1.5KE220PTGP [CHENMKO]

Transient Suppressor,;


型号：	1.5KE220PTGP
厂家：	CHENMKO ENTERPRISE CO. LTD.
描述：	Transient Suppressor,
文件：	总5页 (文件大小：114K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

CHENMKO ENTERPRISE CO.,LTD

1.5KE

GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE SUPPRESSOR

VOLTAGE-6.8 TO 400 VOLTS

SERIES

1500 WATTS PEAK POWER 6.5 WATTS STEADY STATE

FEATURES

* Plastic package

* 1500W surge capability at 1ms

* Glass passivated chip junction in DO-201 Package

* Excellent clamping capability

* Low Zener lmpedance

* Fast response time: typically less than 1.0ps

from 0 volts to BV min.

DO-201

* Typical IR less than 1 uA above 10V

* High temperature soldering guaranteed:

300 degree C/10seconds/.375"(9.5mm) lead length/51

bs., (2.3k) tension

0.042(1.07)

DIA.

0.038(0.96)

1.0(25.4)

MIN.

MECHANICAL DATA

Case: JEDEC DO-201 molded plastic

Terminals: Plated axial leads, solderable per MIL-STD-750,

Method 2026

Polarity: Color band denotes cathode end

Mounting Position: Any

0.375(9.5)

0.285(7.2)

0.210(5.3)

0.190(4.8)

DIA.

1.0(25.4)

MIN.

Weight: 0.045 ounce, 1.2 grams

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS

Ratings at 25^oC ambient temperature unless otherwise specified.

Single phase, half wave, 60 HZ, resistive or inductive load.

For capacitive load, derate current by 20%.

Dimensions in inches and (millimeters)

DO-201

DEVICES FOR BIDIRECTIONAL APPLICATIONS

For Bidirectional use C or CA Suffix for types 1.5KE6.8 thru types 1.5KE400

Electrical characteristics apply in both directions.

MAXIMUM RATINGES ( At TA = 25^oC unless otherwise noted )

RATINGS

SYMBOL

PPK

VALUE

UNITS

Watts

Peak Power Dissipation at TA = 25^oC, Tp = 1ms ( Note1 )

Minimum 1500

Steady State Power Dissipation at TL = 75^oC

Lead Lengths .375" (9.5mm)

IFSM

6.5

200

Watts

Amps

Peak Forward Surge Current 8.3ms Single Half

Sine-Wave Superimposed on Rated Load ( Note 2 )

^oC

Operating and Storage Temperature Range

TJ, TSTG

-65 to +175

NOTES : 1. Non-repetitive current pulse, per Fig. 3 and derated above TA = 25^oC per Fig. 2.

2. 8.3ms single half sine-wave, duty cycle = 4 pulses per minute maximum.

2001-6

Breakdown Voltage

VBR

Working

Peak

Reverse

Voltage

Maximum

Reverse

Leakage

at Vrwm

Maximum

Reverse

Current

Maximum

Reverse

Voltage

at Irsm

( clamping )

Maximum

Temperature

Coefficient

of Vbr

PRODUCT

NO.

( NOTE 2 )

@ IT

Volts ( NOTE 1 )

( mA )

MIN.

MAX.

Vrwm ( V )

Ir ( uA )

Irsm ( A )

Vrsm ( V )

( %C )

1.5KE6.8PT

1.5KE6.8APT

1.5KE7.5PT

1.5KE7.5APT

1.5KE8.2PT

1.5KE8.2APT

1.5KE9.1PT

1.5KE9.1APT

1.5KE10PT

1.5KE10APT

1.5KE11PT

1.5KE11APT

1.5KE12PT

1.5KE12APT

1.5KE13PT

1.5KE13APT

1.5KE15PT

1.5KE15APT

1.5KE16PT

1.5KE16APT

1.5KE18PT

1.5KE18APT

1.5KE20PT

1.5KE20APT

1.5KE22PT

1.5KE22APT

1.5KE24PT

1.5KE24APT

1.5KE27PT

1.5KE27APT

1.5KE30PT

1.5KE30APT

1.5KE33PT

1.5KE33APT

1.5KE36PT

1.5KE36APT

1.5KE39PT

1.5KE39APT

1.5KE43PT

1.5KE43APT

1.5KE47PT

1.5KE47APT

1.5KE51PT

1.5KE51APT

1.5KE56PT

6.12

6.45

6.75

7.13

7.38

7.79

8.19

8.65

9.0

7.48

7.14

8.25

7.88

9.02

8.61

10.0

9.55

11.0

10.5

12.1

11.6

13.2

12.6

14.3

13.7

16.5

15.8

17.6

16.8

19.8

18.9

22.0

21.0

24.2

23.1

26.4

25.2

29.7

28.4

33.0

31.5

36.3

34.7

39.6

37.8

42.9

41.0

47.3

45.2

51.7

49.4

56.1

53.6

61.6

5.50

5.80

6.05

6.40

6.63

7.02

7.37

7.78

8.10

8.55

8.92

9.40

9.72

10.2

10.5

11.1

12.1

12.8

12.9

13.6

14.5

15.3

16.2

17.1

17.8

18.8

19.4

20.5

21.8

23.1

24.3

25.6

26.8

28.2

29.1

30.8

31.6

33.3

34.8

36.8

38.1

40.2

41.3

43.6

45.4

1000

500

200

139

143

10.8

10.5

11.7

11.3

12.5

12.1

13.8

13.4

15.0

14.5

16.2

15.6

17.3

16.7

19.0

18.2

22.0

21.2

23.5

22.5

26.5

25.2

29.1

27.7

31.9

30.6

34.7

33.2

39.1

37.5

43.5

41.4

47.7

45.7

52.0

49.9

56.4

53.9

61.9

59.3

67.8

64.8

73.5

70.1

80.5

0.057

0.061

0.065

0.068

0.073

0.075

0.078

0.081

0.084

0.086

0.088

0.090

0.092

0.094

0.096

0.097

0.098

0.099

0.100

0.101

0.102

0.103

128

132

120

124

1.0

109

112

100

9.5

103

9.9

5.0

93.0

96.0

87.0

90.0

79.0

82.0

68.0

71.0

64.0

67.0

56.5

59.5

51.5

54.0

47.0

49.0

43.0

45.0

38.5

40.0

34.5

36.0

31.5

33.0

29.0

30.0

26.5

28.0

24.0

25.3

22.2

23.2

20.4

21.4

18.6

10.5

10.8

11.4

11.7

12.4

13.5

14.3

14.4

15.2

16.2

17.1

18.0

19.0

19.8

20.9

21.6

22.8

24.3

25.7

27.0

28.5

29.7

31.4

32.4

34.2

35.1

37.1

38.7

40.9

42.3

44.7

45.9

48.5

50.4

Breakdown Voltage

VBR

Working

Peak

Reverse

Voltage

Maximum

Reverse

Leakage

at Vrwm

Maximum

Reverse

Current

Maximum

Reverse

Voltage

at Irsm

( clamping )

Maximum

Temperature

Coefficient

of Vbr

PRODUCT

NO.

( NOTE 2 )

@ IT

Volts ( NOTE 1 )

( mA )

MIN.

MAX.

Vrwm ( V )

Ir ( uA )

Irsm ( A )

Vrsm ( V )

( %C )

1.5KE56APT

1.5KE62PT

53.2

55.8

58.9

61.2

64.6

67.5

71.3

73.8

77.9

81.9

86.5

90.0

95.0

99.0

105

108

114

117

124

135

143

144

152

153

162

171

180

190

198

209

225

237

270

285

315

332

360

380

58.8

68.2

65.1

74.8

71.4

82.5

78.8

90.2

86.1

100

95.5

110

105

121

116

132

126

143

137

165

158

176

168

187

179

198

189

220

210

242

231

275

263

330

315

385

368

440

420

1.0

47.8

50.2

53.0

55.1

58.0

60.7

64.1

66.4

70.1

73.7

77.8

81.0

85.5

89.2

94.0

97.2

102

105

111

121

128

130

136

138

145

146

154

162

171

175

185

202

214

243

256

284

300

324

342

5.0

19.5

16.9

17.7

15.3

16.3

13.9

14.6

12.7

13.3

11.4

12.0

10.4

11.0

9.5

77.0

89.0

85.0

98.0

92.0

108

103

118

113

131

125

144

137

158

152

173

165

187

179

215

207

230

219

244

234

258

246

287

274

344

328

360

344

430

414

504

482

574

548

0.103

0.104

0.105

0.106

0.107

0.108

0.110

1.5KE62APT

1.5KE68PT

1.5KE68APT

1.5KE75PT

1.5KE75APT

1.5KE82PT

1.5KE82APT

1.5KE91PT

1.5KE91APT

1.5KE100PT

1.5KE100APT

1.5KE110PT

1.5KE110APT

1.5KE120PT

1.5KE120APT

1.5KE130PT

1.5KE130APT

1.5KE150PT

1.5KE150APT

1.5KE160PT

1.5KE160APT

1.5KE170PT

1.5KE170APT

1.5KE180PT

1.5KE180APT

1.5KE200PT

1.5KE200APT

1.5KE220PT

1.5KE220APT

1.5KE250PT

1.5KE250APT

1.5KE300PT

1.5KE300APT

1.5KE350PT

1.5KE350APT

1.5KE400PT

1.5KE400APT

9.9

8.7

9.1

8.0

8.4

7.0

7.2

6.5

6.8

6.2

6.4

5.8

6.1

5.2

5.5

4.3

4.6

5.0

4.0

NOTES : 1. Vbr measured after IT applied for 300 us. IT = Square Wave Pulse or equivalent.

2. Surge Current Waveform per Figure 3 and Derated per Figure 2.

3. Vf = 3.5 V max. at If= 100 A ( 1.5KE6.8 thru 1.5KE91A )

Vf = 5.0 V max. at If = 100 A ( 1.5KE100 thru 1.5KE400A ) on 1/2 Square or equivalent Sine Wave.

PW = 8.3ms, Duty Cycle = 4 Pulses per minute maximum.

4. For Bipolar types having VR of 10 Volts and under, the IR limit is doubled.

RATING CHARACTERISTIC CURVES ( 1.5KE6.8PT ~ 1.5KE400APT )

FIG. 1 - PULSE POWER RATING CURVE

FIG. 2 - PULSE DERATING CURVE

100

Non-Repetitive

Pulse Waveform

Shown in Fig.3

TA = 25^O

1.0

0.1

0.1uS

1.0uS

10uS

100uS

1.0mS

10mS

, AMBIENT TEMPERATURE,(^OC

)

100 125 150

175 200

, PULSE WIDTH, Sec

FIG. 4 - TYPICAL JUNCTION CAPACITANCE

FIG. 3 - PULSE WAVEFORM

150

10000

1000

Unidirectional-----

Bidirectional

Pulse Width (td) is Defined

as the Point Where the Peak

Current Decays to 50% of IPPM

tr = 10usec.

Peak Value

IPPM

VR = 0

100

IPPM

HALF VALUE -

10/1000usec. Waveform

as Defined by R.E.A.

f = 1MH

100

Vsig = 50mVp-p

= 25^OC

VR = RATED

STAND-OFF

VOLTAGE

1.0

2.0

t, TIME,mS

3.0

4.0

100

500

V(BR), BREAKDOWN VOLTACE, VOLTS

FIG. 5 - STEADY STATE POWER DERATING CURVE

FIG. 6 - MAXIMUM NON-REPETITIVE FORWARD

SURGE CURRENT UNIDIRECTIONAL

8.0

6.0

4.0

2.0

200

8.3ms Single Half Sine-Wave

(JEDED Method) TJ = TJ max.

60Hz

L _{= 0.375"(9.5mm)}

Resistive or Inductive Load

Lead Lengths

1.6X1.6X0.040"

(40X40X1mm)

Copper Heat Sinks

100 125 150 175 200

NUMBER OF CYCLES AT 60 Hz

100

TL )

, LEAD TEMPERATURE (^OC

RATING CHARACTERISTIC CURVES (1.5KE6.8PT ~ 1.5KE400APT)

FIG. 7 - INCREMENTAL CLAMPING VOLTAGE

CURVE UNI-DIRECTIONAL

FIG. 7 - INCREMENTAL CLAMPING VOLTAGE

CURVE UNI-DIRECTIONAL

100

Waveform

8X20 Impulse

△Vc = Vc-V(BR)

Waveform

10X1000 Impulse

△Vc = Vc-V(BR)

1.5KE200

1.5KE130

1.5KE75

1.5KE130

1.5KE100

1.5KE75

1.5KE39

1.5KE33

1.5KE6.8

1.5KE9.1

1.5KE18

2.0

1.0

2.0

1.0

1.5KE33

1.5KE6.8

1.5KE9.1

1.5KE12

0.2

0.1

0.2

0.1

0.5

2.0

0.5

2.0

PP, PEAK PULSE CURRENT, AMPS

IPP, PEAK PULSE CURRENT, AMPS

FIG. 9 - INCREMENTAL CLAMPING VOLTAGE

CURVE BI-DIRECTIONAL

FIG. 7 - INCREMENTAL CLAMPING VOLTAGE

CURVE BI-DIRECTIONAL

100

Waveform

10X1000 Impulse

△Vc = Vc-V(BR)

Waveform

8X20 Impulse

△Vc = Vc-V(BR)

1.5KE200C

1.5KE75C

1.5KE39C

1.5KE75C

1.5KE30C

1.5KE39C

1.5KE30C

1.5KE15C

1.5KE11C

1.5KE7.5C

1.5KE15C

1.5KE11C

2.0

1.0

2.0

1.0

1.5KE7.5C

0.2

0.1

0.2

0.1

0.5

2.0

PP, PEAK PULSE CURRENT, AMPS

IPP, PEAK PULSE CURRENT, AMPS

FIG. 11 -INSTANTANEOUS FORWARD

VOLTAGE CHARACTERISTICS CURVE

FIG. 12 - BREAKDOWN VOLTAGE

TEMPEATURE COEFFICIENT CURVE

1000

100

Uni-directional

Bi-directional

Pulse Width = 300uS

1% Duty Cycle TJ = 25^O

0.1

0.4

0.8

1.2

1.6

2.0

100

200

500

INSTANTANEOUS FORWARD CURRENT, AMPERES

V(BR), BREAKDOWN VOLTAGE, VOLTS

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