BCX52-10-AG中文资料
贴片A系列三极管参数
Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Max Sie Phi Phi Zet Sie Phi Phi Max Max Max Max Max Max Max Max Max Max
B B I S B B C C C C C C C I I B N N N N N N N N N N N B D D D D D D RQ BQ I C M N N N N N N
SOT363 SOD323 SOT143 SOT143 SOT143 SOT23 SOT23 SOT323 SOT23 SC74 SOT323 SOT23 SOT23 SOT416 SOD110 SOD323 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT323 SC75 SC74 SOT323 SOT23 SOT143 SOT143 SOD323 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23
Code A A A A0 A0 A03 A06 A07 A1 A1 A1 A1 A1p A1t A1t A1s A1s A1s A1X A2 A2 A2 A2s A2 A2 A2 A22 A2X A3 A3 A3 A3 A3 A3p A3t A3 A3X A4 A4s A4s A4s A4s A4 A4p A4t
A4t A4X A5 A5p A5t A5 A5 A5 A6s A6s A6s A6 A6p A6t A6 A6 A6p A6 A6A A6B A6C A6D A6E A6F A6G A6H A6J A6K A6L A6X A7s A7s A7s A7s A7 A7 A7 A8 A8 A8 A8 A8A A8B A8C A8D A8E A8F
贴片三极管A解析
A3 BAP64-03 Phi I SOD323 3 GHz pin diodeA3 HSMS-2803 HP D SOT23 HP2800 ser pairA3 MMBD1005 Mot A SOT23 dual ca Si diode low leakage A3 BAS16 Zet C Si sw 75V 100mAA3 BAT17 Phi C SOT23 BA481A3p BAT17 Phi C SOT23 BA481A3t BAT17 Phi C SOT23 BA481A3 MBT3906DW Mot N SOT363 dual 2N3906A3X MMBD2835 Mot A SOT23 dual ca sw 35V 100 mA 15nS A4 HSMS-2804 HP B SOT23 dual cc HP2800 schottkyA4s BAV70W Sie B SOT323 dual cc BAW62A4s BAV70 Sie B SOT23 dual cc BAW62A4s BAV70TSie B SOT416 dual cc BAW62_________________A4s BAV70U Sie B SC74 dual cc BAW62BAV70W Phi B SOT323 dual cc BAW62A4 qA4p BAV70 Phi B SOT23 dual cc BAW62A4t BAV70 Phi B SOT23 dual cc BAW62A4t BAV70 Phi B SOT363 dual cc BAW62A4X MBAV70 Mot B dittoA5 BAP51-03 Phi I SOD323 GP RF pin diodeA5p BRY61 Phi SOT143A5t BRY61 Phi SOT143A5 nHSMS-2805 HP S SOT143 dual HP2800 schottkyA5 MMBD1010 Mot B SOT23 dual cc Si diodesA5 MMBD2837 Mot B SOT23 dual cc diodes 30V 150mAA6s BAS16W Sie C SOT323 BAW62 (1N4148)A6s BAS16 Sie C SOT23 BAW62 (1N4148)A6s BAS16U Sie C SC74 BAW62 (1N4148)A6 BAS16W Phi C SOT323 BAW62 (1N4148)A6p BAS16 Phi C SOT23 BAW62 (1N4148)A6t BAS16 Phi C SOT23 BAW62 (1N4148)A6 BAS16T Phi C SOT416 BAW62 (1N4148)A6 BAS216 Phi I SOD110 BAW62 (1N4148)A6p BAS316 Phi I SOD323 BAW62 (1N4148)A6 MMBD2836 Mot B SOT23 dual sw diode cc 75V A6A MMUN2111 Mot N SOT23 pnp dtr 1Ok+1OkA6B MMUN2112 Mot N SOT23 pnp dtr 22k+22kA6C MMUN2113 Mot N SOT23 pnp dtr 47k+47kA6D MMUN2114 Mot N SOT23 pnp dtr 100k+100kA6E MMUN2115 Mot N SOT23 pnp dtr R1 10kA6F MMUN2116 Mot N SOT23 pnp dtr R1 4k7A6G MMUN2130 Mot N SOT23 pnp dtr 1k0+1k0A6H MMUN2131 Mot N SOT23 pnp dtr 2k2+2k2A6J MMUN2132 Mot N SOT23 pnp dtr 4k7+4k7Mot N SOT23 pnp dtr 4k7+47kA6K MMUN2133_________________A6L MMUN2134 Mot N SOT23 pnp dtr 22k+47kA6X MMBD2838 Mot B SOT23 dual sw 50 V 100mAA7s BAV99 Sie D SOT23 dual ser BAW92A7s BAV99W Sie D SOT323 dual ser BAW92A7s BAV99T Sie D SC75 dual ser BAW92A7s BAV99U Sie D SC74 dual ser BAW92A7 BAV99W Phi D SOT323 dual ser BAW92A7 BAV99 Phi D SOT23 dual ser BAW92A7 HSMS-2807 HP RQ SOT143 HP2800 ring quadA8 nHSMS-2808 HP BQ SOT143 HP2800 bridge quadA8 BAP50-03 Phi I SOD323 GP RF pin diodeA8 BAS19 Phi C SOT23 BAV19A8 SI2308DS Sil M SOT23 N-ch mosfet, 60 V 0.1A A8A MMUN2211 Mot N SOT23 npn dtr 10k +10kA8B MMUN2212 Mot N SOT23 npn dtr 22k +22kA8C MMUN2213 Mot N SOT23 npn dtr 47k+47kA8D MMUN2214 Mot N SOT23 npn dtr 100k+100kA8E MMUN2215 Mot N SOT23 npn dtr R1 10kA8F MMUN2216 Mot N SOT23 npn dtr R1 4k7A8G MMUN2230 Mot N SOT23 npn dtr 1k0 +1k0A8H MMUN2231 Mot N SOT23 npn dtr 2k2+2k2A8J MMUN2232 Mot N SOT23 npn dtr 4k7+4k7A8K MMUN2233 Mot N SOT23 npn dtr 4k7+47kA8L MMUN2234 Mot N SOT23 npn dtr 22k+47kA9 SI2309DS Sil M SOT23 P-ch mosfet, 60V 0.1AA11 MMBD1501A Fch C SOT23 180V 200mA diodeA13 MMBD1503A Fch D SOT23 180V 200mA dual diode seriesA14 MMBD1504A Fch B SOT23 180V 200mA dual diode ccA15 MMBD1505A Fch A SOT23 180V 200mA dual diode caA16 ZC934A Zet C SOT23 25-95pF hyperabrupt varicapA17 ZC933A Zet C SOT23 12-42pF hyperabrupt varicapA51 BRY62 Phi SOT143A81 BAS20 Phi C SOT23 BAV20A82 BAS21 Phi C SOT23 BAV21A91 BAS17 Phi C SOT23 BA314AA BCX51 Sie P SOT89 pnp 45V audio comp BCX54AA BCW60A TT N SOT23 BCY58-viiAA ZMV829A Zet I SOD323 varicap hyperabrupt 28V 8.2pF@2V AAs BCW60A Sie N SOT23 BCY58-viiAAA MMBF4856 Mot F SOT23 2N4856 n-ch chopper jfetAAG MMBR951AL Mot N SOT23 npn RF 8GHzAAH MAX6326_R22-T Max ZB SC70 microproc -ve reset gen 2.200V AAI MAX6327 R22-T Max ZB SC70 microproc +ve reset gen 2.200V AAJ MAX6328 R22-T Max ZB SC70 microproc -ve reset gen 2.200V AAN MAX809LXR Max ZB SC70 microproc -ve reset gen 5.0VAAO MAX809MXR Max ZB SC70 microproc -ve reset gen 5.0VAAP MAX809TXR Max ZB SC70 microproc -ve reset gen 3.3VAAQ MAX809SXR Max ZB SC70 microproc -ve reset gen 3.3VAAR MAX809RXR Max ZB SC70 microproc -ve reset gen 3.0VAAS MAX803ZXR Max ZB SC70 microproc -ve reset gen 2.5VAAU MAX810MXR Max ZB SC70 microproc +-ve reset gen 5.0V AAV MAX810TXR Max ZB SC70 microproc +ve reset gen 3.3V AAW MAX810RXR Max ZB SC70 microproc +ve reset gen 3.0VAAX MAX810SXR Max ZB SC70 microproc +ve reset gen 3.3VAAY MAX810ZXR Max ZB SC70 microproc +ve reset gen 2.5VAAZ MAX803LXR Max ZB SC70 microproc -ve reset gen 5.0VAB BCW60B ITT N SOT23 BCY58-viiiAB ZMV830A Zet I SOD323 varicap hyperabrupt 28V 10pF@2V ABs BCW60B Sie N SOT23 BCY58-viiiABp BCW60B Phi N SOT23 BCY58-viiiABt BCW60B Phi N SOT23 BCY58-viiiABA MAX803TXR Max ZB SC70 microproc -ve reset gen 5.0VABB MAX803MXR Max ZB SC70 microproc -ve reset gen 3.3VABC MAX803SXR Max ZB SC70 microproc -ve reset gen 3.3VABD MAX803RXR Max ZB SC70 microproc -ve reset gen 3.0VABE MAX803ZXR Max ZB SC70 microproc -ve reset gen 2.5VABF LM4041AIX3-1.2 Max L SC70 1.225V 0.1% shu nt V refABG LM4041BIX3-1.2 Max L SC70 1.225V 0.2% shu nt V refABH LM4041DIX3-1.2 Max L SC70 1.225V 0.5% shu nt V refABI LM4041DIX3-1.2 Max L SC70 1.225V 1.5% shu nt V refABJ LM4040AIX3-2.1 Max L SC70 2.048V 0.1% shu nt V refABK LM4040BIX3-2.1 Max L SC70 2.048V 0.2% shu nt V refABL LM4040CIX3-2.1 Max L SC70 2.048V 0.5% shu nt V refABM LM4040DIX3-2.1 Max L SC70 2.048V 1% shu nt V refABN LM4040AIX3-2.5 Max L SC70 2.5001% shu nt V refABO LM4040BIX3-2.5 Max L SC70 2.500V 0.2% shu nt V refABP LM4040CIX3-2.5 Max L SC70 2.500V 0.5% shu nt V refABQ LM4040DIX3-2.5 Max L SC70 2.500V 1% shu nt V refABR LM4040AIX3-3.0 Max L SC70 3.000V 0.1% shu nt V refABS LM4040BIX3-3.0 Max SC70 3.000V 0.2% shu nt V refABT LM4040CIX3-3.0 Max L SC70 3.000V 0.5% shu nt V refABU LM4040DIX3-3.0 Max L SC70 3.000V 1% shu nt V refABV LM4040AIX3-4.1 Max L SC70 4.096V 0.1% shu nt V refABW LM4040BIX3-4.1 Max L SC70 4.096V 0.2% shu nt V refABX LM4040CIX3-4.1 Max L SC70 4.096V 0.5% shu nt V refABY LM4040DIX3-4.1 Max L SC70 4.096V 1% shu nt V refABZ LM4040AIX3-5.0 Max J SC70 5.000V 0.1% shu nt V refAC BCX51-100 Sie P SOT89 45V pnp audio hfe 100AC BCX51-10 Phi P SOT89 45V pnp audio hfe 100AC BCW60C Phi N SOT23 BCY58-ixAC ZMV831A Zet I SOD323 varicap hyperabrupt 28V 15pF@2V ACs BCW60C Sie N SOT23 BCY58-ixACp BCW60C Phi N SOT23 BCY58-ixACt BCW60C Phi N SOT23 BCY58-ixACA LM4040BIX3-5.0_________________Max L SC70 5.000V 0.2% shu nt V refACB LM4040CIX3-5.0 Max L SC70 5.000V 0.5% shu nt V refACC LM4040DIX3-5.0 Max L SC70 5.000V 1% shu nt V refACE MAX6326_R31-T Max ZB SC70 microproc -ve reset gen 3.080V ACF MAX6347_R46-T Max ZB SC70 microproc +ve reset gen 4.630V ACH MAX6326_R23-T Max ZB SC70 microproc -ve reset gen 2.320V ACI MAX6326_R26-T Max ZB SC70 microproc -ve reset gen 2.630V ACJ MAX6328_R26-T Max ZB SC70 microproc -ve reset gen 2.630V ACK MAX6346_R44-T Max ZB SC70 microproc -ve reset gen 4.380V ACL MAX6347_R44-T Max ZB SC70 microproc +ve reset gen 4.380V ACM MAX6348_R46-T Max ZB SC70 microproc -ve reset gen 4.630V ACN MAX6348_R44-T Max ZB SC70 microproc -ve reset gen 4.380V ACO MAX6346 R46-T Max ZB SC70 microproc -ve reset gen 4.630V ACP MAX6326_R29-T Max ZB SC70 microproc -ve reset gen 2.930V ACQ MAX6327_R23-T Max ZB SC70 microproc +ve reset gen 2.320VACR MAX6327 R26-T—Max ZB SC70 microproc +ve reset gen 2.630V ACS MAX6327 R29-T Max ZB SC70 microproc +ve reset gen 2.930V ACT MAX6327_R31-T Max ZB SC70 microproc +ve reset gen 3.080VACU MAX6328 R23-T—Max ZB SC70 microproc -ve reset gen 2.320VACV MAX6328 R29-T—Max ZB SC70 microproc -ve reset gen 2.930VACW MAX6326_R31-T Max ZB SC70 microproc -ve reset gen 3.080V AD BCX51-160 Sie P SOT89 45V pnp audio hfe 160AD BCX51-16 Phi P SOT89 45V pnp audio hfe 160AD BCW60D Phi N SOT23 BCY58-XAD ZMV832A Zet J SOD323 varicap hyperabrupt 28V 22pF@2V ADs BCW60D Sie N SOT23 BCY58-XADp BCW60D Phi N SOT23 BCY58-XADt BCW60D Ph N SOT23 BCY58-XADN 2SC3838K Roh N npn 11V 3.2GHz TV tunersAE BCX52 Sie P SOT89 pnp 60V audio comp BCX55AE ZMV833A Zet I SOD323 varicap hyperabrupt 28V 33pF@2V AEN 2SC3839K Roh N npn 20V 2.0GHz TV tun ersAF ZMV834AZet I SOD323 varicap hyperabrupt 28V 47pF@2V _________________AFs BCW60FF Sie N SOT23 BCY58ZMV835A Zet I SOD323 varicap hyperabrupt 28V 68pF@2V AG qAG BCX70G Phi N SOT23 BCY59-vii BC107AGs BCX70G Sie N SOT23 BCY59-vii BC107AGp BCX70G Phi N SOT23 BCY59-vii BC107AGt BCX70G Phi N SOT23 BCY59-vii BC107AG BCX52-10 Sie P SOT89 60V pnp BCX52 hfe 100AH BCX70H Phi N SOT23 BCY59-viii BC107BAHs BCX70H Sie N SOT23 BCY59-viii BC107BAHp BCX70H Phi N SOT23 BCY59-viii BC107BAHt BCX70H Phi N SOT23 BCY59-viii BC107BAH BCP53 Mot P SOT223 pnp amp 80V 150mAAH BCX53 Sie P SOT89 pnp 80V audio comp BCX56AH ZMV930 Zet I SOD323 2.9-8.3pF hyperabrupt varicapAJ BCX70J Phi N SOT23 BCY59-ix BC107AJ s BCX70J Sie N SOT23 BCY59-ix BC107AJp BCX70J Phi N SOT23 BCY59-ix BC107AJt BCX70J Phi N SOT23 BCY59-ix BC107AJ ZMV931 Zet I SOD323 4 -13.5pF hyperabrupt varicapAK BCX70K Phi N SOT23 BCY59-X BC107AK ZMV932 Zet I SOD323 5.5-17pF hyperabrupt varicap AKs BCX70K Sie N SOT23 BCY59-X BC107AKp BCX70K Phi N SOT23 BCY59-X BC107AKp BCX70K Phi N SOT23 BCY59-X BC107AK BCX53-10 Sie P SOT89 pnp 80V BCX53 hfe 100AL BCX53-16 Sie P SOT89 80V pnp BCX53 hfe 100AL MMBTA55L Mot N SOT23 pnp 25V (MPSA55)AL ZMV933 Zet I SOD323 12-42pF hyperabrupt varicap ALs BFP405 Sie MQ SOT343AM MMBT3904W Mot N SOT323 2N3904AM BCX52-16 Sie P SOT89 pnp 60V BCX52 hfe 160Sie MQ SOT343 npn fT 25GHz 4.5V 35mAAMs BFP420_________________AM BSS64 Mot N SOT23 npn 80V 0.1A fT 60MHzAMs BSS64 Sie N SOT23 npn 80V 0.1A fT 60MHzAMp BSS64 Phi N SOT23 npn 80V 0.1A fT 60MHzAMt BSS64 Phi N SOT23 npn 80V 0.1A fT 60MHzAM ZMV933A Zet I SOD323 12-42pF hyperabrupt varicap AN BCW60FN Sie N SOT23 gp npn 35V 0.2AANs BFP450 Sie MQ SOT343 npn fT 25GHz 4.5V 100mAAN ZMV934 Zet I SOD323 25-95pF hyperabrupt varicap AO BCW60AR ITT R SOT23 R BCY58-viiAO nZMV934A Zet I SOD323 25-95pF hyperabrupt varicap AP BCW60BR ITT R SOT23 R BCY58-viiiAPs BFP520 Sie MQ SOT343 npn fT 40GHz 2.5V 40mAA-Q 2PD1820AQ Phi N SOT323 gp sw amp 50V npn hfe 85-170 AtQ 2PD1820AQ Phi N SOT323 gp sw amp 50V npn hfe 85-170 AR BCW60CR ITT R SOT23 R BCY58-ixAR MSD709R Mot N pnp gp 25VAR1 BSR40 Phi P SOT89 npn 70V 1A 1.35W hfe 40-120 AR2 BSR41 Phi P SOT89 npn 70V 1A 1.35W hfe 100-300 AR3 BSR42 Phi P SOT89 npn 90V 1A 1.35W hfe 40-120AR4 BSR43 Phi P SOT89 npn 90V 1A 1.35W hfe 100-300 A-Q 2PD1820AR Phi N SOT323 gp sw amp 50V npn hfe 120-240 AtQ 2PD1820AR Phi N SOT323 gp sw amp 50V npn hfe 120-240 A-S 2PD1820AS Phi N SOT323 gp sw amp 50V npn hfe 170-340 AtS 2PD1820AS Phi N SOT323 gp sw amp 50V npn hfe 170-340 AS BCW60DR ITT R SOT23 R BCY58-XAS MSD709S Mot N pnp gp 25VASs BAT18-05 Sie B SOT23 dual BAT18 RF pinAS1 BST50 Mot P SOT89 npn darli ngto n 0.5A 60VAS2 BST51 Mot P SOT89 npn darlington 0.5A 80VAS3 BST52 Mot P SOT89 npn darli ngto n 0.5A 90VAS3 BSP52 Mot P SOT223 npn darlington 0.5A hfe 2000 ATs BAT18-06 Sie A SOT23 dual ca BAT18 RF pinATs BFP540 Sie MQ SOT343 npn microwaveAUs BAT18-04 Sie D _ ,SOT23dual BAT18 RF pinAU BCW60GR ITT R SOT23 R BCY58AV DAN212K Roh C 80V 100mA swAW BCW60HR ITT R SOT23 R BCY58AX BCX70JR ITT R SOT23 R BCY59-ixAY BCX70KR ITT R SOT23 R BCY59-XAY MMBD1000 Mot C SOT23 Si sw diode 30V 0.2A补充:元器件标示代号封装形式实际元件型号制造工厂替换型号2 SCD-80 BA892 IFA 2SOD-323 BA597 IF4 105-P MSA-1105 AV4 HPAC-100X HXTR-3104 HP 2N6839a 4 nRadial-4B NE329S01 NEA* 4 |1412 MGA-725M4 AVA* 6 JLPCC-6 ALM-1106 AVA## 30402 VMMK-1225 AV A -Q 3 SOT-323 2PD1820AQ PHA -R 3 SOT-323 2PD1820AR PHA -S 3 SOT-323 2PD1820AS PHAO 3 SOT-23 HSMS-2800 HP 5082-28003 SOT-323 HSMS-280B AV Avt0706AO** 5 SOT-23 /5 TC1014-4.0VCT713 MIAOOA 5 SOT-23 /5 LMC7101AIM5 NS LMC7101AIN AOOB 5 SOT-23 /5 LMC7101BIM5 NS LMC7101BIN AO1 4 86-P MSA-0186 HPAO1B 5 SOT-23 /5 LMC7111BIM5 NS LMC7111BIN A02 4 86-P MSA-0286 AV HPA02A 5 SOT-23 /5 LM7131ACM5 NS LM7131ACN A02B 5 SOT-23 /5 LM7131BCM5 NS LM7131BCN A03 4 86-P MSA-0386 AVA03* 4 SOT-143 MSA-0311 AVA04 4 86-P MSA-0486 AV HPA04A5SOT-23 /5 LM7301IM5 NS LM7121INA052SOD-6 SMBYW02-50 ST BYW02-50A06 4 86-P MSA-0686 AV HPA06* 4 SOT-143 MSA-0611 AVA074 86-P MSA-0786 AV HP8 MSOP-8 LMC272CMM NS LMC272CN A07* 4 SOT-143 MSA-0711 AVA08 4 86-P MSA-0886 AV HPA09 4 86-P MSA-0986 AV2 SOD-11O BAS240 PHA1 2 SOD-123F BAS16H PH2 SOD-323 BA591 PH2 SOD-523 BB208-02 PH2 SOD-882 BZX884-B2V4 PH3 SC-75 2SJ243 NE3 SOT-23 BAW56 MO NSVAL 2x BAW62 3 SOT-23 HSMS-2801 HP 5082-2800 3 SOT-323 BAW56W PH3 SOT-416 BAW56T PH4SOT-343R BGA2001 PH5 SOT-665 PESD5V0L4UW PHA1** 5 SOT-23 /5 TC1014-2.5VCT713 MIA10 2 SOD-6 SMBYW02-100 ST BYW02-100 A113 SOT-23 MMBD1501A NS5 SOT-23 /5 MIC6211BM5 MRA12 5 SC-70/5 LMV321M7 NSA13 3 SC-59 1SS220 NE 3 SOT-23 MMBD1503A NS 5 SOT-23 /5 LMV321M5 NSA14 3 SC-59 1SS221 NE 3 SC-70 1SS305 NE 3 SOT-23 MMBD1504A NSA152 SOD-6 SMBYW02-150 ST BYW02-1503 SOT-23 MMBD1505A NSA16 3 SOT-23 ZC934A ZEA17 3 SOT-23 ZC933A ZEA1p3 SOT-23 BAW56 PH 2x BAW624 SOT-343R BFG310W/XR PHA1s 3 SOT-23 BAW56 SM 3 SOT-323 BAW56W IF 6 SC-74 BAW56U IF 6 SOT-363 BAW56S IFAlt3 SOT-23 BAW56 PH6 SOT-363 BAW56S PH A1W 3 SOT-23 BAW56 PHA2 2 SOD-323 BB208-03 PH2 SOD-523 BB184 PH2 SOD-882 BZX884-B2V7 PH3 SOT-23 BAT18 PH TH VAL BA4823 SOT-23 FMMD2836 ZE3 SOT-23 HSMS-2802 HP 2x 5082-2800 3 SOT-23 ZC833 FER3 SOT-323 HSMS-280C AV4SOT-143 CFY30 SM5 SOT-665 PESD3V3L4UW PHA2** 5 SOT-23 /5 TC1014-2.7VCT713 MIA202 SOD-6 SMBYW02-200 ST BYW02-2004 86-P MSA-2086 AVA20* 4 SOT-143 MSA-2011 AVA21* 4 SOT-143 MSA-2111 AVA27 3 SOT-89 PXTA27 PHA2p3 SOT-23 BAT18 PH BA4826 SOT-363 BGA2022 PHA2s 3 SOT-23 BAT18 IFA3 2 SOD-323 BAP64-03 PH2 SOD-882 BZX884-B3V0 PH3 SC-59 1S2835 NE3 SOT-23 BAS16 FER3 SOT-23 BAT17 TH VAL BA480, BA481 3 SOT-23 HSMS-2803 HP 2x 5082-28003 SOT-323 HSMS-280E AV4 SOT-343R BGA2003 PHA3** 5 SOT-23 /5 TC1014-3.0VCT713 MIA3 - 6 SOT-363 BGA2031/1 PHA31 4 86-P MSA-3186 AVA31* 4 SOT-143 MSA-3111 AVA3p 3 SOT-23 BAT17 PH BA480 A3t 3 SOT-23 BAT17 PHA3W 3 SOT-23 BAT17 PHA4 2 SOD-323 BAT760 PH2 SOD-882 BZX884-B3V3 PH3 SC-59 1S2836 NE3 SC-70 1SS303 NE3 SC-75 KA4A4M NE3 SOT-23 BAV70 MO NS SM VAL 2x BAW623 SOT-23 HSMS-2804 HP 2x 5082-2800 3 SOT-323 BAV70W PH3SOT-323 HSMS-280F AV3 SOT-416 BAV70T PH4 SOT-343R BFU540 PHA46 3 SOT-23 BAR46A STA4p 3 SOT-23 BAV70 PH 2x BAW62A4s 3 SC-75 BAV70T IF3SOT-23 BAV70 IF SM 3SOT-323 BAV70W IF6 SC-74 BAV70U IF6 SOT-363 BAV70S IFA4t3 SOT-23 BAV70 PH6 SOT-363 BAV70S PHA4W 3 SOT-23 BAV70 PH2 SOD-323 BAP51-03 PH2 SOD-882 BZX884-B3V6 PH3 SC-59 1S2837 NEA5 3 SOT-23 BRY61 VAL BRY563 SOT-23 FMMD2837 ZE4 SOT-143 HSMS-2805 HP 2x 5082-28004 SOT-343R BFU510 PHA5** 5 SOT-23 /5 TC1014-3.3VCT713 MIA5 - 6 SOT-363 BGA2011 PHA51 4 SOT-143 BRY62 PH VAL BRY394 SOT-143B BRY62 PH BRY395 SOT-23 /5 MIC6251BM5 MRA52 5 SOT-23 /5 MIC6252BM5 MRA5p 3 SOT-23 BRY61 PH BRY56 A5t 3 SOT-23 BRY61 PH BRY56A6 2 SOD-110 BAS216 PH2 SOD-323 BAS316 PH2 SOD-882 BZX884-B3V9 PH3 SC-59 1S2838 NE3 SC-70 1SS304 NE3 SOT-23 BAS16 MO NS ZE BAW623 SOT-23 FMMD2838 ZE3 SOT-323 BAS16W PH3 SOT-416 BAS16T PH4 SOT-343R BGU2003 PHA6 - 6 SOT-363 BGA2012 PHA61 4 SOT-143 BAS28 PH VAL 2x BAW62 A6A3 SC-59 MMUN2111 MO3 SOT-23 MMUN2111L MOA6B3 SC-59 MMUN2112 MO3 SOT-23 MMUN2112L MOA6C3 SC-59 MMUN2113 MO3 SOT-23 MMUN2113L MOA6D3 SC-59 MMUN2114 MO3 SOT-23 MMUN2114L MOA6E 3 SOT-23 MMUN2115L MOA6F 3 SOT-23 MMUN2116L MOA6G 3 SOT-23 MMUN2130L MOA6H 3 SOT-23 MMUN2131L MOA6J 3 SOT-23 MMUN2132L MOA6K 3 SOT-23 MMUN2133L MOA6L 3 SOT-23 MMUN2134L MOA6p 3 SOT-23 BAS16 PH BAW62A6s 3 SOT-23 BAS16 SM 3 SOT-323 BAS16W IF 6SC-74 BAS16U IF 6SOT-363 BAS16S IFA6t 3 SOT-23 BAS16 PH BAW62 A6W 3 SOT-23 BAS16 PH BAW62A7 2 SOD-323 BAS321 PH2 SOD-882 BZX884-B4V3 PH3 SC-59 1SS123 NE3 SC-75 KN4A4M NE3 SOT-23 BAV99 MO NS SM VAL 2x BAW62 3 SOT-323 BAV99W PH4 SOT-143 HSMS-2807 HP A7**5 SOT-23 /5 TC1014-5.0VCT713 MI A7p 3 SOT-23 BAV99 PHA7s 3 SC-75 BAV99T IF 3 SOT-323 BAV99W IF 6 SC-74 BAV99U IF 6 SOT-363 BAV99S IFA7t3 SOT-23 BAV99 PH6 SOT-363 BAV756S PH A7W 3 SOT-23 BAV99 PHA8 2 SOD-323 BAP50-03 PH2 SOD-882 BZX884-B4V7 PH3 SOT-23 BAS19 FER VAL ZE BAV194 SOT-143 HSMS-2808 HP 4x 5082-2800A8** 5 SOT-23 /5 TC1014-2.85VCT713 MIA81 3 SOT-23 BAS20 FER NS VAL ZE BAV20 A82 3 SOT-23 BAS21 NS VAL ZE BAV21 A85 3 SOT-23 MMBD1701A NSA87 3 SOT-23 MMBD1703A NSA88 3 SOT-23 MMBD1704A NSA89 3 SOT-23 MMBD1705A NSA8A 3 SC-59 MMUN2211 MOA8B 3 SC-59 MMUN2212 MOA8C 3 SC-59 MMUN2213 MOA8D 3 SC-59 MMUN2214 MOA8p 4 SOT-343R BFG325W/XR PHA9 2 SOD-323 BAP70-03 PH2 SOD-882 BZX884-B5V1 PH3 SOT-23 FMMD2835 FER ZEA9** 5SOT-23 /5 TC1014-3.6VCT713 MIA91 3SOT-23 BAS17 PH VAL BA314。
贴片三极管的标记与型号对照表
贴片三极管的标记与型号对照表标记三极管的型号AA BCW60AAB BCW60BAB 2SA1312AC 2SA1313AC BCX51-10AD BCW60DAE 2SA1362AE BCX52AF BCX52-6AG BCX70GAG BCX52-10AH BCX70HAJ BCX70JAK BCX70KAL BCX52--16 AM BCX53-16AN BCW60FNAN 2SC2532AO BCW60RAAP BCW60RBAR BCW60RCAR1 BSR40AR2 BSR41AR3 BSR42AR4 BSR43AS BCW60RDAS1 BST50AS2 BST51AS3 BST52AT1 BST39AU BCX70RGAW BCX70RHAX BCX70RJAY BCX70RKB 2SC2880BA BCW61ABB BCW61BBC BCW61CBD BCW61DBE BCX55BF BCW61FFBG BCX71GBH BCX71HBJ BCX71JBK BCX71KBL BCX56-16 BM BCX55-16 BN BCW61FNBN MMBT3638A BO BCW61RABP BCW61RBBR BCW61RCBR1 BSR30BR2 BSR31BR3 BSR32BR4 BSR33BS BCW61RDBS1 BST60BS2 BST61BS3 BST62BT1 BST15BT2 BST16BU BCX71RGBW BCX71RHBX BCX71RJBY BCX71RKB2 BSV52B3 MMBC1621B3 B4 BSV52RC 2SA1163CA BCW61RACA BCX68CB BCW61RBCB BCX68-10CC BF554CC BCW61RCCC 2SC3326CD BSS81BCD BCW61RDCE BSS79BCE 2SC3325CE BCX69CEC BC869CF BSS79CCF1 CF910CF2 CF911CF3 CF912CF4 CF913CF5 CF930CF6 CF940CG BSS81CCG BCX71RGCG 2SC3246注意,标号相同,三极管的型号不一定相同,要看图纸下面是赠送的几篇网络励志文章需要的便宜可以好好阅读下,不需要的朋友可以下载后编辑删除!!谢谢!!出路出路,走出去才有路"出路出路,走出去才有路。
BCX51 52 53 PNP中间功率导电器SOT89数据手册说明书
Features• BV CEO > -45V, -60V & -80V• I C = -1A Continuous Collector Current • I CM = -2A Peak Pulse Current• Low Saturation Voltage V CE(sat) <************• Gain Groups 10 and 16• Complementary NPN Types: BCX54, 55, and 56• Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2) • Halogen- and Antimony-Free. "Green" Device (Note 3)•For automotive applications requiring specific change control (i.e. parts qualified to AEC-Q100/101/200, PPAPcapable, and manufactured in IATF 16949 certified facilities),please contact us or your local Diodes representative.https:///quality/product-definitions/Mechanical Data• Case: SOT89• Case Material: Molded Plastic, “Green” Molding Compound; UL Flammability Rating 94V-0• Moisture Sensitivity: Level 1 per J-STD-020•Terminals: Matte Tin Finish Leads; Solderable per MIL-STD-202 Method 208•Weight: 0.052 grams (Approximate)Applications • Medium Power Switching or Amplification Applications • AF Driver and Output StagesOrdering Information (Note 4)Product Compliance Marking Reel Size (inches)Tape Width (mm)Quantity per ReelBCX51TA Standard AA 7 12 1,000 BCX51-13R Standard AA 13 12 4,000 BCX5110TA Standard AC 7 12 1,000 BCX5116TA Standard AD 7 12 1,000 BCX5116TC Standard AD 13 12 4,000 BCX52TA Standard AE 7 12 1,000 BCX5210TA Standard AG 7 12 1,000 BCX5216TA Standard AM 7 12 1,000 BCX53TA Standard AH 7 12 1,000 BCX5310TA Standard AK 7 12 1,000 BCX5316TA Standard AL 7 12 1,000 BCX5316TC Standard AL 13 12 4,000 BCX5316-13R Standard AL 13 12 4,000 BCX5110TC Standard AC 13 12 4,000 BCX51TC Standard AA 13 12 4,000 BCX5210TC Standard AG 13 12 4,000 BCX5216TC Standard AM 13 12 4,000 BCX52TC Standard AE 13 12 4,000 BCX5310TC Standard AK 13 12 4,000 BCX53TCStandardAH13124,000Notes: 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS), 2011/65/EU (RoHS 2) & 2015/863/EU (RoHS 3) compliant.2. See https:///quality/lead-free/ for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free, "Green" and Lead-free.3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds.4. For packaging details, go to our website at https:///design/support/packaging/diodes-packaging/.Top View Device SymbolTop View Pin-Out SOT89E C BMarking InformationAbsolute Maximum Ratings (@ T A = +25°C, unless otherwise specified.)CharacteristicSymbol BCX51 BCX52 BCX53 Unit Collector-Base Voltage V CBO -45 -60 -100 V Collector-Emitter Voltage V CEO -45-60 -80V Emitter-Base Voltage V EBO -5 V Continuous Collector CurrentI C -1 A Peak Pulse Collector Current (Single pulse) I CM -2 Continuous Base CurrentI B -100 mAPeak Pulse Base Current (Single pulse) I BM-200Thermal Characteristics (@ T A = +25°C, unless otherwise specified.)CharacteristicSymbol Value Unit Power Dissipation(Note 5) P D1 W(Note 6) 1.5 (Note 7) 2.0 Thermal Resistance, Junction to Ambient Air (Note 5) R θJA 125 °C/W (Note 6) 83 (Note 7)60 Thermal Resistance, Junction to Lead (Note 8) R θJL 13 °C/W Thermal Resistance, Junction to Case (Note 9)R θJC 27 °C/W Operating and Storage Temperature Range T J, T STG-55 to +150°CESD Ratings (Note 10)CharacteristicSymbol Value Unit JEDEC ClassElectrostatic Discharge - Human Body Model ESD HBM 4,000 V 3A Electrostatic Discharge - Machine ModelESD MM400VCNotes: 5. For a device mounted with the exposed collector pad on 15mm x 15mm 1oz copper that is on a single-sided 1.6mm FR4 PCB; device is measured under still air conditions whilst operating in a steady-state.6. Same as Note 5, except the device is mounted on 25mm x 25mm 1oz copper.7. Same as Note 5, except the device is mounted on 50mm x 50mm 1oz copper.8. Thermal resistance from junction to solder-point (on the exposed collector pad).9. Thermal resistance from junction to the top of the case.10. Refer to JEDEC specification JESD22-A114 and JESD22-A115.xx = Product Type Marking Code, as follows:BCX51 = AA BCX52 = AEBCX53 = AH BCX5110 = AC BCX5210 = AG BCX5310 = AK BCX5116 = AD BCX5216 = AMBCX5316 = ALThermal Characteristics and Derating Information2550751001251500.00.20.40.60.81.0Derating CurveTemperature (°C) M a x P o w e r D i s s i p a t i o n (W )Transient Therm al Im pedanceT h e r m a l R e s i s t a n c e (°C /W )Pulse Width (s)Pulse Power DissipationPulse Width (s)M a x P o w e r D i s s i p a t i o n (W )Copper Area (sqmm)M a x i m u m P o w e r (W )Copper Area (sqmm)T h e r m a l R e s i s t a n c e (°C /W )Note:11. Measured under pulsed conditions. Pulse width ≤ 300µs. Duty cycle ≤ 2%.Typical Electrical Characteristics (@ T A = +25°C, unless otherwise specified.)-I , COLLECTOR CURRENT (A)C h ,D C C U R RE N T G A I NF E Fig. 2 Typical DC Current Gain vs. Collector CurrentDC Current Gain vs. Collector Current -V , COLLECTOR-EMITTER VOLTAGE (V)CE I , C O L L E C T O R C U R R E N T (A )CFig. 1 Typical Collector Current vs. Collector-Emitter VoltageCollector Current vs. Collector-Emitter Voltage -h FE V I CI C V V CETypical Electrical Characteristics (continued.)0.20.40.60.81.0-V , B A S E -E M I T T E R T U R N -O N V O L T A G E (V )B E (O N)-I , COLLECTOR CURRENT (A)C -V , C O L L E C T O R -E M I T T E R S A T U R A T I O N V O L T A G E (V )C E (S A T )Fig. 4 Typical Collector-Emitter Saturation Voltagevs. Collector Current 0.20.40.60.81.01.2-V , B A S E -E M I T T E R S A T U R A T I O N V O L T A G E (V B E (S AT )-I , COLLECTOR CURRENT (mA)C f , G A I N -B A ND W I D T H P R O D U C T (M H z )T Fig. 6 Typical Gain-Bandwidth Product vs. Collector Current V , REVERSE VOLTAGE (V)R C A P A C I T A N C E (p F )Fig. 7 Typical Capacitance Characteristics -V B E (s a t ), B A S E -E M I T T E R S A T U R A T I O N V O L T A G E )-V B E (o n ), B A S E -E M I T T E R T U R N -O N V O L T A G E (V )-V C E (s a t ) , C O L L E C T O R -E M I T T E RC v V RVCE(sat) V I Cf T V I CPackage Outline DimensionsPlease see /package-outlines.html for the latest version.SOT89SOT89Dim Min Max TypA 1.40 1.60 1.50B 0.50 0.62 0.56B1 0.42 0.540.48c 0.35 0.43 0.38D 4.40 4.60 4.50D1 1.62 1.83 1.733D2 1.61 1.81 1.71E 2.40 2.60 2.50E2 2.05 2.35 2.20e - - 1.50H 3.95 4.25 4.10H1 2.63 2.93 2.78L 0.90 1.20 1.05L1 0.327 0.527 0.427z 0.20 0.40 0.30All Dimensions in mmSuggested Pad LayoutPlease see /package-outlines.html for the latest version.SOT89Dimensions Value(in mm)C 1.500G 0.244X 0.580X1 0.760X2 1.933Y 1.730Y1 3.030Y2 1.500Y3 0.770Y4 4.530TOP VIEW。
BCX53中文资料
Product specification
BCX51; BCX52; BCX53
PACKAGE OUTLINE Plastic surface mounted package; collector pad for good heat transfer; 3 leads
SOT89
D
B
A
b3
E HE
L
1
2
PNP medium power transistors
Product specification
BCX51; BCX52; BCX53
DEFINITIONS
Data Sheet Status
Objective specification Preliminary specification Product specification
BCX51-10; BCX52-10; BCX53-10
63 −
BCX51-16; BCX52-16; BCX53-16
100 −
collector-emitter saturation voltage IC = −500 mA; IB = −50 mA
−
−
base-emitter voltage
IC = −500 mA; VCE = −2 V
THERMAL CHARACTERISTICS
SYMBOL
PARAMETER
CONDITIONS
VALUE
UNIT
Rth j-a Rth j-s
thermal resistance from junction to ambient
note 1
thermal resistance from junction to soldering point note 1
贴片三极管A
MAX6326_R22-T Max MAX6327_R22-T Max MAX6328_R22-T Max MAX809LXR MAX809MXR MAX809TXR MAX809SXR MAX809RXR MAX803ZXR MAX810LXR Max Max Max Max Max Max Max
类型 I I N C C AQ AQ AQ K A A A A A
封装 SCD80 USM SOT323 SOT23 SOT323
参数及代换型号 35V 100mA pin 100V 50mA sw npn RF 8 GHz HP2800 schottky HP2800 schottky modamp MAR 3 Similar modamp MAR 6 Similar modamp MAR 7 Similar HP2800 schottky
A 字贴片参数代号识别代码表示 表示符 号 A A A A0 A0 A03 A06 A07 A1 A1 A1 A1 A1p A1t A1t A1s A1s A1s A1X A2 A2 A2 A2s A2 A2 A2 A22 A2X 生产 厂 Sie Roh Mot HP HP MC MC MC HP Phi Phi Phi Phi Phi Phi Sie Sie Sie Mot HP HP Phi Sie Mot Sie Mot Phi Mot A A A A D D C C A CQ DO C A SOT23 SOT323 SOT23 SOT23 SOT23 SOT143 SOT363 SOD27 SOT23
A6 A6p A6 A6A A6B A6C A6D A6E A6F A6G A6H A6J A6K A6L A6X A7s A7s A7s A7s A7 A7 A7 A8 A8 A8 A8 A8A A8B A8C A8D A8E A8F
裸芯片种类
LF351LF353LF356LF357LF411LF412LF441ALF442LF444LM107
LM108LM108ALM118LM12LM124LM143LM1458LM148LM1556LM158
缓冲放大器
HA0-5002HA0-5033HA-5002HAO-5033
测量放大器
AD524AD620AD622AD623AD624AD625AD627AMP02FSINA110INA111
INA118INA122INA128INA128AINA129NA129AINA163INA2321INA321LTC6800
TMS29F040X76F100
随机存取存储器(RAM)
IDT6116SAUIDT7026IDT7164IS61LV12816LIS61LV5128ALK4H561638DK6R4008CIDK6R4016V1DMK68345MT28C6428P18
LT1057CLT1494LT1495LT1803LT1880LT6233LTC1052MA01MAX4020MAX407
MAX4385EMAX4472MAX492MAX495MC1456MC1536MC1537MC1556MC3303MC33171
MC3503MC4741MCC1536MSK103NE5532OP07GBCOP07GRBCOP07NBCOP09OP11GBC
可变增益放大器
AD603AAD604SAD8367AD8369THS7530VCA810
视频放大器
AD813LM733LT1227TL592UA733C
BCX52-10中文资料
Product specification
BCX51; BCX52; BCX53
LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 134).
SYMBOL
PARAMETER
VCBO
collector-base voltage BCX51
PNP medium power transistors
Product specification
BCX51; BCX52; BCX53
DEFINITIONS
Data Sheet Status
Objective specification Preliminary specification Product specification
1999 Apr 19
元器件交易网
Philips Semiconductors
PNP medium power transistors
Product specification
BCX51; BCX52; BCX53
FEATURES • High current (max. 1 A) • Low voltage (max. 80 V).
−
−
transition frequency
IC = −10 mA; VCE = −5 V; f = 100 MHz −
50
−100 nA −10 µA −100 nA
− 250 −
160 250 −500 −1 −
mV V MHz
160
handbook, full pagewidth
hFE 120
Limiting values
银焊条牌号对照表
金华博威焊业有限公司银焊条介绍博威银焊条是一种以银或银基固深体的钎料,具有优良的工艺性能,不高的溶点、良好的润湿性和填满间隙的能力,并且强度高、塑性好,导电性和耐蚀性优良,可以用来钎焊除铝、镁及其他低熔点金属以外的所有黑色和有色金属,广泛应用于制冷、灯饰、五金电器、仪器仪表、化工、航空航天等工业制造领域。
一.银磷铜焊条牌号对照及简介(标准:GB/T10046-2000)环保银铜磷焊料,不高的熔点,也能加工成焊片,焊圈,盘丝产品,可用来钎焊二.银焊条环保焊料牌号对照及简介(标准:GB/T10046-2000)环保银焊料,优良的焊接效果,最常用的钎料,优良的加工性能,能做成焊丝,焊片,焊料圈,焊料片等,可焊接铜,铜合金,钢,不锈钢,铁,镍硬质合金等等黑色三、含镉银焊料牌号及性能简介(标准:GB/T10046-2000)属不环保银焊料,含镉钎料具有不高的熔点,良好的流动性和焊接性能, 并可加工成焊丝,焊圈,焊片形状, 被广泛的使用于各种工业产品的生产,但是含镉银焊条好间隙为0.03~0.075mm。
2.银磷铜的钎料,要注意尽量的快速加热钎焊,这样才能形成漂亮的钎缝,如果加热时间过长,或者钎焊温度过高,都有可能生产气孔.3.银磷铜钎料焊接紫铜不需要焊粉(焊膏),钎焊黄铜可以配焊粉(焊膏),焊后焊缝更漂亮.一般的焊缝焊后成黑色,酸洗后成光亮的灰白色,4.不含磷钎料,正常钎焊后一般呈黄铜色,含镉钎料焊缝颜色偏红和白色,环保钎料随含银量的增加,焊缝颜色越发白色.5.银焊条使用时一般都要配银焊粉(银焊膏)产品来做助焊剂,帮住焊条更好的熔化并渗透至焊缝中.6.金华博威焊业有限公司,欢迎您来人来电咨询.博威银焊条产品规格1,焊丝系列:Ф0.5-3.0盘丝;2,焊条系列:Ф1.0-Ф6.0焊条,1.3×3.2扁焊条;3,带材系列:厚度为0.1-0.25、带材或扁丝材;4,焊环系列:丝径Ф0.5-Ф3,焊圈内径Ф3.5以上各种规格的焊环。
BCX 51-16中文资料
PNP Silicon AF Transistors • For AF driver and output stages• High collector current• Low collector-emitter saturation voltage• Complementary types: BCX 54 ... BCX 56 (NPN)213VPS051622Type Marking Pin Configuration PackageBCX 51 BCX 51-10 BCX 51-16 BCX 52 BCX 52-10 BCX 52-16 BCX 53 BCX 53-10 BCX 53-16AAACADAEAGAMAHAKAL1 = B1 = B1 = B1 = B1 = B1 = B1 = B1 = B1 = B2 = C2 = C2 = C2 = C2 = C2 = C2 = C2 = C2 = C3 = E3 = E3 = E3 = E3 = E3 = E3 = E3 = E3 = ESOT-89SOT-89SOT-89SOT-89SOT-89SOT-89SOT-89SOT-89SOT-89Maximum Ratings ParameterBCX 51Symbol BCX 53Unit BCX 52V CEO 4580V60Collector-emitter voltage 1006045V CBO Collector-base voltage Emitter-base voltageV EBO555DC collector current I C 1A 1.5Peak collector current I CM Base current I B mA 100I BM 200Peak base currentW P tot Total power dissipation , T S = 130 °C 1Junction temperature 150°CT j T stg-65 (150)Storage temperatureThermal Resistance K/WJunction ambient 1)R thJA ≤75Junction - soldering pointR thJS≤201) Package mounted on pcb 40mm x 40mm x 1.5mm / 6cm 2 CuElectrical Characteristics at T A = 25°C, unless otherwise specified.Parameter Symbol UnitValuesmax.min.typ.DC Characteristics---Collector-emitter breakdown voltage I C = 10 mA, I B = 0V (BR)CEO--- 456080 BXP 51BXP 52BXP 53V--- --- 4560100 BXP 51BXP 52BXP 53V (BR)CBO Collector-base breakdown voltage I C = 100 µA, I B = 0V (BR)EBO 5--Emitter-base breakdown voltage I E = 10 µA, I C = 0 Collector cutoff current V CB = 30 V, I E = 0 nA -I CBO100-Collector cutoff current V CB = 30 V, I E = 0 , T A = 150 °C µA -I CBO20--DC current gain 1) I C = 5 mA, V CE = 2 V -h FE-25-250160250DC current gain 1) I C = 150 mA, V CE = 2 Vh FE-100160 4063100BCX51...53hFE-grp. 10hFE-grp. 16-25h FE -DC current gain 1) I C = 500 mA, V CE = 2 V0.5VV CEsat-Collector-emitter saturation voltage1) I C = 500 mA, I B = 50 mA -V BE(ON)--1Base-emitter voltage 1) I C = 500 mA, V CE = 2 VAC Characteristics -MHzf T-Transition frequencyI C = 50 mA, V CE = 10 V, f = 20 MHz1251) Pulse test: t ≤ 300µs, D = 2%Total power dissipation P tot = f (T A *;T S )* Package mounted on epoxy00.0EHP00436BCX 51 (53)15050100˚C T AST 0.20.40.60.81.0W 1.2P totT T ;A SCollector current I C = f (V BE )V CE = 2VTransition frequency f T =f (I C )V CE = 10V3Permissible pulse load P totmax / P totDC = f (t p )101055101510231010101010100s tot maxP P ptCollector-emitter saturation voltage I C = f (V CEsat ), h FE = 10DC current gain h FE = f (I C )V CE = 2V4Collector cutoff current I CBO = f (T A)V CB = 30VΙBase-emitter saturation voltage I C = f (V BEsat ),h FE = 10。
MCCSEMI BCX56系列NPN透导晶体管数据手册说明书
K 0.055 0.063 1.40 1.60
L
0.059
1.50
K
J
NOTE TYP. TYP. TYP.
Pin Configuration - Top View
C
B
C
E
Internal Structure C
B E
Suggested Solder Pad Layout
2.600 0.102 1.400 0.055
Parameter Collector-Base Breakdown Voltage Collector-Emitter Breakdown Voltage Emitter-Base Breakdown Voltage Collector-Base Cutoff Current Emitter-Base Cutoff Current
Symbol VCBO VCEO VEBO IC IB IBM
PC
Rating
100
80
5
1.0
0.1
0.2 0.50(Note2) 0.95(Note3) 1.35(Note4)
Unit V V V A A A
W
Classification Of hFE(1)
Rank Range of hFE(1)
1
2
3
4
5
Collector-Emitter Voltage (V)
Fig. 3 - Collector-Emitter Saturation Voltage Characteristics
1000
DC Current Gain
BCX56/BCX56-10/BCX56-16
1000
BCX56-10中文资料
4.5 ±0.1
B
45˚
0.25 ±0.05
1.5 ±0.1 0.2 MAX.1)
0.15
1.6 ±0.2
10˚ MAX.
1±0.2
12 1.5
3
3
0.45
+0.2 -0.1
0.35 ±0.1 0.15 M B x3
0.2 B
1) Ejector pin markings possible
2.0
2.5
Ptot RthJS
2.4
10 2
W
1.6 1.2 0.8 0.4
0 0 15 30 45 60 75 90 105 120 °C 150
TS
10 1
D = 0,5
0,2
0,1
10 0
0,05
0,02
0,01
0,005
0
10
-1
10
-6
10 -5
10 -4
10 -3
10 -2
s
10 0
tp
5
2008-10-10
10 2 5
10 1
typ
5
10 0 5
10 -1 0
50
100 ˚C 150
TA
Total power dissipation Ptot = ƒ(TS)
10 3 BCX 54...56 MHz fT 5
10 2 5
EHP00445
10 1 10 0
5 10 1
5 102 mA 10 3 ΙC
Permissible Pulse Load RthJS = ƒ(tp)
-
-
20
DC current gain1)
BCX70中文资料
open emitter open base open collector
Tamb ≤ 25 °C
MIN.
− − − − − − − −65 − −65
MAX. 45 45 5 100 200 200 250 +150 150 +150
UNIT
V V V mA mA mA mW °C °C °C
THERMAL CHARACTERISTICS
NPN general purpose transistors
PACKAGE OUTLINE Plastic surface mounted package; 3 leads
Product specification
BCX70 series
SOT23
D
B
E
A
X
3
1
e1
bp
e
2
wM B
HE
vM A
A A1
− − − −
220 310 460 630
− − − − 350 550 850 1 050 − 750 − − − −
6
UNIT nA µA nA
mV mV mV mV mV mV mV pF pF MHz dB
1999 Apr 15
3
元器件交易网
Philips Semiconductors
0.45 0.55 0.15 0.45
0.2
0.1
OUTLINE
VERSION
IEC
SOT23
1999 Apr 15
REFERENCES
JEDEC
EIAJ
4
EUROPEAN PROJECTION
ISSUE DATE 97-02-28
库说明
ANALOG.OLB是常用零件库:电阻、可变电阻、电容、可变电容、电解、电感、延迟线等共23个常用元件。
其中电感有脚号,其余无脚号。
BREAKOUT.OLB是48个模块的break库:进行蒙托卡诺和最坏情况统计分析时必须用此库中的电阻、电容及各种半导体器件。
ADC*break,Bbreak,C break,DAC*break,Dbreak,Jbreak,Kbreak,L break,Mbreak,POT有脚号的电位器、Qbreak,QdarBreakN达林顿,QdarBreakP达林顿,RAM8Kx1break,RAM8Kx8break,Rbreak,ROM32Kx8break,Sbreak,Wbreak,XFRM_NONLIN/CT-*,变压器3种,XFRM_NONLINEAR变压器4脚,ZbreakN。
Design Cache.OLB是绘制电路图时调用过的自动生成的模块库。
SOURCE.OLB是39个模块的数字信号库,各种电压源和电流源符号。
有电流、电池、电压和正弦信号。
SOURCSTM.OLB是8个模块的数字信号库。
当激励信号源的信号波形从/Pspice 中的StmEd模块设置时,则信号源符号应从SOURCSTM库调用。
SPECTAL.OLB是28个模块的特殊符号库,其中有CD4000_PWR。
PSPICE仿真库文件夹下有89个库文件(Orcad9.2.3也为89个,Orcad 9.2为7 9个)和一个\pspice\advanls目录,它的路径是:OrCAD_10.1\tools\capture \library\pspice,它们是:1_shot.olb是54、74、CD数字电路模块库:54L12.,74L*,74LS*,CD4*,B系列。
74ac.olb是74数字电路模块库:74AC*系列。
74act.olb是74ACT数字电路模块库:74ACT系列。
74als.olb是74ALS数字电路模块库:74ALS系列。
焊料厂和焊料的牌号规格
余
2.7~3.3
/
1.3~1.65
630
640
BAg50CuZnNiSn
49~51
20.5~22.5
余
0.7~1.3
/
0.3~0.65
650
670
注:上述牌号的钎料可加工成不同规格和形状的焊条、焊环、圈丝、带材等产品
55~57
26.25~28.25
/
13.5~15.5
2.0~2.5
600
710
BAg63CuSnNi
62~64
27. 5~29. 5
/
5.0~7.0
2.0~3.0
690
800
BAg-21(AWS、JIS)
注:上述牌号的钎料可加工成不同规格和形状的焊条、焊环、圈丝、带材等产品
牌号
化学成份WT%
熔化温度/℃(参考值)
645-790
钎料工艺性能好,适宜于电冰箱、空调器、电机和仪表等行业中铜和铜合金的钎焊
CuAg5
BCu89PAg
5.8-6.7
4.8-5.2
余量
645-815
钎焊接头的强度、塑性、导电性及漫流性较好,适用于铜及铜合金的钎焊
CuAg15
BCu80PAg
4.8-5.3
14.5-15.5
余量
645-800
适宜于钎焊要求比BCu89PAg高的场合
CuAg20
-
5.8-6.3
19-21
余量
645-710
适宜于钎焊要求比BCu89PAg高的场合
CuAg25
-
4.5-5.5
24.5-25.5
余量
645-710
银的同位素
银的同位素银(Ag)是一种具有广泛应用的贵金属,存在着多种同位素。
同位素是指同一个元素中,原子核中质子数相同但质量数不同的不同种类原子。
银的同位素主要包括银-107、银-108、银-109、银-110、银-111等。
下面将对这些银的同位素进行详细介绍。
银-107(Ag-107)是银的同位素中最常见的一种,其质子数为47,中子数为60,质量数为107。
Ag-107的丰度约占整个自然界银的75.6%。
它是一种稳定同位素,不放射性,常见于自然界中的银矿石中。
由于其丰度较高,银制品中使用的绝大部分都是含有Ag-107的。
银-108(Ag-108)是银的同位素中的另一种稳定同位素,其质子数为47,中子数为61,质量数为108。
Ag-108的丰度约占自然界银的一小部分,约为0.9%。
Ag-108也常见于自然界中的银矿石中,但由于其丰度较低,与Ag-107相比不常用于银制品的制造。
银-109(Ag-109)是银的同位素中的放射性同位素之一。
其质子数为47,中子数为62,质量数为109。
Ag-109具有较长的半衰期,约为13.2年。
由于其放射性,Ag-109广泛应用于医学和工业领域,如用于放射性示踪、射线治疗等。
此外,Ag-109还可通过与中子的核反应产生Ag-110。
银-110(Ag-110)是一种放射性同位素,其质子数为47,中子数为63,质量数为110。
Ag-110的半衰期约为24.6秒,是一种较为短寿命的同位素。
由于其放射性,Ag-110主要用于科学研究和实验室中,用作放射源或示踪剂。
银-111(Ag-111)是银的同位素中的另一种放射性同位素,其质子数为47,中子数为64,质量数为111。
Ag-111的半衰期约为7.45天,也是一种较长寿命的同位素。
Ag-111广泛应用于医学和工业领域,如放射性示踪、射线治疗、射线检测等。
总的来说,银的同位素中最常见的是稳定同位素Ag-107和Ag-108,它们在自然界中的丰度较高,广泛应用于银制品的制造。