SMCJ130A [TSC]

Surface Mount Transient Voltage Suppressor; 表面贴装瞬态电压抑制器


型号：	SMCJ130A
厂家：	TAIWAN SEMICONDUCTOR COMPANY, LTD
描述：	Surface Mount Transient Voltage Suppressor 表面贴装瞬态电压抑制器二极管光电二极管局域网
文件：	总5页 (文件大小：97K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SMCJ SERIES

Surface Mount Transient Voltage Suppressor

Voltage Range

5.0 to 170 Volts

1500 Watts Peak Power

SMC/DO-214AB

Features

.129(3.27)

.118(3.0)

ꢀ

For surface mounted application

Low profile package

Built-in strain relief

Glass passivated junction

Excellent clamping capability

Fast response time: Typically less than 1.0ps from 0 volt to

BV min.

.245(6.22)

.220(5.59)

.280(7.11)

.260(6.60)

ꢀ

Typical I_Rless than 1μA above 10V

High temperature soldering guaranteed:

260^OC / 10 seconds at terminals

Plastic material used carries Underwriters Laboratory

Flammability Classification 94V-0

1500 watts peak pulse power capability with a 10 X 1000 us

waveform by 0.01% duty cycle

.012(.31)

.006(.15)

ꢀ

.103(2.62)

.079(2.00)

Mechanical Data

.008(.20)

.004(.10)

.060(1.52)

.030(0.76)

ꢀ

Case: Molded plastic

Terminals: Solder plated

Polarity: Indicated by cathode band

Standard packaging: 16mm tape (EIA STD RS-481)

Weight: 0.21gram

.320(8.13)

.305(7.75)

Dimensions in inches and (millimeters)

Maximum Ratings and Electrical Characteristics

Rating at 25℃ambient temperature unless otherwise specified.

Type Number

Symbol

P_PK

Value

Minimum 1500

Units

Watts

Peak Power Dissipation at T_A=25^OC, Tp=1ms

(Note 1)

Steady State Power Dissipation

Peak Forward Surge Current, 8.3 ms Single Half

Sine-wave Superimposed on Rated Load

(JEDEC method) (Note 2, 3) - Unidirectional Only

I_FSM

200

Amps

Maximum Instantaneous Forward Voltage at

100.0A for Unidirectional Only (Note 4)

V_F

3.5 / 5.0

Volts

^OC

Operating and Storage Temperature Range

Notes: 1. Non-repetitive Current Pulse Per Fig. 3 and Derated above T_A=25^OC Per Fig. 2.

T_J, T_STG

-55 to + 150

2. Mounted on 0.6 x 0.6" (16 x 16mm) Copper Pads to Each Terminal.

3. 8.3ms Single Half Sine-wave or Equivalent Square Wave, Duty Cycle=4 Pulses Per Minute

Maximum.

4. V_F=3.5V on SMCJ5.0 thru SMCJ90 Devices and V_F=5.0V on SMCJ100 thru SMCJ170

Devices.

Devices for Bipolar Applications

1. For Bidrectional Use C or CA Suffix for Types SMCJ5.0 through Types SMCJ170.

2. Electrical Characteristics Apply in Both Directions.

- 606 -

RATINGS AND CHARACTERISTIC CURVES (SMCJ SERIES)

FIG.1- PEAK PULSE POWER RATING CURVE

FIG.2- PULSE DERATING CURVE

100

200

150

100

NON-REPETITIVE

PULSE WAVEFORM

SHOWN in FIG. 3

=25⁰C

0.31X0.31" (8.0X8.0mm) COPPER PAD AREAS

1.0 10

td. PULSE WIDTH, sec.

0.1

100

1.0ms

10ms

100

125

150

175

200

TA, AMBIENT TEMPERATURE. ^O

FIG.3- PULSE WAVEFORM

FIG.4- MAXIMUM NON-REPETITIVE FORWARD

SURGE CURRENT

150

100

200

100

PULSE WIDTH (td) is DEFINED

AS THE POINT WHERE THE PEAK

CURRENT DECAYS to 50% of lppm

8.3ms Single Half Sine Wave

JEDEC Method

UNIDIRECTIONAL ONLY

tr=10 sec.

PEAK VALUE

lppm

HALF VALUE- lpp

10/1000 sec. WAVEFORM

AS DEFINED BY R.E.A.

100

1.0

2.0

3.0

4.0

t, TIME, ms

NUMBER OF CYCLES AT 60Hz

FIG.6- TYPICAL JUNCTION CAPACITANCE

FIG.5- TYPICAL JUNCTION CAPACITANCE

BIDIRECTIONAL

10000

20000

10000

Tj=25⁰C

f=1.0MHz

Vsig=50mVp-p

Tj=25⁰C

f=1.0MHz

Vsig=50mVp-p

MEASURED AT

ZERO BIAS

MEASURED AT

ZERO BIAS

1000

VR MEASURED AT

STAND-OFF

VOLTAGE,V^WM

MEASURED AT

STAND-OFF

VOLTAGE,V^WM

100

VWM, REVERSE STAND-OFF VOLTAGE. (V)

400

100

VWM, REVERSE STAND-OFF VOLTAGE. (V)

400

100

- 607 -

ELECTRICAL CHARACTERISTICS (TA=25^OC unless otherwise noted)

Breakdown

Voltage

Maximum

Reverse

Leakage

at VWM

(Note 3) ID(uA)

1000

500

200

100

Maximum

Peak Pulse

Surge

Current IPPM

(Note 2) (Amps)

164.0

171.0

138.0

152.0

128.0

140.0

118.0

131.0

110.0

122.0

105.0

115.0

99.0

Device Type

Modified

"J" Bend Lead

Device

Marking

Code

Test

Current

at I^T(mA)

Stand-off

voltage

V^WM(Volts)

Maximum

Clamping

Voltage at I^PPM

V^C(Volts)

9.6

V(BR) (Volts)

(Note 1)

(MIN / MAX)

6.40 / 7.3

6.40 / 7.0

SMCJ5.0

SMCJ5.0A

SMCJ6.0

SMCJ6.0A

SMCJ6.5

SMCJ6.5A

SMCJ7.0

SMCJ7.0A

SMCJ7.5

SMCJ7.5A

SMCJ8.0

SMCJ8.0A

SMCJ8.5

SMCJ8.5A

SMCJ9.0

SMCJ9.0A

SMCJ10

GDD

GDE

GDF

GDG

GDH

GDK

GDL

GDM

GDN

GDP

GDQ

GDR

GDS

GDT

GDU

GDV

GDW

GDX

GDY

GDZ

GED

GEE

GEF

GEG

GEH

GEK

GEL

GEM

GEN

GEP

GEQ

GER

GES

GET

GEU

GEV

GEW

GEX

GEY

GEZ

GFD

GFE

GFF

GFG

GFH

GFK

GFL

GFM

GFN

GFP

GFQ

GFR

GFS

GFT

10.0

1.0

5.0

6.0

6.5

7.0

7.5

9.2

11.4

10.3

12.3

11.2

13.3

12.0

14.3

12.9

15.0

13.6

15.9

14.4

16.9

15.4

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

50.0

45.4

53.5

48.4

59.0

53.3

64.3

6.67 / 8.15

6.67 / 7.37

7.22 / 8.82

7.22 / 7.98

7.78 / 9.51

7.78 / 8.60

8.33 / 10.3

8.33 / 9.21

8.89 / 10.9

8.89 / 9.83

9.44 / 11.5

9.44 / 10.4

10.0 / 12.2

10.0 / 11.1

11.1 / 13.6

11.1 / 12.3

12.2 / 14.9

12.2 / 13.5

13.3 / 16.3

13.3 / 14.7

14.4 / 17.6

14.4 / 15.9

15.6 / 19.1

15.6 / 17.2

16.7 / 20.4

16.7 / 18.5

17.8 / 21.8

17.8 / 19.7

18.9 / 23.1

18.9 / 20.9

20.0 / 24.4

20.0 / 22.1

22.2 / 27.1

22.2 /24.5

24.4 / 29.8

24.4 / 26.9

26.7 / 32.6

26.7 / 29.5

28.9 / 35.3

28.9 / 31.9

31.1 / 38.0

31.1 / 34.4

33.3 / 40.7

33.3 / 36.8

36.7 / 44.9

36.7 / 40.6

40.0 / 48.9

40.0 / 44.2

44.4 / 54.3

44.4 / 49.1

47.8 / 58.4

47.8 / 52.8

7.5

8.0

8.5

109.0

93.0

102.0

83.0

92.0

78.0

86.0

71.0

79.0

66.0

73.0

61.0

67.0

58.0

64.0

54.0

60.0

51.0

57.0

48.0

53.0

43.0

48.0

39.0

44.0

36.0

40.0

33.0

37.0

31.0

34.0

29.0

32.0

26.0

9.0

10.0

11.0

12.0

13.0

14.0

15.0

16.0

17.0

18.0

20.0

22.0

24.0

26.0

28.0

30.0

33.0

36.0

40.0

43.0

5.0

SMCJ10A

SMCJ11

SMCJ11A

SMCJ12

SMCJ12A

SMCJ13

SMCJ13A

SMCJ14

SMCJ14A

SMCJ15

SMCJ15A

SMCJ16

SMCJ16A

SMCJ17

SMCJ17A

SMCJ18

SMCJ18A

SMCJ20

SMCJ20A

SMCJ22

SMCJ22A

SMCJ24

SMCJ24A

SMCJ26

SMCJ26A

SMCJ28

SMCJ28A

SMCJ30

SMCJ30A

SMCJ33

SMCJ33A

SMCJ36

29.0

24.0

27.0

22.0

24.0

20.0

22.0

5.0

SMCJ36A

SMCJ40

SMCJ40A

SMCJ43

58.1

71.4

64.5

76.7

SMCJ43A

69.4

- 608 -

ELECTRICAL CHARACTERISTICS (TA=25^OC unless otherwise noted)

Breakdown

Voltage

Maximum

Reverse

Leakage

at V^WM

(Note 3) I^D(uA)

5.0

Maximum

Peak Pulse

Surge

Current I^PPM

(Note 2) (Amps)

19.0

21.0

18.0

20.0

17.0

19.0

16.0

18.0

15.0

16.0

14.0

16.0

13.8

15.0

12.6

13.9

11.7

13.0

11.3

12.5

10.4

11.5

9.8

Device Type

Modified

"J" Bend Lead

Device

Marking

Code

Test

Current

at I^T(mA)

Stand-off

voltage

V^WM(Volts)

Maximum

Clamping

Voltage at I^PPM

V^C(Volts)

80.3

V(^BR) (Volts)

(Note 1)

(MIN / MAX)

50.0 / 61.1

50.0 / 55.3

53.3 / 65.1

53.3 / 58.9

56.7 / 69.3

56.7 / 62.7

60.0 / 73.3

60.0 / 66.3

64.4 / 78.7

64.4 / 71.2

66.7 / 81.5

66.7 / 73.7

71.1 / 86.9

71.1 / 78.6

77.8 / 95.1

77.8 / 86.0

83.3 / 102

83.3 / 92.1

86.7 / 106

86.7 / 95.8

94.4 / 115

94.4 / 104

100 / 122

100 / 111

111 / 136

111 / 123

122 / 149

122 / 135

133 / 163

133 / 147

144 / 176

144 / 159

167 / 204

167 / 185

178 / 218

178 / 197

189 / 231

189 / 209

SMCJ45

SMCJ45A

SMCJ48

SMCJ48A

SMCJ51

SMCJ51A

SMCJ54

SMCJ54A

SMCJ58

SMCJ58A

SMCJ60

SMCJ60A

SMCJ64

SMCJ64A

SMCJ70

SMCJ70A

SMCJ75

SMCJ75A

MSJC78

SMCJ78A

SMCJ85

SMCJ85A

SMCJ90

SMCJ90A

SMCJ100

SMCJ100A

SMCJ110

SMCJ110A

SMCJ120

SMCJ120A

SMCJ130

SMCJ130A

SMCJ150

SMCJ150A

SMCJ160

SMCJ160A

SMCJ170

SMCJ170A

GFU

GFV

GFW

GFX

GFY

GFZ

1.0

45.0

48.0

51.0

54.0

58.0

60.0

64.0

70.0

75.0

78.0

85.0

90.0

100.0

110.0

120.0

130.0

150.0

160.0

170.0

5.0

72.7

85.5

77.4

91.1

82.4

96.3

87.1

103.0

93.6

GGD

GGE

GGF

GGG

GGH

GGK

GGL

GGM

GGN

GGP

GGQ

GGR

GGS

GGT

GGU

GGV

GGW

GGX

GGY

GGZ

GHD

GHE

GHF

GHG

GHH

GHK

GHL

GHM

GHN

GHP

GHQ

GHR

107.0

96.8

114.0

103.0

125.0

113.0

134.0

121.0

139.0

126.0

151.0

137.0

160.0

146.0

179.0

162.0

196.0

177.0

214.0

193.0

231.0

209.0

268.0

243.0

287.0

259.0

304.0

275.0

10.7

8.8

9.7

8.0

8.9

7.3

8.1

6.8

7.5

5.8

6.4

5.4

6.0

5.1

5.7

5.0

Notes:

1. V(^BR) measured after I^Tapplied for 300us, I^T=Square wave pulse or equivalent.

2. Surge current waveform per Fig. 3 and derate per Figure 2.

3. For bidirectional types having V^WMof 10 Volts and less, the I^Dlimit is doubled

4. all terms and symbols are consistent with ANSI/IEEE C62.35

- 609 -

TVS APPLICATION NOTES:

Transient Voltage Suppressors may be used at various points in a circuit to provide various degrees of

protection. The following is a typical linear power supply with transient voltage suppressor units placed at

different points. All provide protection of the load.

FIGURE 1

Transient Voltage Suppressors 1 provides maximum protection. However, the system will probably require

replacement of the line fuse(F) since it provides a dominant portion of the series impedance when a surge is

encountered.

However, we do not recommend to use the TVS diode here, unless we can know the electric circuit

impedance and the magnitude of surge rushed into the circuit. Otherwise the TVS diode is easy to be

destroyed by voltage surge.

Transient Voltage Suppressor 2 provides execllent protection of circuitry excluding the transformer(T).

However, since the transformer is a large part of the series impedance, the chance of the line fuse opening

during the surge condition is reduced.

Transient Voltage Suppressor 3 provides the load with complete protection. It uses a unidirectional

Transient Voltage Suppressor, which is a cost advantage. The series impedance now includes the line fuse,

transformer, and bridge rectifier(B) so failure of the line fuse is further reduced. If only Transient Voltage

Suppressor 3 is in use, then the bridge rectifier is unprotected and would require a higher voltage and current

rating to prevent failure by transients.

Any combination of these three, or any one of these applications, will prevent damage to the load. This would

require varying trade-offs in power supply protection versus maintenance(changing the time fuse).

An additional method is to utilize the Transient Voltage Suppressor units as a controlled avalanche bridge.

This reduces the parts count and incorporates the protection within the bridge rectifier.

FIGURE 2

RECOMMENDED PAD SIZES

The pad dimensions should be 0.010"(0.25mm) longer than the contact size, in the lead axis.

This allows a solder fillet to form, see figure below. Contact factory for soldering methods.

- 610 -

SMCJ130A [TSC]

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