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MLCE6.5 – MLCE170A

Available

1500 Watt Low Capacitance

Transient Voltage Suppressor

DESCRIPTION

Screening in

reference to

MIL-PRF-19500

available

This high-reliability plastic encapsulated Transient Voltage Suppressor (TVS) diode series for thru-hole

mounting includes a rectifier diode element in series and in the opposite direction. This allows it to

present a very low (< 100 pF) capacitance to the system it is protecting (see

Figure 2).

The low

capacitance of these devices makes them particularly useful for protecting lines carrying high frequency

signals. They are also useful in protecting from the secondary effects of lightning in airborne avionics per

IEC61000-4-5, RTCA/DO-160G, and ARINC 429. If bidirectional transient capability is required, two of

these low capacitance TVS devices may be used in parallel and opposite directions (anti-parallel) for

complete ac protection.

Important:

For the latest information, visit our website

http://www.microsemi.com.

FEATURES

•

High reliability with fabrication and assembly lot traceability.

All devices are 100% surge tested.

Unidirectional construction. For bidirectional applications, use two in anti-parallel (see

Figure 4).

Suppresses transients up to 1500 watts @10/1000μs (see

Figure 1).

Working standoff voltage (V

) range 6.5 V to 170 V.

5% and 10% tolerance options available

Clamps transients in less than 100 pico seconds.*

3σ lot norm screening performed on standby current I

Moisture classification is level 1 with no dry pack required per IPC/JEDEC J-STD-020B.

Screening options available in reference to MIL-PRF-19500. See

Part Nomenclature

below for all

available options, and to our

Hi-Rel Non-Hermetic Products

brochure on our web site for more

details.

RoHS compliant versions available.

*measurement limitation

Case 1 Package

Also available in:

SMCG & SMCJ

package

(tabbed surface mounts)

SMCG(J)LCE6.5 –

SMCG(J)LCE170

•

APPLICATIONS / BENEFITS

•

Protection from switching transients and induced RFI.

Low capacitance for data line protection to 1 MHz.

Protection for fast data rate lines in aircraft up to:

RTCA/DO-160G – level 5 Waveform 4 and Level 2 Waveform 5A in (also see

MicroNote 130)

ARINC 429, Part 1, paragraph 2.4.1.1 with bit rates of 100 kb/s.

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 Ohms source impedance:

Class 1: MLCE6.5A to MLCE170A

Class 2: MLCE6.5A to MLCE150A

Class 3: MLCE6.5A to MLCE70A

Class 4: MLCE6.5A to MLCE36A

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

Class 1: MLCE6.5A to MLCE90A

Class 2: MLCE6.5A to MLCE45A

Class 3: MLCE6.5A to MLCE22A

Class 4: MLCE6.5A to MLCE11A

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

Class 2: MLCE6.5A to MLCE20A

Class 3: MLCE6.5A to MLCE10A

•

MSC – Lawrence

6 Lake Street,

Lawrence, MA 01841

Tel: 1-800-446-1158 or

(978) 620-2600

Fax: (978) 689-0803

MSC – Ireland

Gort Road Business Park,

Ennis, Co. Clare, Ireland

Tel: +353 (0) 65 6840044

Fax: +353 (0) 65 6822298

Website:

www.microsemi.com

•

RF01009, Rev. B (5/7/13)

Page 1 of 5

MLCE6.5 – MLCE170A

MAXIMUM RATINGS

@ 25 ºC unless otherwise stated

Parameters/Test Conditions

Junction and Storage Temperature

(1)

Thermal Resistance Junction-to-Lead

Peak Pulse Power dissipation @ 25 ºC (at 10/1000

µs,

(2)

see

Figures 1, 2, and 3)

Rated Average Power Dissipation

= +40 ºC

(1)

= +25 ºC

Solder Temperature @ 10 s

Symbol

and T

STG

ӨJL

M(AV)

Value

-65 to +150

1500

5.0

1.52

260

Unit

ºC

ºC/W

Notes:

1. At 3/8 inch (10 mm) from body, or 82 ºC/W junction to ambient when mounted on FR4 PC board with 4 mm2 copper pads (1oz), track width

1 mm, length 25mm.

2. With a impulse repetition rate of 0.01% or less. TVS devices are not typically used for dc power dissipation and are instead operated at

≤ V

except for transients that briefly drive the device into avalanche breakdown (V

to V

region) of the TVS element. Also see

Application Schematics

for further protection details in rated peak power for unidirectional and bidirectional configurations respectively.

MECHANICAL and PACKAGING

•

CASE: Void-free transfer molded thermosetting epoxy body meeting UL94V-0.

TERMINALS: Tin-lead or RoHS compliant annealed matte-tin plating. Solderable to MIL-STD-750, method 2026.

MARKING: Part number.

POLARITY: Cathode indicated by band.

TAPE & REEL option: Standard per EIA-296 (add “TR” suffix to part number). Consult factory for quantities.

WEIGHT: Approximately 1.5 grams.

See

Package Dimensions

on last page.

PART NOMENCLATURE

Reliability Level

MXL

*(see

High Reliability

Non-Hermetic Product

Portfolio)

Low Capacitance

Rated

6.5

RoHS Compliance

e3 = RoHS Compliant

Blank = non-RoHS Compliant

Tolerance Level

A = +/- 5%

Blank = +/- 10%

Reverse Stand-Off Voltage

(see

Electrical Characteristics

table)

Encapsulated Plastic Package

RF01009, Rev. B (5/7/13)

Page 2 of 5

MLCE6.5 – MLCE170A

SYMBOLS & DEFINITIONS

Definition

Breakdown Current: The current used for measuring breakdown voltage V

(BR)

Standby Current: The current at the rated standoff voltage V

Forward Current: The forward current dc value, no alternating component.

Peak Impulse Current: The peak current during the impulse.

Peak Pulse Power: The peak power dissipation resulting from the peak impulse current I

Clamping Voltage: The maximum clamping voltage at specified I

(peak pulse current) at the specified pulse

conditions.

Minimum Breakdown Voltage: The minimum voltage the device will exhibit at a specified current.

Working Standoff Voltage: The maximum peak voltage that can be applied over the operating temperature range.

Symbol

(BR)

ELECTRICAL CHARACTERISTICS

@ 25 ºC unless otherwise stated

Working

Stand-Off

Voltage

(Note 1)

Volts

6.5

7.0

7.5

8.0

8.5

9.0

100

110

120

130

150

160

170

Breakdown Voltage

(BR)

@ I

(BR)

Volts

Maximum

Stanby

Current

@ V

µA

1000

500

250

100

Maximum

Clamping

Voltage

@ I

Volts

11.2

12.0

12.9

13.6

14.4

15.4

17.0

18.2

19.9

21.5

23.2

24.4

26.0

27.6

29.2

32.4

35.5

38.9

42.1

45.5

48.4

53.3

58.1

64.5

69.4

72.7

77.4

82.4

87.1

93.6

96.8

103

113

121

129

146

162

178

193

209

243

259

275

Maximum

Peak Pulse

Current

Amps

100

28.1

25.8

23.3

21.6

20.6

19.4

18.2

17.2

16.0

15.5

14.6

13.3

12.4

11.6

10.3

9.3

8.4

7.8

7.2

6.2

5.8

5.4

Maximum

Capacitance

C @ 0 Volts,

f = 1 MHz

Working

Inverse

Blocking

Voltage

WIB

Volts

150

300

Inverse

Blocking

Leakage

Current

µA

Peak

Inverse

Blocking

Voltage

PIB

Volts

100

200

400

MICROSEMI

Part Number

MLCE6.5A

MLCE7.0A

MLCE7.5A

MLCE8.0A

MLCE8.5A

MLCE9.0A

MLCE10A

MLCE11A

MLCE12A

MLCE13A

MLCE14A

MLCE15A

MLCE16A

MLCE17A

MLCE18A

MLCE20A

MLCE22A

MLCE24A

MLCE26A

MLCE28A

MLCE30A

MLCE33A

MLCE36A

MLCE40A

MLCE43A

MLCE45A

MLCE48A

MLCE51A

MLCE54A

MLCE58A

MLCE60A

MLCE64A

MLCE70A

MLCE75A

MLCE80A

MLCE90A

MLCE100A

MLCE110A

MLCE120A

MLCE130A

MLCE150A

MLCE160A

MLCE170A

MIN

7.22

7.78

8.33

8.89

9.44

10.0

11.1

12.2

13.3

14.4

15.6

16.7

17.8

18.9

20.0

22.2

24.4

26.7

28.9

31.1

33.3

36.7

40.0

44.4

47.8

50.0

53.3

56.7

60.0

64.4

66.7

71.1

77.8

83.3

88.7

100

111

122

133

144

167

178

189

MAX

7.98

8.60

10.2

9.83

10.4

11.1

12.3

13.5

14.7

15.9

17.2

18.5

19.7

20.9

22.1

24.5

26.9

29.5

31.9

34.4

36.8

40.6

44.2

49.1

52.8

55.3

58.9

62.7

66.3

71.2

73.7

78.6

86.0

92.1

98.0

111

123

135

147

159

185

197

209

100

NOTE 1:

TVS are normally selected according to the reverse “standoff voltage” (V

) which should be equal to or greater than the dc or continuous

peak operating voltage level.

RF01009, Rev. B (5/7/13)

Page 3 of 5

MLCE6.5 – MLCE170A

GRAPHS

- Peak Pulse Power - kW

Pulse Time (tw) in µs

FIGURE 1

Peak Pulse Power vs Pulse Time (tw) in µs

RF01009, Rev. B (5/7/13)

Page 4 of 5

MLCE6.5 – MLCE170A

PACKAGE DIMENSIONS

NOTES:

1. Dimensions are in inches.

2. Millimeter equivalents are given for information only.

3. The major diameter is essentially constant along its length.

4. In accordance with ASME Y14.5M, diameters are equivalent to

Φx

symbology.

Symbol

Dimensions

Inches

Millimeters

Min

Max

Min

Max

0.190

0.360

0.038

1.10

0.205

0.375

0.042

1.625

4.826

9.146

0.958

27.9

5.207

9.527

1.074

41.28

APPLICATION SCHEMATICS

The TVS low capacitance device configuration is shown in figure 2. As a further option for unidirectional applications, an additional

low capacitance rectifier diode may be used in parallel in the same polarity direction as the TVS as shown in figure 3. In

applications where random high voltage transients occur, this will prevent reverse transients from damaging the internal low

capacitance rectifier diode and also provide a low voltage conducting direction. The added rectifier diode should be of similar low

capacitance and also have a higher reverse voltage rating than the TVS clamping voltage V

. The Microsemi recommended

rectifier part number is the “ELCR80” for the application in figure 3. If using two (2) low capacitance TVS devices in anti-parallel for

bidirectional applications, this added protective feature for both directions (including the reverse of each rectifier diode) is also

provided. The unidirectional and bidirectional configurations in figure 3 and 4 will both result in twice the capacitance of figure 2.

FIGURE 2

TVS with internal Low

Capacitance Diode

FIGURE 3

Optional Unidirectional

configuration (TVS and

separate rectifier diode

in parallel)

FIGURE 4

Optional Bidirectional

configuration (two TVS

devices in anti-parallel)

RF01009, Rev. B (5/7/13)

Page 5 of 5