MAX803-MAX810Z

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。

General Description The MAX803/MAX809/MAX810 are microprocessor (µP) supervisory circuits used to monitor the power supplies in µP and digital systems. They provide excellent circuit reliability and low cost by eliminating external compo-nents and adjustments when used with +5V, +3.3V, +3.0V, or +2.5V-powered circuits.These circuits perform a single function: they assert a reset signal whenever the V CC supply voltage declines below a preset threshold, keeping it asserted for at least 140ms after V CC has risen above the reset thresh-old. Reset thresholds suitable for operation with a vari-ety of supply voltages are available.The MAX803 has an open-drain output stage, while the MAX809/MAX810 have push-pull outputs. The MAX803’s open-drain RESET output requires a pull-up resistor that can be connected to a voltage higher than V CC. The MAX803/MAX809 have an active-low RESET output, while the MAX810 has an active-high RESET output. The reset comparator is designed to ignore fast transients on V CC, and the outputs are guaranteed to be in the correct logic state for V CC down to 1V.Low supply current makes the MAX803/MAX809/ MAX810 ideal for use in portable equipment. The MAX803 is available in a 3-pin SC70 package, and the MAX809/MAX810 are available in 3-pin SC70 or SOT23 packages.Applications ComputersControllersIntelligent InstrumentsCritical µP and µC Power MonitoringPortable/Battery-Powered EquipmentAutomotive ____________________________Features o Precision Monitoring of +2.5V, +3V, +3.3V, and +5V Power-Supply Voltageso Fully Specified Over Temperatureo Available in Three Output ConfigurationsOpen-Drain RESET Output (MAX803)Push-Pull RESET Output (MAX809)Push-Pull RESET Output (MAX810)o140ms min Power-On Reset Pulse Widtho12µA Supply Currento Guaranteed Reset Valid to V CC= +1Vo Power Supply Transient Immunityo No External Components o3-Pin SC70 and SOT23 Packages MAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z3-Pin Microprocessor Reset Circuits________________________________________________________________Maxim Integrated Products1Pin Configuration Typical Operating Circuit19-0344; Rev 4; 12/99Note: These parts are offered in 2.5k or 10k reels, and must beordered in 2.5k or 10k increments. Order MAX803_EXR-T for2.5k reels and MAX803_EXR-T10 for 10k reels. Insert thedesired suffix letter from the Selector Guide into the blank tocomplete the part number. All versions of these products maynot be available at the time of announcement. Contact factory foravailability.For free samples & the latest literature: , or phone 1-800-998-8800. For small orders, phone 1-800-835-8769.Ordering InformationM A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Z3-Pin Microprocessor Reset CircuitsABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = 5V for L/M/J versions, V CC = 3.3V for T/S versions, V CC = 3V for R version, and V CC = 2.5V for Z version.) (Note 1)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Terminal Voltage (with respect to GND)V CC ....................................................................-0.3V to +6.0V RESET, RESET (push-pull).....................-0.3V to (V CC + 0.3V)RESET (open drain)...........................................-0.3V to +6.0V Input Current, V CC ..............................................................20mA Output Current, RESET, RESET ..........................................20mA Rate of Rise, V CC ............................................................100V/µsContinuous Power Dissipation (T A = +70°C)3-Pin SC70 (derate 2.17mW/°C above +70°C)............174mW 3-Pin SOT23 (derate 4mW/°C above +70°C)...............320mW Operating Temperature Range .........................-40°C to +105°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CMAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z3-Pin Microprocessor Reset Circuits_______________________________________________________________________________________3A Note 2:RESET output for MAX803/MAX809; RESET output for MAX810.POWER-DOWN RESET DELAY vs. TEMPERATURE (MAX8_ _R/S/T/Z)80100TEMPERATURE (°C)P O W E R -D O W N R E S E T D E L A Y (µs )402060-408520-2006040Typical Operating Characteristics(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = +5V for L/M/J versions,V CC = +3.3V for T/S versions, V CC = +3V for R version, and V CC = +2.5V for Z version.)ELECTRICAL CHARACTERISTICS (continued)(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = 5V for L/M/J versions, V CC = 3.3V for T/S versions, V CC = 3V for R version, and V CC = 2.5V for Z version.) (Note 1)-402040-206085SUPPLY CURRENT vs. TEMPERATURE(SC70 PACKAGE, NO LOAD)TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )051015M A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Z3-Pin Microprocessor Reset Circuits 4_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = +5V for L/M/J versions,V CC = +3.3V for T/S versions, V CC = +3V for R version, and V CC = +2.5V for Z version.)225POWER-UP RESET TIMEOUTvs. TEMPERATURE245250TEMPERATURE (°C)P O W E R -U P R E S E T T I M E O U T (m s )235230240-408520-2060400.997NORMALIZED RESET THRESHOLDvs. TEMPERATURE1.0011.0021.003M A X 803-T O C 6TEMPERATURE (°C)N O R M A L I Z E D T H R E S H O L D0.9990.9981.000-408520-206040Selector Guide0POWER-DOWN RESET DELAY vs. TEMPERATURE (MAX8_ _J/L/M)80100120140TEMPERATURE (°C)P O W E R -D O W N R E S E T D E L A Y (µs )402060-408520-2006040MAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z_______________________________________________________________________________________5Detailed DescriptionA microprocessor’s (µP’s) reset input starts the µP in a known state. The MAX803/MAX809/MAX810 assert reset to prevent code-execution errors during power-up, power-down, or brownout conditions. They assert a reset signal whenever the V CC supply voltage declines below a preset threshold, keeping it asserted for at least 140ms after V CC has risen above the reset thresh-old. The MAX803 uses an open-drain output, and the MAX809/MAX810 have a push-pull output stage.Connect a pull-up resistor on the MAX803’s RESET out-put to any supply between 0 and 6V.Applications InformationNegative-Going V CC TransientsIn addition to issuing a reset to the µP during power-up,power-down, and brownout conditions, the MAX803/MAX809/MAX810 are relatively immune to short-duration negative-going V CC transients (glitches).Figure 1 shows typical transient duration vs. reset com-parator overdrive, for which the MAX803/MAX809/MAX810 do not generate a reset pulse. The graph was generated using a negative-going pulse applied to V CC ,starting 0.5V above the actual reset threshold and end-ing below it by the magnitude indicated (reset compara-tor overdrive). The graph indicates the maximum pulse width a negative-going V CC transient can have without causing a reset pulse. As the magnitude of the transient increases (goes farther below the reset threshold), the maximum allowable pulse width decreases. Typically, for the MAX8__L and MAX8__M, a V CC transient that goes 100mV below the reset threshold and lasts 20µs or less will not cause a reset pulse. A 0.1µF bypass capacitor mounted as close as possible to the V CC pin provides additional transient immunity.Ensuring a Valid Reset OutputDown to V CC = 0When V CC falls below 1V, the MAX809 RESET output no longer sinks current—it becomes an open circuit.Therefore, high-impedance CMOS logic inputs con-nected to RESET can drift to undetermined voltages.This presents no problem in most applications since most µP and other circuitry is inoperative with V CC below 1V. However, in applications where RESET must be valid down to 0V, adding a pull-down resistor to RESET causes any stray leakage currents to flow to3-Pin Microprocessor Reset CircuitsFigure 2. RESET Valid to V CC = Ground Circuit_____________________Pin DescriptionFigure 1. Maximum Transient Duration Without Causing a Reset Pulse vs. Reset Comparator OverdriveM A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Zground, holding RESET low (Figure 2). R1’s value is not critical; 100k Ωis large enough not to load RESET and small enough to pull RESET to ground.A 100k Ωpull-up resistor to V CC is also recommended for the MAX810 if RESET is required to remain valid for V CC < 1V.Interfacing to µPs with Bidirectional Reset PinsSince the RESET output on the MAX803 is open drain,this device interfaces easily with µPs that have bidirec-tional reset pins, such as the Motorola 68HC11.Connecting the µP supervisor’s RESET output directly to the microcontroller’s (µC’s) RESET pin with a single pull-up resistor allows either device to assert reset (Figure 3).MAX803 Open-Drain RESET Output Allows Use with Multiple SuppliesG enerally, the pull-up connected to the MAX803 will connect to the supply voltage that is being monitored at the IC’s V CC pin. However, some systems may use the open-drain output to level-shift from the monitored sup-ply to reset circuitry powered by some other supply (Figure 4). Note that as the MAX803’s V CC decreases below 1V, so does the IC’s ability to sink current at RESET . Also, with any pull-up, RESET will be pulled high as V CC decays toward 0. The voltage where this occurs depends on the pull-up resistor value and the voltage to which it is connected.Benefits of Highly AccurateReset ThresholdMost µP supervisor ICs have reset threshold voltages between 5% and 10% below the value of nominal sup-ply voltages. This ensures a reset will not occur within 5% of the nominal supply, but will occur when the sup-ply is 10% below nominal.When using ICs rated at only the nominal supply ±5%,this leaves a zone of uncertainty where the supply is between 5% and 10% low, and where the reset may or may not be asserted.The MAX8__L/T/Z use highly accurate circuitry to ensure that reset is asserted close to the 5% limit, and long before the supply has declined to 10% below nominal.3-Pin Microprocessor Reset Circuits 6_______________________________________________________________________________________Figure 4. MAX803 Open-Drain RESET Output Allows Use with Multiple SuppliesFigure 3. Interfacing to µPs with Bidirectional Reset I/OTRANSISTOR COUNT:275 (SOT23)380 (SC70)___________________Chip InformationMAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z3-Pin Microprocessor Reset Circuits_______________________________________________________________________________________7Package InformationM A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Z3-Pin Microprocessor Reset Circuits Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.8_____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©1999 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.Package Information (continued)。

Wireless Power Strip with Power Monitoring LCD&USB PortZ803说明书适用Firmware:V3.0适用Hardware:V1.0~V1.1目录一．声明 (3)二．简介 (3)三．外观图 (4)四．产品的安装及使用步骤 (5)1.接线 (5)2.加入网络 (5)3.绑定和解绑定 (5)4.受控制 (6)5.允许加网功能 (6)6.身份识别 (6)7.电能，电流，电压，电流切换显示 (7)8.report数据 (7)9.擦除网络信息 (7)10.擦除电能信息 (7)11.ZigBee描述 (7)12.产品属性及自定义指令说明 (9)五．负载特性 (11)六．相关产品 (11)七．安装方法 (111)八．维护和保养 (111)在未经大洋事先书面许可的情况下，严禁以任何形式复制、传递、分发和存储本文档中的任何内容。

大洋遵循持续发展的策略。

因此，大洋保留在不预先通知的情况下，对本文档中描述的任何产品进行修改和改进的权利。

在任何情况下，大洋均不对任何数据或收入方面的损失，或任何特殊、偶然、附带或间接损失承担责任，无论该损失由何种原因引起。

本文档的内容按“现状”提供。

除非适用的法律另有规定，否则不对本文档的准确性、可靠性和内容做出任何类型的、明确或默许的保证，其中包括但不限于对适销性和对具体用途的适用性的保证。

大洋保留在不预先通知的情况下随时修订或收回本文档的权利。

二．简介Z803（Wireless Power Strip with Power Monitoring LCD&USB Port）在网络中作为一个Simple Metering的角色类型。

Z803设备可以检测负载的电流,电压,功率,电能的功能，同时具有on/off control的功能。

Z803在网络中作为路由设备使用,允许其他设备做为其子设备。

Z803可与具有Match Key功能的设备绑定，通过已绑定设备来控制Z803开关，也可通过Z803设备本身自带的开关来控制。

REV.CInformation furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for itsuse, nor for any infringements of patents or other rights of third parties that may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective companies.One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781/329-4700 Fax: 781/326-8703© 2003 Analog Devices, Inc. All rights reserved.ADM803/ADM809/ADM810Microprocessor Supervisory Circuitsin 3-Lead SC70 and SOT-23FEATURESSpecified over TemperatureLow Power Consumption (17 ␮A)Precision Voltage Monitor: 2.5 V, 3 V, 3.3 V, 5 V Options Reset Assertion Down to 1 V V CC140 ms Min Power-On ResetOpen-Drain RESET Output (ADM803)Push-Pull RESET Output (ADM809)Push-Pull RESET Output (ADM810)SC70 and SOT-23 PackagesAPPLICATIONSMicroprocessor SystemsComputersControllersIntelligent InstrumentsAutomotive SystemsFUNCTIONAL BLOCK DIAGRAMVVV CCFigure 1.Typical Operating CircuitGENERAL DESCRIPTIONThe ADM803/ADM809/ADM810 supervisory circuits monitor the power supply voltage in microprocessor systems. They pro-vide a reset output during power-up, power-down, and brownout conditions. On power-up, an internal timer holds reset asserted for 240 ms. This holds the microprocessor in a reset state until conditions have stabilized. The RESET output remains opera-tional with V CC as low as 1 V. The ADM803 and ADM809 provide an active low reset signal (RESET), while the ADM810 provides an active high signal (RESET) output. The ADM809 and ADM810 have push-pull outputs whereas the ADM803 has an open-drain output, which requires an external pull-up resistor. Seven reset threshold voltage options are available, suitable for monitoring a variety of supply voltages. Refer to Table I.The reset comparator features built-in glitch immunity, making it immune to fast transients on V CC.The ADM803/ADM809/ADM810 consume only 17 µA, making it suitable for low power portable equipment. The ADM803 is available in a 3-lead SC70; the ADM809/ADM810 is available in 3-lead SOT-23 and SC70 packages.查询ADM803LAKS-REEL供应商ADM803/ADM809/ADM810–SPECIFICATIONS(V CC = full operating range, T A = T MIN to T MAX,V CC Typ = 5 V for L/M/J models, 3.3 V for T/S models, 3 V for R models, 2.5 V for Z models, unless otherwise noted.)Parameter Min Typ Max Unit Test Conditions/CommentsV CC OPERATING VOLTAGE RANGE 1.0 5.5V T A = 0°C to 70°C1.2 5.5V T A = –40°C to +125°CSupply Current2435µA V CC < 5.5 V, ADM8_L/M/J,T A = –40°C to +85°C1730µA V CC < 3.6 V, ADM8_R/S/T/Z,T A = –40°C to +85°C60µA V CC < 5.5 V, ADM8_L/M/J,T A = 85°C to 125°C60µA V CC < 3.6 V, ADM8_R/S/T/Z,T A = 85°C to 125°CRESET THRESHOLDReset Voltage ThresholdADM8_L 4.56 4.63 4.70V T A = 25°CADM8_L 4.50 4.75V T A = –40°C to +85°CADM8_L 4.44 4.82V T A = –40°C to +125°CADM8_M 4.31 4.38 4.45V T A = 25°CADM8_M 4.25 4.50V T A = –40°C to +85°CADM8_M 4.20 4.56V T A = –40°C to +125°CADM8_J* 3.93 4.00 4.06V T A = 25°CADM8_J* 3.89 4.10V T A = –40°C to +85°CADM8_J* 3.80 4.20V T A = –40°C to +125°CADM8_T 3.04 3.08 3.11V T A = 25°CADM8_T 3.00 3.15V T A = –40°C to +85°CADM8_T 2.95 3.21V T A = –40°C to +125°CADM8_S 2.89 2.93 2.96V T A = 25°CADM8_S 2.85 3.00V T A = –40°C to +85°CADM8_S 2.81 3.05V T A = –40°C to +125°CADM8_R 2.59 2.63 2.66V T A = 25°CADM8_R 2.55 2.70V T A = –40°C to +85°CADM8_R 2.52 2.74V T A = –40°C to +125°CADM8_Z 2.28 2.32 2.35V T A = 25°CADM8_Z 2.25 2.38V T A = –40°C to +85°CADM8_Z 2.22 2.42V T A = –40°C to +125°CRESET THRESHOLD TEMPERATURECOEFFICIENT30ppm/°CV CC to Reset Delay20µs V CC = V TH to (V TH – 100 mV)RESET ACTIVE TIMEOUT PERIOD140240460ms T A = –40°C to +85°C100840ms T A = 85°C to 125°CRESET OUTPUT VOLTAGE LOW0.3V V CC = V TH min, I SINK = 1.2 mA, (ADM803/ADM809)ADM803R/S/T/Z, ADM809R/S/T/Z0.4V V CC = V TH min, I SINK = 3.2 mA,ADM803L/M/J, ADM809L/M/J0.3V V CC >1.0 V, I SINK = 50 µARESET OUTPUT VOLTAGE HIGH0.8 V CC V V CC > V TH max, I SOURCE = 500 µA, (ADM809)ADM809R/S/T/ZV CC – 1.5V V CC > V TH max, I SOURCE = 800 µA,ADM809L/M/JRESET OUTPUT VOLTAGE LOW(ADM810)0.3V V CC = V TH min, I SINK = 1.2 mA,ADM810R/S/T/Z0.4V V CC = V TH min, I SINK = 3.2 mA,ADM810L/M/JRESET OUTPUT VOLTAGE HIGH(ADM810)0.8 V CC V 1.8 V < V CC < V TH min,I SOURCE = 150 µARESET OPEN-DRAIN OUTPUTLeakage Current (ADM803)1µA V CC > V TH, reset de-asserted*ADM809/ADM810 only.Specifications subject to change without notice.–2–REV. CREV. C ADM803/ADM809/ADM810–3–ABSOLUTE MAXIMUM RATINGS *(T A = 25°C, unless otherwise noted.)V CC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.3 V to +6 V RESET, RESET . . . . . . . . . . . . . . . . . . –0.3 V to V CC + 0.5 V Input CurrentV CC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 mA Output CurrentRESET, RESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 mA Rate of Rise, V CC . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 V/µs ␪JA Thermal Impedance, SC70 . . . . . . . . . . . . . . . . . 146°C/W ␪JA Thermal Impedance, SOT-23 . . . . . . . . . . . . . . . 270°C/W Lead Temperature (Soldering, 10 sec) . . . . . . . . . . . . . 300°C Vapor Phase (60 sec) . . . . . . . . . . . . . . . . . . . . . . . . . 215°C Infrared (15 sec) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 220°C Storage Temperature Range . . . . . . . . . . . . –65°C to +150°C*Stresses above those listed under Absolute Maximum Ratings may cause perma-nent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those listed in the operational sections of this specification is not implied. Exposure to absolute maximum ratings for extended periods of time may affect device reliability.PIN CONFIGURATIONRESET, RESET V CCVt 1 = RESET TIME = 240ms TYPV REF = RESET VOL T AGE THRESHOLDFigure 2.Power Fail Reset TimingTable I.Reset Threshold OptionsRESET Model Threshold (V)ADM8_L 4.63ADM8_M 4.38ADM8_J * 4.00ADM8_T 3.08ADM8_S 2.93ADM8_R 2.63ADM8_Z2.32*ADM809/ADM810 only.PIN FUNCTION DESCRIPTIONSPin No.Mnemonic Function1GND0 V. Ground reference for all signals.2RESET (ADM803/Active Low Logic Output.ADM809)RESET remains low while V CCis below the reset threshold and remains low for 240ms (typ)after V CC rises above the reset threshold.2RESET (ADM810)Active High Logic Output.RESET remains high while V CC is below the reset threshold and remains high for 240ms (typ)after V CC rises above the reset threshold.3V CCSupply Voltage Being Moni-tored.CAUTIONESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000V readily accumulate on the human body and test equipment and can discharge without detection. Although the ADM803/ADM809/ADM810 feature proprietary ESD protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. Therefore, proper ESD precautionsare recommended to avoid performance degradation or loss of functionality.ADM803/ADM809/ADM810ORDERING GUIDE (ADM803 and ADM809)Model Reset Threshold (V)Temperature Range Branding Quantity Package Type ADM803LAKS-REEL 4.63–40°C to +125°C M0210 k3-Lead SC70 ADM803LAKS-REEL-7 4.63–40°C to +125°C M02 3 k3-Lead SC70 ADM803MAKS-REEL 4.38–40°C to +125°C M0310 k3-Lead SC70 ADM803MAKS-REEL-7 4.38–40°C to +125°C M03 3 k3-Lead SC70 ADM803TAKS-REEL 3.08–40°C to +125°C M0510 k3-Lead SC70 ADM803TAKS-REEL-7 3.08–40°C to +125°C M05 3 k3-Lead SC70 ADM803SAKS-REEL 2.93–40°C to +125°C M0610 k3-Lead SC70 ADM803SAKS-REEL-7 2.93–40°C to +125°C M06 3 k3-Lead SC70 ADM803RAKS-REEL 2.63–40°C to +125°C M0710 k3-Lead SC70 ADM803RAKS-REEL-7 2.63–40°C to +125°C M07 3 k3-Lead SC70 ADM803ZAKS-REEL 2.32–40°C to +125°C M0810 k3-Lead SC70 ADM803ZAKS-REEL-7 2.32–40°C to +125°C M08 3 k3-Lead SC70 ADM809LART-REEL 4.63–40°C to +125°C9LXX10 k3-Lead SOT-23 ADM809LART-REEL-7 4.63–40°C to +125°C9LXX 3 k3-Lead SOT-23 ADM809LAKS-REEL 4.63–40°C to +125°C M9A10 k3-Lead SC70 ADM809LAKS-REEL-7 4.63–40°C to +125°C M9A 3 k3-Lead SC70 ADM809MART-REEL 4.38–40°C to +125°C9MXX10 k3-Lead SOT-23 ADM809MART-REEL-7 4.38–40°C to +125°C9MXX 3 k3-Lead SOT-23 ADM809MAKS-REEL 4.38–40°C to +125°C M9B10 k3-Lead SC70 ADM809MAKS-REEL-7 4.38–40°C to +125°C M9B 3 k3-Lead SC70 ADM809JART-REEL 4.00–40°C to +125°C9JXX10 k3-Lead SOT-23 ADM809JART-REEL-7 4.00–40°C to +125°C9JXX 3 k3-Lead SOT-23 ADM809JAKS-REEL 4.00–40°C to +125°C M9C10 k3-Lead SC70 ADM809JAKS-REEL-7 4.00–40°C to +125°C M9C 3 k3-Lead SC70 ADM809TART-REEL 3.08–40°C to +125°C9TXX10 k3-Lead SOT-23 ADM809TART-REEL-7 3.08–40°C to +125°C9TXX 3 k3-Lead SOT-23 ADM809TAKS-REEL 3.08–40°C to +125°C M9D10 k3-Lead SC70 ADM809TAKS-REEL-7 3.08–40°C to +125°C M9D 3 k3-Lead SC70 ADM809SART-REEL 2.93–40°C to +125°C9SXX10 k3-Lead SOT-23 ADM809SART-REEL-7 2.93–40°C to +125°C9SXX 3 k3-Lead SOT-23 ADM809SAKS-REEL 2.93–40°C to +125°C M9E10 k3-Lead SC70 ADM809SAKS-REEL-7 2.93–40°C to +125°C M9E 3 k3-Lead SC70 ADM809RART-REEL 2.63–40°C to +125°C9RXX10 k3-Lead SOT-23 ADM809RART-REEL-7 2.63–40°C to +125°C9RXX 3 k3-Lead SOT-23 ADM809RAKS-REEL 2.63–40°C to +125°C M9F10 k3-Lead SC70 ADM809RAKS-REEL-7 2.63–40°C to +125°C M9F 3 k3-Lead SC70 ADM809ZART-REEL 2.32–40°C to +125°C9ZXX10 k3-Lead SOT-23 ADM809ZART-REEL-7 2.32–40°C to +125°C9ZXX 3 k3-Lead SOT-23 ADM809ZAKS-REEL 2.32–40°C to +125°C M9G10 k3-Lead SC70 ADM809ZAKS-REEL-7 2.32–40°C to +125°C M9G 3 k3-Lead SC70–4–REV. CREV. C ADM803/ADM809/ADM810–5–ORDERING GUIDE (ADM810)ModelReset Threshold (V)Temperature Range Branding Quantity Package Type ADM810LART-REEL 4.63–40°C to +125°C ALXX 10 k 3-Lead SOT-23ADM810LART-REEL-7 4.63–40°C to +125°C ALXX 3 k 3-Lead SOT-23ADM810LAKS-REEL 4.63–40°C to +125°C MAA 10 k 3-Lead SC70ADM810LAKS-REEL-7 4.63–40°C to +125°C MAA 3 k 3-Lead SC70ADM810MART-REEL 4.38–40°C to +125°C AMXX 10 k 3-Lead SOT-23ADM810MART-REEL-7 4.38–40°C to +125°C AMXX 3 k 3-Lead SOT-23ADM810MAKS-REEL 4.38–40°C to +125°C MAB 10 k 3-Lead SC70ADM810MAKS-REEL-7 4.38–40°C to +125°C MAB 3 k 3-Lead SC70ADM810JART-REEL 4.00–40°C to +125°C AJXX 10 k 3-Lead SOT-23ADM810JART-REEL-7 4.00–40°C to +125°C AJXX 3 k 3-Lead SOT-23ADM810JAKS-REEL 4.00–40°C to +125°C MAC 10 k 3-Lead SC70ADM810JAKS-REEL-7 4.00–40°C to +125°C MAC 3 k 3-Lead SC70ADM810TART-REEL 3.08–40°C to +125°C ATXX 10 k 3-Lead SOT-23ADM810TART-REEL-7 3.08–40°C to +125°C ATXX 3 k 3-Lead SOT-23ADM810TAKS-REEL 3.08–40°C to +125°C MAD 10 k 3-Lead SC70ADM810TAKS-REEL-7 3.08–40°C to +125°C MAD 3 k 3-Lead SC70ADM810SART-REEL 2.93–40°C to +125°C ASXX 10 k 3-Lead SOT-23ADM810SART-REEL-7 2.93–40°C to +125°C ASXX 3 k 3-Lead SOT-23ADM810SAKS-REEL 2.93–40°C to +125°C MAE 10 k 3-Lead SC70ADM810SAKS-REEL-7 2.93–40°C to +125°C MAE 3 k 3-Lead SC70ADM810RART-REEL 2.63–40°C to +125°C ARXX 10 k 3-Lead SOT-23ADM810RART-REEL-7 2.63–40°C to +125°C ARXX 3 k 3-Lead SOT-23ADM810RAKS-REEL 2.63–40°C to +125°C MAF 10 k 3-Lead SC70ADM810RAKS-REEL-7 2.63–40°C to +125°C MAF 3 k 3-Lead SC70ADM810ZART-REEL 2.32–40°C to +125°C AZXX 10 k 3-Lead SOT-23ADM810ZART-REEL-7 2.32–40°C to +125°C AZXX 3 k 3-Lead SOT-23ADM810ZAKS-REEL 2.32–40°C to +125°C MAG 10 k 3-Lead SC70ADM810ZAKS-REEL-72.32–40°C to +125°CMAG3 k3-Lead SC70REV. C–6–ADM803/ADM809/ADM810–Typical Performance CharacteristicsTEMPERA TURE (؇C)30252015105S U P P L Y C U R R E N T (␮A )TPC 1.Supply Current vs. Temperature (No Load)020406080100120140160180P O W E R -D O W N R E S E T (␮s )TEMPERA TURE (؇C)200TPC 2.Power-Down RESET Delay vs. Temperature ADM8_L/M/J020406080100120140160180P O W E R -D O W N R E S E T (␮s )TEMPERA TURE (؇C)TPC 3.Power-Down RESET Delay vs. Temperature ADM8_T/S/R/Z235.0235.5236.0236.5237.0237.5238.0238.5239.0239.5240.0P O W E R -D O W N R E S E T (␮s )TEMPERA TURE (؇C)–40–2002040608085TPC 4.Power-Down RESET Delay vs. Temperature ADM8_R0.99901.00201.00151.00101.00051.00000.9995NO R M A L I Z E D R E S E T T H R E S H O L DTEMPERA TURE (؇C)–40–2002040608085TPC 5.Normalized RESET Voltage Threshold vs.TemperatureTPC 6.RESET Output Voltage vs. Supply VoltageREV. C ADM803/ADM809/ADM810–7–4003500110100010030025050200150100RESET COMP ARA TOR OVERDRIVE, V TH – V CC (mV)M A X I M U M T R A N S I E N T D U R A T I O N (␮s )TPC 7.Maximum Transient Duration without Causing a Reset Pulse vs. Reset Comparator OverdriveINTERFACING TO OTHER DEVICES’ OUTPUTThe ADM803/ADM809/ADM810 series is designed to integrate with as many devices as possible and, therefore, has a standard output dependent on V CC . This enables the part to be used in both 3 V and 5 V or any nominal voltage within the minimum and maximum specifications for V CC . Because of this design approach, interfacing this device to other devices is simplified.Ensuring a Valid Reset Output Down to V CC = 0 VWhen V CC falls below 0.8 V, the ADM803/ADM809’s RESET no longer sinks current. A high impedance CMOS logic input connected to RESET may, therefore, drift to undetermined logic levels. To eliminate this problem, a 100k Ω resistor should be connected from RESETto ground.V Figure 3.Ensuring a Valid Reset Output Down to V CC = 0 VBenefits of a Very Accurate Reset ThresholdIn other microprocessor supervisory circuits, tolerances in supply voltages lead to an overall increase in reset tolerance levels due to the deterioration of the microprocessor reset circuit’s power supply. The possibility of a malfunction during a power failure is greatly reduced because the ADM803/ADM809/ADM810 series can operate effectively even when there are large degradations of the supply voltages. Another advantage of the ADM803/ADM809/ADM810 series is its very accurate internal voltage reference circuit. These benefits combine to produce an excep-tionally reliable voltage monitor circuit.Interfacing to Microprocessors with Multiple InterruptsIn a number of cases, it is necessary to interface many interrupts from different devices (e.g., thermal, altitude, and velocity sensors).The ADM803/ADM809/ADM810 can easily be integrated into existing interrupt-handling circuits (Figure 4) or be used as astandalone device.TOFigure 4.Interfacing to Microprocessors with Multiple InterruptsREV. C–8–ADM803/ADM809/ADM810OUTLINE DIMENSIONS3-Lead Small Outline Transistor Package [SOT-23](RT-3)Dimensions shown in millimetersCOMPLIANT TO JEDEC STANDARDS TO-236AB3-Lead Thin Shrink Small Outline Transistor Package [SC70](KS-3)Dimensions shown in millimeters0.10 COPLANARITYREV. C ADM803/ADM809/ADM810–9–Revision HistoryLocationPage6/03—Data Sheet changed from REV. B to REV. C.Added ADM803 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Universal Changes to FEATURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1Changes to GENERAL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1Changes to Figure 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1Changes to SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2Changes to Table I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Updated ORDERING GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41/03—Data Sheet changed from REV. A to REV. B.Changes to SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2Changes to Table I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Changes to ORDERING GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Changes to TPCs 1–3, and TPC 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5Updated OUTLINE DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .710/02—Data Sheet changed from REV. 0 to REV. A.Addition of SC70 package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Universal Change to GENERAL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1Changes to SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2Changes to ABSOLUTE MAXIMUM RATINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Change to Table I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Change to ORDERING GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Change to TPC 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5Updated OUTLINE DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7–10––11–)C(3/6––6373C –12–。

是整机保修一年收银系列使用说明书适用型号TM-30A /TM-15A / TM-6AJB-30A / JB-15A / JB-6A2009年7月Version2.30A上海友声衡器有限公司 & 上海精函衡器有限公司沪制00000033号沪制00000319号地址：上海市闵行区莘庄工业区春光路99弄58号邮编：201108厂址：上海市崇明县庙镇经济开发区宏海公路349号邮编：202165 公司总机：（021）54831805/6/7/8 技术部总机：（021）54831858传真：（021）54831803 主页：指定代理与售后服务电话：联系人：感谢您使用上海精函有限公司的产品！在您开始使用本产品前，请务必仔细阅读《前言》中的内容，并严格遵守这些事项！1.1注意事项➢确保电源插头和电源线连接正常，使用三芯电源线进行连接，如果使用了拖线板，则拖线板的插口也要是三芯的，确保三芯的地线妥善的与建筑大地连接，以避免漏电的情况。

➢切勿用沾湿的手插拔电源插头，这样可能导致触电。

➢严禁将身体重力压在秤盘上，以免损坏称重传感器。

➢严禁撞击重压，或用重物冲击秤盘，以免损坏称重传感器，同时勿超过其最大称量范围。

➢严禁淋雨或用水冲洗；如不慎沾水，请用干布擦试干净；若秤体工作异常，请尽速送到经销商处，我们将竭诚为您服务。

➢严禁将条码秤置于极低温、高温或潮湿的场所，这样可能导致秤体工作异常甚至损坏。

➢严禁用有机化学溶剂擦拭外壳和面板。

➢严禁私自打开秤体，也不要让非专业的维修人员修理本秤。

➢严禁将手从打印机旋出位置伸入，该行为可能造成220V触电。

➢在有本公司专业维修人员指导下打开秤体时，请务必提前拔出220V的交流供电。

➢不要试图拆卸秤体内的开关电源，高压电容需要非常长时间才能完全放电，未放电的情况下拆卸可能导致触电。

➢建议使用本厂出售的热敏纸，本秤体对本厂出售的热敏纸进行过长时间的测试与优化，可以较好的保证头片的使用寿命。

贴片三极管上的印字，与真实名称的对照表2印字器件厂商类型封装器件用途及参数A MRF947 Mot N SOT323 npn RF 8 GHzA BA892 Sie I SCD80 35V 100mA pinA 1SS355 Roh I USM 100V 50mA swA0 HSMS-2800 HP C SOT23 HP2800 schottkyA0 HSMS-280B HP C SOT323 HP2800 schottkyA03 VAM-03 MC AQ - modamp MAR 3 SimilarA06 VAM-06 MC AQ - modamp MAR 6 SimilarA07 VAM-07 MC AQ - modamp MAR 7 SimilarA1 HSMS-2801 HP K - HP2800 schottkyA1 BAW56W Phi A SOT323 dual ca BAW62 (1N4148)A1 BAW56 Phi A SOT23 dual ca BAW62 (1N4148)A1 BAW56 Phi A SOT23 dual ca BAW62 (1N4148)A11 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 varicapA1p BAW56 Phi A SOT23 dual ca BAW62 (1N4148)A1s BAW56W Sie A SOT323 dual ca BAW62 (1N4148)A1s BAW56 Sie A SOT23 dual ca BAW62 (1N4148)A1s BAW56U Sie A SC74 dual ca BAW62 (1N4148)A1t BAW56T Phi A SOT416 dual ca BAW62 (1N4148)A1t BAW56S Phi SOT363 dual ca BAW62 (1N4148)A1X MBAW56 Mot A - dittoA2 HSMS-2802 HP D SOT23 dual HP2800A2 HSMS-280C HP D SOT323 dual HP2800A2 BAT18 Phi C SOT23 BA482A2 MMBD2836 Mot A SOT23 dual ca sw diode 75VA2 CFY30 Sie CQ SOT143 n-ch GaAsfet 6 GHzA2 MBT3906DW1 Mot DO SOT363 dual 2N3906A22 BAS21 Phi C SOD27 BAV21A2s BAT18 Sie C SOT23 BA482A2X MMBD2836 Mot A SOT23 dual ca sw 75V 100mA 15nsA3 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 leakageA3 BAS16 Zet C - Si sw 75V 100mAA3 BAT17 Phi C SOT23 BA481A3 MBT3906DW Mot N SOT363 dual 2N3906A3p BAT17 Phi C SOT23 BA481A3t BAT17 Phi C SOT23 BA481A3X MMBD2835 Mot A SOT23 dual ca sw 35V 100mA 15nS A4 HSMS-2804 HP B SOT23 dual cc HP2800 schottkyA4 BAV70W Phi B SOT323 dual cc BAW62A4p BAV70 Phi B SOT23 dual cc BAW62A4s BAV70W Sie B SOT323 dual cc BAW62A4s BAV70 Sie B SOT23 dual cc BAW62A4s BAV70T Sie B SOT416 dual cc BAW62A4s BAV70U Sie B SC74 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 diodeA5 HSMS-2805 HP S SOT143 dual HP2800 schottkyA5 MMBD1010 Mot B SOT23 dual cc Si diodesA5 MMBD2837 Mot B SOT23 dual cc diodes 30V 150mAA51 BRY62 Phi - SOT143 -A5p BRY61 Phi - SOT143 -A5t BRY61 Phi - SOT143 -A6 BAS16W Phi C SOT323 BAW62 (1N4148)A6 BAS16T Phi C SOT416 BAW62 (1N4148)A6 BAS216 Phi I SOD110 BAW62 (1N4148)A6 MMBD2836 Mot B SOT23 dual sw diode cc 75VA6A MMUN2111 Mot N SOT23 pnp dtr 10k+10kA6B 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+4k7A6K MMUN2133 Mot N SOT23 pnp dtr 4k7+47kA6L MMUN2134 Mot N SOT23 pnp dtr 22k+47kA6p BAS16 Phi C SOT23 BAW62 (1N4148)A6p BAS316 Phi I SOD323 BAW62 (1N4148)A6s BAS16W Sie C SOT323 BAW62 (1N4148)A6s BAS16 Sie C SOT23 BAW62 (1N4148)A6s BAS16U Sie C SC74 BAW62 (1N4148)A6t BAS16 Phi C SOT23 BAW62 (1N4148)A6X MMBD2838 Mot B SOT23 dual sw 50V 100mAA7 BAV99W Phi D SOT323 dual ser BAW92A7 BAV99 Phi D SOT23 dual ser BAW92A7 HSMS-2807 HP RQ SOT143 HP2800 ring quadA7s 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 BAW92A8 HSMS-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, 60V 0.1A"A81 BAS20 Phi C SOT23 BAV20A82 BAS21 Phi C SOT23 BAV21A8A 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 0.1A"A91 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@2VAAA MMBF4856 Mot F SOT23 2N4856 n-ch chopper jfetAAAA MAX809LXR MAX ZB SOT23 microproc -ve reset gen 5.0VAAAX MAX2470 MAX DT SOT23-6 VCO Buffer AmplifiersAAAY MAX2471 MAX DT SOT23-6 VCO Buffer AmplifiersAAG MMBR951AL Mot N SOT23 npn RF 8GHzAAH MAX6326_R22-T Max ZB SC70 microproc -ve reset gen 2.200VAAI MAX6327_R22-T Max ZB SC70 microproc +ve reset gen 2.200VAAJ MAX6328_R22-T Max ZB SC70 microproc -ve reset gen 2.200VAAK MAX6410BS33-T Max UC4 UCSP-4 "Volt. Detect. (3.300 V / Push-Pull,Active-High)" AAL MAX6410BS34-T Max UC4 UCSP-4 "Volt. Detect. (3.400 V / Push-Pull,Active-High)" AAM MAX6410BS35-T Max UC4 UCSP-4 "Volt. Detect. (3.500 V / Push-Pull,Active-High)" AAN MAX6410BS36-T Max UC4 UCSP-4 "Volt. Detect. (3.600 V / Push-Pull,Active-High)" AAN MAX809LXR Max ZB SC70 microproc -ve reset gen 5.0VAAO MAX6410BS37-T Max UC4 UCSP-4 "Volt. Detect. (3.700 V / Push-Pull,Active-High)" AAO MAX809MXR Max ZB SC70 microproc -ve reset gen 5.0VAAP MAX6410BS38-T Max UC4 UCSP-4 "Volt. Detect. (3.800 V / Push-Pull,Active-High)" AAP MAX809TXR Max ZB SC70 microproc -ve reset gen 3.3VAAQ MAX6410BS39-T Max UC4 UCSP-4 "Volt. Detect. (3.900 V / Push-Pull,Active-High)" AAQ MAX809SXR Max ZB SC70 microproc -ve reset gen 3.3VAAR MAX6410BS40-T Max UC4 UCSP-4 "Volt. Detect. (4.000 V / Push-Pull,Active-High)" AAR MAX809RXR Max ZB SC70 microproc -ve reset gen 3.0VAAs BCW60A Sie N SOT23 BCY58-viiAAS MAX6410BS41-T Max UC4 UCSP-4 "Volt. Detect. (4.100 V / Push-Pull,Active-High)" AAS MAX803ZXR Max ZB SC70 microproc -ve reset gen 2.5VAAT MAX6410BS42-T Max UC4 UCSP-4 "Volt. Detect. (4.200 V / Push-Pull,Active-High)" AAT MAX810LXR Max ZB SC70 microproc +ve reset gen 5.0VAAU MAX6410BS43-T Max UC4 UCSP-4 "Volt. Detect. (4.300 V / Push-Pull,Active-High)" AAU MAX810MXR Max ZB SC70 microproc +-ve reset gen 5.0VAAV MAX6410BS44-T Max UC4 UCSP-4 "Volt. Detect. (4.380 V / Push-Pull,Active-High)" AAV MAX810TXR Max ZB SC70 microproc +ve reset gen 3.3VAAW MAX6410BS45-T Max UC4 UCSP-4 "Volt. Detect. (4.500 V / Push-Pull,Active-High)" AAW MAX810RXR Max ZB SC70 microproc +ve reset gen 3.0VAAX MAX6410BS46-T Max UC4 UCSP-4 "Volt. Detect. (4.630 V / Push-Pull,Active-High)" AAX MAX810SXR Max ZB SC70 microproc +ve reset gen 3.3VAAY MAX6411BS33-T Max UC4 UCSP-4 "Volt. Detect. (3.300 V/Open Drain,Active-Low)" AAY MAX810ZXR Max ZB SC70 microproc +ve reset gen 2.5VAAZ MAX6411BS34-T Max UC4 UCSP-4 "Volt. Detect. (3.400 V/Open Drain,Active-Low)" AAZ MAX803LXR Max ZB SC70 microproc -ve reset gen 5.0VAB BCW60B ITT N SOT23 BCY58-viiiAB ZMV830A Zet I SOD323 varicap hyperabrupt 28V 10pF@2VABA MAX6411BS35-T Max UC4 UCSP-4 "Volt. Detect. (3.500 V/Open Drain,Active-Low)" ABA MAX803TXR Max ZB SC70 microproc -ve reset gen 5.0VABAA MAX809MXR Max ZB SOT23 microproc -ve reset gen 5.0VABB MAX6411BS36-T Max UC4 UCSP-4 "Volt. Detect. (3.600 V/Open Drain,Active-Low)" ABB MAX803MXR Max ZB SC70 microproc -ve reset gen 3.3VABC MAX6411BS37-T Max UC4 UCSP-4 "Volt. Detect. (3.700 V/Open Drain,Active-Low)" ABC MAX803SXR Max ZB SC70 microproc -ve reset gen 3.3VABD MAX6411BS38-T Max UC4 UCSP-4 "Volt. Detect. (3.800 V/Open Drain,Active-Low)" ABD MAX803RXR Max ZB SC70 microproc -ve reset gen 3.0VABE MAX6411BS39-T Max UC4 UCSP-4 "Volt. Detect. (3.900 V/Open Drain,Active-Low)" ABE MAX803ZXR Max ZB SC70 microproc -ve reset gen 2.5VABF MAX6411BS40-T Max UC4 UCSP-4 "Volt. Detect. (4.000 V/Open Drain,Active-Low)" ABF LM4041AIX3-1.2 Max L SC70 1.225V 0.1% shunt V refABG MAX6411BS41-T Max UC4 UCSP-4 "Volt. Detect. (4.100 V/Open Drain,Active-Low)" ABG LM4041BIX3-1.2 Max L SC70 1.225V 0.2% shunt V refABH MAX6411BS42-T Max UC4 UCSP-4 "Volt. Detect. (4.200 V/Open Drain,Active-Low)" ABH LM4041DIX3-1.2 Max L SC70 1.225V 0.5% shunt V refABI MAX6411BS43-T Max UC4 UCSP-4 "Volt. Detect. (4.300 V/Open Drain,Active-Low)" ABI LM4041DIX3-1.2 Max L SC70 1.225V 1.5% shunt V refABJ MAX6411BS44-T Max UC4 UCSP-4 "Volt. Detect. (4.380 V/Open Drain,Active-Low)" ABJ LM4040AIX3-2.1 Max L SC70 2.048V 0.1% shunt V refABK MAX6411BS45-T Max UC4 UCSP-4 "Volt. Detect. (4.500 V/Open Drain,Active-Low)" ABK LM4040BIX3-2.1 Max L SC70 2.048V 0.2% shunt V refABL MAX6411BS46-T Max UC4 UCSP-4 "Volt. Detect. (4.640 V/Open Drain,Active-Low)" ABL LM4040CIX3-2.1 Max L SC70 2.048V 0.5% shunt V refABM LM4040DIX3-2.1 Max L SC70 2.048V 1% shunt V refABN LM4040AIX3-2.5 Max L SC70 2.5001% shunt V refABO LM4040BIX3-2.5 Max L SC70 2.500V 0.2% shunt V refABp BCW60B Phi N SOT23 BCY58-viiiABP LM4040CIX3-2.5 Max L SC70 2.500V 0.5% shunt V refABQ LM4040DIX3-2.5 Max L SC70 2.500V 1% shunt V refABR LM4040AIX3-3.0 Max L SC70 3.000V 0.1% shunt V refABs BCW60B Sie N SOT23 BCY58-viiiABS LM4040BIX3-3.0 Max L SC70 3.000V 0.2% shunt V refABt BCW60B Phi N SOT23 BCY58-viiiABT LM4040CIX3-3.0 Max L SC70 3.000V 0.5% shunt V refABU LM4040DIX3-3.0 Max L SC70 3.000V 1% shunt V refABV LM4040AIX3-4.1 Max L SC70 4.096V 0.1% shunt V refABW LM4040BIX3-4.1 Max L SC70 4.096V 0.2% shunt V refABX LM4040CIX3-4.1 Max L SC70 4.096V 0.5% shunt V refABY LM4040DIX3-4.1 Max L SC70 4.096V 1% shunt V refABZ LM4040AIX3-5.0 Max L SC70 5.000V 0.1% shunt 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@2VACA LM4040BIX3-5.0 Max L SC70 5.000V 0.2% shunt V refACAA MAX809TXR Max ZB SOT23 microproc -ve reset gen 3.3VACB LM4040CIX3-5.0 Max L SC70 5.000V 0.5% shunt V refACC LM4040DIX3-5.0 Max L SC70 5.000V 1% shunt V refACE MAX6326_R31-T Max ZB SC70 microproc -ve reset gen 3.080VACF MAX6347_R46-T Max ZB SC70 microproc +ve reset gen 4.630VACH MAX6326_R23-T Max ZB SC70 microproc -ve reset gen 2.320VACI MAX6326_R26-T Max ZB SC70 microproc -ve reset gen 2.630VACJ MAX6328_R26-T Max ZB SC70 microproc -ve reset gen 2.630VACK MAX6346_R44-T Max ZB SC70 microproc -ve reset gen 4.380VACL MAX6347_R44-T Max ZB SC70 microproc +ve reset gen 4.380VACM MAX6348_R46-T Max ZB SC70 microproc -ve reset gen 4.630VACN MAX6348_R44-T Max ZB SC70 microproc -ve reset gen 4.380VACO MAX6346_R46-T Max ZB SC70 microproc -ve reset gen 4.630VACp BCW60C Phi N SOT23 BCY58-ixACP MAX6326_R29-T Max ZB SC70 microproc -ve reset gen 2.930VACQ MAX6327_R23-T Max ZB SC70 microproc +ve reset gen 2.320VACR MAX6327_R26-T Max ZB SC70 microproc +ve reset gen 2.630VACs BCW60C Sie N SOT23 BCY58-ixACS MAX6327_R29-T Max ZB SC70 microproc +ve reset gen 2.930VACt BCW60C Phi N SOT23 BCY58-ixACT 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 3.080VAD 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 I SOD323 varicap hyperabrupt 28V 22pF@2VADAA MAX809SXR Max ZB SOT23 microproc -ve reset gen 3.3VADN 2SC3838K Roh N - npn 11V 3.2GHz TV tunersADp BCW60D Phi N SOT23 BCY58-xADs BCW60D Sie N SOT23 BCY58-xADt BCW60D Ph N SOT23 BCY58-xADW MAX6406BS22-T Max UC4 UCSP-4 "Volt. Detect. (2.200 V / Push-Pull, Active-Low)" ADX MAX6406BS23-T Max UC4 UCSP-4 "Volt. Detect. (2.320 V / Push-Pull, Active-Low)" ADY MAX6406BS24-T Max UC4 UCSP-4 "Volt. Detect. (2.400 V / Push-Pull, Active-Low)" ADZ MAX6406BS25-T Max UC4 UCSP-4 "Volt. Detect. (2.500 V / Push-Pull, Active-Low)" AE BCX52 Sie P SOT89 pnp 60V audio comp BCX55AE ZMV833A Zet I SOD323 varicap hyperabrupt 28V 33pF@2VAEA MAX6406BS26-T MAX UC4 UCSP-4 "Volt. Detect. (2.630 V / Push-Pull, Active-Low)" AEB MAX6406BS27-T MAX UC4 UCSP-4 "Volt. Detect. (2.700 V / Push-Pull, Active-Low)" AEC MAX6406BS28-T MAX UC4 UCSP-4 "Volt. Detect. (2.800 V / Push-Pull, Active-Low)" AED MAX6406BS29-T MAX UC4 UCSP-4 "Volt. Detect. (2.930 V / Push-Pull, Active-Low)" AEE MAX6406BS30-T MAX UC4 UCSP-4 "Volt. Detect. (3.000 V / Push-Pull, Active-Low)" AEF MAX6406BS31-T MAX UC4 UCSP-4 "Volt. Detect. (3.080 V / Push-Pull, Active-Low)" AEG MAX6407BS22-T MAX UC4 UCSP-4 "Volt. Detect. (2.200 V / Push-Pull, Active-High)" AEH MAX6407BS23-T MAX UC4 UCSP-4 "Volt. Detect. (2.300 V / Push-Pull, Active-High)" AEI MAX6407BS24-T MAX UC4 UCSP-4 "Volt. Detect. (2.400 V / Push-Pull, Active-High)" AEJ MAX6407BS25-T MAX UC4 UCSP-4 "Volt. Detect. (2.500 V / Push-Pull, Active-High)" AEK MAX6407BS26-T MAX UC4 UCSP-4 "Volt. Detect. (2.630 V / Push-Pull, Active-High)" AEL MAX6407BS27-T MAX UC4 UCSP-4 "Volt. Detect. (2.700 V / Push-Pull, Active-High)" AEM MAX6407BS28-T MAX UC4 UCSP-4 "Volt. Detect. (2.800 V / Push-Pull, Active-High)" AEN MAX6407BS29-T MAX UC4 UCSP-4 "Volt. Detect. (2.930 V / Push-Pull, Active-High)" AEN 2SC3839K Roh N - npn 20V 2.0GHz TV tunersAEO MAX6407BS30-T Max UC4 UCSP-4 "Volt. Detect. (3.000 V / Push-Pull,Active-High)" AEP MAX6407BS31-T Max UC4 UCSP-4 "Volt. Detect. (3.000 V / Push-Pull,Active-High)" AEQ MAX6408BS22-T Max UC4 UCSP-4 "Volt. Detect. (2.200 V/Open Drain,Active-Low)" AER MAX6408BS23-T Max UC4 UCSP-4 "Volt. Detect. (2.320 V/Open Drain,Active-Low)" AES MAX6408BS24-T Max UC4 UCSP-4 "Volt. Detect. (2.400 V/Open Drain,Active-Low)" AET MAX6408BS25-T Max UC4 UCSP-4 "Volt. Detect. (2.500 V/Open Drain,Active-Low)" AEU MAX6408BS26-T Max UC4 UCSP-4 "Volt. Detect. (2.630 V/Open Drain,Active-Low)" AEV MAX6408BS27-T Max UC4 UCSP-4 "Volt. Detect. (2.700 V/Open Drain,Active-Low)" AEW MAX6138AEXR12-T Max L SC70-3 Shunt Voltage Ref. (output 1.2205 V / 0.1%) AEW MAX6408BS28-T Max UC4 SC70-3 "Volt. Detect. (2.800 V/Open Drain,Active-Low)"AEX MAX6138BEXR12-T Max L SC70-3 Shunt Voltage Ref. (output 1.2205 V / 0.2%) AEX MAX6408BS29-T Max UC4 UCSP-4 "Volt. Detect. (2.930 V/Open Drain,Active-Low)" AEY MAX6138CEXR12-T Max L SC70-3 Shunt Voltage Ref. (output 1.2205 V / 0.5%) AEY MAX6408BS30-T Max UC4 UCSP-4 "Volt. Detect. (3.000 V/Open Drain,Active-Low)" AEZ MAX6408BS31-T Max UC4 UCSP-4 "Volt. Detect. (3.080 V/Open Drain,Active-Low)" AF ZMV834A Zet I SOD323 varicap hyperabrupt 28V 47pF@2VAFA MAX6138AEXR21-T Max L SC70-3 Shunt Voltage Ref. (output 2.0480 V / 0.1%) AFA MAX6409BS33-T Max - UCSP-4 "Volt. Detect. (3.300 V / Push-Pull, Active-Low)" AFAA MAX809RXR Max ZB SOT23 microproc -ve reset gen 3.0VAFB MAX6138BEXR21-T Max L SC70-3 Shunt Voltage Ref. (output 2.0480 V / 0.2%) AFB MAX6409BS34-T Max UC4 UCSP-4 "Volt. Detect. (3.400 V / Push-Pull, Active-Low)" AFC MAX6138CEXR21-T Max L SC70-3 Shunt Voltage Ref. (output 2.0480 V / 0.5%) AFC MAX6409BS35-T Max UC4 UCSP-4 "Volt. Detect. (3.500 V / Push-Pull, Active-Low)" AFD MAX6409BS36-T Max UC4 UCSP-4 "Volt. Detect. (3.600 V / Push-Pull, Active-Low)" AFE MAX6138AEXR25-T Max L SC70-3 Shunt Voltage Ref. (output 2.5000 V / 0.1%) AFE MAX6409BS37-T Max UC4 UCSP-4 "Volt. Detect. (3.700 V / Push-Pull, Active-Low)" AFF MAX6138BEXR25-T Max L SC70-3 Shunt Voltage Ref. (output 2.5000 V / 0.2%) AFF MAX6409BS38-T Max UC4 UCSP-4 "Volt. Detect. (3.800 V / Push-Pull, Active-Low)" AFG MAX6138CEXR25-T Max L SC70-3 Shunt Voltage Ref. (output 2.5000 V / 0.5%) AFG MAX6409BS39-T Max UC4 UCSP-4 "Volt. Detect. (3.900 V / Push-Pull, Active-Low)" AFH MAX6409BS40-T Max UC4 UCSP-4 "Volt. Detect. (4.000 V / Push-Pull, Active-Low)" AFI MAX6138AEXR30-T Max L SC70-3 Shunt Voltage Ref. (output 3.0000 V / 0.1%)AFI MAX6409BS41-T Max UC4 UCSP-4 "Volt. Detect. (4.100 V / Push-Pull, Active-Low)" AFJ MAX6138BEXR30-T Max L SC70-3 Shunt Voltage Ref. (output 3.0000 V / 0.2%)AFJ MAX6409BS42-T Max UC4 UCSP-4 "Volt. Detect. (4.200 V / Push-Pull, Active-Low)" AFK MAX6138CEXR30-T Max L SC70-3 Shunt Voltage Ref. (output 3.0000 V / 0.5%) AFK MAX6409BS43-T Max UC4 UCSP-4 "Volt. Detect. (4.300 V / Push-Pull, Active-Low)" AFL MAX6409BS44-T Max UC4 UCSP-4 "Volt. Detect. (4.380 V / Push-Pull, Active-Low)" AFM MAX6138AEXR41-T Max L SC70-3 Shunt Voltage Ref. (output 4.0960 V / 0.1%) AFM MAX6409BS45-T Max UC4 UCSP-4 "Volt. Detect. (4.500 V / Push-Pull, Active-Low)" AFN MAX6138BEXR41-T Max L SC70-3 Shunt Voltage Ref. (output 4.0960 V / 0.2%) AFN MAX6409BS46-T Max UC4 UCSP-4 "Volt. Detect. (4.630 V / Push-Pull, Active-Low)" AFO MAX6138CEXR41-T Max L SC70-3 Shunt Voltage Ref. (output 4.0960 V / 0.5%) AFQ MAX6138AEXR50-T Max L SC70-3 Shunt Voltage Ref. (output 5.0000 V / 0.1%) AFR MAX6138BEXR50-T Max L SC70-3 Shunt Voltage Ref. (output 5.0000 V / 0.2%) AFs BCW60FF Sie N SOT23 BCY58AFS MAX6138CEXR50-T Max L SC70-3 Shunt Voltage Ref. (output 5.0000 V / 0.5%)AG ZMV835A Zet I SOD323 varicap hyperabrupt 28V 68pF@2VAG BCX70G Phi N SOT23 BCY59-vii BC107AG BCX52-10 Sie P SOT89 60V pnp BCX52 hfe 100AGAA MAX810LXR Max ZB SOT23 microproc +ve reset gen 5.0VAGp BCX70G Phi N SOT23 BCY59-vii BC107AGs BCX70G Sie N SOT23 BCY59-vii BC107AGt BCX70G Phi N SOT23 BCY59-vii BC107AH 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 varicapAHAA MAX810MXR Max ZB SOT23 microproc +-ve reset gen 5.0V AHp BCX70H Phi N SOT23 BCY59-viii BC107BAHs BCX70H Sie N SOT23 BCY59-viii BC107BAHt BCX70H Phi N SOT23 BCY59-viii BC107BAJ BCX70J Phi N SOT23 BCY59-ix BC107AJ ZMV931 Zet I SOD323 4 -13.5pF hyperabrupt varicapAJ s BCX70J Sie N SOT23 BCY59-ix BC107AJAA MAX810TXR MAX ZB SOT23 microproc +ve reset gen 3.3V AJp BCX70J Phi N SOT23 BCY59-ix BC107AJt BCX70J Phi N SOT23 BCY59-ix BC107AK BCX70K Phi N SOT23 BCY59-x BC107AK ZMV932 Zet I SOD323 5.5-17pF hyperabrupt varicapAK BCX53-10 Sie P SOT89 pnp 80V BCX53 hfe 100AKAA MAX810SXR MAX ZB SOT23 microproc +ve reset gen 3.3V AKp BCX70K Phi N SOT23 BCY59-x BC107AKp BCX70K Phi N SOT23 BCY59-x BC107AKs BCX70K Sie N SOT23 BCY59-x BC107AL 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 varicapALAA MAX810SXR MAX ZB SOT23 microproc +ve reset gen 3.0V ALs BFP405 Sie MQ SOT343 -AM MMBT3904W Mot N SOT323 2N3904AM BCX52-16 Sie P SOT89 pnp 60V BCX52 hfe 160AM BSS64 Mot N SOT23 npn 80V 0.1A fT 60MHzAM ZMV933A Zet I SOD323 12-42pF hyperabrupt varicapAMp BSS64 Phi N SOT23 npn 80V 0.1A fT 60MHzAMs BFP420 Sie MQ SOT343 npn fT 25GHz 4.5V 35mAAMs BSS64 Sie N SOT23 npn 80V 0.1A fT 60MHzAMt BSS64 Phi N SOT23 npn 80V 0.1A fT 60MHzAN BCW60FN Sie N SOT23 gp npn 35V 0.2AAN ZMV934 Zet I SOD323 25-95pF hyperabrupt varicapANs BFP450 Sie MQ SOT343 npn fT 25GHz 4.5V 100mAAO BCW60AR ITT R SOT23R BCY58-viiAO ZMV934A Zet I SOD323 25-95pF hyperabrupt varicapAP BCW60BR ITT R SOT23R BCY58-viiiAPs BFP520 Sie MQ SOT343 npn fT 40GHz 2.5V 40mAA-Q 2PD1820AQ Phi N SOT323 gp sw amp 50V npn hfe 85-170A-Q 2PD1820AR Phi N SOT323 gp sw amp 50V npn hfe 120-240 AR BCW60CR ITT R SOT23R BCY58-ixAR MSD709R Mot N - pnp gp 25VAR1 BSR40 Phi P SOT89 npn 70V 1A 1.35W hfe 40-120AR2 BSR41 Phi P SOT89 npn 70V 1A 1.35W hfe 100-300AR3 BSR42 Phi P SOT89 npn 90V 1A 1.35W hfe 40-120AR4 BSR43 Phi P SOT89 npn 90V 1A 1.35W hfe 100-300AS BCW60DR ITT R SOT23R BCY58-xAS MSD709S Mot N - pnp gp 25VA-S 2PD1820AS Phi N SOT323 gp sw amp 50V npn hfe 170-340 AS1 BST50 Mot P SOT89 npn darlington 0.5A 60VAS2 BST51 Mot P SOT89 npn darlington 0.5A 80VAS3 BST52 Mot P SOT89 npn darlington 0.5A 90VAS3 BSP52 Mot P SOT223 npn darlington 0.5A hfe 2000ASs BAT18-05 Sie B SOT23 dual BAT18 RF pinAtQ 2PD1820AQ Phi N SOT323 gp sw amp 50V npn hfe 85-170 AtQ 2PD1820AR Phi N SOT323 gp sw amp 50V npn hfe 120-240 AtS 2PD1820AS Phi N SOT323 gp sw amp 50V npn hfe 170-340 ATs BAT18-06 Sie A SOT23 dual ca BAT18 RF pinATs BFP540 Sie MQ SOT343 npn microwaveAU BCW60GR ITT R SOT23R BCY58AUs BAT18-04 Sie D SOT23 dual BAT18 RF pinAV DAN212K Roh C - 80V 100mA swAW BCW60HR ITT R SOT23R BCY58AX BCX70JR ITT R SOT23R BCY59-ixAY BCX70KR ITT R SOT23R BCY59-xAY MMBD1000 Mot C SOT23 Si sw diode 30V 0.2AB MRF957 Mot N SOT323 npn RF fT 9GHzB BAS16-03W Sie I SOD323 Varicap 18pF 1VB BB555 Sie I SCD80 Varicap 18pF 1VB0 BZX399C4V3 Phi I SOD323 4.3V 0.3W zenerB0 HSMS-2810 HP C SOT23 HP2810 schottkyB0 HSMS-281B HP C SOT323 HP2810 schottkyB08 SST6908 Sil ZQ - 2N6908 prot n-ch jfetB09 SST6909 Sil ZQ - 2N6909 prot n-ch jfetB1 BZX399C1V8 Phi I SOD323 1.8V 0.3W zenerB1 HSMS-2811 HP K SOT23 HP2811 schottkyB1 BAS40 Mot C SOT23 schottky sw diodeB10 SST6910 Sil ZQ - 2N6910 prot n-ch jfetB2 BZX399C2V0 Phi I SOD323 2.0V 0.3W zenerB2 BSV52 Phi N SOT23 BSX20 12V fT 400MHz swB2 HSMS-2812 HP D SOT23 dual HP2810 schottkyB2 HSMS-281C HP D SOT323 dual HP2810 schottkyB26 BF570 Phi SOT23 -B2p BSV52 Phi N SOT23 BSX20 12V fT 400MHz swB2t BSV52 Phi N SOT23 BSX20 12V fT 400MHz swB3 BZX399C2V2 Phi I SOD323 2.2V 0.3W zenerB3 HSMS-2813 HP A SOT23 dual ca HP2810 schottky B3 MMBD717L Mot A SOT323 dual ca schottkyB4 BZX399C2V4 Phi I SOD323 2.4V 0.3W zenerB4 BSV52R Phi R SOT23R BSX20B4 HSMS-2814 HP B SOT23 dual cc HP2810 schottky B5 BZX399C2V7 Phi I SOD323 2.7V 0.3W zenerB5 HSMS-2815 HP S SOT143 dual HP2810 schottkyB6 BZX399C3V0 Phi I SOD323 3.0V 0.3W zenerB6 BAT54A Mot A SOT23 dual ca 30V schottkyB7 BZX399C3V3 Phi I SOD323 3.3V 0.3W zenerB7 HSMS-2817 HP RQ SOT143 HP2810 ring quadB8 BZX399C3V6 Phi I SOD323 3.6V 0.3W zenerB8 HSMS-2818 HP BQ SOT143 HP2810 bridge quadB9 BZX399C3V9 Phi I SOD323 3.9V 0.3W zenerB9 2SC4617 Mot N SC90 npn gpBA BCX54 Sie P SOT89 npn AF 45V comp BCX51BA BCW61A Phi N SOT23 BCY78-viiBA DAN217 Roh D - 80V 100mA dualBA BZX399C4V7 Phi I SOD323 4.7V 0.3W zenerBAp BCW61A Phi N SOT23 BCY78-viiBAt BCW61A Phi N SOT23 BCY78-viiBB BCW61B Phi N SOT23 BCY78-viiiBB BAR81 Sie NQ SOT143 Dual pin shunt switchBB BZX399C5V1 Phi I SOD323 5.1V 0.3W zenerBBp BCW61B Phi N SOT23 BCY78-viiiBBs BCW61B Sie N SOT23 BCY78-viiiBBs BAR81W Sie NQ SOT343 Dual pin shunt switch BBt BCW61B Phi N SOT23 BCY78-viiiBC BCW61C Phi N SOT23 BCY78-ixBC BCX54-10 Sie Phi P SOT89 npn hfe100BC BZX399C5V6 Phi I SOD323 5.6V 0.3W zenerBCp BCW61C Phi N SOT23 BCY78-ixBCs BCW61C Sie N SOT23 BCY78-ixBCt BCW61C Phi N SOT23 BCY78-ixBD BCW61D Phi N SOT23 BCY78-xBD BCX54-16 Sie P SOT89 npn hfe160 comp BCX51-16 BD BZX399C6V2 Phi I SOD323 6.2V 0.3W zenerBD ZHCS400 Zet E SOT23 40V 0.4A schottky diode BDp BCW61D Phi N SOT23 BCY78-xBDs BCW61D Sie N SOT23 BCY78-xBDt BCW61D Phi N SOT23 BCY78-xBE BAS70 Mot C SOT23 schottky sw diodeBE BCX55 Sie P SOT89 npn AF 60V comp BCX52BE BZX399C6V8 Phi I SOD323 6.8V 0.3W zenerBF BCW61FF Sie N SOT23 low noise BCW61BF BZX399C7V5 Phi I SOD323 7.5V 0.3W zenerBG BCX71G Phi N SOT23 BCY79-viiBG BCX55-10 Sie Phi P SOT89 npn hfe 100BG BZX399C8V2 Phi I SOD323 8.2V 0.3W zenerBGp BCX71G Phi N SOT23 BCY79-viiBGs BCX71G Sie N SOT23 BCY79-viiBGt BCX71G Phi N SOT23 BCY79-viiBH BCP56 Mot P SOT223 npn amp 80V 150mABH BCX56 Sie P SOT89 npn AF 80VBH BZX399C9V1 Phi I SOD323 9.1V 0.3W zener iBH BCX71H Phi N SOT23 BCY79-viiiBHp BCX71H Phi N SOT23 BCY79-viiiBHs BCX71H Sie N SOT23 BCY79-viiiBHt BCX71H Phi N SOT23 BCY79-viiiBJ BCX71J Phi N SOT23 BCY79-ixBJ BZX399C10 Phi I SOD323 10V 0.3W zenerBJp BCX71J Phi N SOT23 BCY79-ixBJs BCX71J Sie N SOT23 BCY79-ixBJt BCX71J Phi N SOT23 BCY79-ixBK BCP56-10 Mot P SOT223 npn amp 80V 150mABK BCX71K Phi N SOT23 BCY79BK BCX56-10 Sie P SOT89 npn hfe 100BK BZX399C11 Phi I SOD323 11V 0.3W zenerBKp BCX71K Phi N SOT23 BCY79BKs BCX71K Sie N SOT23 BCY79BKt BCX71K Phi N SOT23 BCY79BL MBD54DW Mot DL SOT363 2x schottky detector diodes BL BCP56-16 Mot P SOT223 npn amp 80V 150mABL BCX56-16 Sie P SOT89 npn hfe 160BL BZX399C12 Phi I SOD323 12V 0.3W zenerBL BGA310 Sie GQ SOT143 MMIC amp 9dB @1GHz************************************** BM BSS63L Mot N SOT23 100v pnp comp BSS64BM BCX55-16 Sie P SOT89 npn hfe 160BM BGA312 Sie GQ SOT143 MMIC amp 11dB @1GHz BM BZX399C13 Phi I SOD323 13V 0.3W zenerBMp BSS63 Phi N SOT23 100v pnp comp BSS64************************************* BMt BSS63 Phi N SOT23 100v pnp comp BSS64BN BZX399C15 Phi I SOD323 15V 0.3W zenerBN BGA318 Sie GQ SOT143 MMIC amp 16dB @1GHz BNs BCW61FN Sie N SOT23 low noise BCW61BO BCW61AR Phi N SOT23 "BCX78, BCY78-vii"BP BCW61BR Phi N SOT23 BCY78-viiiBP BZX399C16 Phi I SOD323 16V 0.3W zenerBQ BZX399C18 Phi I SOD323 18V 0.3W zener in SOD323 BQ 2PB709AQ Phi N SC-59 PNP 45V 0.1A hfe 160-260 BR BCW61CR Phi N SOT23 BCY78-ixBR 2SC2412K Roh N - npn 50V 150mA min hfe 180BR 2SC4081 Roh N UMT 2SC2412K aboveBR 2SC4617 Roh N EM3 2SC2412K aboveBR MSB1218A Mot N SOT323 gp pnp 45VBR BZX399C20 Phi I SOD323 20V 0.3W zenerBR 2PB709AR Phi N SC-59 pnp45V 0.1A hfe 210-340BR1 BSR30 Phi P SOT89 pnp 70V 1A 1.35W hfe 40-120 BR2 BSR31 Phi P SOT89 pnp 70V 1A 1.35W hfe 100-300 BR4 BSR33 Phi P SOT89 pnp 90V 1A 1.35W hfe 100-300 BS BCW61DR Phi R SOT23 BCY78-xBS BZX399C22 Phi I SOD323 22V 0.3W zenerBS 2PB709AS Phi N SC-59 pnp 45V 0.1A hfe 290-460BS1 BST60 Mot P SOT89 pnp darlington 0.5A 60VBS2 BST61 Mot P SOT89 pnp darlington 0.5A 80VBS3 BST62 Mot P SOT89 pnp darlington 0.5A 90VBS3 BSP62 Mot P SOT89 pnp darlington 0.5A hfe 2000 BT BZX399C24 Phi I SOD323 24V 0.3W zenerBT2 BSP16 Mot P SOT223 pnp –300V 1ABT2 BST16 Phi P SOT89 pnp –300V 1ABU BCX71GR Phi N SOT23 BCX79-viiBU BZX399C27 Phi I SOD323 27V 0.3W zenerBV BZX399C30 Phi I SOD323 30V 0.3W zenerBW BCW71HR Phi N SOT23R BCX79-viiiBW BZX399C33 Phi I SOD323 33V 0.3W zenerBX BCW71JR Phi N SOT23R BCX79-ixBX BZX399C36 Phi I SOD323 36V 0.3W zenerBY BCW71KR Phi N SOT23R BCX79-xBY BZX399C39 Phi I SOD323 39V 0.3W zenerBZ BZX399C43 Phi I SOD323 43V 0.3W zenerC BB565 Sie I SCD80 uhf varicap 2-20pFC KV1832E Tok I URD uhf varicap 4-17pfC white BAT165 Sie I - 40V 750mA sw SchottkyC0 HSMS-2820 HP C SOT23 HP2835 schottkyC0 HSMS-282B HP C SOT323 HP2835 schottkyC1 HSMS-2821 HP K SOT23 HP2835 schottkyC1 BCW29 Phi N SOT23 BC178AC1 BFQ51C Phi CX SOT173 pnp BFR90A complementC11 SST111 Sil F SOT23 J111 n-ch fet。

MAXIM/DALLAS 中文数据资料DS12CR887, DS12R885, DS12R887 RTC，带有恒压涓流充电器DS1870 LDMOS RF功放偏置控制器DS1921L-F5X Thermochron iButtonDS1923 温度/湿度记录仪iButton，具有8kB数据记录存储器DS1982, DS1982-F3, DS1982-F5 1k位只添加iButton?DS1990A 序列号iButtonDS1990R, DS1990R-F3, DS1990R-F5 序列号iButtonDS1991 多密钥iButtonDS2129 LVD SCSI 27线调节器DS2401 硅序列号DS2406 双通道、可编址开关与1k位存储器DS2408 1-Wire、8通道、可编址开关DS2411 硅序列号，带有VCC输入DS2413 1-Wire双通道、可编址开关DS2430A 256位1-Wire EEPROMDS2431 1024位、1-Wire EEPROMDS2480B 串行、1-Wire线驱动器，带有负荷检测DS2482-100 单通道1-Wire主控制器DS2482-100 勘误表PDF: 2482-100A2DS2482-800, DS2482S-800 八通道1-Wire主控制器DS2482-800 勘误表PDF: 2482-800A2DS2502 1k位只添加存储器DS2505 16k位只添加存储器DS28E04-100 4096位、可寻址、1-Wire EEPROM，带有PIODS3170DK DS3/E3单芯片收发器开发板DS3231, DS3231S 高精度、I2C集成RTC/TCXO/晶振DS33Z44 四路以太网映射器DS3902 双路、非易失、可变电阻器，带有用户EEPROMDS3906 三路、非易失、小步长调节可变电阻与存储器DS3984 4路冷阴极荧光灯控制器DS4302 2线、5位DAC，提供三路数字输出DS80C400-KIT DS80C400评估套件DS80C410, DS80C411 具有以太网和CAN接口的网络微控制器DS80C410 勘误表PDF: 80C410A1DS89C430, DS89C440, DS89C450 超高速闪存微控制器DS89C430 勘误表PDF: 89C430A2DS89C440 勘误表PDF: 89C440A2DS89C450 勘误表PDF: 89C450A2DS89C430 勘误表PDF: 89C430A3DS89C440 勘误表PDF: 89C440A3DS89C450 勘误表PDF: 89C450A3DS89C430 勘误表PDF: 89C430A5DS89C440 勘误表PDF: 89C440A5DS89C450 勘误表PDF: 89C450A5DS9090K 1-Wire器件评估板, B版DS9097U-009, DS9097U-E25, DS9097U-S09 通用1-Wire COM端口适配器DS9490, DS9490B, DS9490R USB至1-Wire/iButton适配器MAX1034, MAX1035 8/4通道、±VREF多量程输入、串行14位ADCMAX1072, MAX1075 1.8Msps、单电源、低功耗、真差分、10位ADCMAX1076, MAX1078 1.8Msps、单电源供电、低功耗、真差分、10位ADC，内置电压基准MAX1146, MAX1147, MAX1148, MAX1149 多通道、真差分、串行、14位ADCMAX1149EVKIT MAX1149评估板/评估系统MAX1220, MAX1257, MAX1258 12位、多通道ADC/DAC，带有FIFO、温度传感器和GPIO端口MAX1224, MAX1225 1.5Msps、单电源、低功耗、真差分、12位ADCMAX1258EVKIT MAX1057, MAX1058, MAX1257, MAX1258评估板/评估系统MAX1274, MAX1275 1.8Msps、单电源、低功耗、真差分、12位ADCMAX13000E, MAX13001E, MAX13002E, MAX13003E, MAX13004E, MAX13005E 超低电压电平转换器MAX1302, MAX1303 8/4通道、±VREF多量程输入、串行16位ADCMAX1304, MAX1305, MAX1306, MAX1308, MAX1309, MAX1310, MAX1312, MAX1313,MAX1314 8/4/2通道、12位、同时采样ADC，提供±10V、±5V或0至+5V模拟输入范围MAX13050, MAX13052, MAX13053, MAX13054 工业标准高速CAN收发器，具有±80V故障保护MAX13080E, MAX13081E, MAX13082E, MAX13083E, MAX13084E, MAX13085E, MAX13086E, MAX13087E, MAX13088E, MAX13089E +5.0V、±15kV ESD保护、失效保护、热插拔、RS-485/RS-422收发器MAX13101E, MAX13102E, MAX13103E, MAX13108E 16通道、带有缓冲的CMOS逻辑电平转换器MAX1334, MAX1335 4.5Msps/4Msps、5V/3V、双通道、真差分10位ADCMAX1336, MAX1337 6.5Msps/5.5Msps、5V/3V、双通道、真差分8位ADCMAX13481E, MAX13482E, MAX13483E ±15kV ESD保护USB收发器, 外部/内部上拉电阻MAX1350, MAX1351, MAX1352, MAX1353, MAX1354, MAX1355, MAX1356, MAX1357 双路、高端、电流检测放大器和驱动放大器MAX1450 低成本、1%精确度信号调理器，用于压阻式传感器MAX1452 低成本、精密的传感器信号调理器MAX1487, MAX481, MAX483, MAX485, MAX487, MAX488, MAX489, MAX490, MAX491 低功耗、限摆率、RS-485/RS-422收发器MAX1492, MAX1494 3位半和4位半、单片ADC，带有LCD驱动器MAX1494EVKIT MAX1493, MAX1494, MAX1495评估板/评估系统MAX1497, MAX1499 3位半和4位半、单片ADC，带有LED驱动器和μC接口MAX1499EVKIT MAX1499评估板/评估系统MAX15000, MAX15001 电流模式PWM控制器, 可调节开关频率MAX1515 低电压、内置开关、降压/DDR调节器MAX1518B TFT-LCD DC-DC转换器, 带有运算放大器MAX1533, MAX1537 高效率、5路输出、主电源控制器，用于笔记本电脑MAX1533EVKIT MAX1533评估板MAX1540A, MAX1541 双路降压型控制器，带有电感饱和保护、动态输出和线性稳压器MAX1540EVKIT MAX1540评估板MAX1551, MAX1555 SOT23、双输入、USB/AC适配器、单节Li+电池充电器MAX1553, MAX1554 高效率、40V、升压变换器，用于2至10个白光LED驱动MAX1556, MAX1557 16μA IQ、1.2A PWM降压型DC-DC转换器MAX1556EVKIT MAX1556EVKIT评估板MAX1558, MAX1558H 双路、3mm x 3mm、1.2A/可编程电流USB开关，带有自动复位功能MAX1586A, MAX1586B, MAX1586C, MAX1587A, MAX1587C 高效率、低IQ、带有动态内核的PMIC，用于PDA和智能电话MAX16801A/B, MAX16802A/B 离线式、DC-DC PWM控制器, 用于高亮度LED驱动器MAX1858A, MAX1875A, MAX1876A 双路180°异相工作的降压控制器，具有排序/预偏置启动和POR MAX1870A 升/降压Li+电池充电器MAX1870AEVKIT MAX1870A评估板MAX1874 双路输入、USB/AC适配器、1节Li+充电器，带OVP与温度调节MAX1954A 低成本、电流模式PWM降压控制器，带有折返式限流MAX1954AEVKIT MAX1954A评估板MAX19700 7.5Msps、超低功耗模拟前端MAX19700EVKIT MAX19700评估板/评估系统MAX19705 10位、7.5Msps、超低功耗模拟前端MAX19706 10位、22Msps、超低功耗模拟前端MAX19707 10位、45Msps、超低功耗模拟前端MAX19708 10位、11Msps、超低功耗模拟前端MAX2041 高线性度、1700MHz至3000MHz上变频/下变频混频器，带有LO缓冲器/开关MAX2043 1700MHz至3000MHz高线性度、低LO泄漏、基站Rx/Tx混频器MAX220, MAX222, MAX223, MAX225, MAX230, MAX231, MAX232, MAX232A, MAX233,MAX233A, MAX234, MAX235, MAX236, MAX237, MAX238, MAX239, MAX240, MAX241,MAX242, MAX243, MAX244, MAX245, MAX246, MAX247, MAX248, MAX249 +5V供电、多通道RS-232驱动器/接收器MAX2335 450MHz CDMA/OFDM LNA/混频器MAX2370 完备的、450MHz正交发送器MAX2370EVKIT MAX2370评估板MAX2980 电力线通信模拟前端收发器MAX2986 集成电力线数字收发器MAX3013 +1.2V至+3.6V、0.1μA、100Mbps、8路电平转换器MAX3205E, MAX3207E, MAX3208E 双路、四路、六路高速差分ESD保护ICMAX3301E, MAX3302E USB On-the-Go收发器与电荷泵MAX3344E, MAX3345E ±15kV ESD保护、USB收发器，UCSP封装，带有USB检测MAX3394E, MAX3395E, MAX3396E ±15kV ESD保护、大电流驱动、双/四/八通道电平转换器, 带有加速电路MAX3535E, MXL1535E +3V至+5V、提供2500VRMS隔离的RS-485/RS-422收发器，带有±15kV ESD保护MAX3570, MAX3571, MAX3573 HI-IF单芯片宽带调谐器MAX3643EVKIT MAX3643评估板MAX3645 +2.97V至+5.5V、125Mbps至200Mbps限幅放大器，带有信号丢失检测器MAX3645EVKIT MAX3645评估板MAX3654 47MHz至870MHz模拟CATV互阻放大器MAX3654EVKIT MAX3654评估板MAX3657 155Mbps低噪声互阻放大器MAX3658 622Mbps、低噪声、高增益互阻前置放大器MAX3735, MAX3735A 2.7Gbps、低功耗、SFP激光驱动器MAX3737 多速率激光驱动器，带有消光比控制MAX3737EVKIT MAX3737评估板MAX3738 155Mbps至2.7Gbps SFF/SFP激光驱动器，带有消光比控制MAX3744, MAX3745 2.7Gbps SFP互阻放大器，带有RSSIMAX3744EVKIT, MAX3745EVKIT MAX3744, MAX3745评估板MAX3748, MAX3748A, MAX3748B 紧凑的、155Mbps至4.25Gbps限幅放大器MAX3785 6.25Gbps、1.8V PC板均衡器MAX3787EVKIT MAX3787评估板MAX3793 1Gbps至4.25Gbps多速率互阻放大器，具有光电流监视器MAX3793EVKIT MAX3793评估板MAX3805 10.7Gbps自适应接收均衡器MAX3805EVKIT MAX3805评估板MAX3840 +3.3V、2.7Gbps双路2 x 2交叉点开关MAX3841 12.5Gbps CML 2 x 2交叉点开关MAX3967 270Mbps SFP LED驱动器MAX3969 200Mbps SFP限幅放大器MAX3969EVKIT MAX3969评估板MAX3982 SFP铜缆预加重驱动器MAX3983 四路铜缆信号调理器MAX3983EVKIT MAX3983评估板MAX3983SMAEVKIT MAX3983 SMA连接器评估板MAX4079 完备的音频/视频后端方案MAX4079EVKIT MAX4079评估板MAX4210, MAX4211 高端功率、电流监视器MAX4210EEVKIT MAX4210E、MAX4210A/B/C/D/F评估板MAX4211EEVKIT MAX4211A/B/C/D/E/F评估板MAX4397 用于双SCART连接器的音频/视频开关MAX4397EVKIT MAX4397评估系统/评估板MAX4411EVKIT MAX4411评估板MAX4729, MAX4730 低电压、3.5、SPDT、CMOS模拟开关MAX4754, MAX4755, MAX4756 0.5、四路SPDT开关，UCSP/QFN封装MAX4758, MAX4759 四路DPDT音频/数据开关，UCSP/QFN封装MAX4760, MAX4761 宽带、四路DPDT开关MAX4766 0.075A至1.5A、可编程限流开关MAX4772, MAX4773 200mA/500mA可选的限流开关MAX4795, MAX4796, MAX4797, MAX4798 450mA/500mA限流开关MAX4826, MAX4827, MAX4828, MAX4829, MAX4830, MAX4831 50mA/100mA限流开关, 带有空载标记, μDFN封装MAX4832, MAX4833 100mA LDO，带有限流开关MAX4834, MAX4835 250mA LDO，带有限流开关MAX4836, MAX4837 500mA LDO，带有限流开关MAX4838A, MAX4840A, MAX4842A 过压保护控制器，带有状态指示FLAGMAX4850, MAX4850H, MAX4852, MAX4852H 双路SPDT模拟开关，可处理超摆幅信号MAX4851, MAX4851H, MAX4853, MAX4853H 3.5/7四路SPST模拟开关，可处理超摆幅信号MAX4854 7四路SPST模拟开关，可处理超摆幅信号MAX4854H, MAX4854HL 四路SPST、宽带、信号线保护开关MAX4855 0.75、双路SPDT音频开关，具有集成比较器MAX4864L, MAX4865L, MAX4866L, MAX4867, MAX4865, MAX4866 过压保护控制器，具有反向保护功能MAX4880 过压保护控制器, 内置断路开关MAX4881, MAX4882, MAX4883, MAX4884 过压保护控制器, 内部限流, TDFN封装MAX4901, MAX4902, MAX4903, MAX4904, MAX4905 低RON、双路SPST/单路SPDT、无杂音切换开关, 可处理负电压MAX4906, MAX4906F, MAX4907, MAX4907F 高速/全速USB 2.0开关MAX5033 500mA、76V、高效率、MAXPower降压型DC-DC变换器MAX5042, MAX5043 双路开关电源IC，集成了功率MOSFET和热插拔控制器MAX5058, MAX5059 可并联的副边同步整流驱动器和反馈发生器控制ICMAX5058EVKIT MAX5051, MAX5058评估板MAX5062, MAX5062A, MAX5063, MAX5063A, MAX5064, MAX5064A, MAX5064B 125V/2A、高速、半桥MOSFET驱动器MAX5065, MAX5067 双相、+0.6V至+3.3V输出可并联、平均电流模式控制器MAX5070, MAX5071 高性能、单端、电流模式PWM控制器MAX5072 2.2MHz、双输出、降压或升压型转换器，带有POR和电源失效输出MAX5072EVKIT MAX5072评估板MAX5074 内置MOSFET的电源IC，用于隔离型IEEE 802.3af PD和电信电源MAX5078 4A、20ns、MOSFET驱动器MAX5084, MAX5085 65V、200mA、低静态电流线性稳压器, TDFN封装MAX5088, MAX5089 2.2MHz、2A降压型转换器, 内置高边开关MAX5094A, MAX5094B, MAX5094C, MAX5094D, MAX5095A, MAX5095B, MAX5095C 高性能、单端、电流模式PWM控制器MAX5128 128抽头、非易失、线性变化数字电位器, 采用2mm x 2mm μDFN封装MAX5417, MAX5417L, MAX5417M, MAX5417N, MAX5417P, MAX5418, MAX5419 256抽头、非易失、I2C接口、数字电位器MAX5417LEVKIT MAX5417_, MAX5418_, MAX5419_评估板/评估系统MAX5477, MAX5478, MAX5479 双路、256抽头、非易失、I2C接口、数字电位器MAX5478EVKIT MAX5477/MAX5478/MAX5479评估板/评估系统MAX5490 100k精密匹配的电阻分压器，SOT23封装MAX5527, MAX5528, MAX5529 64抽头、一次性编程、线性调节数字电位器MAX5820 双路、8位、低功耗、2线、串行电压输出DACMAX5865 超低功耗、高动态性能、40Msps模拟前端MAX5920 -48V热插拔控制器，外置RsenseMAX5921, MAX5939 -48V热插拔控制器，外置Rsense、提供较高的栅极下拉电流MAX5932 正电源、高压、热插拔控制器MAX5932EVKIT MAX5932评估板MAX5936, MAX5937 -48V热插拔控制器，可避免VIN阶跃故障，无需RSENSEMAX5940A, MAX5940B IEEE 802.3af PD接口控制器，用于以太网供电MAX5940BEVKIT MAX5940B, MAX5940D评估板MAX5941A, MAX5941B 符合IEEE 802.3af标准的以太网供电接口/PWM控制器，适用于用电设备MAX5945 四路网络电源控制器，用于网络供电MAX5945EVKIT, MAX5945EVSYS MAX5945评估板/评估系统MAX5953A, MAX5953B, MAX5953C, MAX5953D IEEE 802.3af PD接口和PWM控制器，集成功率MOSFETMAX6640 2通道温度监视器，提供双路、自动PWM风扇速度控制器MAX6640EVKIT MAX6640评估系统/评估板MAX6641 兼容于SMBus的温度监视器，带有自动PWM风扇速度控制器MAX6643, MAX6644, MAX6645 自动PWM风扇速度控制器，带有过温报警输出MAX6678 2通道温度监视器，提供双路、自动PWM风扇速度控制器和5个GPIOMAX6695, MAX6696 双路远端/本地温度传感器，带有SMBus串行接口MAX6877EVKIT MAX6877评估板MAX6950, MAX6951 串行接口、+2.7V至+5.5V、5位或8位LED显示驱动器MAX6966, MAX6967 10端口、恒流LED驱动器和输入/输出扩展器，带有PWM亮度控制MAX6968 8端口、5.5V恒流LED驱动器MAX6969 16端口、5.5V恒流LED驱动器MAX6970 8端口、36V恒流LED驱动器MAX6977 8端口、5.5V恒流LED驱动器，带有LED故障检测MAX6978 8端口、5.5V恒流LED驱动器，带有LED故障检测和看门狗MAX6980 8端口、36V恒流LED驱动器, 带有LED故障检测和看门狗MAX6981 8端口、36V恒流LED驱动器, 带有LED故障检测MAX7030 低成本、315MHz、345MHz和433.92MHz ASK收发器, 带有N分频PLLMAX7032 低成本、基于晶振的可编程ASK/FSK收发器, 带有N分频PLLMAX7317 10端口、SPI接口输入/输出扩展器，带有过压和热插入保护MAX7319 I2C端口扩展器，具有8路输入，可屏蔽瞬态检测MAX7320 I2C端口扩展器, 带有八个推挽式输出MAX7321 I2C端口扩展器，具有8个漏极开路I/O口MAX7328, MAX7329 I2C端口扩展器, 带有八个I/O口MAX7347, MAX7348, MAX7349 2线接口、低EMI键盘开关和发声控制器MAX7349EVKIT MAX7349评估板/仿真: MAX7347/MAX7348MAX7375 3引脚硅振荡器MAX7381 3引脚硅振荡器MAX7389, MAX7390 微控制器时钟发生器, 带有看门狗MAX7391 快速切换时钟发生器, 带有电源失效检测MAX7445 4通道视频重建滤波器MAX7450, MAX7451, MAX7452 视频信号调理器，带有AGC和后肩钳位MAX7452EVKIT MAX7452评估板MAX7462, MAX7463 单通道视频重建滤波器和缓冲器MAX8505 3A、1MHz、1%精确度、内置开关的降压型调节器，带有电源就绪指示MAX8524, MAX8525 2至8相VRM 10/9.1 PWM控制器，提供精密的电流分配和快速电压定位MAX8525EVKIT MAX8523, MAX8525评估板MAX8533 更小、更可靠的12V、Infiniband兼容热插拔控制器MAX8533EVKIT MAX8533评估板MAX8545, MAX8546, MAX8548 低成本、宽输入范围、降压控制器，带有折返式限流MAX8550, MAX8551 集成DDR电源方案，适用于台式机、笔记本电脑及图形卡MAX8550EVKIT MAX8550, MAX8550A, MAX8551评估板MAX8552 高速、宽输入范围、单相MOSFET驱动器MAX8553, MAX8554 4.5V至28V输入、同步PWM降压控制器，适合DDR端接和负载点应用MAX8563, MAX8564 ±1%、超低输出电压、双路或三路线性n-FET控制器MAX8564EVKIT MAX8563, MAX8564评估板MAX8566 高效、10A、PWM降压调节器, 内置开关MAX8570, MAX8571, MAX8572, MAX8573, MAX8574, MAX8575 高效LCD升压电路，可True ShutdownMAX8571EVKIT MAX8570, MAX8571, MAX8572, MAX8573, MAX8574, MAX8575评估板MAX8576, MAX8577, MAX8578, MAX8579 3V至28V输入、低成本、迟滞同步降压控制器MAX8594, MAX8594A 5路输出PMIC，提供DC-DC核电源，用于低成本PDAMAX8594EVKIT MAX8594评估板MAX8632 集成DDR电源方案，适用于台式机、笔记本电脑和图形卡MAX8632EVKIT MAX8632评估板MAX8702, MAX8703 双相MOSFET驱动器，带有温度传感器MAX8707 多相、固定频率控制器，用于AMD Hammer CPU核电源MAX8716, MAX8717, MAX8757 交叉工作、高效、双电源控制器，用于笔记本电脑MAX8716EVKIT MAX8716评估板MAX8717EVKIT MAX8717评估板MAX8718, MAX8719 高压、低功耗线性稳压器，用于笔记本电脑MAX8725EVKIT MAX8725评估板MAX8727 TFT-LCD升压型、DC-DC变换器MAX8727EVKIT MAX8727评估板MAX8729 固定频率、半桥CCFL逆变控制器MAX8729EVKIT MAX8729评估板MAX8732A, MAX8733A, MAX8734A 高效率、四路输出、主电源控制器，用于笔记本电脑MAX8737 双路、低电压线性稳压器, 外置MOSFETMAX8737EVKIT MAX8737评估板MAX8738 EEPROM可编程TFT VCOM校准器, 带有I2C接口MAX8740 TFT-LCD升压型、DC-DC变换器MAX8743 双路、高效率、降压型控制器，关断状态下提供高阻MAX8751 固定频率、全桥、CCFL逆变控制器MAX8751EVKIT MAX8751评估板MAX8752 TFT-LCD升压型、DC-DC变换器MAX8758 具有开关控制和运算放大器的升压调节器, 用于TFT LCDMAX8758EVKIT MAX8758评估板MAX8759 低成本SMBus CCFL背光控制器MAX8760 双相、Quick-PWM控制器，用于AMD Mobile Turion 64 CPU核电源MAX8764 高速、降压型控制器，带有精确的限流控制，用于笔记本电脑MAX9223, MAX9224 22位、低功耗、5MHz至10MHz串行器与解串器芯片组MAX9225, MAX9226 10位、低功耗、10MHz至20MHz串行器与解串器芯片组MAX9483, MAX9484 双输出、多模CD-RW/DVD激光二极管驱动器MAX9485 可编程音频时钟发生器MAX9485EVKIT MAX9485评估板MAX9486 8kHz参考时钟合成器，提供35.328MHz倍频输出MAX9486EVKIT MAX9486评估板MAX9489 多路输出网络时钟发生器MAX9500, MAX9501 三通道HDTV滤波器MAX9500EVKIT MAX9500评估板MAX9501EVKIT MAX9501评估板MAX9502 2.5V视频放大器, 带有重建滤波器MAX9504A, MAX9504B 3V/5V、6dB视频放大器, 可提供大电流输出MAX9701 1.3W、无需滤波、立体声D类音频功率放大器MAX9701EVKIT MAX9701评估板MAX9702 1.8W、无需滤波、立体声D类音频功率放大器和DirectDrive立体声耳机放大器MAX9702EVSYS/EVKIT MAX9702/MAX9702B评估系统/评估板MAX9703, MAX9704 10W立体声/15W单声道、无需滤波的扩展频谱D类放大器MAX9705 2.3W、超低EMI、无需滤波、D类音频放大器MAX9705BEVKIT MAX9705B评估板MAX9710EVKIT MAX9710评估板MAX9712 500mW、低EMI、无需滤波、D类音频放大器MAX9713, MAX9714 6W、无需滤波、扩频单声道/立体声D类放大器MAX9714EVKIT MAX9704, MAX9714评估板MAX9715 2.8W、低EMI、立体声、无需滤波、D类音频放大器MAX9715EVKIT MAX9715评估板MAX9716, MAX9717 低成本、单声道、1.4W BTL音频功率放大器MAX9716EVKIT MAX9716评估板MAX9718, MAX9719 低成本、单声道/立体声、1.4W差分音频功率放大器MAX9718AEVKIT MAX9718A评估板MAX9719AEVKIT MAX9719A/B/C/D评估板MAX9721 1V、固定增益、DirectDrive、立体声耳机放大器，带有关断MAX9721EVKIT MAX9721评估板MAX9722A, MAX9722B 5V、差分输入、DirectDrive、130mW立体声耳机放大器，带有关断MAX9722AEVKIT MAX9722A, MAX9722B评估板MAX9723 立体声DirectDrive耳机放大器, 具有BassMax、音量控制和I2C接口MAX9725 1V、低功率、DirectDrive、立体声耳机放大器，带有关断MAX9728AEVKIT MAX9728A/MAX9728B评估板MAX9750, MAX9751, MAX9755 2.6W立体声音频功放和DirectDrive耳机放大器MAX9759 3.2W、高效、低EMI、无需滤波、D类音频放大器MAX9759EVKIT MAX9759评估板MAX9770, MAX9772 1.2W、低EMI、无需虑波、单声道D类放大器，带有立体声DirectDrive耳机放大器MAX9787 2.2W立体声音频功率放大器, 提供模拟音量控制MAX9850 立体声音频DAC，带有DirectDrive耳机放大器MAX9890 音频咔嗒声-怦然声抑制器MAX9951, MAX9952 双路引脚参数测量单元MAX9960 双闪存引脚电子测量/高压开关矩阵MAX9961, MAX9962 双通道、低功耗、500Mbps ATE驱动器/比较器，带有2mA负载MAX9967 双通道、低功耗、500Mbps ATE驱动器/比较器，带有35mA负载MAX9986A SiGe高线性度、815MHz至1000MHz下变频混频器, 带有LO缓冲器/开关MAXQ2000 低功耗LCD微控制器MAXQ2000 勘误表PDF: MAXQ2000A2MAXQ2000-KIT MAXQ2000评估板MAXQ3120-KIT MAXQ3120评估板MXL1543B +5V、多协议、3Tx/3Rx、软件可选的时钟/数据收发器。

如何选择适合自己的3D打印机型号随着科技的不断进步和发展，3D打印技术正逐渐走入寻常百姓家。

3D打印机作为一种新兴的制造工具，其应用范围越来越广泛，从个人爱好者到制造业，都能找到适合自己的3D打印机型号。

然而，面对市场上琳琅满目的3D打印机，如何选择适合自己的型号成为了一个重要的问题。

本文将从价格、打印材料、打印尺寸和功能特点四个方面来探讨如何选择适合自己的3D打印机型号。

首先，价格是选择3D打印机的重要考虑因素之一。

3D打印机价格从几百元到几十万元不等，不同价格段的3D打印机功能和性能也有所不同。

对于初学者或者仅需进行一些小型打印的用户来说，选择价格相对较低的入门级3D打印机是一个不错的选择。

这些入门级3D打印机虽然打印速度较慢、精度较低，但对于初学者来说已经足够满足日常需求。

而对于一些专业用户或者有更高要求的用户来说，选择价格较高的专业级3D打印机可以获得更好的打印效果和更高的精度。

其次，打印材料也是选择3D打印机的重要考虑因素之一。

不同的3D打印机适用于不同的打印材料，如PLA、ABS、尼龙等。

PLA是一种环保材料，无毒无味，适合进行一些小型家居用品或者装饰品的打印。

而ABS是一种强度较高的材料，适合进行一些机械零件的打印。

尼龙材料则更适合进行一些需要高强度和耐磨性的打印。

因此，在选择3D打印机时，需要根据自己的需求来选择适合的打印材料。

第三，打印尺寸也是选择3D打印机的重要考虑因素之一。

不同型号的3D打印机打印尺寸各不相同，从几十毫米到几米不等。

对于只需要打印一些小型物品的用户来说，选择打印尺寸较小的3D打印机即可。

而对于需要打印大型物品或者需要进行批量生产的用户来说，选择打印尺寸较大的3D打印机能够更好地满足需求。

最后，功能特点也是选择3D打印机的重要考虑因素之一。

不同型号的3D打印机具备的功能也不尽相同，如自动换料、自动校准、自动清洗等。

对于一些追求便利性和自动化的用户来说，选择具备更多功能的3D打印机是一个不错的选择。

General Description The MAX803/MAX809/MAX810 are microprocessor (µP) supervisory circuits used to monitor the power supplies in µP and digital systems. They provide excellent circuit reliability and low cost by eliminating external compo-nents and adjustments when used with +5V, +3.3V, +3.0V, or +2.5V-powered circuits.These circuits perform a single function: they assert a reset signal whenever the V CC supply voltage declines below a preset threshold, keeping it asserted for at least 140ms after V CC has risen above the reset thresh-old. Reset thresholds suitable for operation with a vari-ety of supply voltages are available.The MAX803 has an open-drain output stage, while the MAX809/MAX810 have push-pull outputs. The MAX803’s open-drain RESET output requires a pull-up resistor that can be connected to a voltage higher than V CC. The MAX803/MAX809 have an active-low RESET output, while the MAX810 has an active-high RESET output. The reset comparator is designed to ignore fast transients on V CC, and the outputs are guaranteed to be in the correct logic state for V CC down to 1V.Low supply current makes the MAX803/MAX809/ MAX810 ideal for use in portable equipment. The MAX803 is available in a 3-pin SC70 package, and the MAX809/MAX810 are available in 3-pin SC70 or SOT23 packages.Applications ComputersControllersIntelligent InstrumentsCritical µP and µC Power MonitoringPortable/Battery-Powered EquipmentAutomotive ____________________________Features o Precision Monitoring of +2.5V, +3V, +3.3V, and +5V Power-Supply Voltageso Fully Specified Over Temperatureo Available in Three Output ConfigurationsOpen-Drain RESET Output (MAX803)Push-Pull RESET Output (MAX809)Push-Pull RESET Output (MAX810)o140ms min Power-On Reset Pulse Widtho12µA Supply Currento Guaranteed Reset Valid to V CC= +1Vo Power Supply Transient Immunityo No External Components o3-Pin SC70 and SOT23 Packages MAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z3-Pin Microprocessor Reset Circuits________________________________________________________________Maxim Integrated Products1Pin Configuration Typical Operating Circuit19-0344; Rev 4; 12/99Note: These parts are offered in 2.5k or 10k reels, and must beordered in 2.5k or 10k increments. Order MAX803_EXR-T for2.5k reels and MAX803_EXR-T10 for 10k reels. Insert thedesired suffix letter from the Selector Guide into the blank tocomplete the part number. All versions of these products maynot be available at the time of announcement. Contact factory foravailability.For free samples & the latest literature: , or phone 1-800-998-8800. For small orders, phone 1-800-835-8769.Ordering InformationM A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Z3-Pin Microprocessor Reset CircuitsABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = 5V for L/M/J versions, V CC = 3.3V for T/S versions, V CC = 3V for R version, and V CC = 2.5V for Z version.) (Note 1)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Terminal Voltage (with respect to GND)V CC ....................................................................-0.3V to +6.0V RESET, RESET (push-pull).....................-0.3V to (V CC + 0.3V)RESET (open drain)...........................................-0.3V to +6.0V Input Current, V CC ..............................................................20mA Output Current, RESET, RESET ..........................................20mA Rate of Rise, V CC ............................................................100V/µsContinuous Power Dissipation (T A = +70°C)3-Pin SC70 (derate 2.17mW/°C above +70°C)............174mW 3-Pin SOT23 (derate 4mW/°C above +70°C)...............320mW Operating Temperature Range .........................-40°C to +105°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CMAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z3-Pin Microprocessor Reset Circuits_______________________________________________________________________________________3A Note 2:RESET output for MAX803/MAX809; RESET output for MAX810.POWER-DOWN RESET DELAY vs. TEMPERATURE (MAX8_ _R/S/T/Z)80100TEMPERATURE (°C)P O W E R -D O W N R E S E T D E L A Y (µs )402060-408520-2006040Typical Operating Characteristics(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = +5V for L/M/J versions,V CC = +3.3V for T/S versions, V CC = +3V for R version, and V CC = +2.5V for Z version.)ELECTRICAL CHARACTERISTICS (continued)(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = 5V for L/M/J versions, V CC = 3.3V for T/S versions, V CC = 3V for R version, and V CC = 2.5V for Z version.) (Note 1)-402040-206085SUPPLY CURRENT vs. TEMPERATURE(SC70 PACKAGE, NO LOAD)TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )051015M A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Z3-Pin Microprocessor Reset Circuits 4_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = full range, T A = -40°C to +105°C, unless otherwise noted. Typical values are at T A = +25°C, V CC = +5V for L/M/J versions,V CC = +3.3V for T/S versions, V CC = +3V for R version, and V CC = +2.5V for Z version.)225POWER-UP RESET TIMEOUTvs. TEMPERATURE245250TEMPERATURE (°C)P O W E R -U P R E S E T T I M E O U T (m s )235230240-408520-2060400.997NORMALIZED RESET THRESHOLDvs. TEMPERATURE1.0011.0021.003M A X 803-T O C 6TEMPERATURE (°C)N O R M A L I Z E D T H R E S H O L D0.9990.9981.000-408520-206040Selector Guide0POWER-DOWN RESET DELAY vs. TEMPERATURE (MAX8_ _J/L/M)80100120140TEMPERATURE (°C)P O W E R -D O W N R E S E T D E L A Y (µs )402060-408520-2006040MAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z_______________________________________________________________________________________5Detailed DescriptionA microprocessor’s (µP’s) reset input starts the µP in a known state. The MAX803/MAX809/MAX810 assert reset to prevent code-execution errors during power-up, power-down, or brownout conditions. They assert a reset signal whenever the V CC supply voltage declines below a preset threshold, keeping it asserted for at least 140ms after V CC has risen above the reset thresh-old. The MAX803 uses an open-drain output, and the MAX809/MAX810 have a push-pull output stage.Connect a pull-up resistor on the MAX803’s RESET out-put to any supply between 0 and 6V.Applications InformationNegative-Going V CC TransientsIn addition to issuing a reset to the µP during power-up,power-down, and brownout conditions, the MAX803/MAX809/MAX810 are relatively immune to short-duration negative-going V CC transients (glitches).Figure 1 shows typical transient duration vs. reset com-parator overdrive, for which the MAX803/MAX809/MAX810 do not generate a reset pulse. The graph was generated using a negative-going pulse applied to V CC ,starting 0.5V above the actual reset threshold and end-ing below it by the magnitude indicated (reset compara-tor overdrive). The graph indicates the maximum pulse width a negative-going V CC transient can have without causing a reset pulse. As the magnitude of the transient increases (goes farther below the reset threshold), the maximum allowable pulse width decreases. Typically, for the MAX8__L and MAX8__M, a V CC transient that goes 100mV below the reset threshold and lasts 20µs or less will not cause a reset pulse. A 0.1µF bypass capacitor mounted as close as possible to the V CC pin provides additional transient immunity.Ensuring a Valid Reset OutputDown to V CC = 0When V CC falls below 1V, the MAX809 RESET output no longer sinks current—it becomes an open circuit.Therefore, high-impedance CMOS logic inputs con-nected to RESET can drift to undetermined voltages.This presents no problem in most applications since most µP and other circuitry is inoperative with V CC below 1V. However, in applications where RESET must be valid down to 0V, adding a pull-down resistor to RESET causes any stray leakage currents to flow to3-Pin Microprocessor Reset CircuitsFigure 2. RESET Valid to V CC = Ground Circuit_____________________Pin DescriptionFigure 1. Maximum Transient Duration Without Causing a Reset Pulse vs. Reset Comparator OverdriveM A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Zground, holding RESET low (Figure 2). R1’s value is not critical; 100k Ωis large enough not to load RESET and small enough to pull RESET to ground.A 100k Ωpull-up resistor to V CC is also recommended for the MAX810 if RESET is required to remain valid for V CC < 1V.Interfacing to µPs with Bidirectional Reset PinsSince the RESET output on the MAX803 is open drain,this device interfaces easily with µPs that have bidirec-tional reset pins, such as the Motorola 68HC11.Connecting the µP supervisor’s RESET output directly to the microcontroller’s (µC’s) RESET pin with a single pull-up resistor allows either device to assert reset (Figure 3).MAX803 Open-Drain RESET Output Allows Use with Multiple SuppliesG enerally, the pull-up connected to the MAX803 will connect to the supply voltage that is being monitored at the IC’s V CC pin. However, some systems may use the open-drain output to level-shift from the monitored sup-ply to reset circuitry powered by some other supply (Figure 4). Note that as the MAX803’s V CC decreases below 1V, so does the IC’s ability to sink current at RESET . Also, with any pull-up, RESET will be pulled high as V CC decays toward 0. The voltage where this occurs depends on the pull-up resistor value and the voltage to which it is connected.Benefits of Highly AccurateReset ThresholdMost µP supervisor ICs have reset threshold voltages between 5% and 10% below the value of nominal sup-ply voltages. This ensures a reset will not occur within 5% of the nominal supply, but will occur when the sup-ply is 10% below nominal.When using ICs rated at only the nominal supply ±5%,this leaves a zone of uncertainty where the supply is between 5% and 10% low, and where the reset may or may not be asserted.The MAX8__L/T/Z use highly accurate circuitry to ensure that reset is asserted close to the 5% limit, and long before the supply has declined to 10% below nominal.3-Pin Microprocessor Reset Circuits 6_______________________________________________________________________________________Figure 4. MAX803 Open-Drain RESET Output Allows Use with Multiple SuppliesFigure 3. Interfacing to µPs with Bidirectional Reset I/OTRANSISTOR COUNT:275 (SOT23)380 (SC70)___________________Chip InformationMAX803L/M/R/S/T/Z, MAX809J/L/M/R/S/T/Z, MAX810L/M/R/S/T/Z3-Pin Microprocessor Reset Circuits_______________________________________________________________________________________7Package InformationM A X 803L /M /R /S /T /Z , M A X 809J /L /M /R /S /T /Z , M A X 810L /M /R /S /T /Z3-Pin Microprocessor Reset Circuits Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.8_____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©1999 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.Package Information (continued)。

MAX803SEXRRev. ARELIABILITY REPORTFORMAX803SEXRPLASTIC ENCAPSULATED DEVICESAugust 3, 2006MAXIM INTEGRATED PRODUCTS120 SAN GABRIEL DR.SUNNYVALE, CA 94086byWrittenPedicordJimQualityAssuranceManager, Reliability LabConclusionThe MAX803 successfully meets the quality and reliability standards required of all Maxim products. In addition, Maxim’s continuous reliability monitoring program ensures that all outgoing product will continue to meet Maxim’s quality and reliability standards.Table of ContentsI. ........Device Description V. ........Quality Assurance InformationII. ........Manufacturing Information VI. .......Reliability EvaluationIII. .......Packaging Information IV. .......Die Information.....AttachmentsI. Device DescriptionA. GeneralThe MAX803 is a microprocessor (µP) supervisory circuit used to monitor the power supplies in µP and digital systems. It provides excellent circuit reliability and low cost by eliminating externalcomponents and adjustments when used with +5V, +3.3V, +3.0V, or +2.5V powered circuits.This circuit performs a single function: it asserts a reset signal whenever the V CC supply voltage declines below a preset threshold, keeping it asserted for at least 140ms after V CC has risen above the reset threshold. Reset thresholds suitable for operation with a variety of supply voltages are available.The MAX803 has an open-drain output stage. The MAX803's open-drain RESET-bar output requiresa pull-up resistor that can be connected to a voltage higher than V CC. The MAX803 has an active-low RESET-bar output. The reset comparator is designed to ignore fast transients on V CC, and the outputs are guaranteed to be in the correct logic state for V CC down to 1V.Low supply current makes the MAX803 ideal for use in portable equipment. The MAX803 isavailable in a 3-pin SC70 package.B. Absolute Maximum RatingsItem RatingTerminal Voltage (with respect to GND)VCC -0.3V to +6.0VRESET, RESET (push-pull) -0.3V to (VCC + 0.3V)to-0.3V+6.0VRESETdrain)(open20mAVCCInputCurrent,Output Current, RESET, RESET 20mAVCC 100V/µsRateRise,ofContinuous Power Dissipation (TA = +70°C)3-Pin SC70 (derate 2.17mW/°C above +70°C) 174mW3-Pin SOT23 (derate 4mW/°C above +70°C) 320mWOperating Temperature Range+125°Cto-40°C3-PinSC70+105°Cto3-Pin-40°CSOT23Storage Temperature Range -65°C to +150°CLead Temperature (soldering, 10s) +300°CII. Manufacturing InformationA. Description/Function: 3-Pin Microprocessor Reset CircuitsB. Process: B8 (Standard 0.8 micron silicon gate CMOS)C. Number of Device Transistors: 380D. Fabrication Location: California, USAE. Assembly Location: MalaysiaF. Date of Initial Production: January, 2000III. Packaging InformationSC70-3A. Package Type: 3-PinB. Lead Frame: Alloy 42C. Lead Finish: Solder Plate or 100% Matte TinD. Die Attach: Nonconductive EpoxyE. Bondwire: Gold (1 mil dia.)F. Mold Material: Epoxy with silica fillerG. Assembly Diagram: # 05-1601-0082H. Flammability Rating: Class UL94-V0I. Classification of Moisture Sensitivityper JEDEC standard J-STD-020-C: Level 1IV. Die InformationA. Dimensions: 30 x 30 milsPassivation: Si3N4/SiO2 (Silicon nitride/ Silicon dioxide)B.C. Interconnect: Aluminum/Si (Si = 1%)D. Backside Metallization: NoneE. Minimum Metal Width: 0.8 microns (as drawn)F. Minimum Metal Spacing: 0.8 microns (as drawn)G. Bondpad Dimensions: 5 mil. Sq.H. Isolation Dielectric: SiO2I. Die Separation Method: Wafer SawV. Quality Assurance InformationA. Quality Assurance Contacts: Jim Pedicord (Manager, Reliability Operations)Bryan Preeshl (Managing Director of QA)B. Outgoing Inspection Level: 0.1% for all electrical parameters guaranteed by the Datasheet.0.1% For all Visual Defects.C. Observed Outgoing Defect Rate: < 50 ppmD. Sampling Plan: Mil-Std-105DVI. Reliability EvaluationA. Accelerated Life TestThe results of the 135°C biased (static) life test are shown in Table 1. Using these results, the Failure Rate (λ) is calculated as follows:λ = 1 = 1.83 (Chi square value for MTTF upper limit)MTTFλ = 6.87 x 10-9λ = 6.87 F.I.T. (60% confidence level @ 25°C)This low failure rate represents data collected from Maxim’s reliability monitor program. In addition to routine production Burn-In, Maxim pulls a sample from every fabrication process three times per week and subjects it to an extended Burn-In prior to shipment to ensure its reliability. The reliability control level for each lot to be shipped as standard product is 59 F.I.T. at a 60% confidence level, which equates to 3 failures in an 80 piece sample. Attached Burn-In Schematic (Spec. #06-5033) shows the static Burn-In circuit. Maxim performs failure analysis on any lot that exceeds this reliability control level. Maxim also performs quarterly 1000 hour life test monitors. This data is published in the Product Reliability Report (RR-1N). Current monitor data for the B8/S8 Process results in a FIT rate of 0.17 @ 25°C and 2.92 @ 55°C (eV = 0.8, UCL = 60%).B. Moisture Resistance TestsMaxim pulls pressure pot samples from every assembly process three times per week. Each lot sample must meet an LTPD = 20 or less before shipment as standard product. Additionally, the industry standard 85°C/85%RH testing is done per generic device/package family once a quarter.C. E.S.D. and Latch-Up TestingThe MS42 die type has been found to have all pins able to withstand a transient pulse of ±2500V, per Mil-Std-883 Method 3015 (reference attached ESD Test Circuit). Latch-Up testing has shown that this device withstands a current of ±250mA.Table 1Reliability Evaluation Test ResultsMAX803S EXRTEST ITEM TEST CONDITION FAILURE SAMPLE NUMBER OFSIZEFAILURES IDENTIFICATION PACKAGEStatic Life Test (Note 1)160DCParametersTa = 135°CBiased & functionalityTime = 192 hrs.Moisture Testing (Note 2)77SC70ParametersPressure Pot Ta = 121°CDCP = 15 psi. & functionality100%RH=Time = 168hrs.77ParametersTa85°C DC85/85=85% &functionality=RHBiased1000hrs.=TimeMechanical Stress (Note 2)77 0ParametersTemperature -65°C/150°CDCfunctionalityCycles&1000Cycle1010MethodNote 1: Life Test Data may represent plastic DIP qualification lots.Note 2: Generic Package/Process dataAttachment #1TABLE II. Pin combination to be tested. 1/ 2/1/ Table II is restated in narrative form in 3.4 below. 2/ No connects are not to be tested. 3/ Repeat pin combination I for each named Power supply and for ground (e.g., where V PS1 is V DD , V CC , V SS , V BB , GND, +V S, -V S , V REF , etc). 3.4 Pin combinations to be tested. a.Each pin individually connected to terminal A with respect to the device ground pin(s) connected to terminal B. All pins except the one being tested and the ground pin(s) shall be open. b. Each pin individually connected to terminal A with respect to each different set of a combination of all named power supply pins (e.g., V SS1, or V SS2 or V SS3 or V CC1, or V CC2) connected to terminal B. All pins except the one being tested and the power supply pin or set of pins shall be open.c.Each input and each output individually connected to terminal A with respect to a combination of all the other input and output pins connected to terminal B. All pins except the input or output pin being tested and the combination of all the other input and output pins shall be open.Terminal A (Each pin individually connected to terminal A with the other floating) Terminal B (The common combination of all like-named pins connected to terminal B) 1. All pins except V PS1 3/ All V PS1 pins 2. All input and output pinsAll other input-output pinsMil Std 883DMethod 3015.7Notice 8 TERMINAL BTERMINAL APROBE (NOTE 6) R = 1.5k ΩC = 100pf。

SGM803/SGM809/SGM810 Microprocessor SupervisoryCircuit in 3-Pin SOT-23GENERAL DESCRIPTIONThe SGM803/SGM809/SGM810 supervisory circuitsmonitor the power supply voltage in microprocessor anddigital systems. They provide a reset output duringpower-up, power-down and brownout conditions. Onpower-up, an internal timer holds reset asserted for240ms. This holds the microprocessor in a reset stateuntil conditions have stabilized. The RESET outputremains operational with V CC as low as 1V. The SGM803/SGM809 provides an active low reset signal (RESET)while the SGM810 provides an active high signal(RESET) output. The SGM809/SGM810 has push-pulloutputs, whereas the SGM803 has an open-drain output,which requires an external pull-up resistor.Eight reset threshold voltage options are availablesuitable for monitoring 1.8V, 2.5V, 3V, 3.3V and 5Vsupply voltages.The reset comparator features built-in glitch immunity,making it immune to fast transients on V CC.The low supply current of typically 13μA makes theSGM803/SGM809/SGM810 ideal for use in portable,battery operated equipment. All are specified over theextended -40℃ to +125℃ temperature range.TYPICAL OPERATION CIRCUITFEATURES●Precision Voltage Monitor: 1.8V, 2.5V, 3V, 3.3V, 5VOptions●Superior Upgrade for MAX803/MAX809/MAX810and ADM803/ADM809/ADM810●Fully Specified over Temperature●Low Power Consumption (13μA TYP)●Reset Assertion Down to 1V V CC●150ms Min Power-On ResetOpen-Drain RESET Output (SGM803)Push-Pull RESET Output (SGM809)Push-Pull RESET Output (SGM810)●-40℃ to +125℃ Operating Temperature Range●Small PackagingSGM803 Available in SOT-23-3 and SOT-23SGM809 Available in SOT-23-3 and SOT-23SGM810 Available in SOT-23-3 and SOT-23APPLICATIONSMicroprocessor SystemsControllersIntelligent InstrumentsAutomotive SystemsSafety SystemsPortable InstrumentsPIN CONFIGURATIONS (TOP VIEW)12SOT-23-3 / SOT-23GNDV CC3RESET/RESETSGM803SGM809SGM810REV.E. 1 SG Micro CorpCircuit in 3-Pin SOT-232SGM803/SGM809/SGM810SG Micro CorpPACKAGE/ORDERING INFORMATIONMODELRESETTHRESHOLD (V)PACKAGE DESCRIPTION ORDERING NUMBERPACKAGE MARKING PACKAGE OPTION 4.63 SOT-23-3 SGM803-LXN3/TR 803L Tape and Reel, 30004.63SOT-23SGM803-LXN3L/TR803LLTape and Reel, 30004.38 SOT-23-3 SGM803-MXN3/TR 803M Tape and Reel, 30004.38 SOT-23 SGM803-MXN3L/TR 803ML Tape and Reel, 30004.00 SOT-23-3 SGM803-JXN3/TR 803J Tape and Reel, 30004.00 SOT-23 SGM803-JXN3L/TR 803JL Tape and Reel, 30003.08 SOT-23-3 SGM803-TXN3/TR 803TTape and Reel, 30003.08 SOT-23 SGM803-TXN3L/TR 803TL Tape and Reel, 30002.93 SOT-23-3 SGM803-SXN3/TR 803S Tape and Reel, 30002.93 SOT-23 SGM803-SXN3L/TR 803SL Tape and Reel, 30002.63 SOT-23-3 SGM803-RXN3/TR 803R Tape and Reel, 30002.63 SOT-23 SGM803-RXN3L/TR 803RL Tape and Reel, 30002.32 SOT-23-3 SGM803-ZXN3/TR 803Z Tape and Reel, 30002.32SOT-23SGM803-ZXN3L/TR803ZLTape and Reel, 30001.63 SOT-23-3 SGM803-XXN3/TR 803X Tape and Reel, 3000SGM8031.63 SOT-23 SGM803-XXN3L/TR 803XL Tape and Reel, 30004.63 SOT-23-3 SGM809-LXN3/TR 809L Tape and Reel, 30004.63SOT-23SGM809-LXN3L/TR809LLTape and Reel, 30004.38 SOT-23-3 SGM809-MXN3/TR 809M Tape and Reel, 30004.38 SOT-23 SGM809-MXN3L/TR 809ML Tape and Reel, 30004.00 SOT-23-3 SGM809-JXN3/TR 809J Tape and Reel, 30004.00 SOT-23 SGM809-JXN3L/TR 809JL Tape and Reel, 30003.08 SOT-23-3 SGM809-TXN3/TR 809TTape and Reel, 30003.08 SOT-23 SGM809-TXN3L/TR 809TL Tape and Reel, 30002.93 SOT-23-3 SGM809-SXN3/TR 809S Tape and Reel, 30002.93 SOT-23 SGM809-SXN3L/TR 809SL Tape and Reel, 30002.63 SOT-23-3 SGM809-RXN3/TR 809R Tape and Reel, 30002.63 SOT-23 SGM809-RXN3L/TR 809RL Tape and Reel, 30002.32 SOT-23-3 SGM809-ZXN3/TR 809Z Tape and Reel, 30002.32 SOT-23 SGM809-ZXN3L/TR 809ZL Tape and Reel, 30001.63 SOT-23-3 SGM809-XXN3/TR 809X Tape and Reel, 3000SGM8091.63 SOT-23 SGM809-XXN3L/TR 809XLTape and Reel, 3000Circuit in 3-Pin SOT-233SGM803/SGM809/SGM810SG Micro CorpPACKAGE/ORDERING INFORMATION (Cont.)MODELRESETTHRESHOLD (V)PACKAGE DESCRIPTION ORDERING NUMBERPACKAGE MARKING PACKAGE OPTION 4.63 SOT-23-3 SGM810-LXN3/TR 810L Tape and Reel, 30004.63 SOT-23 SGM810-LXN3L/TR 810LL Tape and Reel, 30004.38 SOT-23-3 SGM810-MXN3/TR 810M Tape and Reel, 30004.38 SOT-23 SGM810-MXN3L/TR 810ML Tape and Reel, 30004.00 SOT-23-3 SGM810-JXN3/TR 810J Tape and Reel, 30004.00 SOT-23 SGM810-JXN3L/TR 810JL Tape and Reel, 30003.08 SOT-23-3 SGM810-TXN3/TR 810TTape and Reel, 30003.08 SOT-23 SGM810-TXN3L/TR 810TL Tape and Reel, 30002.93 SOT-23-3 SGM810-SXN3/TR 810S Tape and Reel, 30002.93 SOT-23 SGM810-SXN3L/TR 810SL Tape and Reel, 30002.63 SOT-23-3 SGM810-RXN3/TR 810R Tape and Reel, 30002.63 SOT-23 SGM810-RXN3L/TR 810RL Tape and Reel, 30002.32 SOT-23-3 SGM810-ZXN3/TR 810ZTape and Reel, 30002.32 SOT-23 SGM810-ZXN3L/TR 810ZL Tape and Reel, 30001.63 SOT-23-3 SGM810-XXN3/TR 810X Tape and Reel, 3000SGM8101.63SOT-23SGM810-XXN3L/TR810XLTape and Reel, 3000Circuit in 3-Pin SOT-234SGM803/SGM809/SGM810SG Micro CorpABSOLUTE MAXIMUM RATINGS(Typical values are at T A = 25°C, unless otherwise noted.)V CC ............................................................................-0.3V to 6V RESET , RESET ............................................-0.3V to V CC + 0.3V Input Current, V CC .............................................................20mA Output Current, RESET ,RESET ……………………………..20mA Rate of Rise, V CC ...........................................................100V/μs Power Dissipation, P D @ T A = 25℃SOT-23-3 ............................................................................0.4WPackage Thermal ResistanceSOT-23-3, θJA ............................................................... 250℃/W Operating Temperature Range..........................-40°C to +125°C Junction Temperature........................................................150°C Storage Temperature........................................-65°C to +150°C Lead Temperature (Soldering, 10s)...................................260°C ESD SusceptibilityHBM..................................................................................4000V MM.. (400V)NOTE:Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.CAUTIONThis integrated circuit can be damaged by ESD if you don’t pay attention to ESD protection. SGMICRO recommends that all this integrated circuit can be damaged by ESD if you don’t pay attention to ESD protection. SGMICRO recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. SGMICRO reserves the right to make any change in circuit design, specification or other related things if necessary without notice at any time. Please contact SGMICRO sales office to get the last datasheet.PIN DESCRIPTIONCircuit in 3-Pin SOT-235SGM803/SGM809/SGM810SG Micro CorpELECTRICAL CHARACTERISTICS(V CC TYP = 5V for L/M/J Models, 3.3V for T/S Models, 3V for R Models, 2.5V for Z Models, 1.8V for X Models; unless otherwise noted.)Circuit in 3-Pin SOT-236SGM803/SGM809/SGM810SG Micro CorpTYPICAL PERFORMANCE CHARACTERISTICSCircuit in 3-Pin SOT-237SGM803/SGM809/SGM810SG Micro CorpTYPICAL PERFORMANCE CHARACTERISTICSCircuit in 3-Pin SOT-238SGM803/SGM809/SGM810SG Micro CorpAPPLICATION NOTESBENEFITS OF AN ACCURATE RESET THRESHOLDIn other microprocessor supervisory circuits, tolerances in supply voltages lead to an overall increase in reset tolerance levels due to the deterioration of the microprocessor reset circuit’s power supply. The possibility of a malfunction during a power failure is greatly reduced because the SGM803/ SGM809/SGM810 series can operate effectively even when there are large degradations of the supply voltages. Another advantage of the SGM803/SGM809/SGM810 series is its very accurate internal voltage reference circuit. These benefits combine to produce an exceptionally reliable voltage monitor circuit.INTERFACING TO MICROPROCESSORS WITH MULTIPLE INTERRUPTSIn a number of cases, it is necessary to interface many interrupts from different devices (for example, thermal, altitude, and velocity sensors). The SGM803/SGM809/SGM810 can easily be integrated into existing interrupt-handling circuits, as shown in Figure 1, or can be used as a standalone device.Figure 1. Interfacing to Microprocessors with MultipleInterruptsINTERFACING TO OTHER DEVICES’ OUTPUTThe SGM803/SGM809/SGM810 series is designed to integrate with as many devices as possible and, therefore, has a standard output dependent on V CC . This enables the parts to be used in both 3V and 5V, or any nominal voltage within the minimum and maximum specifications for V CC . This design simplifies interfacing this device to other devices.ENSURING A VALID RESET OUTPUT DOWN TO V CC = 0VWhen V CC falls below 1.0V, the SGM803/SGM809 RESET no longer sinks current. A high impedance CMOS logic input connected to RESET may, therefore, drift to undetermined logic levels. To eliminate this problem, a 100k Ωresistor should be connected from RESET to ground.Figure 2. Ensuring a Valid Reset Output Down to V CC = 0VPREVENTING THE HIGH VOLTAGE SPIKE AND LOW POWER DESIGNTo prevent the high voltage spike damage or input V CC current limitation low power design, It is always to connect a resistor R1(0Ω to 1k Ω) in series to V CC , for such application, one capacitance C1(0.1µF to 4.7µF) should be connected between V CC Pin and GND. the schematic is shown in Figure 3. The input resistor will affect output driving capability.OUTPUTINFigure 3. Preventing the High Voltage Spike and Low Power Design .Circuit in 3-Pin SOT-239SGM803/SGM809/SGM810SG Micro CorpDETAILED DESCRIPTIONSRESET TIMINGThe reset signal is asserted LOW for the SGM809 and HIGH for the SGM810 when the power supply voltage falls below the threshold trip voltage and remains asserted for at least 150ms after the power supply voltage has risen above the threshold.Power Supply Voltage5V0V 5V0V 5V 0VRESETRESETFigure 4. Reset Timing DiagramCircuit in 3-Pin SOT-2310SGM803/SGM809/SGM810SG Micro CorpPACKAGE OUTLINE DIMENSIONSSOT-23-3RECOMMENDED LAND PATTERN (Unit: mm)Dimensions In Millimeters Dimensions In InchesSymbol MIN MAX MIN MAX A 1.050 1.250 0.041 0.049 A1 0.000 0.100 0.000 0.004 A2 1.050 1.150 0.041 0.045 b 0.300 0.500 0.012 0.020 c 0.100 0.200 0.004 0.008 D 2.820 3.020 0.111 0.119 E 1.500 1.700 0.059 0.067 E12.650 2.950 0.104 0.116e 0.950 BSC 0.037 BSC e1 1.900 BSC 0.075 BSC L 0.300 0.600 0.012 0.024 θ0° 8° 0° 8°Circuit in 3-Pin SOT-2311SGM803/SGM809/SGM810SG Micro CorpPACKAGE OUTLINE DIMENSIONSSOT-23RECOMMENDED LAND PATTERN (Unit: mm)Dimensions In Millimeters Dimensions In Inches SymbolMIN MAX MIN MAXA 0.900 1.150 0.035 0.045 A1 0.000 0.100 0.000 0.004 A2 0.900 1.050 0.035 0.041 b 0.300 0.500 0.012 0.020 c 0.080 0.150 0.003 0.006 D 2.800 3.000 0.110 0.118 E 1.200 1.400 0.047 0.055 E1 2.250 2.550 0.089 0.100 e 0.950 BSC 0.037 BSC e1 1.900 BSC 0.075 BSC L 0.550 REF 0.022 REF L1 0.300 0.500 0.012 0.020 θ 0° 8° 0° 8°Circuit in 3-Pin SOT-2312SGM803/SGM809/SGM810SG Micro CorpTAPE AND REEL INFORMATIONNOTE: The picture is only for reference. Please make the object as the standard.KEY PARAMETER LIST OF TAPE AND REELPackage TypeReel DiameterReel WidthW1 (mm)A0 (mm)B0 (mm)K0 (mm)P0 (mm)P1 (mm)P2 (mm)W (mm)Pin1 QuadrantSOT-23-3 7″ 9.03.2 3.3 1.34.0 4.0 2.0 8.0Q3 SOT-23 7″9.5 3.152.771.224.0 4.0 2.0 8.0Q3REEL DIMENSIONSCircuit in 3-Pin SOT-2313SGM803/SGM809/SGM810SG Micro CorpCARTON BOX DIMENSIONSNOTE: The picture is only for reference. Please make the object as the standard.KEY PARAMETER LIST OF CARTON BOXReel Type Length (mm) Width (mm) Height (mm) Pizza/Carton7″ (Option)36822722487″ 442 410 224 18。

A BA892 Sie SCD80 35V 100mA pinA 1SS355 Roh USM 100V 50mA swA MRF947 Mot SOT323 npn RF 8 GHzA0 HSMS-2800 HP SOT23 HP2800 schottkyA0 HSMS-280B HP SOT323 HP2800 schottkyA03 VAM-03 MC - modamp MAR 3 SimilarA06 VAM-06 MC - modamp MAR 6 SimilarA07 VAM-07 MC - modamp MAR 7 SimilarA1 HSMS-2801 HP - HP2800 schottkyA1 BAW56W Phi SOT323 dual ca BAW62 (1N4148)A1 BAW56 Phi SOT23 dual ca BAW62 (1N4148)A1 BAW56 Phi SOT23 dual ca BAW62 (1N4148)A11 MMBD1501A Fch SOT23 180V 200mA diodeA13 MMBD1503A Fch SOT23 180V 200mA dual diode series A14 MMBD1504A Fch SOT23 180V 200mA dual diode ccA15 MMBD1505A Fch SOT23 180V 200mA dual diode caA16 ZC934A Zet SOT23 25-95pF hyperabrupt varicapA17 ZC933A Zet SOT23 12-42pF hyperabrupt varicapA1p BAW56 Phi SOT23 dual ca BAW62 (1N4148)A1s BAW56W Sie SOT323 dual ca BAW62 (1N4148)A1s BAW56 Sie SOT23 dual ca BAW62 (1N4148)A1s BAW56U Sie SC74 dual ca BAW62 (1N4148)A1t BAW56T Phi SOT416 dual ca BAW62 (1N4148)A1t BAW56S Phi SOT363 dual ca BAW62 (1N4148)A1X MBAW56 Mot - dittoA2 HSMS-2802 HP SOT23 dual HP2800A2 HSMS-280C HP SOT323 dual HP2800A2 BAT18 Phi SOT23 BA482A2 MMBD2836 Mot SOT23 dual ca sw diode 75VA2 CFY30 Sie SOT143 n-ch GaAsfet 6 GHzA2 MBT3906DW1 Mot SOT363 dual 2N3906A22 BAS21 Phi SOD27 BAV21A2s BAT18 Sie SOT23 BA482A2X MMBD2836 Mot SOT23 dual ca sw 75V 100mA 15ns A3 BAP64-03 Phi SOD323 3 GHz pin diodeA3 HSMS-2803 HP SOT23 HP2800 ser pairA3 MMBD1005 Mot SOT23 dual ca Si diode low leakage A3 BAS16 Zet - Si sw 75V 100mAA3 BAT17 Phi SOT23 BA481A3 MBT3906DW Mot SOT363 dual 2N3906A3p BAT17 Phi SOT23 BA481A3t BAT17 Phi SOT23 BA481A3X MMBD2835 Mot SOT23 dual ca sw 35V 100mA 15nSA4 HSMS-2804 HP SOT23 dual cc HP2800 schottkyA4 BAV70W Phi SOT323 dual cc BAW62A48 LM301MG NS SC70-5A48 XC6371A481P DC/DC-IC PWMstep-up,100kHz,4.8V SOT-89A48 XC31PPS0048AP LVR-IC TemperatureSensitive,+T SOT-89A48 XC31PNS0048AP LVR-IC TemperatureSensitive,-T SOT-89A48 XC31PPS0048AM LVR-IC TemperatureSensitive,+T SOT-23A48 XC31PNS0048AM LVR-IC TemperatureSensitive,-T SOT-23A48 XC6114A539MR Vdet-IC 3 .9V, SOT-23-5A48 XC6371C481P DC/DC-IC PWM step-up, 100kHz, +CE, 4.8V SOT-89-5A4886D AUD4886D14-4 LIN-IC AFPA,BTL,2.7..5.5V,2x2W(5V/4?),shutdown DFN-14 A4890 EUA4890J LIN-IC AFPA,BTL,3..5.5V,1W(5V/8?),shutdown DFN-8A4890 EUA4890M LIN-IC AF PA, BTL, 2.2..5.5V, 1 W(5V/8?), shutd... SSOP-8A48A R3111H481A Vdet-IC 4.8V SOT-89A48A ML6101C482P Vdet-IC 4.8V SOT-89A48A ML6101C482M Vdet-IC 4.8V SOT-23A48A R3111D481A Vdet-IC 4.8V SON1612-6A48A R1170S481A LVR-IC LDO, -CE, 4.8V HSOP-6JA48B R1170S481B LVR-IC LDO, +CE, 4.8V HSOP-6JA48C R3111H481C Vdet-IC 4.8V SOT-89A48C R3112D481C Vdet-IC 4.8V, +Reset ODO SON1612-6 A48C R3111D481C Vdet-IC 4.8V SON1612-6A4p BAV70 Phi SOT23 dual cc BAW62A4s BAV70W Sie SOT323 dual cc BAW62A4s BAV70 Sie SOT23 dual cc BAW62A4s BAV70T Sie SOT416 dual cc BAW62A4s BAV70U Sie SC74 dual cc BAW62A4t BAV70 Phi SOT23 dual cc BAW62A4t BAV70 Phi SOT363 dual cc BAW62A4X MBAV70 Mot - dittoA5 BAP51-03 Phi SOD323 GP RF pin diodeA5 HSMS-2805 HP SOT143 dual HP2800 schottkyA5 MMBD1010 Mot SOT23 dual cc Si diodesA5 MMBD2837 Mot SOT23 dual cc diodes 30V 150mAA51 BRY62 Phi SOT143 -A5p BRY61 Phi SOT143 -A5t BRY61 Phi SOT143 -A6 BAS16T Phi SOT416 BAW62 (1N4148)A6 BAS216 Phi SOD110 BAW62 (1N4148)A6 MMBD2836 Mot SOT23 dual sw diode cc 75V A6A MMUN2111 Mot SOT23 pnp dtr 10k+10kA6B MMUN2112 Mot SOT23 pnp dtr 22k+22kA6C MMUN2113 Mot SOT23 pnp dtr 47k+47kA6D MMUN2114 Mot SOT23 pnp dtr 100k+100k A6E MMUN2115 Mot SOT23 pnp dtr R1 10kA6F MMUN2116 Mot SOT23 pnp dtr R1 4k7A6G MMUN2130 Mot SOT23 pnp dtr 1k0+1k0 A6H MMUN2131 Mot SOT23 pnp dtr 2k2+2k2 A6J MMUN2132 Mot SOT23 pnp dtr 4k7+4k7A6K MMUN2133 Mot SOT23 pnp dtr 4k7+47kA6L MMUN2134 Mot SOT23 pnp dtr 22k+47kA6p BAS16 Phi SOT23 BAW62 (1N4148)A6p BAS316 Phi SOD323 BAW62 (1N4148)A6s BAS16W Sie SOT323 BAW62 (1N4148)A6s BAS16 Sie SOT23 BAW62 (1N4148)A6s BAS16U Sie SC74 BAW62 (1N4148)A6X MMBD2838 Mot SOT23 dual sw 50V 100mA A7 BAV99W Phi SOT323 dual ser BAW92A7 BAV99 Phi SOT23 dual ser BAW92A7 HSMS-2807 HP SOT143 HP2800 ring quad A7s BAV99 Sie SOT23 dual ser BAW92A7s BAV99W Sie SOT323 dual ser BAW92A7s BAV99T Sie SC75 dual ser BAW92A7s BAV99U Sie SC74 dual ser BAW92A8 HSMS-2808 HP SOT143 HP2800 bridge quad A8 BAP50-03 Phi SOD323 GP RF pin diodeA8 BAS19 Phi SOT23 BAV19A8 SI2308DS Sil SOT23 N-ch mosfet, 60V 0.1A A81 BAS20 Phi SOT23 BAV20A82 BAS21 Phi SOT23 BAV21A8A MMUN2211 Mot SOT23 npn dtr 10k +10k A8B MMUN2212 Mot SOT23 npn dtr 22k +22k A8C MMUN2213 Mot SOT23 npn dtr 47k+47kA8D MMUN2214 Mot SOT23 npn dtr 100k+100k A8E MMUN2215 Mot SOT23 npn dtr R1 10kA8F MMUN2216 Mot SOT23 npn dtr R1 4k7A8G MMUN2230 Mot SOT23 npn dtr 1k0 +1k0A8H MMUN2231 Mot SOT23 npn dtr 2k2+2k2A8J MMUN2232 Mot SOT23 npn dtr 4k7+4k7A8K MMUN2233 Mot SOT23 npn dtr 4k7+47kA8L MMUN2234 Mot SOT23 npn dtr 22k+47kA9 SI2309DS Sil SOT23 P-ch mosfet, 60V 0.1AA91 BAS17 Phi SOT23 BA314A94 SMV1202-94 SOT23AA BCX51 Sie SOT89 pnp 45V audio comp BCX54AA BCW60A TT SOT23 BCY58-viiAA ZMV829A Zet SOD323 varicap hyperabrupt 28V 8.2pF@2V AA1 SMV1211-001 SOT23AAA MMBF4856 Mot SOT23 2N4856 n-ch chopper jfetAAAA MAX809LXR MAX SOT23 microproc -ve reset gen 5.0V AAAX MAX2470 MAX SOT23-6 VCO Buffer AmplifiersAAAY MAX2471 MAX SOT23-6 VCO Buffer AmplifiersAAG MMBR951AL Mot SOT23 npn RF 8GHzAAH MAX6326_R22-T Max SC70 microproc -ve reset gen 2.200V AAI MAX6327_R22-T Max SC70 microproc +ve reset gen 2.200VAAJ MAX6328_R22-T Max SC70 microproc -ve reset gen 2.200VAAK MAX6410BS33-T Max UCSP-4 Volt. Detect. (3.300 V / Push-Pull,Active-High) AAL MAX6410BS34-T Max UCSP-4 Volt. Detect. (3.400 V / Push-Pull,Active-High) AAM MAX6410BS35-T Max UCSP-4 Volt. Detect. (3.500 V / Push-Pull,Active-High) AAN MAX6410BS36-T Max UCSP-4 Volt. Detect. (3.600 V / Push-Pull,Active-High) AAN MAX809LXR Max SC70 microproc -ve reset gen 5.0VAAO MAX6410BS37-T Max UCSP-4 Volt. Detect. (3.700 V / Push-Pull,Active-High) AAO MAX809MXR Max SC70 microproc -ve reset gen 5.0VAAP MAX6410BS38-T Max UCSP-4 Volt. Detect. (3.800 V / Push-Pull,Active-High) AAP MAX809TXR Max SC70 microproc -ve reset gen 3.3VAAQ MAX6410BS39-T Max UCSP-4 Volt. Detect. (3.900 V / Push-Pull,Active-High) AAQ MAX809SXR Max SC70 microproc -ve reset gen 3.3VAAR MAX6410BS40-T Max UCSP-4 Volt. Detect. (4.000 V / Push-Pull,Active-High) AAR MAX809RXR Max SC70 microproc -ve reset gen 3.0VAAs BCW60A Sie SOT23 BCY58-viiAAS MAX6410BS41-T Max UCSP-4 Volt. Detect. (4.100 V / Push-Pull,Active-High) AAS MAX803ZXR Max SC70 microproc -ve reset gen 2.5VAAT MAX6410BS42-T Max UCSP-4 Volt. Detect. (4.200 V / Push-Pull,Active-High) AAT MAX810LXR Max SC70 microproc +ve reset gen 5.0VAAU MAX6410BS43-T Max UCSP-4 Volt. Detect. (4.300 V / Push-Pull,Active-High)AAU MAX810MXR Max SC70 microproc +-ve reset gen 5.0VAAV MAX6410BS44-T Max UCSP-4 Volt. Detect. (4.380 V / Push-Pull,Active-High) AAV MAX810TXR Max SC70 microproc +ve reset gen 3.3VAAW MAX6410BS45-T Max UCSP-4 Volt. Detect. (4.500 V / Push-Pull,Active-High) AAW MAX810RXR Max SC70 microproc +ve reset gen 3.0VAAX MAX6410BS46-T Max UCSP-4 Volt. Detect. (4.630 V / Push-Pull,Active-High) AAX MAX810SXR Max SC70 microproc +ve reset gen 3.3VAAY MAX6411BS33-T Max UCSP-4 Volt. Detect. (3.300 V/Open Drain,Active-Low) AAY MAX810ZXR Max SC70 microproc +ve reset gen 2.5VAAZ MAX6411BS34-T Max UCSP-4 Volt. Detect. (3.400 V/Open Drain,Active-Low) AAZ MAX803LXR Max SC70 microproc -ve reset gen 5.0VAB BCW60B ITT SOT23 BCY58-viiiAB ZMV830A Zet SOD323 varicap hyperabrupt 28V 10pF@2VAB1 SMV1212-001 SOT23AB3 SMV1212-004 SOT23ABA MAX6411BS35-T Max UCSP-4 Volt. Detect. (3.500 V/Open Drain,Active-Low) ABA MAX803TXR Max SC70 microproc -ve reset gen 5.0VABAA MAX809MXR Max SOT23 microproc -ve reset gen 5.0VABB MAX6411BS36-T Max UCSP-4 Volt. Detect. (3.600 V/Open Drain,Active-Low) ABB MAX803MXR Max SC70 microproc -ve reset gen 3.3VABC MAX6411BS37-T Max UCSP-4 Volt. Detect. (3.700 V/Open Drain,Active-Low) ABC MAX803SXR Max SC70 microproc -ve reset gen 3.3VABD MAX6411BS38-T Max UCSP-4 Volt. Detect. (3.800 V/Open Drain,Active-Low) ABD MAX803RXR Max SC70 microproc -ve reset gen 3.0VABE MAX6411BS39-T Max UCSP-4 Volt. Detect. (3.900 V/Open Drain,Active-Low) ABE MAX803ZXR Max SC70 microproc -ve reset gen 2.5VABF MAX6411BS40-T Max UCSP-4 Volt. Detect. (4.000 V/Open Drain,Active-Low) ABF LM4041AIX3-1.2 Max SC70 1.225V 0.1% shunt V refABG MAX6411BS41-T Max UCSP-4 Volt. Detect. (4.100 V/Open Drain,Active-Low) ABG LM4041BIX3-1.2 Max SC70 1.225V 0.2% shunt V refABH MAX6411BS42-T Max UCSP-4 Volt. Detect. (4.200 V/Open Drain,Active-Low) ABH LM4041DIX3-1.2 Max SC70 1.225V 0.5% shunt V refABI MAX6411BS43-T Max UCSP-4 Volt. Detect. (4.300 V/Open Drain,Active-Low) ABI LM4041DIX3-1.2 Max SC70 1.225V 1.5% shunt V refABJ MAX6411BS44-T Max UCSP-4 Volt. Detect. (4.380 V/Open Drain,Active-Low) ABJ LM4040AIX3-2.1 Max SC70 2.048V 0.1% shunt V refABK MAX6411BS45-T Max UCSP-4 Volt. Detect. (4.500 V/Open Drain,Active-Low) ABK LM4040BIX3-2.1 Max SC70 2.048V 0.2% shunt V refABL MAX6411BS46-T Max UCSP-4 Volt. Detect. (4.640 V/Open Drain,Active-Low) ABL LM4040CIX3-2.1 Max SC70 2.048V 0.5% shunt V refABN LM4040AIX3-2.5 Max SC70 2.5001% shunt V refABO LM4040BIX3-2.5 Max SC70 2.500V 0.2% shunt V ref ABp BCW60B Phi SOT23 BCY58-viiiABP LM4040CIX3-2.5 Max SC70 2.500V 0.5% shunt V ref ABQ LM4040DIX3-2.5 Max SC70 2.500V 1% shunt V ref ABR LM4040AIX3-3.0 Max SC70 3.000V 0.1% shunt V ref ABs BCW60B Sie SOT23 BCY58-viiiABS LM4040BIX3-3.0 Max SC70 3.000V 0.2% shunt V ref ABt BCW60B Phi SOT23 BCY58-viiiABT LM4040CIX3-3.0 Max SC70 3.000V 0.5% shunt V ref ABU LM4040DIX3-3.0 Max SC70 3.000V 1% shunt V ref ABV LM4040AIX3-4.1 Max SC70 4.096V 0.1% shunt V ref ABW LM4040BIX3-4.1 Max SC70 4.096V 0.2% shunt V ref ABX LM4040CIX3-4.1 Max SC70 4.096V 0.5% shunt V ref ABY LM4040DIX3-4.1 Max SC70 4.096V 1% shunt V ref ABZ LM4040AIX3-5.0 Max SC70 5.000V 0.1% shunt V ref AC BCX51-100 Sie SOT89 45V pnp audio hfe 100AC ZMV831A Zet SOD323 varicap hyperabrupt 28V 15pF@2V AC1 SMV1222-001 SOT23ACAA MAX809TXR Max SOT23 microproc -ve reset gen 3.3V ACB LM4040CIX3-5.0 Max SC70 5.000V 0.5% shunt V refACC LM4040DIX3-5.0 Max SC70 5.000V 1% shunt V refACE MAX6326_R31-T Max SC70 microproc -ve reset gen 3.080V ACF MAX6347_R46-T Max SC70 microproc +ve reset gen 4.630V ACH MAX6326_R23-T Max SC70 microproc -ve reset gen 2.320V ACI MAX6326_R26-T Max SC70 microproc -ve reset gen 2.630V ACJ MAX6328_R26-T Max SC70 microproc -ve reset gen 2.630V ACK MAX6346_R44-T Max SC70 microproc -ve reset gen 4.380V ACL MAX6347_R44-T Max SC70 microproc +ve reset gen 4.380V ACM MAX6348_R46-T Max SC70 microproc -ve reset gen 4.630V ACN MAX6348_R44-T Max SC70 microproc -ve reset gen 4.380V ACO MAX6346_R46-T Max SC70 microproc -ve reset gen 4.630V ACp BCW60C Phi SOT23 BCY58-ixACP MAX6326_R29-T Max SC70 microproc -ve reset gen 2.930V ACQ MAX6327_R23-T Max SC70 microproc +ve reset gen 2.320V ACR MAX6327_R26-T Max SC70 microproc +ve reset gen 2.630V ACs BCW60C Sie SOT23 BCY58-ixACS MAX6327_R29-T Max SC70 microproc +ve reset gen 2.930VACt BCW60C Phi SOT23 BCY58-ixACT MAX6327_R31-T Max SC70 microproc +ve reset gen 3.080VACU MAX6328_R23-T Max SC70 microproc -ve reset gen 2.320VACV MAX6328_R29-T Max SC70 microproc -ve reset gen 2.930VACW MAX6326_R31-T Max SC70 microproc -ve reset gen 3.080VAD BCX51-160 Sie SOT89 45V pnp audio hfe 160AD BCX51-16 Phi SOT89 45V pnp audio hfe 160AD BCW60D Phi SOT23 BCY58-xAD ZMV832A Zet SOD323 varicap hyperabrupt 28V 22pF@2VAD1 SMV1223-001 SOT23ADAA MAX809SXR Max SOT23 microproc -ve reset gen 3.3VADN 2SC3838K Roh - npn 11V 3.2GHz TV tunersADp BCW60D Phi SOT23 BCY58-xADs BCW60D Sie SOT23 BCY58-xADt BCW60D Ph SOT23 BCY58-xADW MAX6406BS22-T Max UCSP-4 Volt. Detect. (2.200 V / Push-Pull, Active-Low) ADX MAX6406BS23-T Max UCSP-4 Volt. Detect. (2.320 V / Push-Pull, Active-Low) ADY MAX6406BS24-T Max UCSP-4 Volt. Detect. (2.400 V / Push-Pull, Active-Low) ADZ MAX6406BS25-T Max UCSP-4 Volt. Detect. (2.500 V / Push-Pull, Active-Low) AE BCX52 Sie SOT89 pnp 60V audio comp BCX55AE ZMV833A Zet SOD323 varicap hyperabrupt 28V 33pF@2VAE1 SMV1225-001 SOT23AEA MAX6406BS26-T MAX UCSP-4 Volt. Detect. (2.630 V / Push-Pull, Active-Low) AEB MAX6406BS27-T MAX UCSP-4 Volt. Detect. (2.700 V / Push-Pull, Active-Low) AEC MAX6406BS28-T MAX UCSP-4 Volt. Detect. (2.800 V / Push-Pull, Active-Low) AED MAX6406BS29-T MAX UCSP-4 Volt. Detect. (2.930 V / Push-Pull, Active-Low) AEE MAX6406BS30-T MAX UCSP-4 Volt. Detect. (3.000 V / Push-Pull, Active-Low) AEF MAX6406BS31-T MAX UCSP-4 Volt. Detect. (3.080 V / Push-Pull, Active-Low) AEG SMV1204-68 SOT23AEG MAX6407BS22-T MAX UCSP-4 Volt. Detect. (2.200 V / Push-Pull, Active-High) AEH MAX6407BS23-T MAX UCSP-4 Volt. Detect. (2.300 V / Push-Pull, Active-High) AEI MAX6407BS24-T MAX UCSP-4 Volt. Detect. (2.400 V / Push-Pull, Active-High) AEJ MAX6407BS25-T MAX UCSP-4 Volt. Detect. (2.500 V / Push-Pull, Active-High) AEK MAX6407BS26-T MAX UCSP-4 Volt. Detect. (2.630 V / Push-Pull, Active-High) AEL MAX6407BS27-T MAX UCSP-4 Volt. Detect. (2.700 V / Push-Pull, Active-High) AEM MAX6407BS28-T MAX UCSP-4 Volt. Detect. (2.800 V / Push-Pull, Active-High) AEN MAX6407BS29-T MAX UCSP-4 Volt. Detect. (2.930 V / Push-Pull, Active-High) AEN 2SC3839K Roh - npn 20V 2.0GHz TV tunersAEO MAX6407BS30-T Max UCSP-4 Volt. Detect. (3.000 V / Push-Pull,Active-High) AEP MAX6407BS31-T Max UCSP-4 Volt. Detect. (3.000 V / Push-Pull,Active-High)AEQ MAX6408BS22-T Max UCSP-4 Volt. Detect. (2.200 V/Open Drain,Active-Low) AER MAX6408BS23-T Max UCSP-4 Volt. Detect. (2.320 V/Open Drain,Active-Low) AES MAX6408BS24-T Max UCSP-4 Volt. Detect. (2.400 V/Open Drain,Active-Low) AET MAX6408BS25-T Max UCSP-4 Volt. Detect. (2.500 V/Open Drain,Active-Low) AEU MAX6408BS26-T Max UCSP-4 Volt. Detect. (2.630 V/Open Drain,Active-Low) AEV MAX6408BS27-T Max UCSP-4 Volt. Detect. (2.700 V/Open Drain,Active-Low) AEW MAX6138AEXR12-T Max SC70-3 Shunt Voltage Ref. (output 1.2205 V / 0.1%) AEW MAX6408BS28-T Max SC70-3 Volt. Detect. (2.800 V/Open Drain,Active-Low) AEX MAX6138BEXR12-T Max SC70-3 Shunt Voltage Ref. (output 1.2205 V / 0.2%) AEX MAX6408BS29-T Max UCSP-4 Volt. Detect. (2.930 V/Open Drain,Active-Low) AEY MAX6138CEXR12-T Max SC70-3 Shunt Voltage Ref. (output 1.2205 V / 0.5%) AEY MAX6408BS30-T Max UCSP-4 Volt. Detect. (3.000 V/Open Drain,Active-Low) AEZ MAX6408BS31-T Max UCSP-4 Volt. Detect. (3.080 V/Open Drain,Active-Low) AF ZMV834A Zet SOD323 varicap hyperabrupt 28V 47pF@2VAF1 SMV1249-001 SOT23AF3 SMV1249-004 SOT23AF9 SMV1249-003 SOT23AFA MAX6138AEXR21-T Max SC70-3 Shunt Voltage Ref. (output 2.0480 V / 0.1%) AFA MAX6409BS33-T Max UCSP-4 Volt. Detect. (3.300 V / Push-Pull, Active-Low) AFAA MAX809RXR Max SOT23 microproc -ve reset gen 3.0VAFB MAX6138BEXR21-T Max SC70-3 Shunt Voltage Ref. (output 2.0480 V / 0.2%) AFB MAX6409BS34-T Max UCSP-4 Volt. Detect. (3.400 V / Push-Pull, Active-Low) AFC MAX6138CEXR21-T Max SC70-3 Shunt Voltage Ref. (output 2.0480 V / 0.5%) AFC MAX6409BS35-T Max UCSP-4 Volt. Detect. (3.500 V / Push-Pull, Active-Low) AFD MAX6409BS36-T Max UCSP-4 Volt. Detect. (3.600 V / Push-Pull, Active-Low) AFE MAX6138AEXR25-T Max SC70-3 Shunt Voltage Ref. (output 2.5000 V / 0.1%) AFE MAX6409BS37-T Max UCSP-4 Volt. Detect. (3.700 V / Push-Pull, Active-Low) AFF MAX6138BEXR25-T Max SC70-3 Shunt Voltage Ref. (output 2.5000 V / 0.2%) AFF MAX6409BS38-T Max UCSP-4 Volt. Detect. (3.800 V / Push-Pull, Active-Low) AFG MAX6138CEXR25-T Max SC70-3 Shunt Voltage Ref. (output 2.5000 V / 0.5%) AFG MAX6409BS39-T Max UCSP-4 Volt. Detect. (3.900 V / Push-Pull, Active-Low) AFH MAX6409BS40-T Max UCSP-4 Volt. Detect. (4.000 V / Push-Pull, Active-Low) AFI MAX6138AEXR30-T Max SC70-3 Shunt Voltage Ref. (output 3.0000 V / 0.1%) AFI MAX6409BS41-T Max UCSP-4 Volt. Detect. (4.100 V / Push-Pull, Active-Low) AFJ MAX6138BEXR30-T Max SC70-3 Shunt Voltage Ref. (output 3.0000 V / 0.2%) AFJ MAX6409BS42-T Max UCSP-4 Volt. Detect. (4.200 V / Push-Pull, Active-Low) AFK MAX6138CEXR30-T Max SC70-3 Shunt Voltage Ref. (output 3.0000 V / 0.5%) AFK MAX6409BS43-T Max UCSP-4 Volt. Detect. (4.300 V / Push-Pull, Active-Low) AFL MAX6409BS44-T Max UCSP-4 Volt. Detect. (4.380 V / Push-Pull, Active-Low) AFM MAX6138AEXR41-T Max SC70-3 Shunt Voltage Ref. (output 4.0960 V / 0.1%)AFM MAX6409BS45-T Max UCSP-4 Volt. Detect. (4.500 V / Push-Pull, Active-Low) AFN MAX6138BEXR41-T Max SC70-3 Shunt Voltage Ref. (output 4.0960 V / 0.2%) AFN MAX6409BS46-T Max UCSP-4 Volt. Detect. (4.630 V / Push-Pull, Active-Low) AFO MAX6138CEXR41-T Max SC70-3 Shunt Voltage Ref. (output 4.0960 V / 0.5%) AFQ MAX6138AEXR50-T Max SC70-3 Shunt Voltage Ref. (output 5.0000 V / 0.1%) AFR MAX6138BEXR50-T Max SC70-3 Shunt Voltage Ref. (output 5.0000 V / 0.2%) AFs BCW60FF Sie SOT23 BCY58AFS MAX6138CEXR50-T Max SC70-3 Shunt Voltage Ref. (output 5.0000 V / 0.5%) AG ZMV835A Zet SOD323 varicap hyperabrupt 28V 68pF@2VAG BCX70G Phi SOT23 BCY59-vii BC107AG BCX52-10 Sie SOT89 60V pnp BCX52 hfe 100AG1 SMV1250-001 SOT23AG3 SMV1250-004 SOT23AGAA MAX810LXR Max SOT23 microproc +ve reset gen 5.0VAGp BCX70G Phi SOT23 BCY59-vii BC107AGs BCX70G Sie SOT23 BCY59-vii BC107AGt BCX70G Phi SOT23 BCY59-vii BC107AH BCX70H Phi SOT23 BCY59-viii BC107BAH BCP53 Mot SOT223 pnp amp 80V 150mAAH BCX53 Sie SOT89 pnp 80V audio comp BCX56AH ZMV930 Zet SOD323 2.9-8.3pF hyperabrupt varicapAH1 SMV1251-001 SOT23AH3 SMV1251-004 SOT23AH9 SMV1251-003 SOT23AHAA MAX810MXR Max SOT23 microproc +-ve reset gen 5.0V AHp BCX70H Phi SOT23 BCY59-viii BC107BAHs BCX70H Sie SOT23 BCY59-viii BC107BAHt BCX70H Phi SOT23 BCY59-viii BC107BAJ BCX70J Phi SOT23 BCY59-ix BC107AJ ZMV931 Zet SOD323 4 -13.5pF hyperabrupt varicapAJ s BCX70J Sie SOT23 BCY59-ix BC107AJ1 SMV1253-001 SOT23AJ3 SMV1253-004 SOT23AJAA MAX810TXR MAX SOT23 microproc +ve reset gen 3.3V AJp BCX70J Phi SOT23 BCY59-ix BC107AJt BCX70J Phi SOT23 BCY59-ix BC107AK BCX70K Phi SOT23 BCY59-x BC107AK ZMV932 Zet SOD323 5.5-17pF hyperabrupt varicapAK BCX53-10 Sie SOT89 pnp 80V BCX53 hfe 100AK1 SMV1255-001 SOT23AK3 SMV1255-004 SOT23AK9 SMV1255-003 SOT23AKAA MAX810SXR MAX SOT23 microproc +ve reset gen 3.3V AKp BCX70K Phi SOT23 BCY59-x BC107AKp BCX70K Phi SOT23 BCY59-x BC107AKs BCX70K Sie SOT23 BCY59-x BC107AL BCX53-16 Sie SOT89 80V pnp BCX53 hfe 100AL MMBTA55L Mot SOT23 pnp 25V (MPSA55)AL ZMV933 Zet SOD323 12-42pF hyperabrupt varicap ALAA MAX810SXR MAX SOT23 microproc +ve reset gen 3.0V ALs BFP405 Sie SOT343 -AM MMBT3904W Mot SOT323 2N3904AM BCX52-16 Sie SOT89 pnp 60V BCX52 hfe 160AM BSS64 Mot SOT23 npn 80V 0.1A fT 60MHzAM ZMV933A Zet SOD323 12-42pF hyperabrupt varicapAM1 SMV1422-001 SOT23AMp BSS64 Phi SOT23 npn 80V 0.1A fT 60MHzAMs BFP420 Sie SOT343 npn fT 25GHz 4.5V 35mAAMs BSS64 Sie SOT23 npn 80V 0.1A fT 60MHzAMt BSS64 Phi SOT23 npn 80V 0.1A fT 60MHzAN BCW60FN Sie SOT23 gp npn 35V 0.2AAN ZMV934 Zet SOD323 25-95pF hyperabrupt varicapAN1 SMV1203-91 SOT23ANs BFP450 Sie SOT343 npn fT 25GHz 4.5V 100mAAO BCW60AR ITT SOT23R BCY58-viiAO ZMV934A Zet SOD323 25-95pF hyperabrupt varicapAP BCW60BR ITT SOT23R BCY58-viiiAP1 A21096V434 SOT23APs BFP520 Sie SOT343 npn fT 40GHz 2.5V 40mAA-Q 2PD1820AQ Phi SOT323 gp sw amp 50V npn hfe 85-170 A-Q 2PD1820AR Phi SOT323 gp sw amp 50V npn hfe 120-240 AQ1 SMV1236-001 SOT23AQ3 SMV1236-004 SOT23AQ9 SMV1236-003 SOT23AR BCW60CR ITT SOT23R BCY58-ixAR MSD709R Mot - pnp gp 25VAR1 SMV1413-001 SOT23AR1 BSR40 Phi SOT89 npn 70V 1A 1.35W hfe 40-120AR2 BSR41 Phi SOT89 npn 70V 1A 1.35W hfe 100-300AR3 SMV1413-004 SOT23AR3 BSR42 Phi SOT89 npn 90V 1A 1.35W hfe 40-120AR4 BSR43 Phi SOT89 npn 90V 1A 1.35W hfe 100-300AS BCW60DR ITT SOT23R BCY58-xAS MSD709S Mot - pnp gp 25VA-S 2PD1820AS Phi SOT323 gp sw amp 50V npn hfe 170-340 AS1 SMV1414-001 SOT23AS1 BST50 Mot SOT89 npn darlington 0.5A 60VAS2 BST51 Mot SOT89 npn darlington 0.5A 80VAS3 SMV1414-004 SOT23AS3 BST52 Mot SOT89 npn darlington 0.5A 90VAS3 BSP52 Mot SOT223 npn darlington 0.5A hfe 2000ASs BAT18-05 Sie SOT23 dual BAT18 RF pinAT1 SMV1415-001 SOT23AT3 SMV1415-004 SOT23AtQ 2PD1820AQ Phi SOT323 gp sw amp 50V npn hfe 85-170 AtQ 2PD1820AR Phi SOT323 gp sw amp 50V npn hfe 120-240 AtS 2PD1820AS Phi SOT323 gp sw amp 50V npn hfe 170-340 ATs BAT18-06 Sie SOT23 dual ca BAT18 RF pinATs BFP540 Sie SOT343 npn microwaveAU BCW60GR ITT SOT23R BCY58AU1 SMV1416-001 SOT23AU3 SMV1416-004 SOT23AUs BAT18-04 Sie SOT23 dual BAT18 RF pin AV DAN212K Roh - 80V 100mA swAV1 SMV1417-001 SOT23AV3 SMV1417-004 SOT23AW BCW60HR ITT SOT23R BCY58AW1 SMV1411-04 SOT23AX BCX70JR ITT SOT23R BCY59-ixAX1 SMV1404-001 SOT23AY BCX70KR ITT SOT23R BCY59-xAY MMBD1000 Mot SOT23 Si sw diode 30V 0.2A AY1 SMV1146-001 SOT23AZ1 SMV1410-001 SOT23AZ3 SMV1410-004 SOT23B MRF957 Mot SOT323 npn RF fT 9GHzB BAS16-03W Sie SOD323 Varicap 18pF 1VB BB555 Sie SCD80 Varicap 18pF 1VB0 BZX399C4V3 Phi SOD323 4.3V 0.3W zener B0 HSMS-2810 HP SOT23 HP2810 schottkyB0 HSMS-281B HP SOT323 HP2810 schottkyB08 SST6908 Sil - 2N6908 prot n-ch jfetB09 SST6909 Sil - 2N6909 prot n-ch jfetB1 BZX399C1V8 Phi SOD323 1.8V 0.3W zenerB1 HSMS-2811 HP SOT23 HP2811 schottkyB1 BAS40 Mot SOT23 schottky sw diodeB10 SST6910 Sil - 2N6910 prot n-ch jfetB2 BZX399C2V0 Phi SOD323 2.0V 0.3W zenerB2 BSV52 Phi SOT23 BSX20 12V fT 400MHz swB2 HSMS-2812 HP SOT23 dual HP2810 schottkyB2 HSMS-281C HP SOT323 dual HP2810 schottky B26 BF570 Phi SOT23 -B2p BSV52 Phi SOT23 BSX20 12V fT 400MHz sw B2t BSV52 Phi SOT23 BSX20 12V fT 400MHz swB3 BZX399C2V2 Phi SOD323 2.2V 0.3W zenerB3 HSMS-2813 HP SOT23 dual ca HP2810 schottky B3 MMBD717L Mot SOT323 dual ca schottkyB4 BZX399C2V4 Phi SOD323 2.4V 0.3W zenerB4 BSV52R Phi SOT23R BSX20B4 HSMS-2814 HP SOT23 dual cc HP2810 schottkyB5 BZX399C2V7 Phi SOD323 2.7V 0.3W zenerB5 HSMS-2815 HP SOT143 dual HP2810 schottky B6 BZX399C3V0 Phi SOD323 3.0V 0.3W zenerB6 BAT54A Mot SOT23 dual ca 30V schottkyB7 BZX399C3V3 Phi SOD323 3.3V 0.3W zenerB7 HSMS-2817 HP SOT143 HP2810 ring quadB8 BZX399C3V6 Phi SOD323 3.6V 0.3W zenerB8 HSMS-2818 HP SOT143 HP2810 bridge quad B9 BZX399C3V9 Phi SOD323 3.9V 0.3W zenerB9 2SC4617 Mot SC90 npn gpBA BCX54 Sie SOT89 npn AF 45V comp BCX51 BA BCW61A Phi SOT23 BCY78-viiBA DAN217 Roh - 80V 100mA dualBA BZX399C4V7 Phi SOD323 4.7V 0.3W zener BA1 SMV1411-14 SOT23BAp BCW61A Phi SOT23 BCY78-viiBAt BCW61A Phi SOT23 BCY78-viiBB BCW61B Phi SOT23 BCY78-viiiBB BAR81 Sie SOT143 Dual pin shunt switchBB BZX399C5V1 Phi SOD323 5.1V 0.3W zenerBB1 SMV1200-195 SOT23BBp BCW61B Phi SOT23 BCY78-viiiBBs BCW61B Sie SOT23 BCY78-viiiBBs BAR81W Sie SOT343 Dual pin shunt switchBBt BCW61B Phi SOT23 BCY78-viiiBC BCW61C Phi SOT23 BCY78-ixBC BCX54-10 Sie Phi SOT89 npn hfe100BC BZX399C5V6 Phi SOD323 5.6V 0.3W zenerBC3 SMV1201-199 SOT23BCp BCW61C Phi SOT23 BCY78-ixBCs BCW61C Sie SOT23 BCY78-ixBCt BCW61C Phi SOT23 BCY78-ixBD BCW61D Phi SOT23 BCY78-xBD BCX54-16 Sie SOT89 npn hfe160 comp BCX51-16 BD BZX399C6V2 Phi SOD323 6.2V 0.3W zenerBD ZHCS400 Zet SOT23 40V 0.4A schottky diode BD3 SMV1213-004 SOT23BDp BCW61D Phi SOT23 BCY78-xBDs BCW61D Sie SOT23 BCY78-xBDt BCW61D Phi SOT23 BCY78-xBE BAS70 Mot SOT23 schottky sw diodeBE BCX55 Sie SOT89 npn AF 60V comp BCX52 BE BZX399C6V8 Phi SOD323 6.8V 0.3W zener BE1 SMV1405-001 SOT23BE3 SMV1405-004 SOT23BF BCW61FF Sie SOT23 low noise BCW61BF BZX399C7V5 Phi SOD323 7.5V 0.3W zener BF1 SMV1247-001 SOT23BF3 SMV1247-004 SOT23BF9 SMV1247-003 SOT23BG BCX71G Phi SOT23 BCY79-viiBG BCX55-10 Sie Phi SOT89 npn hfe 100BG BZX399C8V2 Phi SOD323 8.2V 0.3W zener BG1 SMV1248-001 SOT23BG3 SMV1248-004 SOT23BG9 SMV1248-003 SOT23BGp BCX71G Phi SOT23 BCY79-viiBGs BCX71G Sie SOT23 BCY79-viiBGt BCX71G Phi SOT23 BCY79-viiBH BCX71H Phi SOT23 BCY79-viiiBH BCP56 Mot SOT223 npn amp 80V 150mA BH BCX56 Sie SOT89 npn AF 80VBH BZX399C9V1 Phi SOD323 9.1V 0.3W zener i BH1 SMV1411-09 SOT23BHp BCX71H Phi SOT23 BCY79-viiiBHs BCX71H Sie SOT23 BCY79-viiiBHt BCX71H Phi SOT23 BCY79-viiiBJ BCX71J Phi SOT23 BCY79-ixBJ BZX399C10 Phi SOD323 10V 0.3W zener BJB SMV1205-67 SOT23BJp BCX71J Phi SOT23 BCY79-ixBJs BCX71J Sie SOT23 BCY79-ixBJt BCX71J Phi SOT23 BCY79-ixBK BCP56-10 Mot SOT223 npn amp 80V 150mA BK BCX71K Phi SOT23 BCY79BK BCX56-10 Sie SOT89 npn hfe 100BK BZX399C11 Phi SOD323 11V 0.3W zener BK1 SMV1411-02 SOT23BKp BCX71K Phi SOT23 BCY79BKs BCX71K Sie SOT23 BCY79BKt BCX71K Phi SOT23 BCY79BL MBD54DW Mot SOT363 2x schottky detector diodes BL BCP56-16 Mot SOT223 npn amp 80V 150mABL BCX56-16 Sie SOT89 npn hfe 160BL BZX399C12 Phi SOD323 12V 0.3W zenerBL BGA310 Sie SOT143 MMIC amp 9dB @1GHzBL1 SMV1426-001 SOT23BLs BGA420 Sie SOT343 MMIC amp 13 dB @1.8GHz BM BSS63L Mot SOT23 100v pnp comp BSS64BM BCX55-16 Sie SOT89 npn hfe 160BM BGA312 Sie SOT143 MMIC amp 11dB @1GHzBM BZX399C13 Phi SOD323 13V 0.3W zenerBM3 SMV1204-165 SOT23BMp BSS63 Phi SOT23 100v pnp comp BSS64BMs BG427 Sie SOT343 MMIC amp 18 dB @1.8GHz BMt BSS63 Phi SOT23 100v pnp comp BSS64BN BZX399C15 Phi SOD323 15V 0.3W zenerBN BGA318 Sie SOT143 MMIC amp 16dB @1GHzBN1 SMV1204-90 SOT23BNs BCW61FN Sie SOT23 low noise BCW61BO BCW61AR Phi SOT23 BCX78, BCY78-viiBP BCW61BR Phi SOT23 BCY78-viiiBP BZX399C16 Phi SOD323 16V 0.3W zenerBPB SMV1175-007 SOT23BQ BZX399C18 Phi SOD323 18V 0.3W zener in SOD323 BQ 2PB709AQ Phi SC-59 PNP 45V 0.1A hfe 160-260 BQ3 SMV1200-198 SOT23BR BCW61CR Phi SOT23 BCY78-ixBR 2SC2412K Roh - npn 50V 150mA min hfe 180BR 2SC4081 Roh UMT 2SC2412K aboveBR 2SC4617 Roh EM3 2SC2412K aboveBR MSB1218A Mot SOT323 gp pnp 45VBR BZX399C20 Phi SOD323 20V 0.3W zenerBR 2PB709AR Phi SC-59 pnp45V 0.1A hfe 210-340BR1 BSR30 Phi SOT89 pnp 70V 1A 1.35W hfe 40-120 BR2 BSR31 Phi SOT89 pnp 70V 1A 1.35W hfe 100-300 BR3 SMV1407-004 SOT23BR4 BSR33 Phi SOT89 pnp 90V 1A 1.35W hfe 100-300 BS BCW61DR Phi SOT23 BCY78-xBS BZX399C22 Phi SOD323 22V 0.3W zenerBS 2PB709AS Phi SC-59 pnp 45V 0.1A hfe 290-460 BS1 SMV1140-001 SOT23BS1 BST60 Mot SOT89 pnp darlington 0.5A 60VBS2 BST61 Mot SOT89 pnp darlington 0.5A 80VBS3 BST62 Mot SOT89 pnp darlington 0.5A 90VBS3 BSP62 Mot SOT89 pnp darlington 0.5A hfe 2000 BT BZX399C24 Phi SOD323 24V 0.3W zenerBT1 A21117V434 SOT23BT2 BSP16 Mot SOT223 pnp –300V 1ABT2 BST16 Phi SOT89 pnp –300V 1ABU BCX71GR Phi SOT23 BCX79-viiBU BZX399C27 Phi SOD323 27V 0.3W zenerBU1 SMV1142-001 SOT23BV BZX399C30 Phi SOD323 30V 0.3W zenerBV1 SMV1143-001 SOT23BW BCW71HR Phi SOT23R BCX79-viiiBW BZX399C33 Phi SOD323 33V 0.3W zenerBW1 SMV1144-001 SOT23BX BCW71JR Phi SOT23R BCX79-ixBX BZX399C36 Phi SOD323 36V 0.3W zenerBX1 SMV1145-001 SOT23BY BCW71KR Phi SOT23R BCX79-xBY BZX399C39 Phi SOD323 39V 0.3W zenerBY1 SMV1147-001 SOT23BZ BZX399C43 Phi SOD323 43V 0.3W zenerBZ1 SMV1148-001 SOT23D BB659 Sie SCD80 2-38p varicapD BAS21-03W Sie SOD323 -D 1SS376 Roh USM 300V 50mA swD MRF577 Mot SOT323 npn RF fT 7GHzD0 HSMP-3800 HP SOT23 HP3800 pin atten diode D1 BCW31 Phi SOT23 BC108AD1 HSMP-3801 HP - HP3800 pin atten diodeD1 SST211 Tem - n-ch mosfet 30V 1nSD11 SST211 Sil - n-ch mosfet swD11 SST215 Sil - n-ch mosfet swD13 SST213 Sil - n-ch mosfet swD1p BCW31 Phi SOT23 BC108AD1t BCW31 Phi SOT23 BC108AD2 BCW32 Phi SOT23 BC108B。