SMA6J18CA-TR [STMICROELECTRONICS]

High junction temperature Transil TM; 高结温的Transil TM


型号：	SMA6J18CA-TR
厂家：	ST
描述：	High junction temperature Transil TM 高结温的Transil TM 瞬态抑制器二极管光电二极管 PC 局域网
文件：	总10页 (文件大小：112K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SMA6J

High junction temperature Transil™

Features

■ Peak pulse power:

– 600 W (10/1000 µs)

– 4 kW (8/20 µs)

■ Stand off voltage range: from 5 V to 188 V

■ Unidirectional and bidirectional types

■ Low clamping voltage versus standard series

■ Low leakage current:

– 0.2 µA at 25° C

– 1 µA at 85° C

Unidirectional

Bidirectional

■ Operating T max: 175° C

SMA

(JEDEC DO-214AC)

■ JEDEC registered package outline

Description

The SMA6J Transil series has been designed to

protect sensitive equipment against electro-static

discharges according to IEC 61000-4-2, MIL STD

883 Method 3015, and electrical over stress such

as IEC 61000-4-4 & 5. They are also in

accordance with ISO TR 7637-2, SAE J 113 and

DIN 40839 for automotive applications and more

generally for surges below 600 W 10/1000 µs

Order code

Part number

Marking

This Planar technology makes it compatible with

high-end equipment like automotive, medical

equipment or SMPS where low leakage current

and high junction temperature are required to

provide reliability and stability over time. Their low

clamping voltages provides a better safety margin

to protect sensitive circuits with extended life time

expectancy.

SMA6JxxA-TR

See Table 6.

SMA6JxxCA-TR

Complies with the following standards:

IEC 61000-4-2 level 4:

15 kV(air discharge)

8 kV(contact discharge)

Packaged in SMA, this minimizes PCB

consumption (SMA footprint in accordance with

IPC 7531 standard).

MIL STD 893G-Method 3015-7: class3B

25 kV HBM (Human Body Model)

TM: TRANSIL is a trademark of STMicroelectronics

February 2007

Rev 1

1/10

www.st.com

Characteristics

SMA6J

Characteristics

Table 1.

Symbol

Absolute ratings (T

= 25° C)

amb

Parameter

Value

Unit

P_PP

Peak pulse power dissipation ⁽¹⁾

T_jinitial = T_amb

T_amb= 55° C

600

Power dissipation on infinite heatsink

Non repetitive surge peak forward current for

unidirectional types

t_p= 10 ms

T_jinitial = T_amb

I_FSM

T_stg

T_j

Storage temperature range

-65 to +175

-55 to +175

260

° C

Operating junction temperature range

Maximum lead temperature for soldering during 10 s

T_L

1. For a surge greater than the maximum values, the diode will fail in short-circuit.

Table 2.

Symbol

Thermal resistances

Parameter

Value

Unit

R_{th (j-l)}

R_{th (j-a)}

Junction to leads

° C/W

Junction to ambient on printed circuit on recommended pad layout

120

Table 3.

Symbol

Electrical characteristics - definitions (T

= 25° C)

amb

Parameter

V_RM

V_BR

V_CL

Stand-off voltage

I_F

I_PP

Breakdown voltage

Clamping voltage

Leakage current

I_R

I_RM

I_PP

αT

V_F

V_CLV_BRV_RM

@ V_RM

I_RM

I_R

I_RM

I_R

V_RMV_BRV_CL

Peak pulse current

Voltage temperature

coefficient

Unidirectional

Bidirectional

I_PP

Forward voltage

drop

I_PP

V_F

R_D

Dynamic resistance

2/10

SMA6J

Table 4.

Characteristics

Electrical characteristics - values (T

= 25° C)

amb

(2)

V_CL@I_PP

R_D

V_CL@I_PPR_D

I_RMmax@V_RM

25° C 85° C

V_BR@I_R

αT⁽³⁾

(1)

10/1000 µs 10/1000 µs 8/20 µs 8/20 µs

Type

min typ max

max

µA

10-4/°C

SMA6J5.0A/CA

SMA6J6.0A/CA

SMA6J6.5A/CA

SMA6J8.5A/CA

SMA6J10A/CA

SMA6J12A/CA

SMA6J13A/CA

SMA6J15A/CA

SMA6J18A/CA

SMA6J20A/CA

SMA6J24A/CA

SMA6J26A/CA

SMA6J28A/CA

SMA6J33A/CA

SMA6J40A/CA

SMA6J48A/CA

SMA6J58A/CA

SMA6J70A/CA

SMA6J85A/CA

SMA6J100A/CA

SMA6J130A/CA

SMA6J154A/CA

SMA6J170A/CA

SMA6J188A/CA

5.0 6.40 6.74 7.07 10 9.1

6.0 6.70 7.05 7.41 10 9.5

0.029

0.034

0.040

0.070

0.093

0.133

0.154

0.206

0.288

0.354

0.516

0.600

0.697

0.963

1.42

13.4 298 0.021

13.7 290 0.022

14.5 276 0.024

18.7 205 0.041

19.6 184 0.040

23.5 157 0.056

23.9 147 0.054

27.7 123 0.075

33.2 102 0.108

36.8 93 0.132

44.3 80 0.184

47.9 75 0.213

51.6 68 0.253

60.8 57 0.356

73.6 48 0.511

88.4 40 0.736

100 33 0.863

5.7

5.9

6.5 7.20 7.58 7.96 10 10.2 56

6.1

8.5 9.4 9.9 10.4

10 11.1 11.7 12.3

12 13.3 14.0 14.7

13 14.4 15.2 15.9

15 16.7 17.6 18.5

18 20.0 21.1 22.1

20 22.2 23.4 24.5

24 26.7 28.1 29.5

26 28.9 30.4 31.9

28 31.1 32.7 34.4

33 36.7 38.6 40.6

40 44.4 46.7 49.1

48 53.3 56.1 58.9

58 64.4 67.8 71.2

70 77.8 81.9 86.0

13.3 41.7

15.7 37

18.8 31

20.4 29

23.6 25.1

28.3 21.5

31.4 19.4

37.8 16

40.9 14.9

44.0 13.8

51.9 11.8

62.8 9.7

75.4 8.1

91.1 6.7

110 5.5

134 4.6

157 3.8

7.3

0.2

7.8

8.3

8.4

8.8

9.2

9.4

9.6

9.7

9.8

10.0

10.1

10.3

10.4

10.5

10.6

10.7

10.8

2.04

2.97

4.38

120 27

1.27

85 94

99 104

6.45

146 22.5 1.85

100 111 117 123

130 144 152 159

154 171 180 189

170 189 199 209

188 209 220 231

9.03

172 19

223 15

2.58

4.24

204

14.9

242 2.4

275 2.2

22.1

265 12.6 6.00

292 11.3 7.39

323 10.3 8.97

30.0

328

48.5

1. Pulse test: t_p<50ms.

2. To calculate maximum clamping voltage at other surge currents, use the following formula

_CLmax= R_Dx I_PP+ V_BRmax

Repetitive peak pulse current

tr = rise time (µs)

tp = pulse duration time (µs)

%I_PP

100

3. To calculate V_BRversus junction temperature, use the following formula:

V_BR@ T_j= V_BR@ 25 ° C x (1 + αT x (T_j- 25))

t_r

t_p

3/10

Characteristics

SMA6J

Figure 1.

Peak power dissipation versus

initial junction temperature

Figure 2.

Peak pulse power versus

exponential pulse duration

(T initial = 25° C)

P (kW)

10.0

110

T_jinitial=25°C

100

1.0

T (°C)

t (ms)

0.1

100

125

150

175

200

0.01

0.10

1.00

10.00

Figure 3.

Clamping voltage versus peak pulse current

(exponential waveform, maximum values)

I (A)

1.E+03

1.E+02

1.E+01

1.E+00

1.E-01

T_j= 25°C

SMA6J5.0A/CA

SMA6J10A/CA

SMA6J15A/CA

SMA6J26A/CA

t_p= 20 µs

SMA6J48A/CA

SMA6J100A/CA

SMA6J188A/CA

t_p= 1 ms

V (V)

100

1000

4/10

SMA6J

Characteristics

Figure 4.

Junction capacitance versus

reverse applied voltage (typical

values) (SMA6JxxA)

Figure 5.

Junction capacitance versus

reverse applied voltage (typical

values) (SMA6JxxCA)

C(pF)

10000

F=1MHz

V_OSC=30mV_RMS

T_j=25°C

F=1MHz

V_OSC=30mV_RMS

T_j=25°C

1000

100

SMA6J5.0A

SMA6J5.0CA

SMA6J13CA

1000

100

SMA6J13A

SMA6J26A

SMA6J58A

SMA6J26CA

SMA6J58CA

SMA6J188CA

SMA6J188A

V (V)

100

1000

100

1000

Figure 6.

Peak forward voltage drop versus Figure 7.

peak forward current (typical

values)

Relative variation of thermal

impedance junction to ambient

versus pulse duration (printed

ciruit board FR4, S = 1 cm )

th(j-a) th(j-a)

I (A)

1.00

0.10

0.01

1.E+01

1.E+00

1.E-01

1.E-02

T_j=125°C

T_j=25°C

(V)

t (S)

0.4

0.5

0.6

0.7

0.8

0.9

1.0

1.1

1.2

1.3

1.4

1.E-02

1.E-01

1.E+00

1.E+01

1.E+02

1.E+03

Figure 8.

Thermal resistance junction to

ambient versus copper surface

under each lead (printed circuit

Figure 9.

Leakage current versus junction

temperature (typical values)

board FR4, e = 35 µm)

(°C/W)

I (nA)

th(j-a)

130

120

110

100

1.E+04

1.E+03

1.E+02

1.E+01

1.E+00

V_R=V_RM

V_BR≤11.7V

V_BR>11.7V

(cm )

T (°C)

100

125

150

175

0.0

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

4.5

5.0

5/10

Order information scheme

SMA6J

Order information scheme

SM A 6J xx CA - TR

Surface Mount

Package

A = SMA package

Surge rating

6J = 600 W

Stand off voltage

example - 85 = 85 V

Type

A = Unidirectional

CA = Bidirectional

Packaging

TR = Tape and reel

6/10

SMA6J

Package information

●

Case: JEDEC DO-214AC molded plastic over Planar junction

Terminals: Solder plated, solderable per MIL-STD-750, Method 2026

Polarity: For unidirectional types the band indicates cathode.

Flammability: Epoxy is rated UL94V-0

RoHS package

Table 5.

SMA Dimensions

Dimensions

Millimeters

Min. Max.

Ref.

Inches

Min.

Max.

1.90

0.05

1.25

0.15

2.25

4.80

3.95

0.75

2.03

0.20

1.65

0.40

2.90

5.35

4.60

1.50

0.075

0.002

0.049

0.006

0.089

0.189

0.156

0.030

0.08

0.008

0.065

0.016

0.114

0.211

0.181

0.059

Figure 10. SMA footprint dimensions

Figure 11. Marking information

1.40

2.63

1.40

(0.055)

(0.104)

(0.055)

devices only)

unidirectional

Cathode bar (

e3:ECOPACK (Leadfree)

XXX: Marking

Z: Manufacturing location

Y: Year

WW: week

x x x

z y w w

5.43

(0.214)

milimeters

(inches)

7/10

Package information

Table 6.

SMA6J

Marking

Type

Marking

Type

Marking

SMA6J5.0A-TR

SMA6J6.0A-TR

SMA6J6.5A-TR

SMA6J8.5A-TR

SMA6J10A-TR

SMA6J12A-TR

SMA6J13A-TR

SMA6J15A-TR

SMA6J18A-TR

SMA6J20A-TR

SMA6J24A-TR

SMA6J26A-TR

SMA6J28A-TR

SMA6J33A-TR

SMA6J40A-TR

SMA6J48A-TR

SMA6J58A-TR

SMA6J70A-TR

SMA6J85A-TR

SMA6J100A-TR

SMA6J130A-TR

SMA6J154A-TR

SMA6J170A-TR

SMA6J188A-TR

6UA

6UB

6UC

6UD

6UE

6UF

6UG

6UH

6UJ

SMA6J5.0CA-TR

SMA6J6.0CA-TR

SMA6J6.5CA-TR

SMA6J8.5CA-TR

SMA6J10CA-TR

SMA6J12CA-TR

SMA6J13CA-TR

SMA6J15CA-TR

SMA6J18CA-TR

SMA6J20CA-TR

SMA6J24CA-TR

SMA6J26CA-TR

SMA6J28CA-TR

SMA6J33CA-TR

SMA6J40CA-TR

SMA6J48CA-TR

SMA6J58CA-TR

SMA6J70CA-TR

SMA6J85CA-TR

SMA6J100CA-TR

SMA6J130CA-TR

SMA6J154CA-TR

SMA6J170CA-TR

SMA6J188CA-TR

6BA

6BB

6BC

6BD

6BE

6BF

6BG

6BH

6BJ

6UK

6UM

6UN

6UO

6UQ

6UR

6US

6UT

6UU

6UV

6UW

6UX

6UY

6UZ

6UAA

6BK

6BM

6BN

6BO

6BQ

6BR

6BS

6BT

6BU

6BV

6BW

6BX

6BY

6BZ

6BAA

In order to meet environmental requirements, ST offers these devices in ECOPACK®

packages. These packages have a Lead-free second level interconnect . The category of

second level interconnect is marked on the package and on the inner box label, in

compliance with JEDEC Standard JESD97. The maximum ratings related to soldering

conditions are also marked on the inner box label. ECOPACK is an ST trademark.

ECOPACK specifications are available at: www.st.com.

8/10

SMA6J

Ordering information

Delivery

mode

Part number

Marking

Package

Weight

Base qty

SMA6JxxA-TR

See Table 6.

SMA

0.068 g

5000

Tape and reel

SMA6JxxCA-TR

Revision history

Date

Revision

Changes

21-Feb-2007

First issue.

9/10

SMA6J

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10/10

SMA6J18CA-TR [STMICROELECTRONICS]

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