|
|
Part: 1.5KE18A
Category:
Discrete
-> TVS (Transient Transient Voltage Suppressors)
Description: Surface Mount Voltage Suppressor
Company: Sussex Semiconductor, Inc.
Datasheet: Download 1.5KE18A datasheet File size : 1432 kB
Request For quote: Find where to buy 1.5KE18A
Datasheet text preview:
SUSSEX
400 TO 1500 WATT UNIPOLAR TRANSIENT SUPPRESSOR FLIPDIE
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (941) 768-6800 FAX: (941) 768-6868
S E M I C O N D U C T O R , INC.
GL ASS PASSIVATED SURFACE MOUNT UNIPOLAR FLIP-DIE 400 TO 5000 WATT MAXIMUM POWER HANDLING REVERSE VOLTAGES - 6.8 TO 440 VOLTS
400 TO 1500 WATT UNIPOLAR FLIP-DIE SPECIFICATIONS
Exclusive Sussex Semiconductor Flip-Die Technology Each Die Fully Glass Passivated: Needs No Encapsulation Space Saving Substitute For SMA, SMB, and SMC Packages Electrical Equivalent to P4KE, P6KE, SA, and 1.5KE Series Axial Leaded Devices Unipolar Each Device Individually Inspected Available in Waffle Packs or Tape and Reel Operating Temperature: -65 to 150ºC Storage Temperature: -65 to 175ºC Metallization: Ni-Ni-Au Polarity:
6.8 to 10 Breakdown Volts (VBR) A-Cathode B-Anode 11 to 440 Breakdown Volts (VBR) A-Anode B-Cathode
T ABLE 3A - FLIP-DIE DIMENSION SPECIFICATIONS
ALL T OL E R ANCE S AR E ± .005" ALL DIMENS IONS AR E IN INCHE S
SI ZE CODE FD1.5 FD2 FD3 FD16
C 0. 055 0. 070 0. 085 0. 115
D 0. 040 0. 055 0. 070 0. 100
E 0. 020 0. 027 0. 033 0. 050
F 0. 083 0. 105 0. 120 0. 173
G 0. 015 0. 015 0. 015 0. 015
CUSTOM ORDERING SPECIFIER
DIE SPECIFICATIONS
SZUFD
UNIPOLARTRANSIENT SUPPRESSOR FLIP-DIE AVAILABLESIZES RATING CODE 1.5 400 WATTS 2 500 WATTS 3 600 WATTS 16 1500 WATTS
-
-
%TOLERANCE OF VBR TOLERANCES CODE TOLERANCE 5 ±5% 10 ±10% 20 ±20%
CONTACT FACTORY FOR ELECTRICAL SPECIFICATIONS ON CUSTOM PARTS HIGHER POWER RATINGS AVAILABLE. CONTACT FACTORY FOR DIE SPECIFICATIONS `A'-SIDE METALLIZATION MA ERIAL T CODE A ALUMINUM E GOLD BLANK NI-NI-AU
(STANDARD)
CLAMPING VOLTAGE REVERSE BREAKDOWN VOLTAGE (VBR) STANDARD PART LISTING ON PAGE: PAGE 7-5,7-6 PAGE 7-8,7-9 PAGE 7-11,7-12 PAGE 7-14,7-15
7-3
SUSSEX
400 TO 1500 WATT BIPOLAR TRANSIENT SUPPRESSOR DUAL-DIE
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (941) 768-6800 FAX: (941) 768-6868
S E M I C O N D U C T O R , INC.
GLASS PASSIVATED SURFACE MOUNT BIPOLAR DUAL-DIE 400 TO 5000 WATT MAXIMUM POWER HANDLING REVERSE VOLTAGES - 6.8 TO 440 VOLTS
400 TO 1500 WATT BIPOLAR DUAL-DIE SPECIFICATIONS
Exclusive Sussex Semiconductor Dual-Die Technology Each Die Fully Glass Passivated: Needs No Encapsulation Space Saving Substitute For SMA, SMB, and SMC Packages Electrical Equivalent to P4KE, P6KE, SA, and 1.5KE Series Axial Leaded Devices Bipolar Each Device Individually Inspected Available in Waffle Packs or Tape and Reel Operating Temperature: -65 to 150ºC Storage Temperature: -65 to 175ºC Metallization: Ni-Ni-Au Polarity:
6.8 to 10 Breakdown Volts (VBR) A-Cathode B-Anode 11 to 440 Breakdown Volts (VBR) A-Anode B-Cathode
TABLE 4A - DUAL-DIE DIMENSION SPECIFICATIONS
AL L T OL E R ANCE S AR E ± .005" ALL DIME NS I ONS AR E IN INCHES
SI ZE CODE D1. 5 D2 D3 D16
C 0. 055 0. 070 0. 085 0. 115
D 0. 040 0. 055 0. 070 0. 100
E 0. 110 0. 140 0. 160 0. 230
F 0. 015 0. 015 0. 015 0. 015
CUSTOM ORDERING SPECIFIER
DIE SPECIFICATIONS
SZZD
AVAILABLESIZES RATING CODE 1.5 400 WATTS 2 500 WATTS 3 600 WATTS 16 1500 WATTS
-
-
-
CONTACT FACTORY FOR ELECTRICAL SPECIFICATIONS ON CUSTOM PARTS
DUAL DIE VBR IS MEASURED FROM A TO A. VBR MEASURED FROM A TO B WILL RESULT IN A LOWER VBR. CONTACT THE FACTORY FOR SPECIFIC INFORMATION.
CLAMPING VOLTAGE BIPOLAR TRANSIENT SUPPRESSOR REVERSE BREAKDOWN DUAL DIE VOLTAGE (VBR) (NOTE 1) STANDARD PART LISTING ON PAGE: PAGE 7-5,7-6 PAGE 7-8,7-9 PAGE 7-11,7-12 PAGE 7-14,7-15
NOTE 1:
N OT E S
%TOLERANCE OF VBR `A'-SIDE METALLIZATION TOLERANCES MA ERIAL T CODE CODE TOLERANCE A ALUMINUM 5 ±5% E GOLD 10 ±10% BLANK NI-NI-AU (STANDARD) 20 ±20%
HIGHER POWER RATINGS AVAILABLE. CONTACT FACTORY FOR DIE SPECIFICATIONS
7-4
SUSSEX
IN D U S T R Y S T ANDAR D PAR T NU M B ER S (N OT E 2 )
400 WATT TRANSIENT SUPPRESSOR DIE SPECIFICATIONS
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (941) 768-6800 FAX: (941) 768-6868
T AB L E 5 A - 4 0 0 W AT T T R AN S I E N T S U P P R E S S O R D I E E L E C T R I C AL S P E C I F I C AT I O N S
SU SSEX O R D ER CODE
REFE L T O L OOS E R IP S P A GEN - 7 F OR SI7K SOR P SE R HI D ! S P E C IF IE R
S E M I C O N D U C T O R , INC.
(N OT E 1 )
400 W A T T P4K E S E R IE S P4 K E6 . 8 P4 K E6 . 8 A P4 K E7 . 5 P4 K E7 . 5 A P4 K E8 . 2 P4 K E8 . 2 A P4 K E9 . 1 P4 K E9 . 1 A P4 K E1 0 P4 K E1 0 A P4 K E1 1 P4 K E1 1 A P4 K E1 2 P4 K E1 2 A P4 K E1 3 P4 K E1 3 A P4 K E1 5 P4 K E1 5 A P4 K E1 6 P4 K E1 6 A P4 K E1 8 P4 K E1 8 A P4 K E2 0 P4 K E2 0 A P4 K E2 2 P4 K E2 2 A P4 K E2 4 P4 K E2 4 A P4 K E2 7 P4 K E2 7 A P4 K E3 0 P4 K E3 0 A P4 K E3 3 P4 K E3 3 A P4 K E3 6 P4 K E3 6 A P4 K E3 9 P4 K E3 9 A P4 K E4 3 P4 K E4 3 A P4 K E4 7 P4 K E4 7 A P4 K E5 1
ST AN D O F F VO L T A G E (V S O ) V o l ts
5 .5 0 5 .8 0 6 .0 5 6 .4 0 6 .6 3 7 .0 2 7 .3 7 7 .7 8 8 .1 0 8 .5 5 8 .9 2 9 .4 0 9 .7 2 1 0 .2 0 1 0 .5 0 1 1 .1 0 1 2 .1 0 1 2 .8 0 1 2 .9 0 1 3 .6 0 1 4 .5 0 1 5 .3 0 1 6 .2 0 1 7 .1 0 1 7 .8 0 1 8 .8 0 1 9 .4 0 2 0 .5 0 2 1 .8 0 2 3 .1 0 2 4 .3 0 2 5 .6 0 2 6 .8 0 2 8 .2 0 2 9 .1 0 3 0 .8 0 3 1 .6 0 3 3 .3 0 3 4 .8 0 3 6 .8 0 3 8 .1 0 4 0 .2 0 4 1 .3 0
MA X. R EVER SE L EAK A G E (I R ) @ V S O
(N OT E 3 )
RE V E RSE BRE AKDO W N V O LTAGE ( V B R ) @ IT
(N O T E 4 )
M A X . C L A M P IN G MA X. T EMP. V O L T A G E (V C L ) @ T EST P E AK P ULS E CURRE NT C O EF F IC IEN T C UR R ENT ( I P P ) (N O T E 5 )
µA
1000 1000 500 500 200 200 50 50 10 10 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0
MIN . V o l ts
6 .1 2 6 .4 5 6 .7 5 7 .1 3 7 .3 8 7 .7 9 8 .1 9 8 .6 5 9 .0 0 9 .5 0 9 .9 0 1 0 .5 0 1 0 .8 0 1 1 .4 0 1 1 .7 0 1 2 .4 0 1 3 .5 0 1 4 .3 0 1 4 .4 0 1 5 .2 0 1 6 .2 0 1 7 .1 0 1 8 .0 0 1 9 .0 0 1 9 .8 0 2 0 .9 0 2 1 .6 0 2 2 .8 0 2 4 .3 0 2 5 .7 0 2 7 .0 0 2 8 .5 0 2 9 .7 0 3 1 .4 0 3 2 .4 0 3 4 .2 0 3 5 .1 0 3 7 .1 0 3 8 .7 0 4 0 .9 0 4 2 .3 0 4 4 .7 0 4 5 .9 0
MA X. V o l ts
7 .4 8 7 .1 4 8 .2 5 7 .8 8 9 .0 2 8 .6 1 1 0 .0 0 9 .5 5 1 1 .0 0 1 0 .5 0 1 2 .1 0 1 1 .6 0 1 3 .2 0 1 2 .6 0 1 4 .3 0 1 3 .7 0 1 6 .5 0 1 5 .8 0 1 7 .6 0 1 6 .8 0 1 9 .8 0 1 8 .9 0 2 2 .0 0 2 1 .0 0 2 4 .2 0 2 3 .1 0 2 6 .4 0 2 5 .2 0 2 9 .7 0 2 8 .4 0 3 3 .0 0 3 1 .5 0 3 6 .3 0 3 4 .7 0 3 9 .6 0 3 7 .8 0 4 2 .9 0 4 1 .0 0 4 7 .3 0 4 5 .2 0 5 1 .7 0 4 9 .4 0 5 6 .1 0
(I T ) mA
10 10 10 10 10 10 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
O F V BR V CL V o l ts
1 0 .8 1 0 .5 1 1 .7 1 1 .3 1 2 .5 1 2 .1 1 3 .8 1 3 .4 1 5 .0 1 4 .5 1 6 .2 1 5 .6 1 7 .3 1 6 .7 1 9 .0 1 8 .2 2 2 .0 2 1 .2 2 3 .5 2 2 .5 2 6 .5 2 5 .2 2 9 .1 2 7 .7 3 1 .9 3 0 .6 3 4 .7 3 3 .2 3 9 .0 3 7 .5 4 3 .5 4 1 .4 4 7 .7 4 5 .7 5 2 .0 4 9 .9 5 6 .4 5 3 .9 6 1 .9 5 9 .3 6 7 .8 6 4 .8 7 3 .5
IPP Amps
3 8 .0 4 0 .0 3 5 .0 3 7 .0 3 3 .0 3 4 .0 3 0 .0 3 1 .0 2 8 .0 2 9 .0 2 6 .0 2 7 .0 2 4 .0 2 5 .0 2 2 .0 2 3 .0 1 9 .0 2 0 .0 1 7 .8 1 8 .6 1 6 .0 1 6 .5 1 4 .0 1 5 .0 1 3 .0 1 3 .7 1 2 .0 1 2 .6 1 0 .7 1 1 .0 9 .6 1 0 .0 8 .8 9 .0 8 .0 8 .4 7 .4 7 .7 6 .7 7 .0 6 .2 6 .4 5 .7
(% / ° C )
0 .0 5 7 0 .0 5 7 0 .0 6 1 0 .0 6 1 0 .0 6 5 0 .0 6 5 0 .0 6 8 0 .0 6 8 0 .0 7 3 0 .0 7 3 0 .0 7 5 0 .0 7 5 0 .0 7 8 0 .0 7 8 0 .0 6 1 0 .0 8 1 0 .0 8 4 0 .0 8 4 0 .0 8 6 0 .0 8 6 0 .0 8 8 0 .0 8 8 0 .0 9 0 0 .0 9 0 0 .0 9 2 0 .0 9 2 0 .0 9 1 0 .0 9 4 0 .0 9 6 0 .0 9 6 0 .0 9 7 0 .0 9 7 0 .0 9 8 0 .0 9 8 0 .0 9 9 0 .0 9 9 0 .1 0 0 0 .1 0 0 0 .1 0 1 0 .1 0 1 0 .1 0 1 0 .1 0 1 0 .1 0 2
6 . 8 - 1 0 .8 - 1 0 6 . 8 - 1 0 .5 - 5 7 . 5 - 1 1 .7 - 1 0 7 . 5 - 1 1 .3 - 5 8 . 2 - 1 2 .5 - 1 0 8 . 2 - 1 2 .1 - 5 9 . 1 - 1 3 .8 - 1 0 9 . 1 - 1 3 .4 - 5 1 0 - 1 5 .0 - 1 0 1 0 - 1 4 .5 - 5 1 1 - 1 6 .2 - 1 0 1 1 - 1 5 .6 - 5 1 2 - 1 7 .3 - 1 0 1 2 - 1 6 .7 - 5 1 3 - 1 9 .0 - 1 0 1 3 - 1 8 .2 - 5 1 5 - 2 2 .0 - 1 0 1 5 - 2 1 .2 - 5 1 6 - 2 3 .5 - 1 0 1 6 - 2 2 .5 - 5 1 8 - 2 6 .5 - 1 0 1 8 - 2 5 .2 - 5 2 0 - 2 9 .1 - 1 0 2 0 - 2 7 .7 - 5 2 2 - 3 1 .9 - 1 0 2 2 - 3 0 .6 - 5 2 4 - 3 4 .7 - 1 0 2 4 - 3 3 .2 - 5 2 7 - 3 9 .1 - 1 0 2 7 - 3 7 .5 - 5 3 0 - 4 3 .5 - 1 0 3 0 - 4 1 .4 - 5 3 3 - 4 7 .7 - 1 0 3 3 - 4 5 .7 - 5 3 6 - 5 2 .0 - 1 0 3 6 - 4 9 .9 - 5 3 9 - 5 6 .4 - 1 0 3 9 - 5 3 .9 - 5 4 3 - 6 1 .9 - 1 0 4 3 - 5 9 .3 - 5 4 7 - 6 7 .8 - 1 0 4 7 - 6 4 .8 - 5 5 1 - 7 0 .1 - 1 0
THIS TABLE CONTINUES
NOTE 1: : NOTE 2: ELECTRICAL CHARACTERISTICS ARE AT A JUNCTION TEMPERATURE (TJ) OF 25°C
NOTES TE 3: NO
NOTE 4: NOTE 5:
INDUSTRY STANDARD PART NUMBERS REFER TO PACKAGED DEVICES. THE DIES INDICATED BY THESE NUMBERS, IF PROPERLY PACKAGED, WILL OPERATE WITH THE SAME PERFORMANCE
FOR BIPOLAR DEVICES WITH A VBR OF 10 VOLTS OR LESS, THE IR LIMIT IS DOUBLED DUAL DIE VBR IS MEASURED FROM TOP TO TOP OF DIE. VBR MEASURED FROM TOP TO BOTTOM WILL RESULT IN A LOWER VBR SURGE CURRENT WAVEFORM SHOWN IN FIGURE 2A ON PAGE 7-7 PEAK PULSE POWER DERATING SHOWN IN FIGURE 3A ON PAGE 7-7
7-5
SUSSEX
IN D U S T R Y S T ANDAR D PAR T NU M B ER S (N OT E 2 )
400 WATT TRANSIENT SUPPRESSOR DIE SPECIFICATIONS
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (941) 768-6800 FAX: (941) 768-6868
T AB L E 5 A - 4 0 0 W AT T T R AN S I E N T S U P P R E S S O R D I E E L E C T R IC AL S P E C IF I C AT I O N S
SU SSEX O R D ER CODE
L R E F E RL IT O OOS E PS P A G E I N -K F O R S77 OR P E S H I D S !R S P E C IF IE R (N OT E 1 )
S E M I C O N D U C T O R , INC.
400 W A T T P4K E S E R IE S P4KE51A P4KE56 P4KE56A P4KE62 P4KE62A P4KE68 P4KE68A P4KE75 P4KE75A P4KE82 P4KE82A P4KE91 P4KE91A P4KE100 P4KE100A P4KE110 P4KE110A P4KE120 P4KE120A P4KE130 P4KE130A P4KE150 P4KE150A P4KE160 P4KE160A P4KE170 P4KE170A P4KE180 P4KE180A P4KE200 P4KE200A P4KE220 P4KE220A P4KE250 P4KE250A P4KE300 P4KE300A P4KE350 P4KE350A P4KE400 P4KE400A P4KE440 P4KE440A
ST A N D O F F VO L T A G E (V S O ) V o l ts
4 3 .6 0 4 5 .4 0 4 7 .8 0 5 0 .2 0 5 3 .0 0 5 5 .1 0 5 8 .1 0 6 0 .7 0 6 4 .1 0 6 6 .4 0 7 0 .1 0 7 3 .7 0 7 7 .8 0 8 1 .0 0 8 5 .5 0 8 9 .2 0 9 4 .0 0 9 7 .2 0 1 0 2 .0 0 1 0 5 .0 0 1 1 1 .0 0 1 2 1 .0 0 1 2 8 .0 0 1 3 0 .0 0 1 3 6 .0 0 1 3 8 .0 0 1 4 5 .0 0 1 4 6 .0 0 1 5 4 .0 0 1 6 2 .0 0 1 7 1 .0 0 1 7 5 .0 0 1 8 5 .0 0 2 0 2 .0 0 2 1 4 .0 0 2 4 3 .0 0 2 5 6 .0 0 2 8 4 .0 0 3 0 0 .0 0 3 2 4 .0 0 3 4 2 .0 0 3 5 6 .0 0 3 7 6 .0 0
M A X. R EVER SE L EAKAG E (I R ) @ V S O
(N OT E 3 )
RE V E RS E BRE AKDO W N V O LTAG E ( V B R ) @ IT
(N O T E 4 )
M A X . C L A M P IN G M A X. T EM P. V O L T A G E (V C L) @ T EST P E AK P ULS E C URR E NT C O EF F IC IEN T C U R R EN T ( I P P ) (N O T E 5 )
µA
5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0 5 .0
M IN . V o l ts
4 8 .5 0 5 0 .4 0 5 3 .2 0 5 5 .8 0 5 8 .9 0 6 1 .2 0 6 4 .6 0 6 7 .5 0 7 1 .3 0 7 3 .8 0 7 7 .9 0 8 1 .9 0 8 6 .5 0 9 0 .0 0 9 5 .0 0 9 9 .0 0 1 0 5 .0 0 1 0 8 .0 0 1 1 4 .0 0 1 1 7 .0 0 1 2 4 .0 0 1 3 5 .0 0 1 4 3 .0 0 1 4 4 .0 0 1 5 2 .0 0 1 5 3 .0 0 1 6 2 .0 0 1 6 2 .0 0 1 7 1 .0 0 1 8 0 .0 0 1 9 0 .0 0 1 9 8 .0 0 2 0 9 .0 0 2 2 5 .0 0 2 3 7 .0 0 2 7 0 .0 0 2 8 5 .0 0 3 1 5 .0 0 3 3 2 .0 0 3 6 0 .0 0 3 8 0 .0 0 3 9 6 .0 0 4 1 8 .0 0
M A X. V o l ts
5 3 .6 0 6 1 .6 0 5 8 .8 0 6 8 .8 0 6 5 .1 0 7 4 .8 0 7 1 .4 0 8 2 .5 0 7 8 .8 0 9 0 .2 0 8 6 .1 0 1 0 0 .0 0 9 5 .5 0 1 1 0 .0 0 1 0 5 .0 0 1 2 1 .0 0 1 1 6 .0 0 1 3 2 .0 0 1 2 6 .0 0 1 4 3 .0 0 1 3 7 .0 0 1 6 5 .0 0 1 5 8 .0 0 1 7 6 .0 0 1 6 8 .0 0 1 8 7 .0 0 1 7 9 .0 0 1 9 8 .0 0 1 8 9 .0 0 2 2 0 .0 0 2 1 0 .0 0 2 4 2 .0 0 2 3 1 .0 0 2 7 5 .0 0 2 6 7 .0 0 3 3 0 .0 0 3 1 5 .0 0 3 8 5 .0 0 3 6 8 .0 0 4 4 0 .0 0 4 2 0 .0 0 4 8 4 .0 0 4 6 2 .0 0
(I T ) mA
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
O F VBR VCL V o l ts
7 0 .1 8 0 .5 7 7 .0 8 9 .0 8 5 .0 9 6 .0 9 2 .0 1 0 8 .0 1 0 3 .0 1 1 8 .0 1 1 3 .0 1 3 1 .0 1 2 5 .0 1 4 4 .0 1 3 7 .0 1 5 8 .0 1 5 2 .0 1 7 3 .0 1 6 5 .0 1 8 7 .0 1 7 9 .0 2 1 5 .0 2 0 7 .0 2 3 0 .0 2 1 9 .0 2 4 4 .0 2 3 4 .0 2 5 6 .0 2 4 6 .0 2 8 7 .0 2 7 4 .0 3 4 4 .0 3 2 8 .0 3 6 0 .0 3 4 4 .0 4 3 0 .0 4 1 4 .0 5 0 4 .0 4 8 2 .0 5 7 1 .0 5 4 8 .0 5 9 8 .0 5 9 0 .0
IPP Amps
6 .0 5 .2 5 .4 4 .7 5 .0 4 .2 4 .5 3 .8 4 .0 3 .5 3 .7 3 .2 3 .3 2 .9 3 .0 2 .6 2 .7 2 .4 2 .5 2 .2 2 .3 1 .9 2 .0 1 .8 1 .9 1 .7 1 .8 1 .6 1 .7 1 .4 1 .5 1 1 .2 1 .3 1 .1 1 .2 0 .9 7 1 .0 0 .8 3 0 .8 7 0 .7 3 0 .7 6 0 .6 6 0 .6 9
(% / ° C )
0 .1 0 2 0 .1 0 3 0 .1 0 3 0 .1 0 4 0 .1 0 4 0 .1 0 4 0 .1 0 4 0 .1 0 5 0 .1 0 5 0 .1 0 5 0 .1 0 5 0 .1 0 6 0 .1 0 6 0 .1 0 6 0 .1 0 6 0 .1 0 7 0 .1 0 7 0 .1 0 7 0 .1 0 7 0 .1 0 7 0 .1 0 7 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 0 8 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0 0 .1 1 0
5 1 - 7 0 .1 - 5 5 6 - 8 0 .5 - 1 0 5 6 - 7 7 .0 - 5 6 2 - 8 9 .0 - 1 0 6 2 - 8 5 .0 - 5 6 8 - 9 6 .0 - 1 0 6 8 - 9 2 .0 - 5 7 5 - 1 0 8 .0 - 1 0 7 5 - 1 0 3 .0 - 5 8 2 - 1 1 8 .0 - 1 0 8 2 - 1 1 3 .0 - 5 9 1 - 1 3 1 .0 - 1 0 9 1 - 1 2 5 .0 - 5 1 0 0 - 1 4 4 .0 - 1 0 1 0 0 - 1 3 7 .0 - 5 1 1 0 - 1 5 8 .0 - 1 0 1 1 0 - 1 5 2 .0 - 5 1 2 0 - 1 7 3 .0 - 1 0 1 2 0 - 1 6 5 .0 - 5 1 3 0 - 1 8 7 .0 - 1 0 1 3 0 - 1 7 9 .0 - 5 1 5 0 - 2 1 5 .0 - 1 0 1 5 0 - 2 0 7 .0 - 5 1 6 0 - 2 3 0 .0 - 1 0 1 6 0 - 2 1 9 .0 - 5 1 7 0 - 2 4 4 .0 - 1 0 1 7 0 - 2 3 4 .0 - 5 1 8 0 - 2 5 6 .0 - 1 0 1 8 0 - 2 4 6 .0 - 5 2 0 0 - 2 8 7 .0 - 1 0 2 0 0 - 2 7 4 .0 - 5 2 2 0 - 3 4 4 .0 - 1 0 2 2 0 - 3 2 8 .0 - 5 2 5 0 - 3 6 0 .0 - 1 0 2 5 0 - 3 4 4 .0 - 5 3 0 0 - 4 3 0 .0 - 1 0 3 0 0 - 4 1 4 .0 - 5 3 5 0 - 5 0 4 .0 - 1 0 3 5 0 - 4 8 2 .0 - 5 4 0 0 - 5 7 4 .0 - 1 0 4 0 0 - 5 4 8 .0 - 5 4 4 0 - 5 9 8 .0 - 1 0 4 4 0 - 5 9 0 .0 - 5
NOTE 1: : NOTE 2:
ELECTRICAL CHARACTERISTICS ARE AT A JUNCTION TEMPERATURE (TJ) OF 25°C
N O T E S TE 3: NO
NOTE 4: NOTE 5:
INDUSTRY STANDARD PART NUMBERS REFER TO PACKAGED DEVICES. THE DIES INDICATED BY THESE NUMBERS, IF PROPERLY PACKAGED, WILL OPERATE WITH THE SAME PERFORMANCE
FOR BIPOLAR DEVICES WITH A VBR OF 10 VOLTS OR LESS, THE IR LIMIT IS DOUBLED DUAL DIE VBR IS MEASURED FROM TOP TO TOP OF DIE VBR MEASURED FROM TOP TO BOTTOM WILL RESULT IN A LOWER VBR SURGE CURRENT WAVEFORM SHOWN IN FIGURE 1A ON PAGE 7-7 PEAK PULSE POWER DERATING SHOWN IN FIGURE 2A ON PAGE 7-7
7-6
SUSSEX
6.8 - 10.8 - 10
400 WATT DIE SPECIFICATIONS CONTINUED
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (941) 768-6800 FAX: (941) 768-6868
S E M I C O N D U C T O R , INC.
ORDERING SPECIFIER
10
4
FIGURE 1A - TYPICAL JUNCTION CAPACITANCE
ORDER CODE FROM PREVIOUS PAGES
JUNCTION CAPACITANCE (pF)
T j=2 5 C f = 1kHz 10
3
TABLE 6A - AVAILABLE DIE SIZES
DIE CODE DIE TYPE SPECIFICATIONS REFER TO: SZU1.5 400 WATT UNIPOLAR DIE PAGE 7-1 SZZ1.5 400 WATT BIPOLAR DIE PAGE 7-2 SZUFD1.5 400 WATT UNIPOLAR FLIP-DIE PAGE 7-3 SZZD1.5 400 WATT BIPOLAR DUAL-DIE PAGE 7-4
10
2
M e a s u r e d @ 10 0 m V
10
1
T H I S G R A P H DE M O N S T R A T E S T H E P E R F O R M A N C E O F A U N IP O L A R D IE . B IP O L A R D IE S W IL L H A V E A L O W E R C A P A C IT A N C E C O N T A C T FA C T O R Y FO R M O R E DE T A I L E D INF O R M A T I O N
M e a s u re d @ V s o
10
0
10
0
10
1
10
2
10
3
BREAKDOWN VOLTAGE, VBR (Volts)
FIGURE 2A - PULSE WAVEFORM
150
41 0 0 00
FIGURE 3A - PULSE DERATING CURVE
PEAK PULSE POWER (WATTS)
% PEAK PULSE CURRENT, IPP
1 0 :1 0 0 0 W A V E F O R M
I 100
3 00
PP
75
N O N - R E P E T IT I V E C U R R E N T PU L S E P E R F IG U R E 2A
2 00
50
½I 50
PP
1 00
25
0 0 1 2 3
0 0 25 50 75 100 125 150 175 200
TIME (ms)
JUNCTION TEMPERATURE, TJ (°C)
7-7
Others parts begin by 10
10-1 10-2 10-3 10-4 10-5 10-6 10-7 10-8 10-9 10-10 10-11 10-12 10-13 10-14 10-15 10-16 10-17 10-18 10-19 10-20 10-21 10-22 10-23 10-24 10-25 10-26 10-27 10-28 10-29
|
|
|
