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    MARKING 9D TRANSISTOR Search Results

    MARKING 9D TRANSISTOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    54F139/BEA Rochester Electronics LLC 54F139 - Decoder/Driver, F/FAST Series, Inverted Output, TTL, CDIP16 - Dual marked (M38510/33702BEA) Visit Rochester Electronics LLC Buy
    54F151/BEA Rochester Electronics LLC 54F151 - Multiplexer, 1-Func, 8 Line Input, TTL, CDIP16 - Dual marked (M38510/33901BEA) Visit Rochester Electronics LLC Buy
    54F151/BFA Rochester Electronics LLC 54F151 - Multiplexer, 1-Func, 8 Line Input, TTL, CDFP16 - Dual marked (M38510/33901BFA) Visit Rochester Electronics LLC Buy
    54F157/BEA Rochester Electronics LLC Multiplexer, 2-Func, 4 Line Input, TTL, CDIP16 - Dual marked (M38510/33903BEA) Visit Rochester Electronics LLC Buy
    54F153/BEA Rochester Electronics LLC 54F153 - Multiplexer, 2-Func, 4 Line Input, TTL, CDIP16 - Dual marked (M38510/33902BEA) Visit Rochester Electronics LLC Buy

    MARKING 9D TRANSISTOR Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    marking 9D transistor

    Abstract: transistor transistor marking 9D KIA79L09F
    Text: SEMICONDUCTOR KIA79L09F MARKING SPECIFICATION SOT-89 PACKAGE 1. Marking method Laser Marking 2. Marking No. Item Marking Description Device Mark 9D KIA79L09F * Grade - - Lot No. 816 1 2 8 Year 0 ~ 9 : 1900~1999 16 Week 16 : 16th Week Note * Grade: Transistor only


    Original     		PDF KIA79L09F OT-89 marking 9D transistor transistor transistor marking 9D KIA79L09F

    Untitled

    Abstract: No abstract text available
    Text: PJ04N03D 25V N-Channel Enhancement Mode Field Effect Transistor TO-252 FEATURES • RDS ON ,VGS@10V,I DS@30A=4mΩ • RDS(ON),VGS@5.0V,I DS@24A=6mΩ • Advanced trench process technology • High Density Cell Design For Uitra Low On-Resistance • Specially Designed for DC/DC Converters and Motor Drivers


    Original     		PDF PJ04N03D O-252 2002/95/EC O-252 MIL-STD-750 04N03D 983A5F 2009-REV

    Untitled

    Abstract: No abstract text available
    Text: IPB04CN10N G IPI04CN10N G IPP04CN10N G  2 Power-Transistor Product Summary Features R฀ 492?6=฀?@C>2=฀=6G6= R฀ I46=6?E฀82E6฀492C86฀I฀R ;I"\[#฀AC@5F4E฀! ' V ;I )( K R -@?>2I฀.)฀ +&1 Z I; )( 7 R฀/6CJ฀=@H฀@? C6D:DE2?46฀R ;I"\[#


    Original     		PDF IPB04CN10N IPI04CN10N IPP04CN10N 492C86à E2C86Eà

    marking 9D

    Abstract: sd marking 8H IPP06CN10N PG-TO220-3 A6c DIODE
    Text: IPB06CN10N G IPI06CN10N G IPP06CN10N G "%&$!"# 2 Power-Transistor Product Summary Features R 492 ?6= ?@ C>2 =6G6= R I46=6?E82 E6 492 C86 IR ;I"\[# AC@ 5F4E! '  V ;I )( K R  - @ ?>2 I.)     .&* Z" I; )( 7 R/ 6CJ =@ H @ ? C6D:DE 2 ?46 R ;I"\[#


    Original     		PDF IPB06CN10N IPI06CN10N IPP06CN10N 8976BF6 marking 9D sd marking 8H PG-TO220-3 A6c DIODE

    marking 6d

    Abstract: IPP04CN10N G diode 6e
    Text: IPB04CN10N G IPI04CN10N G IPP04CN10N G "%&$!"# 2 Power-Transistor Product Summary Features V ;I R 492 ?6= ?@ C>2 =6G6= R  - @ ?>2 I. R I46=6?E82 E6 492 C86 IR ;I"\[# AC@ 5F4E!) '   I; )( K +&1 Z" )( 7 R/ 6CJ =@ H @ ? C6D:DE 2 ?46 R ;I"\[#


    Original     		PDF IPB04CN10N IPI04CN10N IPP04CN10N marking 6d IPP04CN10N G diode 6e

    Untitled

    Abstract: No abstract text available
    Text: IPB05CN10N G IPI05CN10N G IPP05CN10N G  2 Power-Transistor Product Summary Features R฀ 492?6=฀?@C>2=฀=6G6= R฀ I46=6?E฀82E6฀492C86฀I฀R ;I"\[#฀AC@5F4E฀! ' V ;I )( K R -@?>2I฀.)฀ -&) Z I; )( 7 R฀/6CJ฀=@H฀@? C6D:DE2?46฀R ;I"\[#


    Original     		PDF IPB05CN10N IPI05CN10N IPP05CN10N 492C86à E2C86Eà

    IPP05CN10N

    Abstract: No abstract text available
    Text: IPB05CN10N G IPI05CN10N G IPP05CN10N G "%&$!"# 2 Power-Transistor Product Summary Features V ;I R 492 ?6= ?@ C>2 =6G6= R  - @ ?>2 I. R I46=6?E82 E6 492 C86 IR ;I"\[# AC@ 5F4E!) '   I; )( K -&) Z" )( 7 R/ 6CJ =@ H @ ? C6D:DE 2 ?46 R ;I"\[#


    Original     		PDF IPB05CN10N IPI05CN10N IPP05CN10N 8976BF6

    marking 9D

    Abstract: 7 segment display RL S5220 marking code AE -transformer BZV49-C51
    Text: Sheet No.1/3 Product Specification Type Number : MTM7 6 1 1 0 0 L B F *5 Type Application Structure Outline Absolute Maximum Ratings Item Checked by Applied by S.Miyata M.Fujisawa H.Shidooka Established by Silicon Field Effect Transistors Switching P-Channel MOS Type


    Original     		PDF

    transistor marking 9D

    Abstract: marking 9D transistor STA9015SF STC9014SF STA9015
    Text: STA9015SF Semiconductor PNP Silicon Transistor Description • General purpose application. • Switching application. Features • Excellent hFE linearity : hFE IC=0.1mA / hFE(IC=2mA) = 0.95(Typ.) • Complementary pair with STC9014SF Ordering Information


    Original     		PDF STA9015SF STC9014SF OT-23F KSD-T5C003-000 transistor marking 9D marking 9D transistor STA9015SF STC9014SF STA9015

    marking 9D

    Abstract: marking eb5 diode 1D marking g9 55B5 7865a DIODE Z6 Diode 9H DIODE ED 99 package marking 5f
    Text: IPA086N10N3 G TM "%&$!"# 3 Power-Transistor Product Summary Features Q ' 3 81>>5< >? B=1<<5F5< Q  H3 5<<5>D71D5 3 81B75 HR 9H"[Z# @B? 4E3 D &  V 9H ( J R  , ? >=1H 0&. Y" I9 ,- 6 Q. 5BI <? G ? > B5C9CD 1>3 5 R 9H"[Z# Q   T ? @5B1D9>7 D5=@5B1D


    Original     		PDF IPA086N10N3 7865AE5 marking 9D marking eb5 diode 1D marking g9 55B5 7865a DIODE Z6 Diode 9H DIODE ED 99 package marking 5f

    diode ED 1B

    Abstract: marking EB diode 5D j marking
    Text: IPB054N06N3 G IPP057N06N3 G Ie\Q "%&$!"# 3 Power-Transistor Product Summary Features V 9H Q #451<6? B8978 6B5AE5>3 I CG9D389 >7 1>4 CI>3 B53 R  , ? >=1H, & Q @D9=9J54 D53 8>? <? 7I 6? B    3 ? >F5BD5BC   I9 .( J -&, Y" 0( 6 Q  H3 5<<5>D71D5 3 81B75 HR 9H"[Z# @B? 4E3 D ( & 


    Original     		PDF IPB054N06N3 IPP057N06N3 diode ED 1B marking EB diode 5D j marking

    Untitled

    Abstract: No abstract text available
    Text: IPB042N10N3 G IPI045N10N3 G IPP045N10N3 G "%&$!"# 3 Power-Transistor Product Summary Features V 9H Q ' 3 81>>5< >? B=1<<5F5< R  , ? >=1H- Q  H3 5<<5>D71D5 3 81B75 HR 9H"[Z# @B? 4E3 D ( &   I9 ( J ,&* Y" )( 6 Q. 5BI <? G ? > B5C9CD 1>3 5 R 9H"[Z#


    Original     		PDF IPB042N10N3 IPI045N10N3 IPP045N10N3

    4b 5c marking

    Abstract: PG-TO-263-7
    Text: IPB030N08N3 G "%&$!"# 3 Power-Transistor Product Summary Features Q #451<6? B8978 6B5AE5>3 I CG9D389 >7 1>4 CI>3 B53 Q @D9=9J54 D53 8>? <? 7I 6? B=? D? B4B9F5 1@@<931D9 ? >C V 9H 0( J R 9H"[Z#$YMd +&( Y" I9 .( 6 Q  H3 5<<5>D71D5 3 81B75 HR 9H"[Z# @B? 4E3 D ( & 


    Original     		PDF IPB030N08N3 4b 5c marking PG-TO-263-7

    marking EB5

    Abstract: diode marking eb5 marking G9
    Text: IPD122N10N3 G TM "%&$!"# 3 Power-Transistor Product Summary Features Q ' 3 81>>5< >? B=1<<5F5< Q  H3 5<<5>D71D5 3 81B75 HR 9H"[Z# @B? 4E3 D &  V 9H ( J R  , ? >=1H )*&* Y" -1 I 6 Q. 5BI <? G ? > B5C9CD 1>3 5 R 9H"[Z# Q   T ? @5B1D9>7 D5=@5B1D


    Original     		PDF IPD122N10N3 7865AE5 marking EB5 diode marking eb5 marking G9

    IPB027N10N3

    Abstract: marking 1D 55B5 Q451 EB5 MARKING marking G9
    Text: IPB027N10N3 G "%&$!"# 3 Power-Transistor Product Summary Features Q ' 3 81>>5< >? B=1<<5F5< Q  H3 5<<5>D71D5 3 81B75 HR 9H"[Z# @B? 4E3 D &  V 9H ( J R 9H"[Z#$YMd *&/ Y" I9 )*( 6 Q. 5BI <? G ? > B5C9CD 1>3 5 R 9H"[Z# Q   T ? @5B1D9>7 D5=@5B1D


    Original     		PDF IPB027N10N3 7865AE5 marking 1D 55B5 Q451 EB5 MARKING marking G9

    IPB029N06N3G

    Abstract: No abstract text available
    Text: IPB029N06N3 G Ie\Q IPI032N06N3 G IPP032N06N3 G "%&$!"# 3 Power-Transistor Product Summary Features V 9H Q #451<6? B8978 6B5AE5>3 I CG9D389 >7 1>4 CI>3 B53 R  , ? >=1H , & Q @D9=9J54 D53 8>? <? 7I 6? B    3 ? >F5BD5BC I9   .( J *&1 Y" *(


    Original     		PDF IPB029N06N3 IPI032N06N3 IPP032N06N3 IPB029N06N3G

    d5cd

    Abstract: IPI024N06N3 G
    Text: IPB021N06N3 G Ie\Q IPI024N06N3 G IPP024N06N3 G "%&$!"# 3 Power-Transistor Product Summary Features V 9H Q #451<6? B8978 6B5AE5>3 I CG9D389 >7 1>4 CI>3 B53 R  , ? >=1H, & Q @D9=9J54 D53 8>? <? 7I 6? B    3 ? >F5BD5BC   I9 .( J *& Y" )*( 6


    Original     		PDF IPB021N06N3 IPI024N06N3 IPP024N06N3 d5cd IPI024N06N3 G

    EIA-556-A

    Abstract: transistor package SOT-723 L2SA1365 sot-23 marking 9D sot723 SOT-723 sot23 mark code AE sod-723 marking b marking 9D transistor 33039
    Text: LESHAN RADIO COMPANY, LTD. General Purpose Transistor DESCRIPTION L2SA1365*LT1G L2SA1365*LT1G is a mini packagesilicon PNP epitaxial transistor, designed with high collector current and small VCE sat . . FEATURE ● Small collector to emitter saturation voltage.


    Original     		PDF L2SA1365 180MHz 195mm 150mm 10Reel/Inner 30KPCS/Inner 3000PCS/Reel 40KPCS/Inner EIA-556-A transistor package SOT-723 sot-23 marking 9D sot723 SOT-723 sot23 mark code AE sod-723 marking b marking 9D transistor 33039

    OC 140 germanium transistor

    Abstract: germanium power devices corporation germanium transistors NPN OC 74 germanium transistor HSD879D Germanium Transistor
    Text: HI-SINCERITY Spec. No. : HD200203 Issued Date : 1996.07.15 Revised Date : 2005.08.18 Page No. : 1/4 MICROELECTRONICS CORP. HSD879D SILICON NPN EPITAXIAL TYPE TRANSISTOR Description For 1.5V and 3v electronic flash use. TO-126ML Features • Charger-up time is about 1 ms faster than of a germanium transistor.


    Original     		PDF HD200203 HSD879D O-126ML 183oC 217oC 260oC OC 140 germanium transistor germanium power devices corporation germanium transistors NPN OC 74 germanium transistor HSD879D Germanium Transistor

    EIA-556-A

    Abstract: sot-23 marking 9D transistor marking 9D NF 723 L2SA1365 marking A5F application of IC 723 EIA-556A H SOD723
    Text: LESHAN RADIO COMPANY, LTD. General Purpose Transistor L2SA1235FLT1G DESCRIPTION L2SA1365FLT1G is a mini package silicon PNP epitaxial transistor, it is designed for low frequency voltage application. . 3 FEATURE ● Small collector to emitter saturation voltage.


    Original     		PDF L2SA1235FLT1G L2SA1365FLT1G 195mm 150mm 10Reel/Inner 30KPCS/Inner 3000PCS/Reel 40KPCS/Inner OT-723 EIA-556-A sot-23 marking 9D transistor marking 9D NF 723 L2SA1365 marking A5F application of IC 723 EIA-556A H SOD723

    2sk2013 2SJ313

    Abstract: transistor marking 9D
    Text: TOSHIBA 2SJ313 TOSHIBA FIELD EFFECT TRANSISTOR 1 SILICON P CHANNEL MOS TYPE <; I mm 3 mm m 1 3 m mm AUDIO FREQUENCY PO W ER AM PLIFIER APPLICATION • • • High Breakdown Voltage : V d SS—_ 180V High Forward Transfer Admittance : |Yfs| = 0.7S Typ. Complementary to 2SK2013


    OCR Scan     		PDF 2SJ313 2SK2013 100ms* 2sk2013 2SJ313 transistor marking 9D

    2SK1829

    Abstract: No abstract text available
    Text: TOSHIBA 2SK1829 TOSHIBA FIELD EFFECT TRANSISTOR SILICON N CHANNEL MOS TYPE 2SK1 829 Unit in mm HIGH SPEED SWITCHING APPLICATIONS 2.1 ± 0.1 ANALOG SWITCH APPLICATIONS 2.5V Gate Drive Low Threshold Voltage : Vth = 0.5~1.5V High Speed Enhanncement-Mode Small Package


    OCR Scan     		PDF 2SK1829 SC-70 10//S 2SK1829

    2SK1830

    Abstract: No abstract text available
    Text: TOSHIBA 2SK1830 TOSHIBA FIELD EFFECT TRANSISTOR SILICON N CHANNEL MOS TYPE 2SK1 830 Unit in mm HIGH SPEED SWITCHING APPLICATIONS ANALOG SWITCH APPLICATIONS 2.5V Gate Drive Low Threshold Voltage : Vth = 0.5~1.5V High Speed Enhanncement-Mode Small Package EQUIVALENT CIRCUIT


    OCR Scan     		PDF 2SK1830 10//S 2SK1830

    transistor marking 9D

    Abstract: 2SK2033 transistor kp
    Text: TOSHIBA 2SK2033 TOSHIBA FIELD EFFECT TRANSISTOR SILICON N CHANNEL MOS TYPE 2SK2033 HIGH SPEED SWITCHING APPLICATIONS. ANALOG SWITCH APPLICATIONS. • High Input Impedance. • Low Gate Threshold Voltage Vth = 0.5~1.5V • Excellent Switching Times ton = 0 .1 6 ^ typ.


    OCR Scan     		PDF 2SK2033 O-236MOD SC-59 transistor marking 9D 2SK2033 transistor kp