LM13700MNOPB,LM13700NNOPB,LM13700MXNOPB, 规格书,Datasheet 资料
常用三极管参数大全
玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理。
160种开关电源集成电路代换表
160种开关电源集成电路代换表本表收集整理了彩电LG、SVA、TCL、长虹、春兰、创维、东芝、飞利浦、福日、高路华、海尔、海信、金星、康佳、康力、乐华、日立、三星、三洋、松下、索尼、夏普、厦华、熊猫等二十四个机种的160种开关电源集成电路的代换资料,含盖了2000多种机型的开关电源的集成电路。
本表所列开关电源集成电路以26个英文字母顺序为序,便于速查。
型号代换型号56A245-2STR440,STR441,STR44656A246IX0256CE,IX0512CE,IX0465CE,IX0654CE,STR40090,STR41090,HKD41090BU4020B HA17555PS,HA17555,HA17555GS,HD14020BHA17555HA17555PS,BU4020B,HA17555GS,HD14020BHA17555GS HA17555,HA17555PS,BU4020B,HD14020BHA17555PS BU4020B,HA17555,HA17555GS,HD14020BHD14020B HA17555,HA17555PS,HA17555GS,BU4020BHG5312STR5314,STR5395,STR5412,STR5418,HG5313,HKD5412,KWY5412HG5412STR5312,STR454,STR5313,STR5314,STR5395,STR5418HG5313STR5314,STR5395,STR5412,STR5418,HG5312,HD5412,KWY5412HKD0689STK7358,IX9689CE,IX0689CKHKD40115STR40115,STR4412,STR50103,STR50103A,STR50115BHKD41090IX0256CE,IX0512CE,IX0465CE,IX0654CEHKD4211STR4211,STR4211H,STR4060,STR4090,STR4090SHKD54041STR54041,STR58041,STR59041,KWY54041HKD6020STR6020,STR6020SHKD9502STR450A,STR451,STR452,STR454,STR455,STR456,STR514,IX0205CE HM7941HRL7101,HM7103,HRL7103HM8801G KM8901A,KM8901,KM8916,KM8951B,KM8951,KC8801GHM9101HM9102,HRL9102,HRL201HM9102HM9101,HRL9102,HRL201HM7103HRL7101,HRL7103,HM7941HM9201HM9203,HM9204,HM9205,HM9206,HM9207HM9203HM9201,HM9205,HM9206,HM9207HM9204HM9203,HM9205,HM9206,HM9207HM9205HM9201,HM9203,HM9204,HM9206,HM9207HRL201HM7941,HRL7101HRL7103HRL7101,HM7103,HM7941HRL9102HM9101,HM9102,HRL201HSY114JU0003,JU0008,JU0086,JU0111,JU0114,JU0116,JU0130HRL7101HM7103,HRL7103,HM7941IX0247CE STR4090,IX0323CEIX0205CE STR4501A,STR451,STR452,STR454,STR453,STR456,STR514,HKD9502 IX0256CE IX0512CE,IX0465CE,IX0645CE,STR41090,STR40090IX0308IX0308C,IX0308CE,IX0308CEZZ,STK7308,STK7309IX0308C IX0308,IX0308CE,IX0308CEZZ,STK7308,STK7309IX0308CE IX0308,IXO308C,IX0308CEZZ,STK7308,STK7309IX0308CEZZ IX0308,IX0308C,STK7308,STK7309IX0323CE STR4090,IX0247CEIX0387CE STR7308IX0465CE IX0512CE,IX0645CE,STR41090,STR40090,56A246,HKD41090IX0467CE STK4060,STK4090,STK4090S,STR4060,STR4090,STR4090SIX0512CE IX0256CE,IX0465CE,IX0645CE,STR41090,STR40090IX0645CE IX0256CE,IX0512CE,IX0465CE,STR41010,STR40090,56A246,HKD41090 IX0689CE STR7358,IX0689CEZZ,STK73508,STK7359IX0689CEZZ STK7358,IX0689CE,STK73508,STK7359IX0689CK STK7358,HKD0689,IX0689CEJU0003JU0008,JU0086,JU0111,JU0114,JU0116,JU0130,HSY114JU0008JU0003,JU0086,JU0111,JU0114,JU0116,JU0130,HSY114 JU0086JU0003,JU0008,JU0111,JU0114,JU0116,JU0130,HSY114 JU0111JU0003,JU0008,JU0086,JU0114,JU0116,JU0130,HSY114 JU0114JU0003,JU0008,JU0086,JU0111,JU0116,JU0130,HSY114 JU0116JU0003,JU0008,JU0086,JU0111,JU0114,JU0130,HSY114 JU0130JU0003,JU0008,JU0086,JU0111,JU0114,JU0116,HSY114 KG8801G KM8801G,KM8901A,KM8901,KM8910,KM8951BKM8901KM8801G,KM8901A,KM8916,KM8951B,KM8951,KG8801GKM8901A KM8801G,KM8901,KM8916,KM8951B,KM8951,KG8801GKM8916KM8801G,KM8901A,KM8901,KM8951B,KM8951,KG8801GKM8951KM8801G,KM8901A,KM8901,KM8916,KM8951B,KG8801GKM8951B KM8801G,KM8901A,KM8901,KM8916,KM8951,KG8801GKWY54041STR54041,STR59041,STR58041,HKD54041KWY5412STR5314,STR5395,STR5412,STR5418,HG5312,HG5313,HKD5412 LA5110LA5112LA5112LA5112H,LA5112NLA5112H LA5112,LA5112NLA5112N LA5112,LA5112HMC33066MC34067MC34067MC33066MC3520UC3520MC44603MC44603A,MC44603PMC44603A MC44603,MC44603PSTK4060IX4067CE,STK4090,STK4090S,STR4060,STR4090,STR4090S STK4090IX0467CE,STK4060,STK4090S,STR4060,STR4090,STR4090SSTK5325STK5326STK5326STK5325STK5338STK5340STK5372STK5372H,STK5471STK5372H STK5372,STK5471STK5391STK5392STK5471STK5372,STK5372HSTK73010STK7308,IX0308CE,STK7309,STK7310 STK7308IX0308CE,STK7309,STK73010,STK7310 STK7309STK7308,IX0308CE,STK73010,STK7310 STK7310STK7308,IX0308CE,STK7309,STK73010STK73508STK7358,IX0689CE,IX0689CEZZ,STK7359STK7358IX0689CE,IX0689CEZZ,STK73508,STK7359STK4090S IX0467CE,STK4060,STK4090,STR4060,STR4090,STR4090SSTR40115B STR-D4412,STR4015,STR4412,STR50103A,STR50115B,STR50213,STR50213M,STR51213, STR-D4512STR40090IX0256CE,IX0512CE,IX0465CE,IX0654CE,STR41090,56A246,HKD41090STR4060IX0467CE,STK4060,STK4090,STK4090S,STR4090,STR4090SSTR4090IX0467CE,STK4060,STK4090,STK4090S,STR4060,STR4090SSTR4090S IX0467CE,STK4060,STK4090,STR4060,STR4090,STK4090SSTR41090IX0256CE,IX0512CE,IX0465CE,IX0645CE,STR40090,56A246,HKD41090STR44056A245-2,STR441,STR442,STR446STR40115STR-D4412,STR40115B,STR4412,STR-50103A,STR50115B,STR50213,STR50213M,STR51213, STR-D4512&nb,sp;STR4211STR4211H,STR4060,STR4090,STR4090S,HKD4211STR4211H STR4211,STR4060,STR4090,STR4090S,HKD4211STR441STR440,STR442,STR446,56A245-2STR4412STR-D4412,STR40115,STR40115B,STR50103A,STR50115B,STR50213,STR50213M,STR51213, STR-D4512STR442STR440,STR441,STR446,55A245-2STR446STR440,STR441,STR440,56A245-2STR450A STR451,STR452,STR454,STR455,STR456,STR514,HKD9502,IX0205CESTR451STR450A,STR452,STR455,STR456,STR514,HKD9502,IX0205CESTR452STR450A,STR451,STR454,STR455,STR456,STR514,HKD9502,IX0205CESTR454STR5312,HG5412,STR5313,STR5314,STR5395,STR5418STR455STR450A,STR451,STR452,STR455,STR456,STR514,HKD9502,IX0205CESTR456STR450A,STR451,STR452,STR455,STR514,HKD9502,IX0205CESTR50103STR40115,STR4412,STR50103A,STR50115B,HKD40115STR50103A STR40115,STR4412,STR50103,STR50115B,HKD40115STR50115B STR40115,STR4412,STR50103,STR50103A,HKD40115STR50213STR-D4412,STR40115,STR40115B,STR4412,STR50103A,STR50115B,STR50213M,STR51213, STR-D4512STR50213M STR-D4412,STR40115,STR40115B,STR4412,STR50103A,STR50115B,STR50213,STR40115B, STR4412STR514STR450A,STR451,STR452,STR455,STR456STR5312HG5412,STR454,STR5313,STR5314,STR5395,STR5418STR5313STR45312,HG5412,STR454,STR5314,STR5395,STR5418STR5314STR5395,STR5412,STR5418,HG5312,HG5313,HKD5412,KWY5412STR5395STR5314,STR5412,STR5418,HG5312,HG5313,HKD5412,HWY5412STR54041STR58041,STR59041,HWY54041,HKD54041STR5412STR5314,STR5395,STR5418,HG5312,HG5313,HKD5412,HWY5412STR5418STR5314,STR5395,STR5412,HG5312,HG5313,HKD5412,HWY5412STR-S6709STR-S6707,STR-S6708,STR-S6708ASTR51213STR50213,STR50213M,STR51213MSTR51213M STR50213,STR50213M,STR51213STR58041STR54041,STR59041,KWY54041,HKD54041 STR6020STR6020S,HKD6020STR6020S STR6020,HKD6020STR6308STR-S6308STR-6658STR-6658B,STR-F6654LF53,STR-6658B STR-6658B STR-F6656,STR-F6654LF53,STR6658STR81145A STR81145C,STR83145LF55STR8145C STR81145A,STR83145LF55STR83145LF STR81145A,STR81145CSTR-D1706STR-D1806,STR-D1706S,STR-D1806FA STR-D1706S STR-D1806,STR-D1706,STR-D1806FASTR-D1806STR-D1706,STR-D1706S,STR-D1806FASTR-D1806FA STR-D1806,STE-D1706,STR-D1706SSTR-D4412STR40115,STR40115B,STR4412,STR50103A,STR50115B,STR50213,STR50213M,STR51213, STR-D4512STR-D6008X STR-D6009E,STR-D6009DSTR-D6009D STR-D6008X,STR-D6009ESTR-D6009E STR-D6008X,STR-D6009DSTR-D6601STR-D6601MSTR-D6601M STR-D6601STR-F6626STR-F6653STR-F6653STR-F6626STR-F6654LF53STR-F6656,STR-6658,STR-6658BSTR-F6656STR-F6654LF53,STR-6658,STR-6658BSTR-G5653STR-G8658STR-G8658STR-G5653STR-S5471STR-S5941STR-S5941STR-S5471STR-S6707STR-S6708,STR-S6708A,STR-S6709 STR-S6708STR-D6709,STR-S6709AN,STR-S6709A STR-S6708A STR-S6707,STR-S6708,STR-S6709 STR-S6709STR-S6708,STR-S6709AN,STR-S6709A STR-S6709A STR-S6709,STR-S6708,STR-S6709AN STR-S6709AN STR-S6708,STR-S6709,STR-S6709A。
ProductTypeList-optiMOS(20-250V)
N-Channel MOSFETs: OptiMOS™ (20V…250V) Product TypeProduct TypeBSN045NE2LSBSN011NE2LSBSN011NE2LSIBSN012N03LSBSN012N03LSIBSN048N03LSBSB012NE2LXBSB014N04LX3 GBSB015N04NX3 GBSB017N03LX3 GBSB012N03LX3 GBSB028N06NN3 GBSB044N08NN3 GBSB056N10NN3 GBSB013NE2LXIBSB008NE2LXBSB280N15NZ3 G BSB165N15NZ3 G BSB012NE2LXI BSF024N03LT3 G BSF050N03LQ3 G BSF030NE2LQ BSF134N10NJ3 G BSF110N06NT3 G BSF450NE7NH3 G BSF035NE2LQ IPB015N04L G IPB027N10N3 G IPB035N08N3 G IPB015N04N G IPB019N06L3 G IPB083N10N3 G IPB042N10N3 G IPB054N06N3 GIPB037N06N3 G IPB097N08N3 G IPB055N03L G IPB054N08N3 G IPB042N03L G IPB022N04L G IPB065N03L G IPB072N15N3 G IPB025N08N3 G IPB080N03L G IPB081N06L3 G IPB147N03L G IPB096N03L G IPB136N08N3 GIPB090N06N3 G IPB029N06N3 G IPB049NE7N3 G IPB031NE7N3 G IPB020NE7N3 G IPB123N10N3 G IPB038N12N3 G IPB144N12N3 G IPB320N20N3 G IPB107N20N3 G IPB200N25N3 G IPB600N25N3 G BUZ32 H3045A BUZ31 H3045A IPB108N15N3 G BUZ30A H3045AIPB107N20NA IPB057N06N IPB026N06N IPB230N06L3 G IPB067N08N3 G IPB034N03L G IPB009N03L G IPB011N04L G IPB011N04N G IPB016N06L3 G IPB017N06N3 G IPB019N08N3 G IPB020N04N G IPB025N10N3 G IPB030N08N3 GIPB036N12N3 G IPB065N15N3 G IPB010N06NIPB014N06NSPD07N20 GIPD031N06L3 G IPD034N06N3 G IPD035N06L3 G IPD036N04L GIPD038N06N3 G IPD048N06L3 G IPD053N08N3 G SPD50N03S2L-06 G SPD30N03S2L-07 G IPD068N10N3 G SPD50N03S2-07 GIPD082N10N3 G IPD088N06N3 G IPD096N08N3 G SPD30N03S2L-10 G IPD127N06L GIPD135N08N3 G IPD160N04L GIPD170N04N GIPD200N15N3 G SPD30N03S2L-20 G IPD220N06L3 G IPD25CN10N GIPD250N06N3 G IPD33CN10N GIPD350N06L GIPD640N06L G IPD78CN10N G IPD800N06N G IPD122N10N3 G IPD180N10N3 G IPD110N12N3 G IPD031N03L G IPD040N03L G IPD050N03L G IPD060N03L G IPD075N03L G IPD090N03L G IPD320N20N3 G IPD600N25N3 G IPD530N15N3 G IPD105N03L G IPD135N03L GIPD025N06N IPD053N06N IPI023NE7N3 G IPI034NE7N3 G IPI052NE7N3 G IPI126N10N3 G IPI180N10N3 G IPI041N12N3 G IPI076N12N3 G IPI147N12N3 G IPI045N10N3 G IPI086N10N3 G IPI030N10N3 G IPI04CN10N G IPI072N10N3 G IPI26CN10N G IPI35CN10N GIPI075N15N3 G IPI200N15N3 G IPI024N06N3 G IPI032N06N3 G IPI040N06N3 G IPI037N08N3 G IPI320N20N3 G IPI110N20N3 G IPI200N25N3 G IPI600N25N3 G IPI111N15N3 G IPI530N15N3 G IPI020N06NIPI029N06N BUZ31 H3046 IPI084N06L3 GIPU135N08N3 G IPS110N12N3 G IPS060N03L G IPS075N03L G IPS031N03L G IPS040N03L G IPS090N03L G IPS105N03L G IPS135N03L G IPS050N03L G BSZ0908ND BSZ0907ND BSC0921NDI BSC0923NDI BSC0924NDI BSC0925ND BSC0910NDI BSC0911NDBSZ035N03LS G BSZ035N03MS G BSZ040N04LS G BSZ042N04NS G BSZ050N03LS G BSZ050N03MS G BSZ058N03LS G BSZ058N03MS G BSZ067N06LS3 G BSZ076N06NS3 G BSZ088N03MS G BSZ088N03LS G BSZ097N04LS G BSZ100N06LS3 G BSZ100N03MS GBSZ105N04NS G BSZ110N06NS3 G BSZ123N08NS3 G BSZ130N03MS G BSZ130N03LS G BSZ165N04NS G BSZ340N08NS3 G BSZ440N10NS3 G BSZ160N10NS3 G BSZ900N15NS3 G BSZ520N15NS3 G BSZ0909NSBSZ240N12NS3 G BSZ12DN20NS3 G BSZ16DN25NS3 GBSZ42DN25NS3 G BSZ900N20NS3 G BSZ060NE2LS BSZ065N03LS BSZ036NE2LS BSZ018NE2LS BSZ0901NSBSZ0901NSIBSZ0902NSBSZ0904NSIBSZ0902NSIBSZ018NE2LSI BSZ042N06NS BSZ023N04LS BSZ150N10LS3 G BSO615N GBSO033N03MS GBSO083N03MS G BSO110N03MS G BSO330N02K G BSO150N03MD G BSO220N03MD G BSC010NE2LS BSC050NE2LS BSC046N02KS G BSC019N02KS G BSC014N03LS G BSC016N03LS G BSC014N03MS G BSC016N04LS G BSC016N03MS G BSC017N04NS G BSC018N04LS GBSC020N03MS G BSC020N03LS G BSC025N03MS G BSC027N04LS G BSC025N03LS G BSC028N06LS3 G BSC030N03MS G BSC030N04NS G BSC030N03LS G BSC031N06NS3 G BSC034N03LS G BSC035N04LS G BSC042N03MS G BSC042N03LS GBSC050N03MS G BSC050N04LS G BSC050N03LS G BSC054N04NS G BSC057N03MS G BSC057N03LS G BSC057N08NS3 G BSC059N04LS G BSC060N10NS3 G BSC067N06LS3 G BSC076N06NS3 G BSC079N10NS GBSC080N03LS G BSC082N10LS G BSC090N03MS G BSC090N03LS G BSC093N04LS G BSC100N03MS G BSC100N10NSF G BSC100N06LS3 G BSC105N10LSF G BSC110N06NS3 G BSC118N10NS G BSC120N03MS G BSC120N03LS GBSC123N10LS G BSC152N10NSF G BSC190N15NS3 G BSC159N10LSF G BSC196N10NS G BSC205N10LS G BSC252N10NSF G BSC265N10LSF G BSC340N08NS3 G BSC042NE7NS3 G BSC160N10NS3 G BSC440N10NS3 G BSC077N12NS3 G BSC190N12NS3 G BSC520N15NS3 GBSC600N25NS3 G BSC026N02KS G BSC070N10NS3 G BSC109N10NS3 G BSC0909NSBSC360N15NS3 G BSC0908NSBSC240N12NS3 G BSC900N20NS3 G BSC12DN20NS3 G BSC16DN25NS3 G BSC22DN20NS3 G BSC018NE2LS BSC024NE2LS BSC011N03LS BSC052N03LSBSC0902NSBSC032NE2LS BSC0901NSIBSC0904NSIBSC010NE2LSI BSC0902NSIBSC014NE2LSI BSC018NE2LSI BSC011N03LSI BSC0906NSBSC009NE2LS BSC036NE7NS3 G BSC046N10NS3 G BSC028N06NS BSC010N04LSI BSC014N04LS BSC014N04LSIBSC039N06NS BSC014N06NS BSC010N04LS BSC500N20NS3 G BSC022N04LS BSC072N03LD G BSC150N03LD G BSC750N10ND G IPP023NE7N3 G IPP034NE7N3 G IPP052NE7N3 G BUZ31L HBUZ73 HBUZ73A HBUZ73AL HBUZ73L HIPP180N10N3 G IPP041N12N3 G IPP048N12N3 G IPP076N12N3 G IPP114N12N3 G IPP147N12N3 G IPP030N10N3 G IPP045N10N3 G IPP04CN10N G IPP05CN10N G IPP072N10N3 G IPP086N10N3 G IPP12CN10L G IPP16CN10N G IPP075N15N3 G IPP200N15N3 G IPP034N03L GIPP055N03L G IPP065N03L G IPP080N03L G IPP096N03L G IPP114N03L G IPP015N04N G IPP023N04N G IPP039N04L G 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/dgdl/IPD025N06N_Rev2.3.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a304336415dec0136531648062c76/dgdl/IPD053N06N_Rev2.2.pdf?foDPAK (TO-252)in production lderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a30433727a44301372c22c4c3499fI2PAK (TO-262)in production /dgdl/IPP_I023NE7N3_Rev2+11.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a304320d39d5901210a9da8c22702I2PAK (TO-262)in production /dgdl/IPP_I034NE7N3_Rev2+01.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a304320d39d5901210ab6d74b2720I2PAK (TO-262)in production /dgdl/IPP_I052NE7N3_Rev2+01.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a304320d39d5901210ac80a8c273d/dgdl/IPP126N10N3+G_Rev2.3.pdI2PAK (TO-262)in productionf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a30432239cccd012260508e027f74I2PAK (TO-262)in production /dgdl/IPP180N10N3+G+Rev2.2.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a30432239cccd01226066faa07f9dI2PAK (TO-262)in production 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Proteus所有元件名称
元件名称中文名说明RESPACK-8 排阻7407 驱动门1N914 二极管74Ls00 与非门74LS04 非门74LS08 与门74LS390 TTL 双十进制计数器7SEG 4针BCD-LED 输出从0-9 对应于4根线的BCD码7SEG 3-8译码器电路BCD-7SEG[size=+0]转换电路ALTERNATOR 交流发电机AMMETER-MILLI mA安培计AND 与门BATTERY 电池/电池组BUS 总线CAP 电容CAPACITOR 电容器CLOCK 时钟信号源CRYSTAL 晶振D-FLIPFLOP D触发器FUSE 保险丝GROUND 地LAMP 灯LED-RED 红色发光二极管LM016L 2行16列液晶可显示2行16列英文字符,有8位数据总线D0-D7,RS,R/W,EN三个控制端口(共14线),工作电压为5V。
没背光,和常用的1602B功能和引脚一样(除了调背光的二个线脚)LOGIC ANALYSER 逻辑分析器LOGICPROBE 逻辑探针LOGICPROBE[BIG] 逻辑探针用来显示连接位置的逻辑状态LOGICSTATE 逻辑状态用鼠标点击,可改变该方框连接位置的逻辑状态LOGICTOGGLE 逻辑触发MASTERSWITCH 按钮手动闭合,立即自动打开MOTOR 马达OR 或门POT-LIN 三引线可变电阻器POWER 电源RES 电阻RESISTOR 电阻器SWITCH 按钮手动按一下一个状态SWITCH-SPDT 二选通一按钮VOLTMETER 伏特计VOLTMETER-MILLI mV伏特计VTERM 串行口终端Electromechanical 电机Inductors 变压器Laplace Primitives 拉普拉斯变换Memory IcsMicroprocessor IcsMiscellaneous 各种器件AERIAL-天线;ATAHDD;ATMEGA64;BATTERY;CELL;CRYSTAL-晶振;FUSE;METER-仪表;Modelling Primitives 各种仿真器件是典型的基本元器模拟,不表示具体型号,只用于仿真,没有PCBOptoelectronics 各种发光器件发光二极管,LED,液晶等等PLDs & FPGAsResistors 各种电阻Simulator Primitives 常用的器件Speakers & SoundersSwitches & Relays 开关,继电器,键盘Switching Devices 晶阊管Transistors 晶体管(三极管,场效应管)TTL 74 seriesTTL 74ALS seriesTTL 74AS seriesTTL 74F seriesTTL 74HC seriesTTL 74HCT seriesTTL 74LS seriesTTL 74S seriesAnalog Ics 模拟电路集成芯片Capacitors 电容集合CMOS 4000 seriesConnectors 排座,排插Data Converters ADC,DACDebugging Tools 调试工具ECL 10000 Series------------------------------------------------------------PROTEUS元件库元件名称及中英对照AND 与门ANTENNA 天线BATTERY 直流电源BELL 铃,钟BVC 同轴电缆接插件BRIDEG 1 整流桥(二极管)BRIDEG 2 整流桥(集成块) BUFFER 缓冲器BUZZER 蜂鸣器CAP 电容CAPACITOR 电容CAPACITOR POL 有极性电容CAPVAR 可调电容CIRCUIT BREAKER 熔断丝COAX 同轴电缆CON 插口CRYSTAL 晶体整荡器DB 并行插口DIODE 二极管DIODE SCHOTTKY 稳压二极管DIODE VARACTOR 变容二极管DPY_3-SEG 3段LEDDPY_7-SEG 7段LEDDPY_7-SEG_DP 7段LED(带小数点) ELECTRO 电解电容FUSE 熔断器INDUCTOR 电感INDUCTOR IRON 带铁芯电感INDUCTOR3 可调电感JFET N N沟道场效应管JFET P P沟道场效应管LAMP 灯泡LAMP NEDN 起辉器LED 发光二极管METER 仪表MICROPHONE 麦克风MOSFET MOS管MOTOR AC 交流电机MOTOR SERVO 伺服电机NAND 与非门NOR 或非门NOT 非门NPN NPN三极管NPN-PHOTO 感光三极管OPAMP 运放OR 或门PHOTO 感光二极管PNP 三极管NPN DAR NPN三极管PNP DAR PNP三极管POT 滑线变阻器PELAY-DPDT 双刀双掷继电器RES1.2 电阻RES3.4 可变电阻RESISTOR BRIDGE ? 桥式电阻RESPACK ? 电阻SCR 晶闸管PLUG ? 插头PLUG AC FEMALE 三相交流插头SOCKET ? 插座SOURCE CURRENT 电流源SOURCE VOLTAGE 电压源SPEAKER 扬声器SW ? 开关SW-DPDY ? 双刀双掷开关SW-SPST ? 单刀单掷开关SW-PB 按钮THERMISTOR 电热调节器TRANS1 变压器TRANS2 可调变压器TRIAC ? 三端双向可控硅TRIODE ? 三极真空管VARISTOR 变阻器ZENER ? 齐纳二极管DPY_7-SEG_DP 数码管SW-PB 开关----------------------------------------------------------------------PROTEUS原理图元器件库详细说明Device.lib 包括电阻、电容、二极管、三极管和PCB的连接器符号ACTIVE.LIB 包括虚拟仪器和有源器件DIODE.LIB 包括二极管和整流桥DISPLAY.LIB 包括LCD、LEDBIPOLAR.LIB 包括三极管FET.LIB 包括场效应管ASIMMDLS.LIB 包括模拟元器件VALVES .LIB 包括电子管ANALOG.LIB 包括电源调节器、运放和数据采样IC CAPACITORS.LIB 包括电容COMS.LIB 包括4000系列ECL.LIB 包括ECL10000系列MICRO.LIB 包括通用微处理器OPAMP.LIB 包括运算放大器RESISTORS.LIB 包括电阻FAIRCHLD .LIB 包括FAIRCHLD 半导体公司的分立器件LINTEC.LIB 包括LINTEC公司的运算放大器NATDAC.LIB 包括国家半导体公司的数字采样器件NATOA.LIB 包括国家半导体公司的运算放大器TECOOR.LIB 包括TECOOR公司的SCR 和TRIAC TEXOAC.LIB 包括德州仪器公司的运算放大器和比较器ZETEX .LIB 包括ZETEX 公司的分立器件[分享]protues元器件查找代码7407 驱动门1N914 二极管74Ls00 与非门74LS04 非门74LS08 与门74LS390 TTL 双十进制计数器7SEG 4针BCD-LED 输出从0-9 对应于4根线的BCD码7SEG 3-8译码器电路BCD-7SEG转换电路ALTERNATOR 交流发电机AMMETER-MILLI mA安培计AND 与门BATTERY 电池/电池组BUS 总线CAP 电容CAPACITOR 电容器CLOCK 时钟信号源CRYSTAL 晶振D-FLIPFLOP D触发器FUSE 保险丝GROUND 地LAMP 灯LED-RED 红色发光二极管LM016L 2行16列液晶可显示2行16列英文字符,有8位数据总线D0-D7,RS,R/W,EN三个控制端口(共14线),工作电压为5V。
常用开关电源芯片大全
常用开关电源芯片大全第1章DC-DC电源转换器/基准电压源1。
1DC-DC电源转换器1、低噪声电荷泵DC—DC电源转换器AAT3113/AAT31142。
低功耗开关型DC-DC电源转换器ADP30003。
高效3A开关稳压器AP15014、高效率无电感DC—DC电源转换器FAN56605、小功率极性反转电源转换器ICL76606。
高效率DC—DC电源转换控制器IRU30377、高性能降压式DC—DC电源转换器ISL64208。
单片降压式开关稳压器L49609、大功率开关稳压器L4970A10、1。
5A降压式开关稳压器L497111。
2A高效率单片开关稳压器L497812、1A高效率升压/降压式DC—DC电源转换器L597013。
1、5A降压式DC-DC电源转换器LM157214、高效率1A降压单片开关稳压器LM1575/LM2575/LM2575HV15、3A降压单片开关稳压器LM2576/LM2576HV16。
可调升压开关稳压器LM257717。
3A降压开关稳压器LM259618、高效率5A开关稳压器LM267819。
升压式DC-DC电源转换器LM2703/LM270420、电流模式升压式电源转换器LM273321。
低噪声升压式电源转换器LM275022。
小型75V降压式稳压器LM500723、低功耗升/降压式DC-DC电源转换器LT107324、升压式DC—DC电源转换器LT161525、隔离式开关稳压器LT172526、低功耗升压电荷泵LT175127、大电流高频降压式DC—DC电源转换器LT176528、大电流升压转换器LT193529、高效升压式电荷泵LT193730。
高压输入降压式电源转换器LT195631。
1。
5A升压式电源转换器LT196132、高压升/降压式电源转换器LT343333。
单片3A升压式DC—DC电源转换器LT343634、通用升压式DC-DC电源转换器LT346035、高效率低功耗升压式电源转换器LT346436、1。
常用开关电源芯片大全
第1章DC-DC电源转换器/基准电压源DC-DC电源转换器1.低噪声电荷泵DC-DC电源转换器AAT3113/AAT31142.低功耗开关型DC-DC电源转换器ADP30003.高效3A开关稳压器AP15014.高效率无电感DC-DC电源转换器FAN56605.小功率极性反转电源转换器ICL76606.高效率DC-DC电源转换控制器IRU30377.高性能降压式DC-DC电源转换器ISL64208.单片降压式开关稳压器L49609.大功率开关稳压器L4970A降压式开关稳压器L4971高效率单片开关稳压器L4978高效率升压/降压式DC-DC电源转换器L5970降压式DC-DC电源转换器LM157214.高效率1A降压单片开关稳压器LM1575/LM2575/LM2575HV降压单片开关稳压器LM2576/LM2576HV16.可调升压开关稳压器LM2577降压开关稳压器LM259618.高效率5A开关稳压器LM267819.升压式DC-DC电源转换器LM2703/LM270420.电流模式升压式电源转换器LM273321.低噪声升压式电源转换器LM275022.小型75V降压式稳压器LM500723.低功耗升/降压式DC-DC电源转换器LT107324.升压式DC-DC电源转换器LT161525.隔离式开关稳压器LT172526.低功耗升压电荷泵LT175127.大电流高频降压式DC-DC电源转换器LT176528.大电流升压转换器LT193529.高效升压式电荷泵LT193730.高压输入降压式电源转换器LT1956升压式电源转换器LT196132.高压升/降压式电源转换器LT343333.单片3A升压式DC-DC电源转换器LT343634.通用升压式DC-DC电源转换器LT346035.高效率低功耗升压式电源转换器LT3464升压式DC-DC电源转换器LT346737.大电流高效率升压式DC-DC电源转换器LT378238.微型低功耗电源转换器LTC1754单片同步降压式稳压器LTC187540.低噪声高效率降压式电荷泵LTC191141.低噪声电荷泵LTC3200/LTC3200-542.无电感的降压式DC-DC电源转换器LTC325143.双输出/低噪声/降压式电荷泵LTC325244.同步整流/升压式DC-DC电源转换器LTC340145.低功耗同步整流升压式DC-DC电源转换器LTC340246.同步整流降压式DC-DC电源转换器LTC340547.双路同步降压式DC-DC电源转换器LTC340748.高效率同步降压式DC-DC电源转换器LTC341649.微型2A升压式DC-DC电源转换器LTC3426两相电流升压式DC-DC电源转换器LTC342851.单电感升/降压式DC-DC电源转换器LTC344052.大电流升/降压式DC-DC电源转换器LTC3442同步升压式DC-DC电源转换器LTC345854.直流同步降压式DC-DC电源转换器LTC370355.双输出降压式同步DC-DC电源转换控制器LTC373656.降压式同步DC-DC电源转换控制器LTC377057.双2相DC-DC电源同步控制器LTC380258.高性能升压式DC-DC电源转换器MAX1513/MAX151459.精简型升压式DC-DC电源转换器MAX1522/MAX1523/MAX152460.高效率40V升压式DC-DC电源转换器MAX1553/MAX155461.高效率升压式LED电压调节器MAX1561/MAX159962.高效率5路输出DC-DC电源转换器MAX156563.双输出升压式DC-DC电源转换器MAX1582/MAX1582Y64.驱动白光LED的升压式DC-DC电源转换器MAX158365.高效率升压式DC-DC电源转换器MAX1642/MAX1643降压式开关稳压器MAX164467.高效率升压式DC-DC电源转换器MAX1674/MAX1675/MAX167668.高效率双输出DC-DC电源转换器MAX167769.低噪声1A降压式DC-DC电源转换器MAX1684/MAX168570.高效率升压式DC-DC电源转换器MAX169871.高效率双输出降压式DC-DC电源转换器MAX171572.小体积升压式DC-DC电源转换器MAX1722/MAX1723/MAX172473.输出电流为50mA的降压式电荷泵MAX173074.升/降压式电荷泵MAX175975.高效率多路输出DC-DC电源转换器MAX1800同步整流降压式稳压型MAX1830/MAX183177.双输出开关式LCD电源控制器MAX187878.电流模式升压式DC-DC电源转换器MAX189679.具有复位功能的升压式DC-DC电源转换器MAX194780.高效率PWM降压式稳压器MAX1992/MAX199381.大电流输出升压式DC-DC电源转换器MAX61882.低功耗升压或降压式DC-DC电源转换器MAX629升压式DC-DC电源转换器MAX668/MAX66984.大电流PWM降压式开关稳压器MAX724/MAX72685.高效率升压式DC-DC电源转换器MAX756/MAX75786.高效率大电流DC-DC电源转换器MAX761/MAX76287.隔离式DC-DC电源转换器MAX8515/MAX8515A88.高性能24V升压式DC-DC电源转换器MAX872789.升/降压式DC-DC电源转换器MC33063A/MC34063A升压/降压/反向DC-DC电源转换器MC33167/MC3416791.低噪声无电感电荷泵MCP1252/MCP125392.高频脉宽调制降压稳压器MIC220393.大功率DC-DC升压电源转换器MIC229594.单片微型高压开关稳压器NCP1030/NCP103195.低功耗升压式DC-DC电源转换器NCP1400A96.高压DC-DC电源转换器NCP140397.单片微功率高频升压式DC-DC电源转换器NCP141098.同步整流PFM步进式DC-DC电源转换器NCP142199.高效率大电流开关电压调整器NCP1442/NCP1443/NCP1444/NCP1445 100.新型双模式开关稳压器NCP1501101.高效率大电流输出DC-DC电源转换器NCP1550102.同步降压式DC-DC电源转换器NCP1570103.高效率升压式DC-DC电源转换器NCP5008/NCP5009104.大电流高速稳压器RT9173/RT9173A105.高效率升压式DC-DC电源转换器RT9262/RT9262A106.升压式DC-DC电源转换器SP6644/SP6645107.低功耗升压式DC-DC电源转换器SP6691108.新型高效率DC-DC电源转换器TPS54350109.无电感降压式电荷泵TPS6050x110.高效率升压式电源转换器TPS6101x恒流白色LED驱动器TPS61042112.具有LDO输出的升压式DC-DC电源转换器TPS6112x113.低噪声同步降压式DC-DC电源转换器TPS6200x114.三路高效率大功率DC-DC电源转换器TPS75003115.高效率DC-DC电源转换器UCC39421/UCC39422控制升压式DC-DC电源转换器XC6371117.白光LED驱动专用DC-DC电源转换器XC9116同步整流降压式DC-DC电源转换器XC9215/XC9216/XC9217119.稳压输出电荷泵XC9801/XC9802120.高效率升压式电源转换器ZXLB1600线性/低压差稳压器121.具有可关断功能的多端稳压器BAXXX122.高压线性稳压器HIP5600123.多路输出稳压器KA7630/KA7631124.三端低压差稳压器LM2937125.可调输出低压差稳压器LM2991126.三端可调稳压器LM117/LM317127.低压降CMOS500mA线性稳压器LP38691/LP38693128.输入电压从12V到450V的可调线性稳压器LR8 非常低压降稳压器(VLDO)LTC3025130.大电流低压差线性稳压器LX8610负输出低压差线性稳压器MAX1735低压差线性稳压器MAX8875133.带开关控制的低压差稳压器MC33375134.带有线性调节器的稳压器MC33998低压差固定及可调正稳压器NCP1117136.低静态电流低压差稳压器NCP562/NCP563137.具有使能控制功能的多端稳压器PQxx138.五端可调稳压器SI-3025B/SI-3157B低压差线性稳压器SPX2975140.五端线性稳压器STR20xx141.五端线性稳压器STR90xx142.具有复位信号输出的双路输出稳压器TDA8133143.具有复位信号输出的双路输出稳压器TDA8138/TDA8138A 144.带线性稳压器的升压式电源转换器TPS6110x145.低功耗50mA低压降线性稳压器TPS760xx146.高输入电压低压差线性稳压器XC6202147.高速低压差线性稳压器XC6204148.高速低压差线性稳压器XC6209F149.双路高速低压差线性稳压器XC6401基准电压源150.新型XFET基准电压源ADR290/ADR291/ADR292/ADR293151.低功耗低压差大输出电流基准电压源MAX610x152.低功耗基准电压源MAX6120精密基准电压源MC1403基准电压源MCP1525/MCP1541155.低功耗精密低压降基准电压源REF30xx/REF31xx156.精密基准电压源TL431/KA431/TLV431A第2章AC-DC转换器及控制器1.厚膜开关电源控制器DP104C2.厚膜开关电源控制器DP308P系列高电压功率转换控制器DPA423/DPA424/DPA425/DPA4264.电流型开关电源控制器FA13842/FA13843/FA13844/FA138455.开关电源控制器FA5310/FA5311开关电源控制器FAN75567.绿色环保的PWM开关电源控制器FAN7601型开关电源控制器FS6M07652R9.开关电源功率转换器FS6Sxx10.降压型单片AC-DC转换器HV-2405E11.新型反激准谐振变换控制器ICE1QS01电源功率转换器KA1M088013.开关电源功率转换器KA2S0680/KA2S088014.电流型开关电源控制器KA38xx型开关电源功率转换器KA5H0165R型开关电源功率转换器KA5Qxx型开关电源功率转换器KA5Sxx18.电流型高速PWM控制器L499019.具有待机功能的PWM初级控制器L599120.低功耗离线式开关电源控制器L6590SWITCH TN系列电源功率转换器LNK304/LNK305/LNK306 SWITCH系列电源功率转换器LNK500/LNK501/LNK52023.离线式开关电源控制器M51995A电源控制器M62281P/M62281FP25.高频率电流模式PWM控制器MAX5021/MAX502226.新型PWM开关电源控制器MC4460427.电流模式开关电源控制器MC4460528.低功耗开关电源控制器MC4460829.具有PFC功能的PWM电源控制器ML482430.液晶显示器背光灯电源控制器ML487631.离线式电流模式控制器NCP120032.电流模式脉宽调制控制器NCP120533.准谐振式PWM控制器NCP120734.低成本离线式开关电源控制电路NCP121535.低待机能耗开关电源PWM控制器NCP1230系列自动电压切换控制开关STR8xxxx37.大功率厚膜开关电源功率转换器STR-F665438.大功率厚膜开关电源功率转换器STR-G865639.开关电源功率转换器STR-M6511/STR-M652940.离线式开关电源功率转换器STR-S5703/STR-S5707/STR-S570841.离线式开关电源功率转换器STR-S6401/STR-S6401F/STR-S6411/STR-S6411F 442.开关电源功率转换器STR-S651343.离线式开关电源功率转换器TC33369~TC3337444.高性能PFC与PWM组合控制集成电路TDA16846/TDA1684745.新型开关电源控制器TDA1685046.“绿色”电源控制器TEA150447.第二代“绿色”电源控制器TEA150748.新型低功耗“绿色”电源控制器TEA153349.开关电源控制器TL494/KA7500/MB3759SwitchⅠ系列功率转换器TNY253、TNY254、TNY255SwitchⅡ系列功率转换器TNY264P~TNY268GSwitch(Ⅱ)系列离线式功率转换器TOP209~TOP227Switch-FX系列功率转换器TOP232/TOP233/TOP234Switch-GX系列功率转换器TOP242~TOP25055.开关电源控制器UCX84X56.离线式开关电源功率转换器VIPer12AS/VIPer12ADIP57.新一代高度集成离线式开关电源功率转换器VIPer53第3章功率因数校正控制/节能灯电源控制器1.电子镇流器专用驱动电路BL83012.零电压开关功率因数控制器FAN48223.功率因数校正控制器FAN75274.高电压型EL背光驱动器HV826场致发光背光驱动器IMP525/IMP5606.高电压型EL背光驱动器/反相器IMP8037.电子镇流器自振荡半桥驱动器IR21568.单片荧光灯镇流器IR21579.调光电子镇流器自振荡半桥驱动器IR215910.卤素灯电子变压器智能控制电路IR216111.具有功率因数校正电路的镇流器电路IR216612.单片荧光灯镇流器IR216713.自适应电子镇流器控制器IR252014.电子镇流器专用控制器KA754115.功率因数校正控制器L656116.过渡模式功率因数校正控制器L656217.集成背景光控制器MAX8709/MAX8709A18.功率因数校正控制器MC33262/MC3426219.固定频率电流模式功率因数校正控制器NCP1653场致发光灯高压驱动器SP440321.功率因数校正控制器TDA4862/TDA486322.有源功率因数校正控制器UC385423.高频自振荡节能灯驱动器电路VK05CFL24.大功率高频自振荡节能灯驱动器电路VK06TL第4章充电控制器1.多功能锂电池线性充电控制器AAT36802.可编程快速电池充电控制器BQ20003.可进行充电速率补偿的锂电池充电管理器BQ20574.锂电池充电管理电路BQ2400x5.单片锂电池线性充电控制器BQ2401x接口单节锂电池充电控制器BQ2402x同步开关模式锂电池充电控制器BQ241008.集成PWM开关控制器的快速充电管理器BQ29549.具有电池电量计量功能的充电控制器DS277010.锂电池充电控制器FAN7563/FAN7564线性锂/锂聚合物电池充电控制器ISL629212.锂电池充电控制器LA5621M/LA5621V通用充电控制器LT1571恒流/恒压电池充电控制器LT176915.线性锂电池充电控制器LTC173216.带热调节功能的1A线性锂电池充电控制器LTC173317.线性锂电池充电控制器LTC173418.新型开关电源充电控制器LTC198019.开关模式锂电池充电控制器LTC4002锂电池充电器LTC400621.多用途恒压/恒流充电控制器LTC4008锂离子/锂聚合物电池充电控制器LTC405223.可由USB端口供电的锂电池充电控制器LTC405324.小型150mA锂电池充电控制器LTC405425.线性锂电池充电控制器LTC405826.单节锂电池线性充电控制器LTC405927.独立线性锂电池充电控制器LTC406128.镍镉/镍氢电池充电控制器M62256FP29.大电流锂/镍镉/镍氢电池充电控制器MAX150130.锂电池线性充电控制器MAX150731.双输入单节锂电池充电控制器MAX1551/MAX155532.单节锂电池充电控制器MAX167933.小体积锂电池充电控制器MAX1736接口单节锂电池充电控制器MAX181135.多节锂电池充电控制器MAX187336.双路输入锂电池充电控制器MAX187437.单节锂电池线性充电控制器MAX189838.低成本/多种电池充电控制器MAX190839.开关模式单节锂电池充电控制器MAX1925/MAX192640.快速镍镉/镍氢充电控制器MAX2003A/MAX200341.可编程快速充电控制器MAX712/MAX71342.开关式锂电池充电控制器MAX74543.多功能低成本充电控制器MAX846A44.具有温度调节功能的单节锂电池充电控制器MAX8600/MAX860145.锂电池充电控制器MCP73826/MCP73827/MCP7382846.高精度恒压/恒流充电器控制器MCP73841/MCP73842/MCP73843/MCP73844 647.锂电池充电控制器MCP73861/MCP7386248.单节锂电池充电控制器MIC7905049.单节锂电池充电控制器NCP180050.高精度线性锂电池充电控制器VM7205。
LM系列芯片大全
LM系列芯片大全:LM12 80W OPERATIONAL AMPLIFIER 80瓦运算放大器LM124 LM224 LM324 LM2902 Low Power Quad Operational Amplifier 低电压双路运算放大器LM324 Low Power Quad Operational Amplifier 低电压双路运算放大器LM129 LM329 Precision Reference 精密电压基准芯片LM135 LM235 LM335 精密温度传感器芯片LM1458 LM1558 Dual Operational Amplifier 双运算放大器LM158 LM258 LM358 LM2904 Low Power Dual Operational Amplifier 低压双运算放大器LM18293 Four Channel Push-Pull Driver 四通道推拉驱动器LM1868 AM/FM Radio System 调幅/调频收音机芯片LM1951 Solid State 1 Amp Switch 1安培固态开关LM2574 Simple Switcher 0.5A Step-Down Voltage Regulator 0.5A降阶式电压调节器LM1575 LM2575 1A Step-Down Voltage Regulator 1A 降阶式电压调节器LM2576 3A Step-Down Voltage Regulator 3A 降阶式电压调节器LM1577 LM2577 Simple Switch Step-Down Voltage Regulator 降阶式电压调节器LM2587 Simple Switch 5A Flyback Regulator 5A 返馈开关式电压调节器LM1893 LM2893 Carrier Current Transceiver 载体电流收发器LM193 LM293 LM393 LM2903 Low Power Low Offset Voltage Dual Comparator 双路低压低漂移比较器LM2907 LM2917 Frequency to Voltage Converter 频率电压转换器LM101A LM201A LM301A Operational Amplifiers 运算放大器芯片LM3045 LM3046 LM3086 Transistor Array 晶体管阵列LM111 LM211 LM311 Voltage Comparator 电压比较器LM117 LM317 3-Terminal Adjustable Regulator 三端可调式稳压器LM118 LM218 LM318 Operational Amplifier 运算放大器LM133 LM333 3A Adjustable Negative Regulator 3安培可调负电压调节器LM137 LM337 3-Terminal Adjustable Negative Regulator 可调式三端负压稳压器LM34 Precision Fahrenheit Temperature Sensor 精密华氏温度传感器LM342 3-Terminal Positive Regulator 三端正压稳压器LM148 LM248 LM348 / LM149 LM349 双LM741运算放大器LM35 Precision Centigrade Temperature Sensors 精密摄氏温度传感器LM158 LM258 LM358 LM2904 Low Power Dual Operational Amplifiers 低压双运算放大器LM150 LM350 3A Adjustable Regulator 3安培可调式电压调节器LM380 2.5W Audio Amplifier 2.5瓦音频放大器LM386 Low Voltage Audio Power Amplifier 低压音频功率放大器LM3886 High-Performance 68W Audio Power Amplifier With Mute 高性能68瓦音频功率放大器/带静音LM555 LM555C Timer Circuit 时基发生器电路LM556 LM556C Timer Circuit 双时基发生器电路LM565 Phase Locked Loop 相位跟随器LM567 Tone Decoder 音频译码器LM621 BrushLess Motor Commutator 无刷电机换向器LM628 LM629 Precision Motion Controller 精密位移控制器LM675 Power Operational Amplifier 功率运算放大器LM723 Voltage Regulator 电压调节器LM741 Operational Amplifier 运算放大器LM7805 LM78xx 系列稳压器LM7812 LM78xx 系列稳压器LM7815 LM78xx 系列稳压器LM78L00 3-Terminal Positive Voltage Regulator 三端正压调节器LM78L05 3-Terminal Positive Voltage Regulator 三端正压调节器LM78L09 3-Terminal Positive Voltage Regulator 三端正压调节器LM78L12 3-Terminal Positive Voltage Regulator 三端正压调节器LM78L15 3-Terminal Positive Voltage Regulator 三端正压调节器LM78L62 3-Terminal Positive Voltage Regulator 三端正压调节器LM78L82 3-Terminal Positive Voltage Regulator 三端正压调节器LM340 LM78Mxx Series 3-Terminal Positive Regulator 三端正压稳压器LM7905 3-Terminal Nagative Voltage Regulator 三端负压调节器LM7912 3-Terminal Nagative Voltage Regulator 三端负压调节器LM7915 3-Terminal Nagative Voltage Regulator 三端负压调节器LM79Mxx 3-Terminal Nagative Voltage Regulator 三端负压调节器LF147 LF347 Wide Bandwidth Quad JFET input operational amplifier 宽带J型场效应输入运算放大器LF351 Wide Bandwidth Quad JFET input operational amplifier 宽带J型场效应输入运算放大器LF353 Wide Bandwidth Quad JFET input operational amplifier 宽带J型场效应输入运算放大器LF444 Quad Low Power JFET input operational amplifier 双低压J型场效应输入运算放大器。
常用开关电源芯片大全
常用开关电源芯片大全第1章DC-DC电源转换器/基准电压源1.1 DC-DC电源转换器1.低噪声电荷泵DC-DC电源转换器AAT3113/AAT31142.低功耗开关型DC-DC电源转换器ADP30003.高效3A开关稳压器AP15014.高效率无电感DC-DC电源转换器FAN56605.小功率极性反转电源转换器ICL76606.高效率DC-DC电源转换控制器IRU30377.高性能降压式DC-DC电源转换器ISL64208.单片降压式开关稳压器L49609.大功率开关稳压器L4970A11.2A高效率单片开关稳压器L497812.1A高效率升压/降压式DC-DC电源转换器L597014.高效率1A降压单片开关稳压器LM1575/LM2575/LM2575HV15.3A降压单片开关稳压器LM2576/LM2576HV16.可调升压开关稳压器LM257717.3A降压开关稳压器LM259618.高效率5A开关稳压器LM267819.升压式DC-DC电源转换器LM2703/LM270420.电流模式升压式电源转换器LM273321.低噪声升压式电源转换器LM275022.小型75V降压式稳压器LM500723.低功耗升/降压式DC-DC电源转换器LT107324.升压式DC-DC电源转换器LT161525.隔离式开关稳压器LT172526.低功耗升压电荷泵LT175127.大电流高频降压式DC-DC电源转换器LT176528.大电流升压转换器LT193529.高效升压式电荷泵LT193730.高压输入降压式电源转换器LT195632.高压升/降压式电源转换器LT343333.单片3A升压式DC-DC电源转换器LT343634.通用升压式DC-DC电源转换器LT346035.高效率低功耗升压式电源转换器LT346437.大电流高效率升压式DC-DC电源转换器LT378238.微型低功耗电源转换器LTC175440.低噪声高效率降压式电荷泵LTC191141.低噪声电荷泵LTC3200/LTC3200-542.无电感的降压式DC-DC电源转换器LTC325143.双输出/低噪声/降压式电荷泵LTC325244.同步整流/升压式DC-DC电源转换器LTC340145.低功耗同步整流升压式DC-DC电源转换器LTC340246.同步整流降压式DC-DC电源转换器LTC340547.双路同步降压式DC-DC电源转换器LTC340748.高效率同步降压式DC-DC电源转换器LTC341649.微型2A升压式DC-DC电源转换器LTC342650.2A两相电流升压式DC-DC电源转换器LTC342851.单电感升/降压式DC-DC电源转换器LTC344052.大电流升/降压式DC-DC电源转换器LTC344254.直流同步降压式DC-DC电源转换器LTC370355.双输出降压式同步DC-DC电源转换控制器LTC373656.降压式同步DC-DC电源转换控制器LTC377057.双2相DC-DC电源同步控制器LTC380258.高性能升压式DC-DC电源转换器MAX1513/MAX151459.精简型升压式DC-DC电源转换器MAX1522/MAX1523/MAX152460.高效率40V升压式DC-DC电源转换器MAX1553/MAX155461.高效率升压式LED电压调节器MAX1561/MAX159962.高效率5路输出DC-DC电源转换器MAX156563.双输出升压式DC-DC电源转换器MAX1582/MAX1582Y64.驱动白光LED的升压式DC-DC电源转换器MAX158365.高效率升压式DC-DC电源转换器MAX1642/MAX164366.2A降压式开关稳压器MAX164467.高效率升压式DC-DC电源转换器MAX1674/MAX1675/MAX167668.高效率双输出DC-DC电源转换器MAX167769.低噪声1A降压式DC-DC电源转换器MAX1684/MAX168570.高效率升压式DC-DC电源转换器MAX169871.高效率双输出降压式DC-DC电源转换器MAX171572.小体积升压式DC-DC电源转换器MAX1722/MAX1723/MAX172473.输出电流为50mA的降压式电荷泵MAX173074.升/降压式电荷泵MAX175975.高效率多路输出DC-DC电源转换器MAX180076.3A同步整流降压式稳压型MAX1830/MAX183177.双输出开关式LCD电源控制器MAX187878.电流模式升压式DC-DC电源转换器MAX189679.具有复位功能的升压式DC-DC电源转换器MAX194780.高效率PWM降压式稳压器MAX1992/MAX199381.大电流输出升压式DC-DC电源转换器MAX61882.低功耗升压或降压式DC-DC电源转换器MAX62983.PWM升压式DC-DC电源转换器MAX668/MAX66984.大电流PWM降压式开关稳压器MAX724/MAX72685.高效率升压式DC-DC电源转换器MAX756/MAX75786.高效率大电流DC-DC电源转换器MAX761/MAX76287.隔离式DC-DC电源转换器MAX8515/MAX8515A88.高性能24V升压式DC-DC电源转换器MAX872789.升/降压式DC-DC电源转换器MC33063A/MC34063A90.5A升压/降压/反向DC-DC电源转换器MC33167/MC3416791.低噪声无电感电荷泵MCP1252/MCP125392.高频脉宽调制降压稳压器MIC220393.大功率DC-DC升压电源转换器MIC229594.单片微型高压开关稳压器NCP1030/NCP103195.低功耗升压式DC-DC电源转换器NCP1400A96.高压DC-DC电源转换器NCP140397.单片微功率高频升压式DC-DC电源转换器NCP141098.同步整流PFM步进式DC-DC电源转换器NCP142199.高效率大电流开关电压调整器NCP1442/NCP1443/NCP1444/NCP1445 100.新型双模式开关稳压器NCP1501101.高效率大电流输出DC-DC电源转换器NCP1550102.同步降压式DC-DC电源转换器NCP1570103.高效率升压式DC-DC电源转换器NCP5008/NCP5009104.大电流高速稳压器RT9173/RT9173A105.高效率升压式DC-DC电源转换器RT9262/RT9262A106.升压式DC-DC电源转换器SP6644/SP6645107.低功耗升压式DC-DC电源转换器SP6691108.新型高效率DC-DC电源转换器TPS54350109.无电感降压式电荷泵TPS6050x110.高效率升压式电源转换器TPS6101x111.28V恒流白色LED驱动器TPS61042112.具有LDO输出的升压式DC-DC电源转换器TPS6112x113.低噪声同步降压式DC-DC电源转换器TPS6200x114.三路高效率大功率DC-DC电源转换器TPS75003115.高效率DC-DC电源转换器UCC39421/UCC39422116.PWM控制升压式DC-DC电源转换器XC6371117.白光LED驱动专用DC-DC电源转换器XC9116118.500mA同步整流降压式DC-DC电源转换器XC9215/XC9216/XC9217 119.稳压输出电荷泵XC9801/XC9802120.高效率升压式电源转换器ZXLB16001.2 线性/低压差稳压器121.具有可关断功能的多端稳压器BAXXX122.高压线性稳压器HIP5600123.多路输出稳压器KA7630/KA7631124.三端低压差稳压器LM2937125.可调输出低压差稳压器LM2991126.三端可调稳压器LM117/LM317127.低压降CMOS500mA线性稳压器LP38691/LP38693 128.输入电压从12V到450V的可调线性稳压器LR8129.300mA非常低压降稳压器(VLDO)LTC3025130.大电流低压差线性稳压器LX8610131.200mA负输出低压差线性稳压器MAX1735132.150mA低压差线性稳压器MAX8875133.带开关控制的低压差稳压器MC33375134.带有线性调节器的稳压器MC33998136.低静态电流低压差稳压器NCP562/NCP563137.具有使能控制功能的多端稳压器PQxx138.五端可调稳压器SI-3025B/SI-3157B139.400mA低压差线性稳压器SPX2975140.五端线性稳压器STR20xx141.五端线性稳压器STR90xx142.具有复位信号输出的双路输出稳压器TDA8133143.具有复位信号输出的双路输出稳压器TDA8138/TDA8138A 144.带线性稳压器的升压式电源转换器TPS6110x145.低功耗50mA低压降线性稳压器TPS760xx146.高输入电压低压差线性稳压器XC6202147.高速低压差线性稳压器XC6204148.高速低压差线性稳压器XC6209F149.双路高速低压差线性稳压器XC64011.3 基准电压源150.新型XFET基准电压源ADR290/ADR291/ADR292/ADR293 151.低功耗低压差大输出电流基准电压源MAX610x152.低功耗1.2V基准电压源MAX6120155.低功耗精密低压降基准电压源REF30xx/REF31xx156.精密基准电压源TL431/KA431/TLV431A第2章AC-DC转换器及控制器1.厚膜开关电源控制器DP104C2.厚膜开关电源控制器DP308P3.DPA-Switch系列高电压功率转换控制器DPA423/DPA424/DPA425/DPA4264.电流型开关电源控制器FA13842/FA13843/FA13844/FA138455.开关电源控制器FA5310/FA53116.PWM开关电源控制器FAN75567.绿色环保的PWM开关电源控制器FAN76018.FPS型开关电源控制器FS6M07652R9.开关电源功率转换器FS6Sxx10.降压型单片AC-DC转换器HV-2405E11.新型反激准谐振变换控制器ICE1QS0112.PWM电源功率转换器KA1M088013.开关电源功率转换器KA2S0680/KA2S088014.电流型开关电源控制器KA38xx15.FPS型开关电源功率转换器KA5H0165R16.FPS型开关电源功率转换器KA5Qxx17.FPS型开关电源功率转换器KA5Sxx18.电流型高速PWM控制器L499019.具有待机功能的PWM初级控制器L599120.低功耗离线式开关电源控制器L659021.LINK SWITCH TN系列电源功率转换器LNK304/LNK305/LNK30622.LINK SWITCH系列电源功率转换器LNK500/LNK501/LNK52023.离线式开关电源控制器M51995A24.PWM电源控制器M62281P/M62281FP25.高频率电流模式PWM控制器MAX5021/MAX502226.新型PWM开关电源控制器MC4460427.电流模式开关电源控制器MC4460528.低功耗开关电源控制器MC4460829.具有PFC功能的PWM电源控制器ML482430.液晶显示器背光灯电源控制器ML487631.离线式电流模式控制器NCP120032.电流模式脉宽调制控制器NCP120533.准谐振式PWM控制器NCP120734.低成本离线式开关电源控制电路NCP121535.低待机能耗开关电源PWM控制器NCP123036.STR系列自动电压切换控制开关STR8xxxx37.大功率厚膜开关电源功率转换器STR-F665438.大功率厚膜开关电源功率转换器STR-G865639.开关电源功率转换器STR-M6511/STR-M652940.离线式开关电源功率转换器STR-S5703/STR-S5707/STR-S570841.离线式开关电源功率转换器STR-S6401/STR-S6401F/STR-S6411/STR-S6411F 442.开关电源功率转换器STR-S651343.离线式开关电源功率转换器TC33369~TC3337444.高性能PFC与PWM组合控制集成电路TDA16846/TDA1684745.新型开关电源控制器TDA1685046.“绿色”电源控制器TEA150447.第二代“绿色”电源控制器TEA150748.新型低功耗“绿色”电源控制器TEA153349.开关电源控制器TL494/KA7500/MB375950.Tiny SwitchⅠ系列功率转换器TNY253、TNY254、TNY25551.Tiny SwitchⅡ系列功率转换器TNY264P~TNY268G52.TOP Switch(Ⅱ)系列离线式功率转换器TOP209~TOP22753.TOP Switch-FX系列功率转换器TOP232/TOP233/TOP23454.TOP Switch-GX系列功率转换器TOP242~TOP25055.开关电源控制器UCX84X56.离线式开关电源功率转换器VIPer12AS/VIPer12ADIP57.新一代高度集成离线式开关电源功率转换器VIPer53第3章功率因数校正控制/节能灯电源控制器1.电子镇流器专用驱动电路BL83012.零电压开关功率因数控制器FAN48223.功率因数校正控制器FAN75274.高电压型EL背光驱动器HV8265.EL场致发光背光驱动器IMP525/IMP5606.高电压型EL背光驱动器/反相器IMP8037.电子镇流器自振荡半桥驱动器IR21568.单片荧光灯镇流器IR21579.调光电子镇流器自振荡半桥驱动器IR215910.卤素灯电子变压器智能控制电路IR216111.具有功率因数校正电路的镇流器电路IR216612.单片荧光灯镇流器IR216713.自适应电子镇流器控制器IR252014.电子镇流器专用控制器KA754115.功率因数校正控制器L656116.过渡模式功率因数校正控制器L656217.集成背景光控制器MAX8709/MAX8709A18.功率因数校正控制器MC33262/MC3426219.固定频率电流模式功率因数校正控制器NCP165320.EL场致发光灯高压驱动器SP440321.功率因数校正控制器TDA4862/TDA486322.有源功率因数校正控制器UC385423.高频自振荡节能灯驱动器电路VK05CFL24.大功率高频自振荡节能灯驱动器电路VK06TL第4章充电控制器1.多功能锂电池线性充电控制器AAT36802.可编程快速电池充电控制器BQ20003.可进行充电速率补偿的锂电池充电管理器BQ20574.锂电池充电管理电路BQ2400xB接口单节锂电池充电控制器BQ2402x7.2A同步开关模式锂电池充电控制器BQ241008.集成PWM开关控制器的快速充电管理器BQ29549.具有电池电量计量功能的充电控制器DS277010.锂电池充电控制器FAN7563/FAN756411.2A线性锂/锂聚合物电池充电控制器ISL629212.锂电池充电控制器LA5621M/LA5621V14.2A恒流/恒压电池充电控制器LT176915.线性锂电池充电控制器LTC173216.带热调节功能的1A线性锂电池充电控制器LTC173317.线性锂电池充电控制器LTC173418.新型开关电源充电控制器LTC198019.开关模式锂电池充电控制器LTC400220.4A锂电池充电器LTC400621.多用途恒压/恒流充电控制器LTC400823.可由USB端口供电的锂电池充电控制器LTC405324.小型150mA锂电池充电控制器LTC405425.线性锂电池充电控制器LTC405826.单节锂电池线性充电控制器LTC405927.独立线性锂电池充电控制器LTC406128.镍镉/镍氢电池充电控制器M62256FP29.大电流锂/镍镉/镍氢电池充电控制器MAX150130.锂电池线性充电控制器MAX150731.双输入单节锂电池充电控制器MAX1551/MAX155532.单节锂电池充电控制器MAX167933.小体积锂电池充电控制器MAX1736B接口单节锂电池充电控制器MAX181135.多节锂电池充电控制器MAX187336.双路输入锂电池充电控制器MAX187438.低成本/多种电池充电控制器MAX190839.开关模式单节锂电池充电控制器MAX1925/MAX192640.快速镍镉/镍氢充电控制器MAX2003A/MAX200341.可编程快速充电控制器MAX712/MAX71342.开关式锂电池充电控制器MAX74543.多功能低成本充电控制器MAX846A44.具有温度调节功能的单节锂电池充电控制器MAX8600/MAX860145.锂电池充电控制器MCP73826/MCP73827/MCP7382846.高精度恒压/恒流充电器控制器MCP73841/MCP73842/MCP73843/MCP73844 647.锂电池充电控制器MCP73861/MCP7386248.单节锂电池充电控制器MIC7905049.单节锂电池充电控制器NCP180050.高精度线性锂电池充电控制器VM7205。
LM13700
LM13700Dual Operational Transconductance Amplifiers with Linearizing Diodes and BuffersGeneral DescriptionThe LM13700series consists of two current controlled transconductance amplifiers,each with differential inputs and a push-pull output.The two amplifiers share common supplies but otherwise operate independently.Linearizing diodes are provided at the inputs to reduce distortion and allow higher input levels.The result is a 10dB signal-to-noise improvement referenced to 0.5percent THD.High impedance buffers are provided which are especially de-signed to complement the dynamic range of the amplifiers.The output buffers of the LM13700differ from those of the LM13600in that their input bias currents (and hence their output DC levels)are independent of I ABC .This may result in performance superior to that of the LM13600in audio appli-cations.Featuresn g m adjustable over 6decades n Excellent g m linearityn Excellent matching between amplifiers n Linearizing diodesn High impedance buffersnHigh output signal-to-noise ratioApplicationsn Current-controlled amplifiers n Current-controlled impedances n Current-controlled filtersn Current-controlled oscillators n Multiplexers n TimersnSample-and-hold circuitsConnection DiagramDual-In-Line and Small Outline Packages00798102Top ViewOrder Number LM13700M,LM13700MX or LM13700NSee NS Package Number M16A or N16AJune 2004LM13700Dual Operational Transconductance Amplifiers with Linearizing Diodes and Buffers©2004National Semiconductor Corporation Absolute Maximum Ratings (Note 1)If Military/Aerospace specified devices are required,please contact the National Semiconductor Sales Office/Distributors for availability and specifications.Supply Voltage LM1370036V DC or ±18VPower Dissipation (Note 2)T A =25˚C LM13700N570mWDifferential Input Voltage ±5VDiode Bias Current (I D )2mA Amplifier Bias Current (I ABC )2mA Output Short Circuit DurationContinuousBuffer Output Current (Note 3)20mA Operating Temperature Range LM13700N 0˚C to +70˚C DC Input Voltage+V S to −V SStorage Temperature Range −65˚C to +150˚CSoldering Information Dual-In-Line Package Soldering (10sec.)260˚C Small Outline Package Vapor Phase (60sec.)215˚C Infrared (15sec.)220˚CElectrical Characteristics (Note 4)ParameterConditionsLM13700Units MinTyp Max Input Offset Voltage (V OS )Over Specified Temperature Range 0.44mV I ABC =5µA0.34V OS Including Diodes Diode Bias Current (I D )=500µA 0.55mV Input Offset Change 5µA ≤I ABC ≤500µA0.13mV Input Offset Current 0.10.6µA Input Bias Current Over Specified Temperature Range0.45µA18Forward6700960013000µmho Transconductance (g m )Over Specified Temperature Range 5400g m Tracking 0.3dBPeak Output CurrentR L =0,I ABC =5µA 5R L =0,I ABC =500µA350500650µA R L =0,Over Specified Temp Range300Peak Output Voltage Positive R L =∞,5µA ≤I ABC ≤500µA +12+14.2V Negative R L =∞,5µA ≤I ABC ≤500µA −12−14.4V Supply Current I ABC =500µA,Both Channels2.6mAV OS Sensitivity Positive ∆V OS /∆V +20150µV/V Negative ∆V OS /∆V −20150µV/V CMRR80110dB Common Mode Range ±12±13.5V CrosstalkReferred to Input (Note 5)100dB20Hz <f <20kHz Differential Input Current I ABC =0,Input =±4V0.02100nA Leakage Current I ABC =0(Refer to Test Circuit)0.2100nA Input Resistance 1026k ΩOpen Loop Bandwidth 2MHz Slew RateUnity Gain Compensated 50V/µs Buffer Input Current (Note 5)0.52µA Peak Buffer Output Voltage(Note 5)10VNote 1:“Absolute Maximum Ratings”indicate limits beyond which damage to the device may occur.Operating Ratings indicate conditions for which the device is functional,but do not guarantee specific performance limits.Note 2:For operation at ambient temperatures above 25˚C,the device must be derated based on a 150˚C maximum junction temperature and a thermal resistance,junction to ambient,as follows:LM13700N,90˚C/W;LM13700M,110˚C/W.Note 3:Buffer output current should be limited so as to not exceed package dissipation.L M 13700 2Electrical Characteristics (Note 4)(Continued)Note 4:These specifications apply for V S =±15V,T A =25˚C,amplifier bias current (I ABC )=500µA,pins 2and 15open unless otherwise specified.The inputs to the buffers are grounded and outputs are open.Note 5:These specifications apply for V S =±15V,I ABC =500µA,R OUT =5k Ωconnected from the buffer output to −V S and the input of the buffer is connected to the transconductance amplifier output.Schematic DiagramOne Operational Transconductance Amplifier00798101Typical Application00798118Voltage Controlled Low-Pass FilterLM137003Typical Performance CharacteristicsInput Offset Voltage Input Offset Current0079813800798139 Input Bias Current Peak Output Current0079814000798141 Peak Output Voltage andCommon Mode Range Leakage Current0079814200798143 LM1374Typical Performance Characteristics(Continued)Input LeakageTransconductance0079814400798145Input ResistanceAmplifier Bias Voltage vs.Amplifier Bias Current0079814600798147Input and Output Capacitance Output Resistance0079814800798149LM137005Typical Performance Characteristics(Continued)Distortion vs.DifferentialInput VoltageVoltage vs.AmplifierBias Current0079815000798151Output Noise vs.Frequency00798152Unity Gain Follower00798105L M 13700 6Typical Performance Characteristics(Continued)Leakage Current Test Circuit Differential Input Current Test Circuit0079810600798107Circuit DescriptionThe differential transistor pair Q4and Q5form a transcon-ductance stage in that the ratio of their collector currents isdefined by the differential input voltage according to thetransfer function:(1)where V IN is the differential input voltage,kT/q is approxi-mately26mV at25˚C and I5and I4are the collector currentsof transistors Q5and Q4respectively.With the exception ofQ12and Q13,all transistors and diodes are identical in size.Transistors Q1and Q2with Diode D1form a current mirrorwhich forces the sum of currents I4and I5to equal I ABC:I4+I5=I ABC(2)where I ABC is the amplifier bias current applied to the gainpin.For small differential input voltages the ratio of I4and I5approaches unity and the Taylor series of the In function canbe approximated as:(3)(4)Collector currents I4and I5are not very useful by themselvesand it is necessary to subtract one current from the other.The remaining transistors and diodes form three currentmirrors that produce an output current equal to I5minus I4thus:(5)The term in brackets is then the transconductance of theamplifier and is proportional to I ABC.Linearizing DiodesFor differential voltages greater than a few millivolts,Equa-tion(3)becomes less valid and the transconductance be-comes increasingly nonlinear.Figure1demonstrates howthe internal diodes can linearize the transfer function of theamplifier.For convenience assume the diodes are biasedwith current sources and the input signal is in the form ofcurrent I S.Since the sum of I4and I5is I ABC and the differ-ence is I OUT,currents I4and I5can be written as follows:Since the diodes and the input transistors have identicalgeometries and are subject to similar voltages and tempera-tures,the following is true:(6)Notice that in deriving Equation(6)no approximations havebeen made and there are no temperature-dependent terms.The limitations are that the signal current not exceed I D/2and that the diodes be biased with currents.In practice,replacing the current sources with resistors will generateinsignificant errors.ApplicationsVoltage Controlled AmplifiersFigure2shows how the linearizing diodes can be used in avoltage-controlled amplifier.To understand the input biasing,it is best to consider the13kΩresistor as a current sourceand use a Thevenin equivalent circuit as shown in Figure3.This circuit is similar to Figure1and operates the same.Thepotentiometer in Figure2is adjusted to minimize the effectsof the control signal at the output.LM137007ApplicationsVoltage Controlled Amplifiers(Continued)For optimum signal-to-noise performance,I ABC should be as large as possible as shown by the Output Voltage vs.Ampli-fier Bias Current rger amplitudes of input signal also improve the S/N ratio.The linearizing diodes help here by allowing larger input signals for the same output distortion as shown by the Distortion vs.Differential Input Voltage graph.S/N may be optimized by adjusting the magnitude of the input signal via R IN (Figure 2)until the output distortion is below some desired level.The output voltage swing can then be set at any level by selecting R L .Although the noise contribution of the linearizing diodes is negligible relative to the contribution of the amplifier’s inter-nal transistors,I D should be as large as possible.This mini-mizes the dynamic junction resistance of the diodes (r e )and maximizes their linearizing action when balanced against R IN .A value of 1mA is recommended for I D unless the specific application demands otherwise.00798108FIGURE 1.Linearizing Diodes00798109FIGURE 2.Voltage Controlled AmplifierL M 13700 8ApplicationsVoltage Controlled Amplifiers(Continued)Stereo Volume ControlThe circuit of Figure4uses the excellent matching of the twoLM13700amplifiers to provide a Stereo Volume Control witha typical channel-to-channel gain tracking of0.3dB.R P isprovided to minimize the output offset voltage and may bereplaced with two510Ωresistors in AC-coupled applications.For the component values given,amplifier gain is derived forFigure2as being:If V C is derived from a second signal source then the circuitbecomes an amplitude modulator or two-quadrant multiplieras shown in Figure5,where:The constant term in the above equation may be cancelledby feeding I S x I D R C/2(V−+1.4V)into I O.The circuit ofFigure6adds R M to provide this current,resulting in afour-quadrant multiplier where R C is trimmed such that V O=0V for V IN2=0V.R M also serves as the load resistor for I O.00798110FIGURE3.Equivalent VCA Input CircuitLM137009Stereo Volume Control(Continued)00798111FIGURE 4.Stereo Volume Control00798112FIGURE 5.Amplitude ModulatorL M 13700 10Stereo Volume Control(Continued)Noting that the gain of the LM13700amplifier of Figure 3may be controlled by varying the linearizing diode current I D as well as by varying I ABC ,Figure 7shows an AGC Amplifier using this approach.As V O reaches a high enough amplitude (3V BE )to turn on the Darlington transistors and the lineariz-ing diodes,the increase in I D reduces the amplifier gain so as to hold V O at that level.Voltage Controlled ResistorsAn Operational Transconductance Amplifier (OTA)may be used to implement a Voltage Controlled Resistor as shown in Figure 8.A signal voltage applied at R X generates a V IN to the LM13700which is then multiplied by the g m of the amplifier to produce an output current,thus:where g m ≈19.2I ABC at 25˚C.Note that the attenuation of V O by R and R A is necessary to maintain V IN within the linear range of the LM13700input.Figure 9shows a similar VCR where the linearizing diodes are added,essentially improving the noise performance of the resistor.A floating VCR is shown in Figure 10,where each “end”of the “resistor”may be at any voltage within the output voltage range of the LM13700.00798113FIGURE 6.Four-Quadrant Multiplier00798114FIGURE 7.AGC AmplifierLM13700Voltage Controlled Resistors(Continued)Voltage Controlled FiltersOTA’s are extremely useful for implementing voltage con-trolled filters,with the LM13700having the advantage that the required buffers are included on the I.C.The VC Lo-Pass Filter of Figure 11performs as a unity-gain buffer amplifier at frequencies below cut-off,with the cut-off frequency being the point at which X C /g m equals the closed-loop gain of (R/R A ).At frequencies above cut-off the circuit provides a single RC roll-off (6dB per octave)of the input signal ampli-tude with a −3dB point defined by the given equation,whereg m is again 19.2x I ABC at room temperature.Figure 12shows a VC High-Pass Filter which operates in much the same manner,providing a single RC roll-off below the de-fined cut-off frequency.Additional amplifiers may be used to implement higher order filters as demonstrated by the two-pole Butterworth Lo-Pass Filter of Figure 13and the state variable filter of Figure 14.Due to the excellent g m tracking of the two amplifiers,these filters perform well over several decades of frequency.00798115FIGURE 8.Voltage Controlled Resistor,Single-Ended00798116FIGURE 9.Voltage Controlled Resistor with Linearizing DiodesL M 13700Voltage Controlled Filters(Continued)00798117FIGURE10.Floating Voltage Controlled Resistor00798118FIGURE11.Voltage Controlled Low-Pass Filter LM13700Voltage Controlled Filters(Continued)00798119FIGURE 12.Voltage Controlled Hi-Pass Filter00798120FIGURE 13.Voltage Controlled 2-Pole Butterworth Lo-Pass FilterL M 13700Voltage Controlled Filters(Continued)Voltage Controlled OscillatorsThe classic Triangular/Square Wave VCO of Figure15is one of a variety of Voltage Controlled Oscillators which may be built utilizing the LM13700.With the component values shown,this oscillator provides signals from200kHz to below 2Hz as I C is varied from1mA to10nA.The output amplitudes are set by I A x R A.Note that the peak differential input voltage must be less than5V to prevent zenering the inputs.A few modifications to this circuit produce the ramp/pulse VCO of Figure16.When V O2is high,I F is added to I C to increase amplifier A1’s bias current and thus to increase the charging rate of capacitor C.When V O2is low,I F goes to zero and the capacitor discharge current is set by I C.The VC Lo-Pass Filter of Figure11may be used to produce a high-quality sinusoidal VCO.The circuit of Figure16em-ploys two LM13700packages,with three of the amplifiers configured as lo-pass filters and the fourth as a limiter/ inverter.The circuit oscillates at the frequency at which the loop phase-shift is360˚or180˚for the inverter and60˚per filter stage.This VCO operates from5Hz to50kHz with less than1%THD.00798121FIGURE14.Voltage Controlled State Variable Filter LM13700Voltage Controlled Oscillators(Continued)00798122FIGURE 15.Triangular/Square-Wave VCO00798123FIGURE 16.Ramp/Pulse VCOL M 13700Voltage Controlled Oscillators(Continued)Additional ApplicationsFigure 19presents an interesting one-shot which draws no power supply current until it is triggered.A positive-going trigger pulse of at least 2V amplitude turns on the amplifier through R B and pulls the non-inverting input high.The am-plifier regenerates and latches its output high until capacitor C charges to the voltage level on the non-inverting input.The output then switches low,turning off the amplifier and dis-charging the capacitor.The capacitor discharge rate is speeded up by shorting the diode bias pin to the inverting input so that an additional discharge current flows through D I when the amplifier output switches low.A special feature of this timer is that the other amplifier,when biased from V O ,can perform another function and draw zero stand-by power as well.00798124FIGURE 17.Sinusoidal VCO00798125Figure 18shows how to build a VCO using one amplifier when the other amplifier is needed for another function.FIGURE 18.Single Amplifier VCOLM13700Additional Applications(Continued)The operation of the multiplexer of Figure 20is very straight-forward.When A1is turned on it holds V O equal to V IN1and when A2is supplied with bias current then it controls V O .C C and R C serve to stabilize the unity-gain configuration of amplifiers A1and A2.The maximum clock rate is limited to about 200kHz by the LM13700slew rate into 150pF when the (V IN1–V IN2)differential is at its maximum allowable value of 5V.The Phase-Locked Loop of Figure 21uses the four-quadrant multiplier of Figure 6and the VCO of Figure 18to produce a PLL with a ±5%hold-in range and an input sensitivity of about 300mV.00798126FIGURE 19.Zero Stand-By Power Timer00798127FIGURE 20.MultiplexerL M 13700Additional Applications(Continued)The Schmitt Trigger of Figure22uses the amplifier output current into R to set the hysteresis of the comparator;thus V H=2x R x I B.Varying I B will produce a Schmitt Trigger with variable hysteresis.Figure23shows a Tachometer or Frequency-to-Voltage con-verter.Whenever A1is toggled by a positive-going input,an amount of charge equal to(V H–V L)C t is sourced into C f and R t.This once per cycle charge is then balanced by the current of V O/R t.The maximum F IN is limited by the amount of time required to charge C t from V L to V H with a current of I B,where V L and V H represent the maximum low and maxi-mum high output voltage swing of the LM13700.D1is added to provide a discharge path for C t when A1switches low.The Peak Detector of Figure24uses A2to turn on A1 whenever V IN becomes more positive than V O.A1then charges storage capacitor C to hold V O equal to V IN PK. Pulling the output of A2low through D1serves to turn off A1 so that V O remains constant.00798128FIGURE21.Phase Lock Loop00798129 FIGURE22.Schmitt Trigger LM13700Additional Applications(Continued)The Ramp-and-Hold of Figure 26sources I B into capacitor C whenever the input to A1is brought high,giving a ramp-rate of about 1V/ms for the component values shown.The true-RMS converter of Figure 27is essentially an auto-matic gain control amplifier which adjusts its gain such that the AC power at the output of amplifier A1is constant.The output power of amplifier A1is monitored by squaring ampli-fier A2and the average compared to a reference voltage with amplifier A3.The output of A3provides bias current tothe diodes of A1to attenuate the input signal.Because the output power of A1is held constant,the RMS value is constant and the attenuation is directly proportional to the RMS value of the input voltage.The attenuation is also proportional to the diode bias current.Amplifier A4adjusts the ratio of currents through the diodes to be equal and therefore the voltage at the output of A4is proportional to the RMS value of the input voltage.The calibration potentiom-eter is set such that V O reads directly in RMS volts.00798130FIGURE 23.Tachometer00798131FIGURE 24.Peak Detector and Hold CircuitL M 13700Additional Applications(Continued)00798132FIGURE 25.Sample-Hold Circuit00798133FIGURE 26.Ramp and HoldLM1370021Additional Applications(Continued)The circuit of Figure28is a voltage reference of variableTemperature Coefficient.The100kΩpotentiometer adjuststhe output voltage which has a positive TC above1.2V,zeroTC at about 1.2V,and negative TC below 1.2V.This isaccomplished by balancing the TC of the A2transfer functionagainst the complementary TC of D1.The wide dynamic range of the LM13700allows easy controlof the output pulse width in the Pulse Width Modulator ofFigure29.For generating I ABC over a range of4to6decades ofcurrent,the system of Figure30provides a logarithmic cur-rent out for a linear voltage in.Since the closed-loop configuration ensures that the input toA2is held equal to0V,the output current of A1is equal toI3=−V C/R C.The differential voltage between Q1and Q2is attenuated bythe R1,R2network so that A1may be assumed to be oper-ating within its linear range.From Equation(5),the inputvoltage to A1is:The voltage on the base of Q1is thenThe ratio of the Q1and Q2collector currents is defined by:Combining and solving for I ABC yields:This logarithmic current can be used to bias the circuit ofFigure4to provide temperature independent stereo attenu-ation characteristic.00798134FIGURE27.True RMS ConverterLM13722Additional Applications(Continued)00798135FIGURE 28.Delta VBE Reference00798136FIGURE 29.Pulse Width ModulatorLM1370023Additional Applications(Continued)00798137FIGURE 30.Logarithmic Current SourceL M 13700 24Physical Dimensionsinches (millimeters)unless otherwise notedS.O.Package (M)Order Number LM13700M or LM13700MXNS Package Number M16AMolded Dual-In-Line Package (N)Order Number LM13700N NS Package Number N16ALM1370025NotesLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION.As used herein:1.Life support devices or systems are devices or systems which,(a)are intended for surgical implant into the body,or (b)support or sustain life,and whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in a significant injury to the user. 2.A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,or to affect its safety or effectiveness.BANNED SUBSTANCE COMPLIANCENational Semiconductor certifies that the products and packing materials meet the provisions of the Customer Products Stewardship Specification (CSP-9-111C2)and the Banned Substances and Materials of Interest Specification (CSP-9-111S2)and contain no ‘‘Banned Substances’’as defined in CSP-9-111S2.National Semiconductor Americas Customer Support CenterEmail:new.feedback@ Tel:1-800-272-9959National SemiconductorEurope Customer Support CenterFax:+49(0)180-5308586Email:europe.support@Deutsch Tel:+49(0)6995086208English Tel:+44(0)8702402171Français Tel:+33(0)141918790National Semiconductor Asia Pacific Customer Support CenterEmail:ap.support@National SemiconductorJapan Customer Support Center Fax:81-3-5639-7507Email:jpn.feedback@ Tel:81-3-5639-7560L M 13700D u a l O p e r a t i o n a l T r a n s c o n d u c t a n c e A m p l i f i e r s w i t h L i n e a r i z i n g D i o d e s a n d B u f f e r sNational does not assume any responsibility for use of any circuitry described,no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.。
笔记本常用场管代换资料
AO6601 TSOP-6 一个N沟道一个P沟道 30
AO6604 TSOP-6 一个N沟道一个P沟道 20
AO6702 AO6801 AO3400 AO3402 AO3404 AO3406 AO3408 AO3414 AO3416 AO3401 AO3403 AO3407 AO3409
TSOP-6 TSOP-6 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23 SOT-23
-
2, 2
30, -30
6.9, 5
- 2, 2
30, -30
6.9, 6
- 2, 2
30, -30
6.9, 6
- 2, 2
30, -30
8.5, 5
- 2, 2
30, -30
8.5, 7.1
-
2, 2
30
6.9
2
30
11
3
-30
-5
2
-30
-12
3
-30
-10
3
-30
-8
3
30
6.9
2
30
7
2
20
AO4805 SO-8 双P沟道
AO4807 SO-8 双P沟道
AO4900 SO-8 双N沟道
AO4902 SO-8 双N沟道
AO4904 SO-8 双N沟道
AO4906 SO-8 双N沟道
AO4912 SO-8
上N沟Q2道 下N沟道 30
Q1
30
AO4914 SO-8 双N沟道
AO4916 SO-8 双N沟道
SOT-23 P沟道 SOT-23 P沟道 SOT-23 P沟道 SC-70 N沟道 SC-70 P沟道 SC-70-6 P沟道 SC-70 P沟道 TO252 N沟道 TO252 N沟道 TO252 N沟道 TO252 N沟道 TO252 N沟道 TSSOP-8 P沟道 TSSOP-8 双P沟道 TSSOP-8 双N沟道 TSSOP-8 双N沟道 TSSOP-8 双N沟道 TSSOP-8 双N沟道 TSSOP-8 双N沟道 TSSOP-8 双N沟道
德州仪器LM13700 LM13700A 双运算放大器使用手册说明书
November 1994
LM13700 LM13700A Dual Operational Transconductance Amplifiers with Linearizing Diodes and Buffers
Parameter
Input Offset Voltage (VOS)
VOS Including Diodes Input Offset Change Input Offset Current Input Bias Current
Forward Transconductance (gm) gm Tracking Peak Output Current
TL H 7981 – 2 RRD-B30M115 Printed in U S A
Absolute Maximum Ratings
If Military Aerospace specified devices are required please contact the National Semiconductor Sales Office Distributors for availability and specifications
Input and Output Capacitance
Note 3 Buffer output current should be limited so as to not exceed package dissipation
Note 4 These specifications apply for VS e g15V TA e 25 C amplifier bias current (IABC) e 500 mA pins 2 and 15 open unless otherwise specified The inputs to the buffers are grounded and outputs are open
Proteus所有元件名称
元件名称中文名说明RESPACK-8 排阻7407 驱动门1N914 二极管74Ls00 与非门74LS04 非门74LS08 与门74LS390 TTL 双十进制计数器7SEG 4针BCD-LED 输出从0-9 对应于4根线的BCD码7SEG 3-8译码器电路BCD-7SEG[size=+0]转换电路ALTERNATOR 交流发电机AMMETER-MILLI mA安培计AND 与门BATTERY 电池/电池组BUS 总线CAP 电容CAPACITOR 电容器CLOCK 时钟信号源CRYSTAL 晶振D-FLIPFLOP D触发器FUSE 保险丝GROUND 地LAMP 灯LED-RED 红色发光二极管LM016L 2行16列液晶可显示2行16列英文字符,有8位数据总线D0-D7,RS,R/W,EN三个控制端口(共14线),工作电压为5V。
没背光,和常用的1602B功能和引脚一样(除了调背光的二个线脚)LOGIC ANALYSER 逻辑分析器LOGICPROBE 逻辑探针LOGICPROBE[BIG] 逻辑探针用来显示连接位置的逻辑状态LOGICSTATE 逻辑状态用鼠标点击,可改变该方框连接位置的逻辑状态LOGICTOGGLE 逻辑触发MASTERSWITCH 按钮手动闭合,立即自动打开MOTOR 马达OR 或门POT-LIN 三引线可变电阻器POWER 电源RES 电阻RESISTOR 电阻器SWITCH 按钮手动按一下一个状态SWITCH-SPDT 二选通一按钮VOLTMETER 伏特计VOLTMETER-MILLI mV伏特计VTERM 串行口终端Electromechanical 电机Inductors 变压器Laplace Primitives 拉普拉斯变换Memory IcsMicroprocessor IcsMiscellaneous 各种器件AERIAL-天线;ATAHDD;ATMEGA64;BATTERY;CELL;CRYSTAL-晶振;FUSE;METER-仪表;Modelling Primitives 各种仿真器件是典型的基本元器模拟,不表示具体型号,只用于仿真,没有PCBOptoelectronics 各种发光器件发光二极管,LED,液晶等等PLDs & FPGAsResistors 各种电阻Simulator Primitives 常用的器件Speakers & SoundersSwitches & Relays 开关,继电器,键盘Switching Devices 晶阊管Transistors 晶体管(三极管,场效应管)TTL 74 seriesTTL 74ALS seriesTTL 74AS seriesTTL 74F seriesTTL 74HC seriesTTL 74HCT seriesTTL 74LS seriesTTL 74S seriesAnalog Ics 模拟电路集成芯片Capacitors 电容集合CMOS 4000 seriesConnectors 排座,排插Data Converters ADC,DACDebugging Tools 调试工具ECL 10000 Series------------------------------------------------------------PROTEUS元件库元件名称及中英对照AND 与门ANTENNA 天线BATTERY 直流电源BELL 铃,钟BVC 同轴电缆接插件BRIDEG 1 整流桥(二极管)BRIDEG 2 整流桥(集成块) BUFFER 缓冲器BUZZER 蜂鸣器CAP 电容CAPACITOR 电容CAPACITOR POL 有极性电容CAPVAR 可调电容CIRCUIT BREAKER 熔断丝COAX 同轴电缆CON 插口CRYSTAL 晶体整荡器DB 并行插口DIODE 二极管DIODE SCHOTTKY 稳压二极管DIODE VARACTOR 变容二极管DPY_3-SEG 3段LEDDPY_7-SEG 7段LEDDPY_7-SEG_DP 7段LED(带小数点) ELECTRO 电解电容FUSE 熔断器INDUCTOR 电感INDUCTOR IRON 带铁芯电感INDUCTOR3 可调电感JFET N N沟道场效应管JFET P P沟道场效应管LAMP 灯泡LAMP NEDN 起辉器LED 发光二极管METER 仪表MICROPHONE 麦克风MOSFET MOS管MOTOR AC 交流电机MOTOR SERVO 伺服电机NAND 与非门NOR 或非门NOT 非门NPN NPN三极管NPN-PHOTO 感光三极管OPAMP 运放OR 或门PHOTO 感光二极管PNP 三极管NPN DAR NPN三极管PNP DAR PNP三极管POT 滑线变阻器PELAY-DPDT 双刀双掷继电器RES1.2 电阻RES3.4 可变电阻RESISTOR BRIDGE ? 桥式电阻RESPACK ? 电阻SCR 晶闸管PLUG ? 插头PLUG AC FEMALE 三相交流插头SOCKET ? 插座SOURCE CURRENT 电流源SOURCE VOLTAGE 电压源SPEAKER 扬声器SW ? 开关SW-DPDY ? 双刀双掷开关SW-SPST ? 单刀单掷开关SW-PB 按钮THERMISTOR 电热调节器TRANS1 变压器TRANS2 可调变压器TRIAC ? 三端双向可控硅TRIODE ? 三极真空管VARISTOR 变阻器ZENER ? 齐纳二极管DPY_7-SEG_DP 数码管SW-PB 开关----------------------------------------------------------------------PROTEUS原理图元器件库详细说明Device.lib 包括电阻、电容、二极管、三极管和PCB的连接器符号ACTIVE.LIB 包括虚拟仪器和有源器件DIODE.LIB 包括二极管和整流桥DISPLAY.LIB 包括LCD、LEDBIPOLAR.LIB 包括三极管FET.LIB 包括场效应管ASIMMDLS.LIB 包括模拟元器件VALVES .LIB 包括电子管ANALOG.LIB 包括电源调节器、运放和数据采样IC CAPACITORS.LIB 包括电容COMS.LIB 包括4000系列ECL.LIB 包括ECL10000系列MICRO.LIB 包括通用微处理器OPAMP.LIB 包括运算放大器RESISTORS.LIB 包括电阻FAIRCHLD .LIB 包括FAIRCHLD 半导体公司的分立器件LINTEC.LIB 包括LINTEC公司的运算放大器NATDAC.LIB 包括国家半导体公司的数字采样器件NATOA.LIB 包括国家半导体公司的运算放大器TECOOR.LIB 包括TECOOR公司的SCR 和TRIAC TEXOAC.LIB 包括德州仪器公司的运算放大器和比较器ZETEX .LIB 包括ZETEX 公司的分立器件[分享]protues元器件查找代码7407 驱动门1N914 二极管74Ls00 与非门74LS04 非门74LS08 与门74LS390 TTL 双十进制计数器7SEG 4针BCD-LED 输出从0-9 对应于4根线的BCD码7SEG 3-8译码器电路BCD-7SEG转换电路ALTERNATOR 交流发电机AMMETER-MILLI mA安培计AND 与门BATTERY 电池/电池组BUS 总线CAP 电容CAPACITOR 电容器CLOCK 时钟信号源CRYSTAL 晶振D-FLIPFLOP D触发器FUSE 保险丝GROUND 地LAMP 灯LED-RED 红色发光二极管LM016L 2行16列液晶可显示2行16列英文字符,有8位数据总线D0-D7,RS,R/W,EN三个控制端口(共14线),工作电压为5V。
互导运算放大器LM13700的原理与应用
想将有所变化,要强调 OTA参数 的可控性及最佳化等问题 。
2.3通频带 的比较
OTA的 一3dB带宽比常规运放要宽得多。这是 因为在 电流
传输级或电流放 大级 电路 中,无需设置高阻抗结点 ,晶体管极
间电容两端没有大的电压摆幅,而常规运放 的输出量是 电压 , 为了将 晶体管的输出电流转换成大幅度输 出电压 ,必须在每一
上式 中的第一项可变换为输人信 号 V 。、V 的乘积 ,产生 出上、下两个边带信号。第二项是与载波 V;。相关 的项 ,产生固 定幅度 的载波输出,这样就可以实现调幅。
参 考文 献 【1】赵 玉 山 .跨 导 型 放 大 器 原 理 、电路 、应 用 【M】.北 京 :电 子 工 业 出版 社 ,
1 LM13700的原 理分析 LM1 3700是美 国国家半导体公 司(NSC)生产 的双极型集
成双互导运算放大器 ,其管脚排列如图 1所示 。封装在同一芯 片内的两个互导运算放大器结构相同 、特性 一致 ,共用一个 电 源 ,但独立工作 ,两个放大器 的特性 由各 自的偏置 电流独立控 制 ,其 单互导运算放大器的内电路如图 2所示 。
输人级将输人 电压信号变换为 电流信号后 ,可直接利用后级晶
体管的电流放大作用 ,将 电流信号放大并传送到输 出端 ,不需
要像 常规电压运放那样 ,在内电路 中多次进行 电流 一电压变换
三路可调光器说明书
DescriptionSingle pole & 3-WayDimmable LED/CFL/FLR; 450W, 120V/AC; 600W, 277V/ACHAL/INC/ML V/EL V; 720W, 120V/AC; 1000W, 277V/ACDesign features• Dual rated for 120V/AC and 277V/AC. Suitable for commercialand residential applications• Universal dimming of most common dimmable lighting loads(phase-cut)• Preset feature allows user to return to previous light levelwhen turning lights ON• Integrated full-slide control for easy, precise operation• Device can be wired into either 3-Way location (load sideor line side)• Neutral is not required for installation of device• Adjustable low-level trim setting for increased lamp compatibility• Radio frequency interference filtering is standard on all models• Electrostatic discharge protection• Precise color matching• Compatible with any decorator wallplate or screwless decoratorwallplate (wallplate not included)SUT7T able 1. U niversal Slide DimmerProject Name:Prepared By:Project Number:Date:Catalog Number:Type:Universal slide dimmerCompliances, specifications and availability are subject to change without notice.Catalog No.DescriptionCompatibleLamp TypesRatingWatt V/AC Color SuffixSUT7__Slide dimmer, universalSingle pole/3-Way presetDimmableLED/CFL/FLR450120BK, GY, LA,V, W600277BK, GY, LA,V, WINC, HAL,MLV, ELV720120BK, GY, LA,V, W1000277BK, GY, LA,V, W2EATON /wiringdevices Technical DataEffective November 2016Universal slide dimmerCompliances, specifications and availability are subject to change without notice.Catalog No.SUT7Device Type Universal slide dimmer Wiring TypeBack & side wireTesting & Code Compliance • cULus Listed to UL1472, file no. E47967• NOM CertifiedEnvironmental Specifications Flammability: Meets UL 94 requirements; V2 rated Temperature Rating: -20ºC to 70ºC (-4°F to 158°F)Electrical SpecificationsRating: 120V/AC 277V/AC at 60 HzLight Intensity Control: Full-range, continuously variable dimmingDimming Performance: Square Law Dimming curve Solid State Dimming Radio Frequency Interference: Designed to reduce interference with radio, audio and video equipmentLamp Ratings: Dimmable LED/CFL/FLR; 450W, 120V/AC; 600W, 277V/AC HAL/INC/MLV/ELV; 720W, 120V/AC; 1000W, 277V/AC Mechanical SpecificationsWiring Types: Single pole & 3-WayVoltage Ratings: Permanently marked on deviceThe Universal Slide Dimmer provides a high wattage and dual-rated solution for commercial lighting control installations. With its updated industrial design, this dimmer provides a modern and consistent look to match most interior designs. The dimmers with full range linear slide dimming are rated for wattages up to 600W (@277V/AC) for dimmable LED/CFL and fluorescents as well as 1000W (@277V/AC) incandescents, halogen, magnetic low voltage and electronic low voltage. These dimmers are ideal for commercial as well as residential applications and are compatible with Eaton’s decorator style devices and wall plates. The preset ON/OFF switch automatically returns controlled light(s) to a preset level without disturbing the brightness level. The device is designed for both single-pole (one location) and 3-Way (multi-location) applications and features low-end trimming for increased lamp compatibility.Catalog No.SUT7Top Housing Polycarbonate Bottom Housing Polycarbonate StrapAluminum Form Factor Decorator FinishGlossT able 2. SpecificationsApplicationsT able 3. MaterialsProject Name:Prepared By:Project Number:Date:Catalog Number:Type:T able 4. De-Rating Chart - 120V/AC applications onlyT able 5. Color Ordering InformationLamp Type1-Gang2-Gang3-Gang +LED/CFL/FLR 450W max.450W max.450W max.INC/HAL/MLV/ELV 720W max.600W max.500W max.No de-rating required for 277V/AC applicationFor ordering devices, include Catalog no. followed by the Color suffix: BK (Black), GY (Gray), LA (Light Almond), V (Ivory), W (White)Certifications & CompliancesKEY:cULusNOMANCETechnical DataEffective November 2016Universal slide dimmerProject Name:Prepared By:Project Number:Date:Catalog Number:Type:Product DimensionsFigure 1. SUT7 Line Art with DimensionsSingle-Pole Wiring DiagramINC, HAL, LED/CFL, FLR, ML V , EL V3-W ay Wiring DiagramINC, HAL, LED/CFL, FLR, ML V , EL VWiring Diagramsote:N Location of terminal screws are color-coded with “BK” or “YL ”.ote:N 3-way switch must be used at the other locations.Electrical Sector203 Cooper CirclePeachtree City, GA 30269United States /wiringdevicesElectrical Sector Canada Operations 5925 McLaughlin RoadMississauga, Ontario, L5R 1B8CanadaEatonCanada.ca/wiringdevicesElectrical Sector Mexico Operations Carr. Tlalnepantla -Cuautitlan Km 17.8 s/n Col. Villa Jardin esq.Cerrada 8 de MayoCuautitlan, Mexico CP 54800Mexico Eaton.mx/wiringdevicesEaton is a registered trademark. All other trademarks are property of their respective owners.Eaton1000 Eaton Boulevard Cleveland, OH 44122United States © 2016 EatonAll Rights Reserved Printed in USAPublication No. TD620014EN November 2016。
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LM13700LM13700 Dual Operational Transconductance Amplifiers with Linearizing Diodes and BuffersLiterature Number: SNOSBW2D芯天下--/LM13700Dual Operational Transconductance Amplifiers with Linearizing Diodes and BuffersGeneral DescriptionThe LM13700series consists of two current controlled transconductance amplifiers,each with differential inputs and a push-pull output.The two amplifiers share common supplies but otherwise operate independently.Linearizing diodes are provided at the inputs to reduce distortion and allow higher input levels.The result is a 10dB signal-to-noise improvement referenced to 0.5percent THD.High impedance buffers are provided which are especially de-signed to complement the dynamic range of the amplifiers.The output buffers of the LM13700differ from those of the LM13600in that their input bias currents (and hence their output DC levels)are independent of I ABC .This may result in performance superior to that of the LM13600in audio appli-cations.Featuresn g m adjustable over 6decades n Excellent g m linearityn Excellent matching between amplifiers n Linearizing diodesn High impedance buffersnHigh output signal-to-noise ratioApplicationsn Current-controlled amplifiers n Current-controlled impedances n Current-controlled filtersn Current-controlled oscillators n Multiplexers n TimersnSample-and-hold circuitsConnection DiagramDual-In-Line and Small Outline Packages00798102Top ViewOrder Number LM13700M,LM13700MX or LM13700NSee NS Package Number M16A or N16AJune 2004LM13700Dual Operational Transconductance Amplifiers with Linearizing Diodes and Buffers©2004National Semiconductor Corporation Absolute Maximum Ratings (Note 1)If Military/Aerospace specified devices are required,please contact the National Semiconductor Sales Office/Distributors for availability and specifications.Supply Voltage LM1370036V DC or ±18VPower Dissipation (Note 2)T A =25˚C LM13700N570mWDifferential Input Voltage ±5VDiode Bias Current (I D )2mA Amplifier Bias Current (I ABC )2mA Output Short Circuit DurationContinuousBuffer Output Current (Note 3)20mA Operating Temperature Range LM13700N 0˚C to +70˚C DC Input Voltage+V S to −V SStorage Temperature Range −65˚C to +150˚CSoldering Information Dual-In-Line Package Soldering (10sec.)260˚C Small Outline Package Vapor Phase (60sec.)215˚C Infrared (15sec.)220˚CElectrical Characteristics (Note 4)ParameterConditionsLM13700Units MinTyp Max Input Offset Voltage (V OS )Over Specified Temperature Range 0.44mV I ABC =5µA0.34V OS Including Diodes Diode Bias Current (I D )=500µA 0.55mV Input Offset Change 5µA ≤I ABC ≤500µA0.13mV Input Offset Current 0.10.6µA Input Bias Current Over Specified Temperature Range0.45µA18Forward6700960013000µmho Transconductance (g m )Over Specified Temperature Range 5400g m Tracking 0.3dBPeak Output CurrentR L =0,I ABC =5µA 5R L =0,I ABC =500µA350500650µA R L =0,Over Specified Temp Range300Peak Output Voltage Positive R L =∞,5µA ≤I ABC ≤500µA +12+14.2V Negative R L =∞,5µA ≤I ABC ≤500µA −12−14.4V Supply Current I ABC =500µA,Both Channels2.6mAV OS Sensitivity Positive ∆V OS /∆V +20150µV/V Negative ∆V OS /∆V −20150µV/V CMRR80110dB Common Mode Range ±12±13.5V CrosstalkReferred to Input (Note 5)100dB20Hz <f <20kHz Differential Input Current I ABC =0,Input =±4V0.02100nA Leakage Current I ABC =0(Refer to Test Circuit)0.2100nA Input Resistance 1026k ΩOpen Loop Bandwidth 2MHz Slew RateUnity Gain Compensated 50V/µs Buffer Input Current (Note 5)0.52µA Peak Buffer Output Voltage(Note 5)10VNote 1:“Absolute Maximum Ratings”indicate limits beyond which damage to the device may occur.Operating Ratings indicate conditions for which the device is functional,but do not guarantee specific performance limits.Note 2:For operation at ambient temperatures above 25˚C,the device must be derated based on a 150˚C maximum junction temperature and a thermal resistance,junction to ambient,as follows:LM13700N,90˚C/W;LM13700M,110˚C/W.Note 3:Buffer output current should be limited so as to not exceed package dissipation.L M 13700 2Electrical Characteristics (Note 4)(Continued)Note 4:These specifications apply for V S =±15V,T A =25˚C,amplifier bias current (I ABC )=500µA,pins 2and 15open unless otherwise specified.The inputs to the buffers are grounded and outputs are open.Note 5:These specifications apply for V S =±15V,I ABC =500µA,R OUT =5k Ωconnected from the buffer output to −V S and the input of the buffer is connected to the transconductance amplifier output.Schematic DiagramOne Operational Transconductance Amplifier00798101Typical Application00798118Voltage Controlled Low-Pass FilterLM137003Typical Performance CharacteristicsInput Offset Voltage Input Offset Current0079813800798139 Input Bias Current Peak Output Current0079814000798141 Peak Output Voltage andCommon Mode Range Leakage Current0079814200798143 LM1374Typical Performance Characteristics(Continued)Input LeakageTransconductance0079814400798145Input ResistanceAmplifier Bias Voltage vs.Amplifier Bias Current0079814600798147Input and Output Capacitance Output Resistance0079814800798149LM137005Typical Performance Characteristics(Continued)Distortion vs.DifferentialInput VoltageVoltage vs.AmplifierBias Current0079815000798151Output Noise vs.Frequency00798152Unity Gain Follower00798105L M 13700 6Typical Performance Characteristics(Continued)Leakage Current Test Circuit Differential Input Current Test Circuit0079810600798107Circuit DescriptionThe differential transistor pair Q4and Q5form a transcon-ductance stage in that the ratio of their collector currents isdefined by the differential input voltage according to thetransfer function:(1)where V IN is the differential input voltage,kT/q is approxi-mately26mV at25˚C and I5and I4are the collector currentsof transistors Q5and Q4respectively.With the exception ofQ12and Q13,all transistors and diodes are identical in size.Transistors Q1and Q2with Diode D1form a current mirrorwhich forces the sum of currents I4and I5to equal I ABC:I4+I5=I ABC(2)where I ABC is the amplifier bias current applied to the gainpin.For small differential input voltages the ratio of I4and I5approaches unity and the Taylor series of the In function canbe approximated as:(3)(4)Collector currents I4and I5are not very useful by themselvesand it is necessary to subtract one current from the other.The remaining transistors and diodes form three currentmirrors that produce an output current equal to I5minus I4thus:(5)The term in brackets is then the transconductance of theamplifier and is proportional to I ABC.Linearizing DiodesFor differential voltages greater than a few millivolts,Equa-tion(3)becomes less valid and the transconductance be-comes increasingly nonlinear.Figure1demonstrates howthe internal diodes can linearize the transfer function of theamplifier.For convenience assume the diodes are biasedwith current sources and the input signal is in the form ofcurrent I S.Since the sum of I4and I5is I ABC and the differ-ence is I OUT,currents I4and I5can be written as follows:Since the diodes and the input transistors have identicalgeometries and are subject to similar voltages and tempera-tures,the following is true:(6)Notice that in deriving Equation(6)no approximations havebeen made and there are no temperature-dependent terms.The limitations are that the signal current not exceed I D/2and that the diodes be biased with currents.In practice,replacing the current sources with resistors will generateinsignificant errors.ApplicationsVoltage Controlled AmplifiersFigure2shows how the linearizing diodes can be used in avoltage-controlled amplifier.To understand the input biasing,it is best to consider the13kΩresistor as a current sourceand use a Thevenin equivalent circuit as shown in Figure3.This circuit is similar to Figure1and operates the same.Thepotentiometer in Figure2is adjusted to minimize the effectsof the control signal at the output.LM137007ApplicationsVoltage Controlled Amplifiers(Continued)For optimum signal-to-noise performance,I ABC should be as large as possible as shown by the Output Voltage vs.Ampli-fier Bias Current rger amplitudes of input signal also improve the S/N ratio.The linearizing diodes help here by allowing larger input signals for the same output distortion as shown by the Distortion vs.Differential Input Voltage graph.S/N may be optimized by adjusting the magnitude of the input signal via R IN (Figure 2)until the output distortion is below some desired level.The output voltage swing can then be set at any level by selecting R L .Although the noise contribution of the linearizing diodes is negligible relative to the contribution of the amplifier’s inter-nal transistors,I D should be as large as possible.This mini-mizes the dynamic junction resistance of the diodes (r e )and maximizes their linearizing action when balanced against R IN .A value of 1mA is recommended for I D unless the specific application demands otherwise.00798108FIGURE 1.Linearizing Diodes00798109FIGURE 2.Voltage Controlled AmplifierL M 13700 8ApplicationsVoltage Controlled Amplifiers(Continued)Stereo Volume ControlThe circuit of Figure4uses the excellent matching of the twoLM13700amplifiers to provide a Stereo Volume Control witha typical channel-to-channel gain tracking of0.3dB.R P isprovided to minimize the output offset voltage and may bereplaced with two510Ωresistors in AC-coupled applications.For the component values given,amplifier gain is derived forFigure2as being:If V C is derived from a second signal source then the circuitbecomes an amplitude modulator or two-quadrant multiplieras shown in Figure5,where:The constant term in the above equation may be cancelledby feeding I S x I D R C/2(V−+1.4V)into I O.The circuit ofFigure6adds R M to provide this current,resulting in afour-quadrant multiplier where R C is trimmed such that V O=0V for V IN2=0V.R M also serves as the load resistor for I O.00798110FIGURE3.Equivalent VCA Input CircuitLM137009Stereo Volume Control(Continued)00798111FIGURE 4.Stereo Volume Control00798112FIGURE 5.Amplitude ModulatorL M 13700Stereo Volume Control(Continued)Noting that the gain of the LM13700amplifier of Figure 3may be controlled by varying the linearizing diode current I D as well as by varying I ABC ,Figure 7shows an AGC Amplifier using this approach.As V O reaches a high enough amplitude (3V BE )to turn on the Darlington transistors and the lineariz-ing diodes,the increase in I D reduces the amplifier gain so as to hold V O at that level.Voltage Controlled ResistorsAn Operational Transconductance Amplifier (OTA)may be used to implement a Voltage Controlled Resistor as shown in Figure 8.A signal voltage applied at R X generates a V IN to the LM13700which is then multiplied by the g m of the amplifier to produce an output current,thus:where g m ≈19.2I ABC at 25˚C.Note that the attenuation of V O by R and R A is necessary to maintain V IN within the linear range of the LM13700input.Figure 9shows a similar VCR where the linearizing diodes are added,essentially improving the noise performance of the resistor.A floating VCR is shown in Figure 10,where each “end”of the “resistor”may be at any voltage within the output voltage range of the LM13700.00798113FIGURE 6.Four-Quadrant Multiplier00798114FIGURE 7.AGC AmplifierLM13700Voltage Controlled Resistors(Continued)Voltage Controlled FiltersOTA’s are extremely useful for implementing voltage con-trolled filters,with the LM13700having the advantage that the required buffers are included on the I.C.The VC Lo-Pass Filter of Figure 11performs as a unity-gain buffer amplifier at frequencies below cut-off,with the cut-off frequency being the point at which X C /g m equals the closed-loop gain of (R/R A ).At frequencies above cut-off the circuit provides a single RC roll-off (6dB per octave)of the input signal ampli-tude with a −3dB point defined by the given equation,whereg m is again 19.2x I ABC at room temperature.Figure 12shows a VC High-Pass Filter which operates in much the same manner,providing a single RC roll-off below the de-fined cut-off frequency.Additional amplifiers may be used to implement higher order filters as demonstrated by the two-pole Butterworth Lo-Pass Filter of Figure 13and the state variable filter of Figure 14.Due to the excellent g m tracking of the two amplifiers,these filters perform well over several decades of frequency.00798115FIGURE 8.Voltage Controlled Resistor,Single-Ended00798116FIGURE 9.Voltage Controlled Resistor with Linearizing DiodesL M 13700Voltage Controlled Filters(Continued)00798117FIGURE10.Floating Voltage Controlled Resistor00798118FIGURE11.Voltage Controlled Low-Pass Filter LM13700Voltage Controlled Filters(Continued)00798119FIGURE 12.Voltage Controlled Hi-Pass Filter00798120FIGURE 13.Voltage Controlled 2-Pole Butterworth Lo-Pass FilterL M 13700Voltage Controlled Filters(Continued)Voltage Controlled OscillatorsThe classic Triangular/Square Wave VCO of Figure15is one of a variety of Voltage Controlled Oscillators which may be built utilizing the LM13700.With the component values shown,this oscillator provides signals from200kHz to below 2Hz as I C is varied from1mA to10nA.The output amplitudes are set by I A x R A.Note that the peak differential input voltage must be less than5V to prevent zenering the inputs.A few modifications to this circuit produce the ramp/pulse VCO of Figure16.When V O2is high,I F is added to I C to increase amplifier A1’s bias current and thus to increase the charging rate of capacitor C.When V O2is low,I F goes to zero and the capacitor discharge current is set by I C.The VC Lo-Pass Filter of Figure11may be used to produce a high-quality sinusoidal VCO.The circuit of Figure16em-ploys two LM13700packages,with three of the amplifiers configured as lo-pass filters and the fourth as a limiter/ inverter.The circuit oscillates at the frequency at which the loop phase-shift is360˚or180˚for the inverter and60˚per filter stage.This VCO operates from5Hz to50kHz with less than1%THD.00798121FIGURE14.Voltage Controlled State Variable Filter LM13700Voltage Controlled Oscillators(Continued)00798122FIGURE 15.Triangular/Square-Wave VCO00798123FIGURE 16.Ramp/Pulse VCOL M 13700Voltage Controlled Oscillators(Continued)Additional ApplicationsFigure 19presents an interesting one-shot which draws no power supply current until it is triggered.A positive-going trigger pulse of at least 2V amplitude turns on the amplifier through R B and pulls the non-inverting input high.The am-plifier regenerates and latches its output high until capacitor C charges to the voltage level on the non-inverting input.The output then switches low,turning off the amplifier and dis-charging the capacitor.The capacitor discharge rate is speeded up by shorting the diode bias pin to the inverting input so that an additional discharge current flows through D I when the amplifier output switches low.A special feature of this timer is that the other amplifier,when biased from V O ,can perform another function and draw zero stand-by power as well.00798124FIGURE 17.Sinusoidal VCO00798125Figure 18shows how to build a VCO using one amplifier when the other amplifier is needed for another function.FIGURE 18.Single Amplifier VCOLM13700Additional Applications(Continued)The operation of the multiplexer of Figure 20is very straight-forward.When A1is turned on it holds V O equal to V IN1and when A2is supplied with bias current then it controls V O .C C and R C serve to stabilize the unity-gain configuration of amplifiers A1and A2.The maximum clock rate is limited to about 200kHz by the LM13700slew rate into 150pF when the (V IN1–V IN2)differential is at its maximum allowable value of 5V.The Phase-Locked Loop of Figure 21uses the four-quadrant multiplier of Figure 6and the VCO of Figure 18to produce a PLL with a ±5%hold-in range and an input sensitivity of about 300mV.00798126FIGURE 19.Zero Stand-By Power Timer00798127FIGURE 20.MultiplexerL M 13700Additional Applications(Continued)The Schmitt Trigger of Figure22uses the amplifier output current into R to set the hysteresis of the comparator;thus V H=2x R x I B.Varying I B will produce a Schmitt Trigger with variable hysteresis.Figure23shows a Tachometer or Frequency-to-Voltage con-verter.Whenever A1is toggled by a positive-going input,an amount of charge equal to(V H–V L)C t is sourced into C f and R t.This once per cycle charge is then balanced by the current of V O/R t.The maximum F IN is limited by the amount of time required to charge C t from V L to V H with a current of I B,where V L and V H represent the maximum low and maxi-mum high output voltage swing of the LM13700.D1is added to provide a discharge path for C t when A1switches low.The Peak Detector of Figure24uses A2to turn on A1 whenever V IN becomes more positive than V O.A1then charges storage capacitor C to hold V O equal to V IN PK. Pulling the output of A2low through D1serves to turn off A1 so that V O remains constant.00798128FIGURE21.Phase Lock Loop00798129 FIGURE22.Schmitt Trigger LM13700Additional Applications(Continued)The Ramp-and-Hold of Figure 26sources I B into capacitor C whenever the input to A1is brought high,giving a ramp-rate of about 1V/ms for the component values shown.The true-RMS converter of Figure 27is essentially an auto-matic gain control amplifier which adjusts its gain such that the AC power at the output of amplifier A1is constant.The output power of amplifier A1is monitored by squaring ampli-fier A2and the average compared to a reference voltage with amplifier A3.The output of A3provides bias current tothe diodes of A1to attenuate the input signal.Because the output power of A1is held constant,the RMS value is constant and the attenuation is directly proportional to the RMS value of the input voltage.The attenuation is also proportional to the diode bias current.Amplifier A4adjusts the ratio of currents through the diodes to be equal and therefore the voltage at the output of A4is proportional to the RMS value of the input voltage.The calibration potentiom-eter is set such that V O reads directly in RMS volts.00798130FIGURE 23.Tachometer00798131FIGURE 24.Peak Detector and Hold CircuitL M 13700 20Additional Applications(Continued)00798132FIGURE 25.Sample-Hold Circuit00798133FIGURE 26.Ramp and HoldLM1370021Additional Applications(Continued)The circuit of Figure28is a voltage reference of variableTemperature Coefficient.The100kΩpotentiometer adjuststhe output voltage which has a positive TC above1.2V,zeroTC at about 1.2V,and negative TC below 1.2V.This isaccomplished by balancing the TC of the A2transfer functionagainst the complementary TC of D1.The wide dynamic range of the LM13700allows easy controlof the output pulse width in the Pulse Width Modulator ofFigure29.For generating I ABC over a range of4to6decades ofcurrent,the system of Figure30provides a logarithmic cur-rent out for a linear voltage in.Since the closed-loop configuration ensures that the input toA2is held equal to0V,the output current of A1is equal toI3=−V C/R C.The differential voltage between Q1and Q2is attenuated bythe R1,R2network so that A1may be assumed to be oper-ating within its linear range.From Equation(5),the inputvoltage to A1is:The voltage on the base of Q1is thenThe ratio of the Q1and Q2collector currents is defined by:Combining and solving for I ABC yields:This logarithmic current can be used to bias the circuit ofFigure4to provide temperature independent stereo attenu-ation characteristic.00798134FIGURE27.True RMS ConverterLM13722Additional Applications(Continued)00798135FIGURE 28.Delta VBE Reference00798136FIGURE 29.Pulse Width ModulatorLM1370023Additional Applications(Continued)00798137FIGURE 30.Logarithmic Current SourceL M 13700 24Physical Dimensionsinches (millimeters)unless otherwise notedS.O.Package (M)Order Number LM13700M or LM13700MXNS Package Number M16AMolded Dual-In-Line Package (N)Order Number LM13700N NS Package Number N16ALM1370025NotesLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION.As used herein:1.Life support devices or systems are devices or systems which,(a)are intended for surgical implant into the body,or (b)support or sustain life,and whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in a significant injury to the user. 2.A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,or to affect its safety or effectiveness.BANNED SUBSTANCE COMPLIANCENational Semiconductor certifies that the products and packing materials 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