JANMVSMCJLCE36TR [MICROSEMI]

1500 WATT LOW CAPACITANCE SURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSOR; 1500 WATT低电容表面贴装瞬态电压抑制器


型号：	JANMVSMCJLCE36TR
厂家：	Microsemi
描述：	1500 WATT LOW CAPACITANCE SURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSOR 1500 WATT低电容表面贴装瞬态电压抑制器
文件：	总4页 (文件大小：253K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SMCGLCE6.5 thru SMCGLCE170A, e3

SMCJLCE6.5 thru SMCJLCE170A, e3

1500 WATT LOW CAPACITANCE

SURFACE MOUNT TRANSIENT

VOLTAGE SUPPRESSOR

S C O T T S D A L E D I V I S I O N

DESCRIPTION

APPEARANCE

This surface mount Transient Voltage Suppressor (TVS) product family includes a

rectifier diode element in series and opposite direction to achieve low capacitance

below 100 pF. They are also available as RoHS Compliant with an e3 suffix. The low

TVS capacitance may be used for protecting higher frequency applications in inductive

switching environments or electrical systems involving secondary lightning effects per

IEC61000-4-5 as well as RTCA/DO-160D or ARINC 429 for airborne avionics. They

also protect from ESD and EFT per IEC61000-4-2 and IEC61000-4-4. If bipolar

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 (Figure 6).

IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com

FEATURES

APPLICATIONS / BENEFITS

•

Available in standoff voltage range of 6.5 to 200 V

Low capacitance of 100 pF or less

•

1500 Watts of Peak Pulse Power at 10/1000 μs

Protection for aircraft fast data rate lines per select

level waveforms in RTCA/DO-160D & ARINC 429

Molding compound flammability rating: UL94V-O

•

Low capacitance for high speed data line

interfaces

Two different terminations available in C-bend (modified J-

Bend with DO-214AB) or Gull-wing (DO-215AB)

•

IEC61000-4-2 ESD 15 kV (air), 8 kV (contact)

•

Options for screening in accordance with MIL-PRF-19500

for JAN, JANTX, JANTXV, and JANS are available by

adding MQ, MX, MV, or MSP prefixes respectively to part

numbers

IEC61000-4-5 (Lightning) as further detailed in

LCE6.5 thru LCE170A data sheet

•

T1/E1 Line Cards

Base Stations

•

Optional 100% screening for avionics grade is available by

adding MA prefix to part number for 100% temperature

cycle –55ºC to 125ºC (10X) as well as surge (3X) and 24

hours HTRB with post test V_BR& I_R

WAN Interfaces

XDSL Interfaces

CSU/DSU Equipment

RoHS Compliant devices available by adding an “e3” suffix

MAXIMUM RATINGS

MECHANICAL AND PACKAGING

CASE: Molded, surface mountable

•

1500 Watts of Peak Pulse Power dissipation at 25^oC with

repetition rate of 0.01% or less*

•

TERMINALS: Gull-wing or C-bend (modified J-

bend) tin-lead or RoHS compliant annealed

matte-tin plating solderable per MIL-STD-750,

method 2026

•

Clamping Factor: 1.4 @ Full Rated power

1.30 @ 50% Rated power

•

t_clamping(0 volts to V_(BR)min): Less than 5x10^-9seconds

Operating and Storage temperatures: -65 to +150^oC

Steady State power dissipation: 5.0W @ T_L= 50^oC

THERMAL RESISTANCE: 20^oC/W (typical junction to

•

POLARITY: Cathode indicated by band

MARKING: Part number without prefix (e.g.

LCE6.5A, LCE6.5Ae3, LCE33, LCE33Ae3, etc.

lead (tab) at mounting plane

•

TAPE & REEL option: Standard per EIA-481-B

with 16 mm tape, 750 per 7 inch reel or 2500 per

13 inch reel (add “TR” suffix to part number)

* When pulse testing, do not pulse in opposite direction

(see “Schematic Applications” section herein and

Figures 5 & 6 for further protection in both directions)

ELECTRICAL CHARACTERISTICS @ 25^oC

Maximum Maximum

Reverse

V_WIB

I_IB

V_PIB

Peak

Inverse

Blocking

Voltage

Volts

MICROSEMI

Part Number

MICROSEMI

Part Number

Maximum

Capacitance Working

@ 0 Volts,

f = 1 MHz

Breakdown Voltage

Reverse

Leakage

Clamping

Voltage

Stand-Off

Voltage

Maximum

Peak Pulse

Inverse

Blocking

Leakage

Current

V_BR@ I_(BR)

Inverse

Blocking

Voltage

Volts

@V_WM

@I_PP

V_C

V_WM

Current I_PP

@10/1000

Amps

Gull-Wing

“G”

Modified

“J”

Volts

I_D

Bend Lead

Volts

μA

1000

500

250

100

MIN

7.22

7.78

8.33

8.89

9.44

10.0

MAX

8.82

7.98

9.51

8.60

10.2

9.21

10.9

9.83

11.5

10.4

12.2

11.1

SMCGLCE6.5

SMCGLCE6.5A

SMCGLCE7.0

SMCGLCE7.0A

SMCGLCE7.5

SMCGLCE7.5A

SMCGLCE8.0

SMCGLCE8.0A

SMCGLCE8.5

SMCGLCE8.5A

SMCGLCE9.0

SMCGLCE9.0A

SMCJLCE6.5

SMCJLCE6.5A

SMCJLCE7.0

SMCJLCE7.0A

SMCJLCE7.5

SMCJLCE7.5A

SMCJLCE8.0

SMCJLCE8.0A

SMCJLCE8.5

SMCJLCE8.5A

SMCJLCE9.0

SMCJLCE9.0A

6.5

7.0

7.5

8.0

8.5

9.0

12.3

11.2

13.3

12.0

14.3

12.9

15.0

13.6

15.9

14.4

16.9

15.4

100

6-06-2005 REV D

Microsemi

Page 1

Scottsdale Division

8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503

SMCGLCE6.5 thru SMCGLCE170A, e3

SMCJLCE6.5 thru SMCJLCE170A, e3

1500 WATT LOW CAPACITANCE

SURFACE MOUNT TRANSIENT

VOLTAGE SUPPRESSOR

S C O T T S D A L E D I V I S I O N

Maximum Maximum

Reverse

Stand-Off

Voltage

V_WIB

Working

Inverse

Blocking

Voltage

Volts

I_IB

V_PIB

Peak

Inverse

Blocking

Voltage

Volts

MICROSEMI

Part Number

MICROSEMI

Part Number

Breakdown Voltage

V_BR@ I_(BR)

Reverse

Leakage

Clamping

Voltage

Maximum

Peak Pulse

Maximum

Capacitance

@ 0 Volts

Inverse

Blocking

Leakage

Current

@V_WM

I_D

@I_PP

V_C

V_WM

Current I_PP

@10/1000

Amps

Gull-Wing

“G”

Bend Lead

Modified

“J”

Bend Lead

Volts

μA

MIN

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

MAX

13.6

12.3

14.9

13.5

16.3

14.7

17.6

15.9

19.1

17.2

20.4

18.5

21.8

19.7

23.1

20.9

24.4

22.1

27.1

24.5

29.8

26.9

32.6

29.5

353

31.9

38.0

34.4

40.7

36.8

44.9

40.6

48.9

44.2

54.3

49.1

58.4

52.8

61.1

55.3

65.1

58.9

69.3

62.7

73.3

66.3

78.7

71.2

81.5

73.7

86.9

78.6

95.1

85.0

102

SMCGLCE10

SMCGLCE10A

SMCGLCE11

SMCGLCE11A

SMCGLCE12

SMCGLCE12A

SMCGLCE13

SMCGLCE13A

SMCGLCE14

SMCGLCE14A

SMCGLCE15

SMCGLCE15A

SMCGLCE16

SMCGLCE16A

SMCGLCE17

SMCGLCE17A

SMCGLCE18

SMCGLCE18A

SMCGLCE20

SMCGLCE20A

SMCGLCE22

SMCGLCE22A

SMCGLCE24

SMCGLCE24A

SMCGLCE26

SMCGLCE26A

SMCGLCE28

SMCGLCE28A

SMCGLCE30

SMCGLCE30A

SMCGLCE33

SMCGLCE33A

SMCGLCE36

SMCGLCE36A

SMCGLCE40

SMCGLCE40A

SMCGLCE43

SMCGLCE43A

SMCGLCE45

SMCGLCE45A

SMCGLCE48

SMCGLCE48A

SMCGLCE51

SMCGLCE51A

SMCGLCE54

SMCGLCE54A

SMCGLCE58

SMCGLCE58A

SMCGLCE60

SMCGLCE60A

SMCGLCE64

SMCGLCE64A

SMCGLCE70

SMCGLCE70A

SMCGLCE75

SMCGLCE75A

SMCGLCE80

SMCGLCE80A

SMCGLCE90

SMCGLCE90A

SMCGLCE100

SMCGLCE100A

SMCGLCE110

SMCGLCE110A

SMCGLCE120

SMCGLCE120A

SMCGLCE130

SMCGLCE130A

SMCGLCE150

SMCGLCE150A

SMCGLCE160

SMCGLCE160A

SMCGLCE170

SMCGLCE170A

SMCJLCE10

SMCJLCE10A

SMCJLCE11

SMCJLCE11A

SMCJLCE12

SMCJLCE12A

SMCJLCE13

SMCJLCE13A

SMCJLCE14

SMCJLCE14A

SMCJLCE15

SMCJLCE15A

SMCJLCE16

SMCJLCE16A

SMCJLCE17

SMCJLCE17A

SMCJLCE18

SMCJLCE18A

SMCJLCE20

SMCJLCE20A

SMCJLCE22

SMCJLCE22A

SMCJLCE24

SMCJLCE24A

SMCJLCE26

SMCJLCE26A

SMCJLCE28

SMCJLCE28A

SMCJLCE30

SMCJLCE30A

SMCJLCE33

SMCJLCE33A

SMCJLCE36

SMCJLCE36A

SMCJLCE40

SMCJLCE40A

SMCJLCE43

SMCJLCE43A

SMCJLCE45

SMCJLCE45A

SMCJLCE48

SMCJLCE48A

SMCJLCE51

SMCJLCE51A

SMCJLCE54

SMCJLCE54A

SMCJLCE58

SMCJLCE58A

SMCJLCE60

SMCJLCE60A

SMCJLCE64

SMCJLCE64A

SMCJLCE70

SMCJLCE70A

SMCJLCE75

SMCJLCE75A

SMCJLCE80

SMCJLCE80A

SMCJLCE90

SMCJLCE90A

SMCJLCE100

SMCJLCE100A

SMCJLCE110

SMCJLCE110A

SMCJLCE120

SMCJLCE120A

SMCJLCE130

SMCJLCE130A

SMCJLCE150

SMCJLCE150A

SMCJLCE160

SMCJLCE160A

SMCJLCE170

SMCJLCE170A

100

110

120

130

150

160

170

18.8

17.0

20.1

18.2

22.0

19.9

23.8

21.5

25.8

23.2

26.9

24.4

28.8

26.0

30.5

27.6

32.2

29.2

35.8

32.4

39.4

35.5

43.0

38.9

46.6

42.1

50.1

45.5

53.5

48.4

59.0

53.3

64.3

58.1

71.4

64.5

76.7

69.4

80.3

72.7

85.5

77.4

91.1

82.4

96.3

87.1

103

93.6

107

96.8

114

103

125

113

134

121

142

129

160

146

179

162

196

178

214

193

231

209

268

243

287

259

100

200

400

25.4

28.1

23.3

25.8

21.0

23.3

19.5

21.6

18.7

20.6

17.5

19.4

16.5

18.2

15.6

17.2

14.6

16.0

14.0

15.5

13.2

14.6

12.0

13.3

11.2

12.4

10.6

11.6

9.4

10.3

8.4

9.3

7.7

8.4

7.0

7.8

6.5

7.2

5.6

6.2

5.2

5.8

4.9

5.4

150

300

92.1

108

98.0

122

111

136

123

149

135

163

147

176

159

204

185

218

197

100

111

122

133

144

167

178

189

231

209

304

275

NOTE 1: TVS are normally selected according to the reverse “Stand Off Voltage” (V_WM) which should be equal to or greater than the dc or continuous

peak operating voltage level.

6-06-2005 REV D

Microsemi

Scottsdale Division

Page 2

8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503

SMCGLCE6.5 thru SMCGLCE170A, e3

SMCJLCE6.5 thru SMCJLCE170A, e3

1500 WATT LOW CAPACITANCE

SURFACE MOUNT TRANSIENT

VOLTAGE SUPPRESSOR

S C O T T S D A L E D I V I S I O N

GRAPHS

Test wave form

parameterxs

tr = 10 μs

tp = 1000 μs

tp – Pulse Time – sec

FIGURE 2 PULSE WAVEFORM

FIGURE 1 PEAK PULSE POWER vs. PULSE TIME

T – Temperature – ^oC

FIGURE 3 DERATING CURVE

SCHEMATIC APPLICATIONS

The TVS low capacitance device configuration is shown in Figure 4. 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 5. 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_C. The Microsemi recommended rectifier part number for the application in Figure 5 is the “SMBJLCR80” or

“SMBGLCR80” depending on the terminal configuration desired. 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 inherently provided in Figure 6. The

unidirectional and bidirectional configurations in Figure 5 and 6 will both result in twice the capacitance of Figure 4.

FIGURE 4

FIGURE 5

FIGURE 6

TVS with internal low

capacitance rectifier diode

Optional Unidirectional

configuration (TVS and

separate rectifier diode)

in parallel)

Optional Bidirectional

configuration (two TVS

devices in anti-parallel)

6-06-2005 REV D

Microsemi

Page 3

Scottsdale Division

8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503

SMCGLCE6.5 thru SMCGLCE170A, e3

SMCJLCE6.5 thru SMCJLCE170A, e3

1500 WATT LOW CAPACITANCE

SURFACE MOUNT TRANSIENT

VOLTAGE SUPPRESSOR

S C O T T S D A L E D I V I S I O N

PACKAGE DIMENSIONS

DIMENSIONS IN INCHES

MIN

MAX .121

.115

.260

.280

.220

.245

.305

.320

.077

.104

.380

.400

.025

.040

.30

.060

DIMENSIONS IN MILLIMETERS

MIN 2.92

MAX 3.07

6.60

7.11

5.59

6.22

7.75

8.13

1.95

9.65

0.635 0.760

2.65 10.16 1.016 1.520

DO-214AB

DO-215AB

(SMCG)

(SMCJ)

PAD LAYOUT

SMCJ

INCHES

.390

.110

9.90

2.79

3.81

.150

SMCG

INCHES

0.510

0.110

12.95

2.79

3.81

0.150

6-06-2005 REV D

Microsemi

Page 4

Scottsdale Division

8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503

JANMVSMCJLCE36TR [MICROSEMI]

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