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LTC1093MILDWF#PBF Linear Technology IC 6-CH 10-BIT PROPRIETARY METHOD ADC, SERIAL ACCESS, UUC16, DIE-16, Analog to Digital Converter visit Linear Technology - Now Part of Analog Devices
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LTC1093MILDWF Linear Technology IC 6-CH 10-BIT PROPRIETARY METHOD ADC, SERIAL ACCESS, UUC16, DIE-16, Analog to Digital Converter visit Linear Technology - Now Part of Analog Devices
LTC1594LS16#TR Linear Technology IC 4-CH 12-BIT PROPRIETARY METHOD ADC, SERIAL ACCESS, PDSO16, SO-16, Analog to Digital Converter visit Linear Technology - Now Part of Analog Devices
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Part : BCM84851B1KFSBG-METHODE Supplier : Broadcom Manufacturer : Avnet Stock : 25,661 Best Price : - Price Each : -
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METHOD-2036

Catalog Datasheet MFG & Type PDF Document Tags

METHOD-1027

Abstract: METHOD-1026 HIGH RELIABILITY - TEST CAPABILITIES Item Test Conditions Reference 1 Solder Resistance 2 Solderability 3 Pull 4 Bend Lead @ 2 6 0 ± 5 °C for 1 0 ± 2 sec. immerse body into solder 1 /1 6 " ± 1 /3 2 " @ 2 3 0 ± 5 °C for 5 sec. 1 Kg in axial lead direction for 10 sec. 0 .5 Kg weight applied to each lead bending arc 9 0 ° ± 5 ° for 3 times. MIL-STD-750C METHOD-2031 M IL-STD-202F METHOD-208 M IL-STD-750C METHOD-2036 M IL-STD-750C METHOD-2036 M IL-STD-750C METHOD-1026 M IL-STD-750C METHOD-1027 M IL-STD-750C M
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OCR Scan
METHOD-1031 ETHOD-1036 ETH0D-1051 METHOD-1056 ETH0D-750C ETH0D-4066-2 MIL-STD-202F
Abstract: in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 1kg weight applied to each lead bending o o arc 90 ±5 for 3 times. MIL-STD-750D METHOD-2036 5. High Formosa MS
Original
EF101G EF105G DS-222525 DO-41 METHOD-1036 JESD22-A102
Abstract: direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.25kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V Formosa MS
Original
1N4148 DS-222908 DO-35G METHOD-1051 METHOD-1038

BAV100

Abstract: BAV101 . Pull Test 1kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5
Formosa MS
Original
BAV19 BAV21 BAV100 BAV101 BAV102 BAV20 DS-222953 HOD-208 METHOD-4066-2 METHOD-215

1N5817

Abstract: 1N5818 . Pull Test 1kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5
Formosa MS
Original
1N5817 1N5819 1N5818 diode cross reference 1N5819 DS-222644

1N5820

Abstract: 1N5821 direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
1N5820 1N5822 1N5821 diode schottky 1N5822 DS-222648 DO-201AD

SR5100

Abstract: SR560 diode direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
SR520 SR5100 SR560 diode SR530 SR540 Diode sr580 DS-222650

50V-1000V

Abstract: 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
50V-1000V DS-222110
Abstract: Reference MIL-STD-750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 Formosa MS
Original
SB220 SB2100 DS-222647
Abstract: direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 2kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V Formosa MS
Original
SR320 SR3200 DS-222649

MIL-STD-750D

Abstract: diode 1N4151 1kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature
Formosa MS
Original
1N4151 diode 1N4151 DS-222943

diode 1N4148

Abstract: 1N4148 chip direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
diode 1N4148 1N4148 chip 1N4148 75V 150mA Diodes DIODE CHIP 1N4148 1N4148 Fast Switching Diode Diode 1N4148 for dip

SB1040FC

Abstract: sb1040fct -750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD
Formosa MS
Original
SB1040FC sb1040fct SB1020FCT SB10200FCT DS-222684
Abstract: Resistance Formosa MS Reference MIL-STD-750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-1026 MIL-STD-750D METHOD-1027 MIL-STD-750D METHOD Formosa MS
Original
Abstract: -2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-1026 MIL-STD Formosa MS
Original
SBL20150FCT DS-222676
Abstract: 1.0kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 1.0kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Formosa MS
Original
SR120E SR1100E DS-222645E
Abstract: axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 1.0kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Formosa MS
Original
SR120 SR1100 DS-222645

FR302

Abstract: fr304 diode -750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R=80% rate at T J=125 oC for 168 hrs
Formosa MS
Original
FR301 FR307 FR302 fr304 diode diode fr302 FR303 FR304 DS-222213

SB2045ct

Abstract: sb2045 Reference MIL-STD-750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036
Formosa MS
Original
SB20200CT SB2045ct sb2045 SB2060CT SB2020CT DS-222686

FR207 diode

Abstract: Formosa MS Reference MIL-STD-750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-1026 MIL-STD-750D METHOD-1027 MIL-STD-750D METHOD-1036 Conditions at
Formosa MS
Original
FR207 diode FR201 FR207 DS-222212 DO-15

diode p6000

Abstract: diode p6000 j -750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R=80% rate at T J=125 oC for 168 hrs
Formosa MS
Original
1N4933 1N4937 diode p6000 diode p6000 j 1n4936 p6000 diode silicon diode p6000 1n4937 cross reference Diode 1N4934 DS-222209
Abstract: . Pull Test 1kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 1kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5 Formosa MS
Original
1N4728A 1N4761A DS-222715 DO-41G METHOD-1021

SR360 diode

Abstract: Diode SR3100 direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
SR360 diode Diode SR3100 SR330 20V10 Diode SR3200 SR380 diode

DIODE S6 73

Abstract: . Pull Test 0.5kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5
Formosa MS
Original
DIODE S6 73 DS-222643

DO-35G

Abstract: DIODE A121 -202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-1038 MIL-STD-750D METHOD
Formosa MS
Original
DIODE A121 diode 1N4448 1N4448 DS-222909
Abstract: Resistance Formosa MS Reference MIL-STD-750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-1038 MIL-STD-750D METHOD-1027 MIL-STD-750D METHOD Formosa MS
Original

Diode FR104

Abstract: FR104 diode MIL-STD-750D METHOD-2031 MIL-STD-202F METHOD-208 MIL-STD-750D METHOD-2036 MIL-STD-750D METHOD-2036 MIL-STD
Formosa MS
Original
Diode FR104 FR104 diode FR101 FR107 DS-222210

222502

Abstract: 1kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature
Formosa MS
Original
222502 EF8A05F EF8A60F DS-222502 ITO-220AC

DIODE HER108

Abstract: HER102 1kg in axial lead direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature
Formosa MS
Original
HER101 HER108 DIODE HER108 HER102 HER103 HER104 HER105 DS-222306
Abstract: -750D METHOD-2036 4. Bend Lead 2kg weight applied to each lead bending arc 90 o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R=80% rate at T J=125 oC for 168 hrs Formosa MS
Original
SR820 SR8100 DS-222651

Diode SR160

Abstract: Diode SR140 direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
Diode SR160 Diode SR140 Diode SR1100 SR130 SR140 Diode SR130

SR2100E

Abstract: SR230E direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
Formosa MS
Original
SR2100E SR230E IEC6100-4-2 fl1095s SR240E SR220E DS-222646E THOD-208

MIL-STD-750 METHOD 2036

Abstract: HP 5082-0180 direction for 10 sec. MIL-STD-750D METHOD-2036 4. Bend Lead 0.5kg weight applied to each lead bending arc 90o±5 o for 3 times. MIL-STD-750D METHOD-2036 5. High Temperature Reverse Bias V R
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OCR Scan
MIL-STD-750 METHOD 2036 HP 5082-0180 5082-0833 hp 5082-0151 hp 5082 step recovery 5082-0112 MIL-S-19500 MIL-STD-750
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