MASMLJ36CAE3 [MICROSEMI]

Trans Voltage Suppressor Diode, 3000W, 36V V(RWM), Bidirectional, 1 Element, Silicon, DO-214AB, ROHS COMPLIANT, PLASTIC PACKAGE-2;


型号：	MASMLJ36CAE3
厂家：	Microsemi
描述：	Trans Voltage Suppressor Diode, 3000W, 36V V(RWM), Bidirectional, 1 Element, Silicon, DO-214AB, ROHS COMPLIANT, PLASTIC PACKAGE-2 局域网光电二极管
文件：	总12页 (文件大小：950K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MSMLG5.0A – MSMLG170CAe3, MSMLJ5.0A – MSMLJ170CAe3 Surface

Mount 3000 Watt Transient Voltage Suppressor

Product Overview

The MSMLG5.0A–MSMLG170CA and the MSMLJ5.0A–MSMLJ170CA series of high-reliability transient

voltage suppressors (TVS) protect circuits from voltage spikes containing up to 3000 W (10/1000 μs

model pulse). The SMLG gull-wing design in the DO-215AB package allows for visible solder connections.

The SMLJ J-bend design in the DO-214AB package allows for greater PC board mounting density.

Selections include unidirectional and bidirectional as well as RoHS-compliant versions. These are

available with a variety of upscreening options for enhanced reliability. They protect against the

secondary effects of lightning per IEC61000-4-5 and against voltage pulses from inductive switching

environments and induced by RF radiation. Since their response time is virtually instantaneous, they can

also be used in protection from ESD and EFT per IEC61000-4-2 and IEC61000-4-4.

For the latest information, visit our website www.microsemi.com.

1.1

Features

The following are key features of the MSMLG5.0A through MSMLG170CAe3 and the MSMLJ5.0A

through MSMLJ170CAe3 devices:

High-reliability devices with fabrication and assembly lot traceability for all M prefix devices

All devices are 100% surge tested

3σ lot norm screening performed on standby current (ID) for all M prefix devices

Available in both unidirectional and bidirectional versions

Moisture classification is “Level 1” with no dry pack required per IPC/JEDEC J-STD-020B for all M

prefix devices.

Enhanced reliability screening options with M prefix are available in reference to MIL-PRF-19500.

Refer to High Reliability Up-Screened Plastic Products Portfolio for more details on the screening

options (see Part Nomenclature for all available options).

RoHS compliant versions available

Axial-lead equivalent packages for thru-hole mounting are available as M5KP5.0A to M5KP110CA

with 5000 W rating (contact Microsemi for other surface mount options).

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

1.2

Applications and Benefits

The following are benefits of the MSMLG5.0A through MSMLG170CAe3 and the MSMLJ5.0A through

MSMLJ170CAe3 devices.

Suppresses transients up to 3000 W (10/1000 µs test pulse—see Figure 2 (see page 7))

Protection from switching transients and induced RF

Protection from ESD, and EFT per IEC 61000-4-2 and IEC 61000-4-4

Secondary lightning protection per IEC 61000-4-5 with 42 Ω source impedance:

Class 1 and 2: SML 5.0A to SML 170A or CA

Class 3: SML 5.0A to SML 150A or CA

Class 4: SML 5.0A to SML 75A or CA

Secondary lightning protection per IEC 61000-4-5 with 12 Ω source impedance:

Class 1: SML 5.0A to SML 170A or CA

Class 2: SML 5.0A to SML 90A or CA

Class 3: SML 5.0A to SML 48A or CA

Class 4: SML 5.0A to SML 24A or CA

Secondary lightning protection per IEC 61000-4-5 with 2 Ω source impedance:

Class 2: SML 5.0A to SML 43A or CA

Class 3: SML 5.0A to SML 22A or CA

Class 4: SML 5.0A to SML10A or CA

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

1.3

Part Nomenclature

The following table lists the part nomenclature for the MSMLG5.0A through MSMLG170CAe3 and the

MSMLJ5.0 through MSMLJ170CAe3 devices.

Table 1 • MXSMLG5.0CAe3 Part Nomenclature

Reliability level^*

M (controlled product)

MA (aviconics grade) MX (reference JANTX)

MXL (MX life)

Blank = commercial

*(see Hirel Non-Hermetic Product Portfolio)

Surface-mount package

3000 W power level

G or J

5.0

Gull-wing or J-bend lead frame

Reverse standoff voltage

(see Typical Electrical Performance (see page 5)

table)

Uni/bidirectional

C = Bidirectional

Blank = Undirectional

± 5% Tolerance level

RoHS Compliance

e3 = RoHS compliant

Blank = non-RoHS compliant

1.4

Symbols and Definitions

The following table lists the symbols and definitions used for the MSMLG5.0A through MSMLG170CAe3

and the MSMLJ5.0 through MSMLJ170CAe3 devices.

Table 2 • Symbols and Definitions

Symbol

I(BR)

Value

Definition

Breakdown current

Standby current

The current used for measuring breakdown voltage V(BR).

The current at the rated standoff voltage VWM.

The forward current dc value, no alternating component.

The peak current during the impulse.

Forward current

Peak impulse current

Peak pulse Power

Minimum breakdown voltage

Clamping voltage

IPP

PPP

V(BR)

The peak power dissipation resulting from peak impulse current IPP.

The minimum voltage the device will exhibit at a specified current.

Clamping voltage at IPP (peak pulse current) at the specified pulse

conditions (typically shown as maximum value).

VWM

Rated working standoff voltage

The maximum peak voltage that can be applied over the operating

temperature range.

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

Electrical Specifications

This section shows the electrical specifications for the MSMLG5.0A–MSMLG170CA and the MSMLJ5.0A–

MSMLJ170CA devices.

2.1

Maximum Ratings

The following table shows you the absolute maximum ratings for the MSMLG5.0A–MSMLG170CA and

the MSMLJ5.0A–MSMLJ170CA devices.

Table 3 • Absolute Maximum Ratings

Parameter/Test Conditions

Symbol

TJ and TSTG

RθJL

Value

–65 to 150

17.5

Unit

°C

Junction and storage temperature

Thermal resistance junction-to-lead

Thermal resistance junction-to-ambient¹

°C/W

RθJA

77.5

Peak pulse power dissipation at 25 °C

(10/1000 μs, see Figures 1, 2, and 3).

PPP

3000

Impulse repetition rate (duty factor)

0.01 or

less

tclamping (0 V to V(BR) min)

Unidirectional

Bidirectional

TL = 45 °C

tclamping

<100

Rated average power dissipation

PM(AV)

TL = 25 °C

1.61¹

200

260

Maximum forward surge current²

Solder temperature at 10 s

IFSM

TSP

A (pk)

°C

Notes:

1. When mounted on FR4 PC board (1 oz Cu) with recommended mounting pad (see pad layout).

2. Peak impulse of 8.3 ms half-sine wave at 25 °C (unidirectional only).

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

2.2

Typical Electrical Performance

The following table shows the Electrical characteristics for the MSMLG5.0A–MSMLG170CA and the

MSMLJ5.05A–MSMLJ170CA devices at 25 °C unless otherwise specified.

For bidirectional device types, indicate a CA suffix after the part number (i.e. MSMLG170CA).

Table 4 • Typical Electrical Performance

Part Number

VWM

VBR Breakdown

Voltage at I(BR)

IBR Test

Current

VC Max

Clamping

Voltage

at IPP

IPP Max

Peak

ID Max

Reverse

Standoff

Voltage

Stand-by

Current

at V WM

Pulse

Current

Gull-wing

J-bend

(V)

(mA)

(V)

(A)

(µA)

SMLG5.0A

SMLG6.0A

SMLJ5.0A

SMLJ6.0A

5.0

6.0

6.40 – 7.00

6.67 – 7.37

9.2

326.0

291.3

1000

10.3

SMLG6.5A

SMLG7.0A

SMLJ6.5A

SMLJ7.0A

6.5

7.0

7.22 – 7.98

7.78 – 8.60

11.2

12.0

267.9

250.0

500

200

SMLG7.5A

SMLG8.0A

SMLJ7.5A

SMLJ8.0A

7.5

8.0

8.33 – 9.21

8.89 – 9.83

12.9

13.6

232.6

220.6

100

SMLG8.5A

SMLG9.0A

SMLJ8.5A

SMLJ9.0A

8.5

9.0

9.44 – 10.4

10.0 – 11.1

14.4

15.4

208.4

194.8

SMLG10A

SMLG11A

SMLJ10A

SMLJ11A

11.1 – 12.3

12.2 – 13.5

17.0

18.2

176.4

164.8

SMLG12A

SMLG13A

SMLJ12A

SMLJ13A

13.3 – 14.7

14.4 – 15.9

19.9

21.5

150.6

139.4

SMLG14A

SMLG15A

SMLJ14A

SMLJ15A

15.6 – 17.2

16.7 – 18.5

23.2

24.4

129.4

123.0

SMLG16A

SMLG17A

SMLJ16A

SMLJ17A

17.8 – 19.7

18.9 – 20.9

26.0

27.6

115.4

106.6

SMLG18A

SMLG20A

SMLJ18A

SMLJ20A

20.0 – 22.1

22.2 – 24.5

29.2

32.4

102.8

92.6

SMLG22A

SMLG24A

SMLJ22A

SMLJ24A

24.4 – 26.9

26.7 – 29.5

35.5

38.9

84.4

77.2

SMLG26A

SMLG28A

SMLJ26A

SMLJ28A

28.9 – 31.9

31.1 – 34.4

42.1

45.4

71.2

66.0

SMLG30A

SMLG33A

SMLJ30A

SMLJ33A

33.3 – 36.8

36.7 – 40.6

48.4

53.3

62.0

56.2

SMLG36A

SMLG40A

SMLJ36A

SMLJ40A

40.0 – 44.2

44.4 – 49.1

58.1

64.5

51.6

46.4

SMLG43A

SMLG45A

SMLJ43A

SMLJ45A

47.8 – 52.8

50.0 – 55.3

69.4

72.7

43.2

41.2

SMLG48A

SMLG51A

SMLJ48A

SMLJ51A

53.3 – 58.9

56.7 – 62.7

77.4

82.4

38.8

36.4

SMLG54A

SMLG58A

SMLJ54A

SMLJ58A

60.0 – 66.3

64.4 – 71.2

87.1

93.6

34.4

32.0

SMLG60A

SMLG64A

SMLJ60A

SMLJ64A

66.7 – 73.7

71.1 – 78.6

96.8

31.0

29.2

103.0

SMLG70A

SMLG75A

SMLJ70A

SMLJ75A

77.8 – 86.0

83.3 – 92.1

113

121

26.6

24.8

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

Part Number

VWM

VBR Breakdown

Voltage at I(BR)

IBR Test

Current

VC Max

Clamping

Voltage

at IPP

IPP Max

Peak

ID Max

Reverse

Standoff

Voltage

Stand-by

Current

at V WM

Pulse

Current

SMLG78A

SMLG85A

SMLJ78A

SMLJ85A

86.7 – 95.8

126

137

22.8

20.8

94.4 – 104.0

SMLG90A

SMLJ90A

100 – 111

111 – 123

146

162

20.6

18.6

SMLG100A

SMLJ100A

100

SMLG110A

SMLG120A

SMLJ110A

SMLJ120A

110

120

122 – 135

133 – 147

177

193

16.8

15.6

SMLG130A

SMLG150A

SMLJ130A

SMLJ150A

130

150

144 – 159

167 – 185

209

243

14.4

12.4

SMLG160A

SMLG170A

SMLJ160A

SMLJ170A

160

170

178 – 197

189 – 209

259

275

11.6

11.0

Bidirectional capacitance is half that shown in Figure 4 (see page 8) at 0 V.

2.3

Typical Performance Curves

This section shows the typical performance curves of the MSMLG5.0A–MSMLG170CA and the

MSMLJ5.0A–MSMLJ170CA devices.

The following graph shows peak-pulse power versus pulse time (up to 50% of exponentially decaying

pulse).

Figure 1 • Peak Pulse Power vs. Pulse Time (to 50% of exponentially decaying pulse)

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

The following graph shows the pulse waveform with these parameters: tr = 10 µs and tp = 1000 µs.

Figure 2 • Pulse Waveform

The following graph shows the derating curve.

Figure 3 • Derating Curve

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

The following graph shows the typical capacitance versus the breakdown voltage. Note that the

bidirectional capacitance is half that shown at 0 V.

Figure 4 • Typical Capacitance vs. Breakdown Voltage (Unidirectional Configuration)

Note:

Bidirectional capacitance is half that shown in Figure 4 at 0 V.

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

Package Specification

The following sections shows the package specifications for the SMLG (DO-215AB) and SMLG (DO-

214AB) packages.

3.1

Package Information

The following illustration shows the SMLJ DO-214AB package dimensions. The typical standoff height is

0.004 in—0.008 in (0.1—0.2 mm).

Figure 5 • SMLG (DO-215AB) Package Dimensions

The following table shows the SMLG DO-215AB mechanical and packaging information.

Table 5 • SMLG (DO-215AB) Mechanical and Package Information

Letter

Dimensions (in.)

0.115—0.121

0.260—0.280

0.220—0.245

0.077—0.110

0.380—0.400

0.025—0.040

Dimensions (mm)

2.92—3.07

6.60—7.11

5.59—6.22

1.95—2.80

F¹

9.65—10.16

0.635—1.016

Note:

1. Dimesion "E" exceeds the JEDEC outline as shown.

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

The following illustration shows the mechanical and packaging information for the SMLG (DO-214AB)

package.

Figure 6 • SMLJ_(DO-214AB)_Package_Dimensions

The following table shows the SMLJ DO-214AB mechanical and packaging information.

Table 6 • SMLJ (DO-214AB) Mechanical and Package Information

Letter

Dimensions (in.)

0.115—0.121

0.260—0.280

0.220—0.245

0.305—0.320

0.077—0.110

0.030—0.060

Dimensions (mm)

2.92—3.07

6.60—7.11

5.59—6.22

7.75—8.13

1.95—2.80

0.760—1.52

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

3.2

Pad Layout

The following illustration shows the pad layout for the SMLG (DO-215AB) and SMLJ (DO-214AB)

packages.

Figure 7 • Pad Layout

The following table shows the SMLG DO-215AB pad layout dimensions.

Table 7 • SMLG (DO-215AB) Pad Layout Dimensions

Letter

Dimensions (in.)

0.510

Dimensions (mm)

12.95

2.79

3.81

0.110

0.150

The following table shows the SMLJ DO-214AB pad layout dimensions.

Table 8 • SMLJ (DO-214AB) Pad Layout Dimensions

Letter

Dimensions (in.)

0.390

Dimensions (mm)

9.90

2.79

3.81

0.110

0.150

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

Microsemi makes no warranty, representation, or guarantee regarding the information contained herein or the suitability of its products and services

for any particular purpose, nor does Microsemi assume any liability whatsoever arising out of the application or use of any product or circuit. The

products sold hereunder and any other products sold by Microsemi have been subject to limited testing and should not be used in conjunction with

mission-critical equipment or applications. Any performance specifications are believed to be reliable but are not verified, and Buyer must conduct and

complete all performance and other testing of the products, alone and together with, or installed in, any end-products. Buyer shall not rely on any data

and performance specifications or parameters provided by Microsemi. It is the Buyer's responsibility to independently determine suitability of any

products and to test and verify the same. The information provided by Microsemi hereunder is provided "as is, where is" and with all faults, and the

entire risk associated with such information is entirely with the Buyer. Microsemi does not grant, explicitly or implicitly, to any party any patent rights,

licenses, or any other IP rights, whether with regard to such information itself or anything described by such information. Information provided in this

document is proprietary to Microsemi, and Microsemi reserves the right to make any changes to the information in this document or to any products

and services at any time without notice.

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One Enterprise, Aliso Viejo,

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Within the USA: +1 (800) 713-4113

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Sales: +1 (949) 380-6136

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are trademarks of Microsemi Corporation. All other trademarks and service

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RF01003

Microsemi Proprietary and Confidential. MSMLG5.0A–MSMLG170CAe3, MSMLJ5.0A–MSMLJ170CAe3 Datasheet Revision D

MASMLJ36CAE3 [MICROSEMI]

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