4) δ = 0.1; f = 20 kHz

Fig. e forward current as a function of solder

point temperature; typical valuesAverage forward current as a function of

ambient temperature; typical values

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40 V, 1 A low VF MEGA Schottky barrier rectifier

11. Test information

I

F

I

R(meas)

time

I

R

t

rr

006aad022

Fig. e recovery definition

P

t

2

t

1

dutycycleδ=

t

1

t

2

t

006aaa812

Fig. cycle definition

The current ratings for the typical waveforms are calculated according to the equations: I

F(AV)

= I

M

× δ with I

M

defined as peak current, I

RMS

= I

F(AV)

at DC, and I

RMS

= I

M

× √δ with I

RMS

defined as

RMS current.

Quality information

This product has been qualified in accordance with the Automotive Electronics Council (AEC)

standard Q101 - Stress test qualification for discrete semiconductors, and is suitable for use in

automotive applications.

PMEG4010CEAAll information provided in this document is subject to legal disclaimers.

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40 V, 1 A low VF MEGA Schottky barrier rectifier

12. Package outline

1.35

1.15

1

0.45

0.15

1.1

0.8

2.7

2.3

1.8

1.6

2

0.40

0.25

Dimensionsinmm

0.25

0.10

03-12-17

Fig. e outline SOD323

13. Soldering

3.05

2.1

solderlands

solderresist

1.650.950.5(2×)0.6(2×)

solderpaste

occupiedarea

2.2

0.5

(2×)

0.6

(2×)

Dimensionsinmm

sod323_fr

Fig. soldering footprint for SOD323

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40 V, 1 A low VF MEGA Schottky barrier rectifier

5

2.9

1.5(2×)

solderlands

solderresist

occupiedarea

2.75

1.2

(2×)

Dimensionsinmm

preferredtransport

directionduringsoldering

sod323_fw

Fig. soldering footprint for SOD323

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40 V, 1 A low VF MEGA Schottky barrier rectifier

14. Revision history

Table 8. Revision history

Data sheet IDRelease date

PMEG4010CEA v. 120161118

PMEG4010CEA

Product data sheet

Data sheet statusChange notice

Product data sheet-

All information provided in this document is subject to legal disclaimers.

18 November 2016

Supersedes

-

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40 V, 1 A low VF MEGA Schottky barrier rectifier

Notwithstanding any damages that customer might incur for any reason

whatsoever, Nexperia’s aggregate and cumulative liability towards

customer for the products described herein shall be limited in accordance

with the Terms and conditions of commercial sale of Nexperia.

Right to make changes — Nexperia reserves the right to

make changes to information published in this document, including without

limitation specifications and product descriptions, at any time and without

notice. This document supersedes and replaces all information supplied prior

to the publication hereof.

Suitability for use in automotive applications — This Nexperia

product has been qualified for use in automotive

applications. Unless otherwise agreed in writing, the product is not designed,

authorized or warranted to be suitable for use in life support, life-critical or

safety-critical systems or equipment, nor in applications where failure or

malfunction of a Nexperia product can reasonably be expected

to result in personal injury, death or severe property or environmental

damage. Nexperia and its suppliers accept no liability for

inclusion and/or use of Nexperia products in such equipment or

applications and therefore such inclusion and/or use is at the customer's own

risk.

Quick reference data — The Quick reference data is an extract of the

product data given in the Limiting values and Characteristics sections of this

document, and as such is not complete, exhaustive or legally binding.

Applications — Applications that are described herein for any of these

products are for illustrative purposes only. Nexperia makes

no representation or warranty that such applications will be suitable for the

specified use without further testing or modification.

Customers are responsible for the design and operation of their

applications and products using Nexperia products, and Nexperia

accepts no liability for any assistance with applications or

customer product design. It is customer’s sole responsibility to determine

whether the Nexperia product is suitable and fit for the

customer’s applications and products planned, as well as for the planned

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provide appropriate design and operating safeguards to minimize the risks

associated with their applications and products.

Nexperia does not accept any liability related to any default,

damage, costs or problem which is based on any weakness or default

in the customer’s applications or products, or the application or use by

customer’s third party customer(s). Customer is responsible for doing all

necessary testing for the customer’s applications and products using Nexperia

products in order to avoid a default of the applications

and the products or of the application or use by customer’s third party

customer(s). Nexperia does not accept any liability in this respect.

Limiting values — Stress above one or more limiting values (as defined in

the Absolute Maximum Ratings System of IEC 60134) will cause permanent

damage to the device. Limiting values are stress ratings only and (proper)

operation of the device at these or any other conditions above those

given in the Recommended operating conditions section (if present) or the

Characteristics sections of this document is not warranted. Constant or

repeated exposure to limiting values will permanently and irreversibly affect

the quality and reliability of the device.

Terms and conditions of commercial sale — Nexperia

products are sold subject to the general terms and conditions of commercial

sale, as published at /profile/terms, unless otherwise

agreed in a valid written individual agreement. In case an individual

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applying the customer’s general terms and conditions with regard to the

purchase of Nexperia products by customer.

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Translations — A non-English (translated) version of a document is for

reference only. The English version shall prevail in case of any discrepancy

between the translated and English versions.

15. Legal information

Data sheet status

Document

[1][2]

status

Objective

[short] data

sheet

Preliminary

[short] data

sheet

Product

[short] data

sheet

[1]

[2]

[3]

Product

[3]

status

Definition

DevelopmentThis document contains data from

the objective specification for product

development.

QualificationThis document contains data from the

preliminary specification.

This document contains the product

specification.

Production

Please consult the most recently issued document before initiating or

completing a design.

The term 'short data sheet' is explained in section "Definitions".

The product status of device(s) described in this document may have

changed since this document was published and may differ in case of

multiple devices. The latest product status information is available on

the Internet at URL .

Definitions

Preview — The document is a preview version only. The document is still

subject to formal approval, which may result in modifications or additions.

Nexperia does not give any representations or warranties as to

the accuracy or completeness of information included herein and shall have

no liability for the consequences of use of such information.

Draft — The document is a draft version only. The content is still under

internal review and subject to formal approval, which may result in

modifications or additions. Nexperia does not give any

representations or warranties as to the accuracy or completeness of

information included herein and shall have no liability for the consequences

of use of such information.

Short data sheet — A short data sheet is an extract from a full data sheet

with the same product type number(s) and title. A short data sheet is

intended for quick reference only and should not be relied upon to contain

detailed and full information. For detailed and full information see the

relevant full data sheet, which is available on request via the local Nexperia

sales office. In case of any inconsistency or conflict with the

short data sheet, the full data sheet shall prevail.

Product specification — The information and data provided in a Product

data sheet shall define the specification of the product as agreed between

Nexperia and its customer, unless Nexperia and

customer have explicitly agreed otherwise in writing. In no event however,

shall an agreement be valid in which the Nexperia product

is deemed to offer functions and qualities beyond those described in the

Product data sheet.

Disclaimers

Limited warranty and liability — Information in this document is believed

to be accurate and reliable. However, Nexperia does not give

any representations or warranties, expressed or implied, as to the accuracy

or completeness of such information and shall have no liability for the

consequences of use of such information. Nexperia takes no

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In no event shall Nexperia be liable for any indirect, incidental,

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or replacement of any products or rework charges) whether or not such

damages are based on tort (including negligence), warranty, breach of

contract or any other legal theory.

PMEG4010CEAAll information provided in this document is subject to legal disclaimers.

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40 V, 1 A low VF MEGA Schottky barrier rectifier

Trademarks

Notice: All referenced brands, product names, service names and

trademarks are the property of their respective owners.

PMEG4010CEA

Product data sheet

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40 V, 1 A low VF MEGA Schottky barrier rectifier

16. Contents

1. 1

2. Features 1

3. 1

4. Quick 1

5. 2

6. 2

7. 2

8. 3

9. 3

10. 5

11. 8

12. .9

13. 9

14. 11

©

15.

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12

For more information, please visit:

Forsalesofficeaddresses,pleasesendanemailto:***************************

Date of release:

18 November 2016

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