8A977B
半轴OEM编码对照表
备注 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右 左 右
金多利汽配半轴OEM编码对照表 OEM编码 适用车型 2E34-3426003-A01 中华FRV/FSV 4A15发动机 2E34-3426004-A01 中华FRV/FSV 4A15发动机 2E34-3426005-A00 中华FRV/FSV 4A91发动机 2E34-3426006-A00 中华FRV/FSV 4A91发动机 F3D-2203010 比亚迪F3 4G18发动机 F3D-2203020 比亚迪F3 4G18发动机 比亚迪F0 比亚迪F0 EGE-2203100 比亚迪F6 2.0排量 EGE-2203200 比亚迪F6 2.0排量 1B5-2203010 比亚迪F3/G3 473Q发动机 1B5-2203020 比亚迪F3/G3 473Q发动机 G3D-2203010-C1 比亚迪F3/G3/L3 CVT G3D-2203020-C1 比亚迪F3/G3/L4 CVT S11-2203010FB 奇瑞QQ 0.8排量 S11-2203020FB 奇瑞QQ 0.8排量 S21-2203010CA 奇瑞QQ6 1.1排量 S21-2203020CA 奇瑞QQ6 1.1排量 S12-2203010AB 奇瑞A1 S12-2203020AB 奇瑞A1 A11-2203010CB 奇瑞旗云2 1.5排量 A11-2203011CB 奇瑞旗云2 1.5排量 M11-2203010BA 奇瑞A3 M11-2203020BA 奇瑞A3 A21-2203010GA 奇瑞A516 A21-2203020GA 奇瑞A516 A21-2203010 奇瑞515/旗云3 A21-2203020 奇瑞515/旗云3 T11-2203010BD 奇瑞瑞虎 2驱 T11-2203020BD 奇瑞瑞虎 2驱 BAC-2203100 力帆620 BAC-2203200 力帆620
车辆17位车型码编码说明
8
第6、7位表示轴距,用数字表示。 设计车型号 CA1253P7K2L11T3 CA1201P11K2L11T 4 CA4252P21K2T1A1 CA3232P1K2B2T1J 轴距 2660+4715mm 1700+4375+1350mm 3300+1350mm 3500+1350mm 代码 47 43 33 35
注:所有车型都用变化部分轴距的前两位数字表示。
9
第8、9位:表示发动机厂家及功率,用数字和大写英文字母(除去易混字 母I、O、V、Z共22个字母)表示 1、第八位代码为“1-3”表示大柴机。功率以10Ps为单位划分 一 个 区 间 , 当 功 率 在 110Ps-400Ps 区 间 , 则 代 码 “ 11 、 12 、 13…1A…1X” 表 示 大 柴 及 功 率 ( 即 为 110Ps 、 120Ps 、 130Ps…200Ps…400Ps间的功率)。若功率大于400Ps以上,第一 位代码用“2”表示,第二位代码(即功率段)要重新从“1”开始排 序,如:代码“21、22、23…2A…2X”表示大柴及功率(即410Ps、 420Ps、430Ps…500Ps…700Ps间的功率)。 2、第八位代码为“4-6”表示锡柴机。 3、第八位代码为“7-9”表示潍柴机。功率段的划分同上,仅 是第一位代码(即生产厂家)不同。
潍柴 (第八位用“7-9”表示)
功率 260Ps 270Ps 280Ps 290Ps 300Ps 310Ps 320Ps 330Ps 340Ps 350Ps 360Ps 370Ps 380Ps 390Ps 400Ps
代 码 7G 7H 7J 7K 7L 7M 7N 7P 7Q 7R 7S 7T 7U 7W 7X
Motorola 3.5 kHz 产品说明书
RVN4126 3.59100-386-9100-386/T DEVICERVN41772-CD2-3.5MCS/MTSRVN41821-CD2-3.5XTS3000/SABER PORTABLE YES RKN4046KHVN9085 3.51-20 R NO HLN9359 PROG. STAND RVN4057 3.532 X 8 CODEPLUG NO3080385B23 & 5880385B30 MDVN4965 3.59100-WS/T CONFIG KITRVN4053 3.5ASTRO DIGITAL INTERFACE NO3080385B23RVN41842-CD RKN4046A (Portable) 2-3.5ASTRO PORTABLE /MOBILE YES3080369B73 or0180300B10 (Mobile) RVN41831-CD3080369B732-3.5ASTRO SPECTRA MOBILE YES(Low / Mid Power)0180300B10 (High Power) RVN4185CD ASTRO SPECTRA PLUS MOBILE NO MANY OPTIONS; SEESERVICE BRIEF#SB-MO-0101RVN4186CD ASTRO SPECTRA PLUS MANY OPTIONS;MOBILE/PORTABLE COMB SEE SERVICE BRIEF#SB-MO-0101RVN4154 3.5ASTROTAC 3000 COMPAR.3080385B23RVN5003 3.5ASTROTAC COMPARATORS NO3080399E31 Adpt.5880385B34RVN4083 3.5BSC II NO FKN5836ARVN4171 3.5C200RVN4029 3.5CENTRACOM SERIES II NO VARIOUS-SEE MANUAL6881121E49RVN4112 3.5COMMAND PLUS NORVN4149 3.5COMTEGRA YES3082056X02HVN6053CD CT250, 450, 450LS YES AAPMKN4004RVN4079 3.5DESKTRAC CONVENTIONAL YES3080070N01RVN4093 3.5DESKTRAC TRUNKED YES3080070N01RVN4091 3.5DGT 9000 DESKSET YES0180358A22RVN4114 3.5GLOBAL POSITIONING SYS.NO RKN4021AHVN8177 3.5GM/GR300/GR500/GR400M10/M120/130YES3080070N01RVN4159 3.5GP60 SERIES YES PMLN4074AHVN9128 3.5GP300 & GP350RVN4152 3.5GP350 AVSRVN4150 3.5GTX YES HKN9857 (Portable)3080070N01(Mobile) HVN9025CD HT CDM/MTX/EX SERIES YES AARKN4083/AARKN4081RiblessAARKN4075RIBLESS NON-USA RKN4074RVN4098H 3.5HT1000/JT1000-VISAR YES3080371E46(VISAR CONV)RVN4151 3.5HT1000 AVSRVN4098 3.5HT1000/ VISAR CONV’L.YES RKN4035B (HT1000) HVN9084 3.5i750YES HLN-9102ARVN4156 3.5LCS/LTS 2000YES HKN9857(Portable)3080070N01(Mobile) RVN4087 3.5LORAN C LOC. RECV’R.NO RKN4021ARVN4135 3.5M100/M200,M110,M400,R100 includesHVN9173,9177,9646,9774YES3080070N01RVN4023 3.5MARATRAC YES3080070N01RVN4019 3.5MAXTRAC CONVENTIONAL YES3080070N01RVN4139 3.5MAXTRAC LS YES3080070N01RVN4043 3.5MAXTRAC TRK DUPLEX YES3080070N01RVN4178CD MC SERIES, MC2000/2500DDN6124AW/DB25 CONNECTORDDN6367AW/DB9 CONNECTOR RVN41751-CD Rib to MIC connector 1-3.5MCS2000 RKN4062BRVN41131-3.5MCS2000RVN4011 3.5MCX1000YES3000056M01RVN4063 3.5MCX1000 MARINE YES3000056M01RVN4117 3.5MDC/RDLAP DEVICESRVN4105 3.5MOBILE PROG. TOOLRVN4119 3.5MOBITEX DEVICESRVN4128 3.5MPT1327-1200 SERIES YES SEE MANUALRVN4025 3.5MSF5000/PURC/ANALOG YES0180355A30RVN4077 3.5MSF5000/10000FLD YES0180355A30RVN4017K 3.5MT 1000YES RTK4205CRVN4148 3.5MTR 2000YES3082056X02RVN4140 3.5MTRI 2000NORVN41761-CD MTS2000, MT2000*, MTX8000, MTX90001-3.5*programmed by DOS which is included in the RVN4176RVN4131 3.5MTVA CODE PLUG FIXRVN4142 3.5MTVA DOCTOR YES3080070N01RVN4131 3.5MTVA3.EXERVN4013 3.5MTX800 & MTX800S YES RTK4205CRVN4097 1-CD MTX8000/MTX9000,MTS2000,MT2000*,* programmed by DOS which is included in the RVN4176HVN9067CD MTX850/MTX8250MTX950,MTX925RVN4138 3.5MTX-LS YES RKN4035DRVN4035 3.5MX 1000YES RTK4203CRVN4073 3.5MX 800YES RKN4006BHVN9395 P100, P200 LB, P50+, P210, P500, PR3000RVN4134 3.5P100 (HVN9175)P200 LB (HVN9794)P50+ (HVN9395)P210 (HVN9763)P500 (HVN9941)PR3000 (HVN9586)YES RTK4205HVN9852 3.5P110YES HKN9755A/REX1143 HVN9262 3.5P200 UHF/VHF YES RTK4205RVN4129 3.5PDT220YVN4051 3.5PORTABLE REPEATER Portable rptr.P1820/P1821AXRVN4061C 3.5PP 1000/500NO3080385B23 & 5880385B30 RVN5002 3.5QUANTAR/QUANTRO NO3O80369E31RVN4135 3.5R100 (HVN9177)M100/M200/M110/M400YES0180358A52RVN4146 3.5RPM500/660RVN4002 3.5SABER YES RTK4203CRVN4131 3.5SETTLET.EXEHVN9007 3.5SM50 & SM120YESRVN4039 3.5SMART STATUS YES FKN5825AHVN9054 3.5SOFTWARE R03.2 P1225YES3080070N01HVN9001 3.5SOFTWARE R05.00.00 1225LS YES HLN9359AHVN9012 3.5SP50RVN4001N 3.5SPECTRA YES3080369B73 (STANDARD)0180300B10 (HIGH POWER) RVN4099 3.5SPECTRA RAILROAD YES3080369B73RVN4110 3.5STATION ACCESS MODULE NO3080369E31RVN4089A 3.5STX TRANSIT YES0180357A54RVN4051 3.5SYSTEMS SABER YES RTK4203BRVN4075 3.5T5600/T5620 SERIES NO3080385B23HVN9060CD TC3000, TS3000, TR3000RVN4123 3.5VISAR PRIVACY PLUS YES3080371E46FVN4333 3.5VRM 100 TOOLBOX FKN4486A CABLE &ADAPTORRVN4133 3.5VRM 500/600/650/850NORVN4181CD XTS 2500/5000 PORTABLES RKN4105A/RKN4106A RVN41002- 3.5XTS3000 ASTRO PORTABLE/MOBILERVN4170 3.5XTS3500YES RKN4035DRIB SET UPRLN4008E RADIO INTERFACE BOX (RIB)0180357A57RIB AC POWER PACK 120V0180358A56RIB AC POWER PACK 220V3080369B71IBM TO RIB CABLE (25 PIN) (USE WITH XT & PS2)3080369B72IBM TO RIB CABLE (9 PIN)RLN443825 PIN (F) TO 9 PIN (M) ADAPTOR (USE W/3080369B72 FOR AT APPLICATION) 5880385B308 PIN MODULAR TO 25 PIN ”D” ADAPTOR (FOR T5600 ONLY)0180359A29DUPLEX ADAPTOR (MOSTAR/TRAXAR TRNK’D ONLY)Item Disk Radio RIB Cable Number Size Product Required Number Item Disk Radio RIB Cable Number Size Product Required NumberUtilizing your personal computer, Radio Service Software (RSS)/Customer Programming Software (CPS)/CustomerConfiguration Software (CCS) enables you to add or reprogram features/parameters as your requirements change. RSS/CPS/CCS is compatible with IBM XT, AT, PS/2 models 30, 50, 60 and 80.Requires 640K RAM. DOS 3.1 or later. Consult the RSS users guide for the computer configuration and DOS requirements. (ForHT1000, MT/MTS2000, MTX838/8000/9000, Visar and some newer products —IBM model 386, 4 MEG RAM and DOS 5.0 or higher are recommended.) A Radio Interface Box (RIB) may be required as well as the appropriate cables. The RIB and cables must be ordered separately.Licensing:A license is required before a software (RVN) order is placed. The software license is site specific (customer number and ultimate destination tag). All sites/locations must purchase their own software.Be sure to place subsequent orders using the original customer number and ship-to-tag or other licensed sites; ordering software without a licensed customer number and ultimate tag may result in unnecessary delays. To obtain a no charge license agreement kit, order RPX4719. To place an order in the U.S. call 1-800-422-4210. Outside the U.S., FAX 847-576-3023.Subscription Program:The purchase of Radio ServiceSoftware/Customer Programming/Customer ConfigurationSoftware (RVN & HVN kits) entitles the buyer/subscriber to three years of free upgrades. At the end of these three years, the sub-scriber must purchase the same Radio Service Software kit to receive an additional three years of free upgrades. If the sub-scriber does not elect to purchase the same Radio Service Software kit, no upgrades will be sent. Annually a subscription status report is mailed to inform subscribers of the RSS/CPS/CCS items on our database and their expiration dates.Notes:1)A subscription service is offered on “RVN”-Radio Service Software/Customer Programming/Customer Configuration Software kits only.2)“RVN” software must only be procured through Radio Products and Services Division (RPSD). Software not procured through the RPSD will not be recorded on the subscription database; upgrades will not be mailed.3)Upgrades are mailed to the original buyer (customer number & ultimate tag).4)SP software is available through the radio product groups.The Motorola General Radio Service Software Agreement is now available on Motorola Online. If you need assistance please feel free to submit a “Contact Us” or call 800-422-4210.SMART RIB SET UPRLN1015D SMART RIB0180302E27 AC POWER PACK 120V 2580373E86 AC POWER PACK 220V3080390B49SMARTRIB CABLE (9 PIN (F) TO 9 PIN (M) (USE WITH AT)3080390B48SMARTRIB CABLE (25 PIN (F) TO 9 PIN (M) (USE WITH XT)RLN4488ASMART RIB BATTERY PACKWIRELESS DATA GROUP PRODUTS SOFTWARERVN4126 3.59100-386/9100T DEVICES MDVN4965 3.59100-WS/T CONFIG’TN RVN41173.5MDC/RDLAP DEVICESPAGING PRODUCTS MANUALS6881011B54 3.5ADVISOR6881029B90 3.5ADVISOR ELITE 6881023B20 3.5ADVISOR GOLD 6881020B35 3.5ADVISOR PRO FLX 6881032B30 3.5BR8506881032B30 3.5LS3506881032B30 3.5LS5506881032B30 3.5LS7506881033B10 3.5LS9506881035B20 3.5MINITOR III8262947A15 3.5PAGEWRITER 20008262947A15 3.5PAGEWRITER 2000X 6881028B10 3.5TALKABOUT T3406881029B35 3.5TIMEPORT P7308262947A15 3.5TIMEPORT P930NLN3548BUNIVERSAL INTERFACE KITItem Disk Radio NumberSize Product。
TI型号大全35-迈锐国际
TI型号⼤全35-迈锐国际ADC0820CCWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC082S021CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S021CIMMX/NOPB VSSOP-83500EAR99TI迈锐国际胡浩亮137********ADC082S051CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S101CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S101CIMMX/NOPB VSSOP-83500EAR99TI迈锐国际胡浩亮137********ADC083000CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC083000CIYB/S7002214HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC0831CCN/NOPB PDIP-81000EAR99TI迈锐国际胡浩亮137********ADC0831CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0831CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC0832CCN/NOPB PDIP-81000EAR99TI迈锐国际胡浩亮137********ADC0832CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0832CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC0834CCN/NOPB PDIP-14500EAR99TI迈锐国际胡浩亮137********ADC0834CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0834CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC08351CILQE/NOPB WQFN-24250EAR99TI迈锐国际胡浩亮137********ADC08351CILQX/NOPB WQFN-244500EAR99TI迈锐国际胡浩亮137********ADC08351CIMTCE/NOPB TSSOP-20250EAR99TI迈锐国际胡浩亮137********ADC08351CIMTCX/NOPB TSSOP-202500EAR99TI迈锐国际胡浩亮137********ADC08351EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC0838CCWM/NOPB SOIC-202160EAR99TI迈锐国际胡浩亮137********ADC0838CCWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC0838CIWM/NOPB SOIC-202160EAR99TI迈锐国际胡浩亮137********ADC0838CIWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC0848BCV/NOPB PLCC-281750EAR99TI迈锐国际胡浩亮137********ADC0848BCVX/NOPB PLCC-28750EAR99TI迈锐国际胡浩亮137********ADC0848CCV/NOPB PLCC-281750EAR99TI迈锐国际胡浩亮137******** ADC0848CCVX/NOPB PLCC-28750EAR99TI迈锐国际胡浩亮137********ADC084S021CIMM/J7001218VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S021CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S021CIMMX/NOPB VSSOP-103500EAR99TI迈锐国际胡浩亮137********ADC084S051CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S101CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC08500CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08831IM SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08831IM/NOPB SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08831IMX/NOPB SOIC-82500EAR99TI迈锐国际胡浩亮137********ADC08832IMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC08832IM/NOPB SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08832IMX/NOPB SOIC-82500EAR99TI迈锐国际胡浩亮137********ADC088S022CIMT TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S022CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S022CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC088S052CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S052CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC088S102CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S102CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC08B200CIVS/NOPB TQFP-482500EAR99TI迈锐国际胡浩亮137********ADC08B200QCIVS/NOPB TQFP-482500EAR99TI迈锐国际胡浩亮137********ADC08B3000CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08B3000RB/NOPB RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC08D1000CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1010DIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1020CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1500CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CIYB/S7002396HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CVAL RFIDSUB013A002H1A TI迈锐国际胡浩亮137********迈锐国际胡浩亮ADC08D1520RB/NOPB RFIDSUB013A002H1A TI137******** ADC08D1520WGFQV CQFP-128243A001A2C TI迈锐国际胡浩亮137********ADC08D1520WGMPR CQFP-128243A001A5A1TI迈锐国际胡浩亮137********ADC08D500CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D500CIYB/S7002554HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D500CIYB/S7002952HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D502CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08DJ3200AAV FCBGA-1448403A001A5A1TI迈锐国际胡浩亮137********ADC08DJ3200AAVT FCBGA-1442503A001A5A1TI迈锐国际胡浩亮137********ADC08DJ3200EVM UNKNOWN-14413A002H1A TI迈锐国际胡浩亮137********ADC08DL500CIVV/NOPB LQFP-1446003A991C1TI迈锐国际胡浩亮137********ADC08DL502CIVV/NOPB LQFP-1446003A991C1TI迈锐国际胡浩亮137********ADC08L060CIMT/NOPB TSSOP-246100EAR99TI迈锐国际胡浩亮137********ADC08L060CIMTX/NOPB TSSOP-242500EAR99TI迈锐国际胡浩亮137********ADC08L060EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC09QJ1300EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC10040CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10040CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10040QCIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10040QCIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10065CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10065CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10080CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10080CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC101C021CIMK/NOPB SOT-23-THN-61000EAR99TI迈锐国际胡浩亮137********ADC101C021CIMKX/NOPB SOT-23-THN-63000EAR99TI迈锐国际胡浩亮137********ADC101C021CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC101C027CIMK/NOPB SOT-23-THN-61000EAR99TI迈锐国际胡浩亮137********ADC101C027CIMKX/NOPB SOT-23-THN-63000EAR99TI迈锐国际胡浩亮137********ADC101S021CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S021CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********迈锐国际胡浩亮ADC101S021CISD/NOPB WSON-61000EAR99TI137********ADC101S021CISDX/NOPB WSON-64500EAR99TI迈锐国际胡浩亮137********ADC101S051CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S051CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S051QIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S051QIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S101CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S101CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S101CISD/NOPB WSON-61000EAR99TI迈锐国际胡浩亮137********。
PT8A977P中文资料
5-Function Remote Controller|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Features•PT8A977P/977W works as encoder and PT8A978P/978LW works as decoder•Five pins for five control functions •Operating power-supply voltage: 2.5V to 5.0V (977P, 977W, 978P), 2.0V to 5.0V (978LW)•Auto-power-off if no press on any button in 8s or continuously press on any button over 4 minues •Press on any button as wake up (977P, 977W)•Manual-power-off with OFF button•One output pin used for external power control (977P, 977W)•On-chip oscillator with an external resistor •On-chip reversing amplifiers (978P, 978LW)•Low operating current•Few external components needed •Package: 14-pin DIP, 14-pin SOIC,16-pin DIP and 16-pin SOIC General DescriptionThe PTA977P (or 977W) and PT8A978P (or 978LW) provide a complete control functions to the remote-controlled toy. The PT8A977P/977W has five input pins corresponding with the five function buttons i.e, forward, backward, rightward, leftward and turbo. The encoding circuit in the PT8A977P/977W sends digital codes to the two output pins SO and SC. The digital codes correspond to the definite function buttons or their combinations. The SO and SC outputs are used in wireless and infra-red applications respectively.The PT8A978P (or 978LW) has five output pins corresponding with the five actions. The received signals are amplified by the three-stage amplifier, and then the appropriate amplified signals are sampled, fault-tolerantly checked and decoded to control the actions of the remote-controlled toy.There is an internal oscillator in the PT8A977P/977W and 978P/978LW respectively. By adding an external resistor conveniently, the oscillator will be constructed. The oscillator frequency can be adjusted by the external resistor. The relative error between the frequencies of the two on-chip oscillators in the PT8A977P/977W and PT8A978P/978LW must be less than ±25%.The auto-power-off function is achieved by an internal counter. The PC output is used to control on/off state of the external power supply. Pressing OFF button can also shut down the power supply. Press on any function button will wake up the chip promptly..oNt r aP e g a k c aPP779A8TP P IDn i p-41W779A8TP CIOSn i p-41P879A8TP P IDn i p-61WL879A8TP CIOSn i p-61 Ordering Information5-Function Remote Controller|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Block DiagramBlock Diagram of 977P/977W5-Function Remote Controller|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Pin Description of 978P/978LWPin No. 1 2 5 6 4 7 8 3 9 10 11 12 13 14Pin Name Description1516VI2VO2SI OSCI OSCO LDRD Right Left Backward Forward Turbo V cc VI1VO1GND Input pin for the amplifier 2Output pin for the amplifier 2Input pin of the encoding signal Oscillator input pin Oscillator output pin With Pull-up resistor, leftward function disabled if this pin connected to GND.With Pull-up resistor, rightward function disabled if this pin connected to GND.Rightward output pin Leftward output pinBackward output pin Forward output pin Turbo output pin Positive power supply Input pin for the amplifier 1Output pin for the amplifier 1Negative power supply Pin DescriptionPin Description of 977P/977W Pin No. 1 2 5 6 4 7 8 3 9 10 11 12 13 14Pin NameOFF Backward GND Forward Test Turbo SC SO V cc PC OSCO OSCI LeftRight DescriptionWith Pull-up resistor, this pin is used to shut down the external power supply.With Pull-up resistor, backward function selected if this pin connected to GND.Negative power supplyWith Pull-up resistor, forward function selected if this pin connected to GND.With Pull-up resistor, turbo function selected if this pin connected to GND.With Pull-up resistor, leftward function selected if this pin connected to GND.With Pull-up resistor, rightward function selected if this pin connected to GND.With Pull-up resistor, this pin is used for testing mode.Output pin of the encoding signal with carrier frequency Output pin of the encoding signal without carrier frequency Positive power supply Power control output pin Oscillator output pin Oscillator input pin5-Function Remote Controller||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Code Format(W1 is used for function codes, W2 for start codes)Word FormatEncoding and Decoding TimingW2, W2, W2, W2, (n)xW1, W2, W2, W2, W2, (n)xW1, W2, W2, W2, W2, (n)xW1, W2, W2, W2, W2, (n)xW1,5-Function Remote Controller|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Encoding Input and Decoding ResultTurboNumber of Function Codes (n) W1 4 10 16 22 28 34 40 46 52 58 64Decoding Results End Code Forward (Pulse)Forward (High level)Forward (High level) & Left Forward (High level) & Right Backward Backward & Right Backward & Left Left RightPC Output Timing of 977P/977W5-Function Remote Controller|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Maximum Ratings(Above which the useful life may be impaired. For user guidelines, not tested)Storage Temperature........................................................-25o C to +85o C Ambient Temperature with Power Applied ......................-10o C to +40o C Supply V oltage to Ground Potential (Inputs & V CC Only)....-0.5 to +6.0V Supply V oltage to Ground Potential (Outputs & D/O Only)-0.5 to +6.0V DC Input V oltage ................................................................-0.5 to +6.0V DC Output Current ........................................................................20mA Power Dissipation.......................................................................500mW Note:Stresses greater than those listed under MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other condi-tions above those indicated in the operational sec-tions of this specification is not implied. Exposure to absolute maximum rating conditions for ex-tended periods may affect reliability.DC Electrical CharateristicsDC Electrical Charateristics of 977P/977WNote: Over the Operating Rating, 0°C £ T A £ 70°C, V CC = 4VDC Electrical Charateristics of 978P/978LW2.5 4.0 5.0 VParameters DescriptionTest Condition Min. Type Max. UnitsI CC Supply Current Output unloaded 100 uA V IL Input Low V oltage Guaranteed Logic LOW level 0.8 V I IL Input Low Current -60 uA I OHOutput High CurrentI OL Output Low CurrentV OUT = 3.5 V -1.0 mA V OUT = 0.5 V 150 uA V CCOperating V oltage I STBStand-by Current OFF State 5 uA V IH Input High V oltage Guaranteed Logic HIGH level 3.0 VI IH Input High Current Pin 1, 4, 5, 6, 13, 14 V IH = 4V , ON state 10 uAPin 1, 4, 5, 6, 13, 14 V IL = 0V , ON state Pin 7, 8, 10Pin 11V OUT = 3.5 V -200 - 800 uANote : Over the Operating Rating, 0°C £ T A £ 70°C, V CC = 4V Pin 6, 7, 10, 11, 122.5 4.0 5.0 V ParametersDescriptionTest Condition Min. Type Max. UnitsI CC Supply Current Output unloaded 1 mA V IL Input Low V oltage Guaranteed Logic LOW level 0.8 V I IL Input Low Current -60 uA I OHOutput High CurrentI OL Output Low CurrentV OUT = 3.5 V -200 - 850 uA Pin 1, 5, 15 V OUT = 0.5 V 200 850 uAV CCOperating V oltage - 978P I STB Stand-by Current OFF State 10 uA V IH Input High V oltage Guaranteed Logic HIGH level 3.0 VI IH Input High Current Pin 8, 9 V IH = 4V , ON state 10 uAPin 3, 8, 9 V IL = 0V , ON state Pin 1, 5, 15Pin 6, 7, 10, 11, 12V OUT = 3.5 V -500 uAV OUT = 0.5 V 2 mA Operating V oltage - 978LW 2.0 5.0 VI I Input CurrentPin 12 V IH = 0 ~ 4V , ON state ±10 uAInput High Current Pin 3 V IH = 4V , ON state 60 uA I I Input CurrentPin 14, 16 V IH = 0 ~ 4V , ON state ±10 uA5-Function Remote Controller|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||AC Electrical CharacteristicsAC Electrical Characteristics of 977P/977WNote : Over the Operating Rating, 0°C £ T A £70°C, V CC = 4V * The relative error between the frequencies of the two on-chip oscillators in the PT8A977P (or 977W) and PT8A978P (or 978LW) must be less than ±25%.** When adjust the external oscillator resistor, the auto-power-off time will vary relevantly. AC Electrical Characteristics of 978P/978LWNote : Over the Operating Rating, 0°C £ T A £ 70°C, V CC = 4V* The relative error between the frequencies of the two on-chip oscillators in the PT8A977P (or 977W) and PT8A978P (or 978LW) must be less than ±25%.Parameters DescriptionTest Condition Min. Type Max. Units f OSCOscillator Frequency *t FUN Cycle Time of Function Code t STAt OFFCycle Time of Start Code Carrier Frequency of SC Pin Time of Auto-Power-Off **T A = 25°C, R = 200 k W 102 128 154 k H z f OSC= 102 to 154 kHz 0.8 1 1.2 ms f OSC= 102 to 154 kHz 1.6 2 2.4 ms f OSC = 102 to 154 kHz 51 64 77 kHz Pins 1, 4, 5, 6 and 14 are High. 6.4 8 9.6 s f CSC Any of pins 1, 4, 5, 6 or 14 is Low. 3.2 4 4.8 min.Oscillator Frequency Fluctuation - 977P/977W T A =25°C, V CC = 2.5 ~ 5V 15 k H z f max -f min Parameters Description Test Condition Min. Type Max. Units f OSCOscillator Frequency *t FUN Cycle Time of Function Code t STACycle Time of Start Codef OSC = 128 kHz 0.75 1 1.25 ms f OSC = 128 kHz 1.5 2 2.5 msT A = 25°C, R = 200 k W 102 128 154 k H z V SISI Pin Receive Sensitivity (V PP )Guaranteed Effective Decoding 300 mV Oscillator Frequency Fluctuation - 978P Oscillator Frequency Fluctuation - 978LW T A =25°C, V CC =2.5 ~ 5V 15 k H z f max -f min T A =25°C, V CC =2.0 ~ 5V 10 k H z5-Function Remote Controller ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Mechanical Diagram of 14-pin SOIC5-Function Remote Controller ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Mechanical Diagram of 16-pin SOIC5-Function Remote Controller |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||NotesPericom Technology Inc.Email: support@ Web Site: , China:No. 20 Building, 3/F, 481 Guiping Road, Shanghai, 200233, ChinaT el: (86)-21-6485 0576Fax: (86)-21-6485 2181Asia Pacific:Unit 1517, 15/F, Chevalier Commercial Centre, 8 Wang Hoi Rd, Kowloon Bay, Hongkong T el: (852)-2243 3660Fax: (852)- 2243 3667U.S.A.:2380 Bering Drive, San Jose, California 95131, USAT el: (1)-408-435 0800Fax: (1)-408-435 1100Pericom Technology Incorporation reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or performance and to supply the best possible product. Pericom Technology does not assume any responsibility for use of any circuitry described other than the circuitry embodied in Pericom Technology product. The company makes no representations that circuitry described herein is free from patent infringement or other rights, of Pericom Technology Incorporation.。
BOMAG BW 211 212 213 D-40 BW 211 212 213 P
Service - ManualCatalogue number .008 911 6302/2007BW 211 / 212 / 213 D-40BW 211 / 212 / 213 PD-40S/N 101 582 42 . . . . S/N 101 582 43 . . . . S/N 101 582 44 . . . . S/N 101 583 02 . . . . S/N 101 583 03 . . . . S/N 101 582 55 . . . . S/N 101 582 47 . . . . S/N 101 582 48 . . . . S/N 101 582 49 . . . .Single drum rollere pc at al o g s .c ome p c a t a l o g s .c o mTable of ContentsBOMAG3008 911 63General71.1 Introduction 81.2 Safety regulations 91.3 General repair instructions 141.4 Tightening torques24 Technical data292.1 Technische Daten 302.2 Maintenance chart382.3 Table of fuels and lubricants 402.4 Fuels and lubricants40 Connection overview433.1 Connection overview44Tests and adjustments 474.1 Special tools, tests and adjustments 484.2 Checking the rotation speeds524.3 Checking / adjusting the neutral positions of the travel pump 544.4 Pressure tests in the travel circuit564.5 Checking / adjusting the vibrator shaft speeds 584.6 Pressure measurements in the vibration circuit 594.7 Check the leakage rate of the vibration motor 604.8 Pressure test in steering circuit 61 Flushing and bleeding635.1 Special tools for flushing645.2 Flushing - general 695.3 Flushing schematic travel circuit (distribution travel pump) 715.4 Flushing the travel circuit (travel pump distribution) 735.5 Flushing schematic travel circuit (distribution axle motor) 795.6 Flushing the travel circuit (axle motor distribution) 845.7 Flushing schematic for vibration drive 895.8 Flushing the vibration circuit 905.9 Bleeding the travel circuit 945.10 Bleeding the vibration circuit 96 Fundamental electrics 996.1 Understanding circuit diagrams1006.2 Terminal designations 1046.3 Current and voltage 1086.4 Resistance 1126.5 Series / parallel connection1146.6 Ohm's law 1166.7 Electrical energy 1166.8 Formula diagram 1176.9 Metrology 1186.10 Diodes, relays, fuses 1206.11 Batteries 1236.12 Three-phase generator1266.13 Electric starter133e pc a t al o g s .c omTable of ContentsBOMAG4008 911 636.14 Telemecanique switch 1366.15 Inductive proximity switches 1396.16 Angle sensor with current output 1406.17 Plug connectors1416.18 Deutsch plug, series DT and DTM1426.19 Plugs and terminals in spring clamping technology148 Special tools, electrics1537.1 Special tools, electrics154 Electronic modules1638.1 Vibration module165 Speedometer Module1699.1 Speedometer module171 Service Training17310.1 Electrics BEM (BOMAG Evib-meter) 17510.2 Service Training233 Engine29711.1 Diesel engine, general29911.2 Service side 30011.3 Starter side30111.4 Lubrication oil circuit30211.5 Oil pressure switch and low oil pressure circuitry 30411.6 Check the engine oil level30511.7 Changing engine oil and oil filter cartridges30611.8 Coolant circuit30811.9 Coolant temperature switch31011.10 Disassembling and assembling the coolant temperature switch 31111.11 Replacing the thermostat31211.12 Checking the thermostat in disassembled state 31311.13 Check the coolant level 31411.14 Change the coolant31411.15 Clean the cooling fins on engine and hydraulic oil cooler 31511.16 Three-phase generator 31611.17 Fuel supply 31811.18 Injection system32111.19 Injection pump replacement during service 32211.20 Injection valve replacement during service 33111.21 Checking / repairing injection valves 33411.22 Fuel filter33911.23 Check, clean the water separator 34111.24 Change the fuel pre-filter cartridge 34111.25 Change the fuel filter cartridge 34211.26 Checking the compression 34311.27 Check, adjust the valve clearance 34411.28 Boost fuel solenoid valve 34611.29 Engine shut-down solenoid 34711.30 Air filter34811.31 Cleaning, changing the dry air filter cartridge349e pc at al o g s .c omTable of ContentsBOMAG5008 911 6311.32 Heating flange on engine35111.33 Checking the heating flange control 35411.34 Electric throttle control 35511.35 Engine monitoring35711.36 Engine 35911.37 Special tools, Deutz engine (BFM 2012)361 Air conditioning system37312.1 Physical basics 37512.2 Refrigerant R134a37812.3 Compressor oil / refrigeration oil37912.4 Working principle of the air conditioning system 38012.5 Monitoring devices 38012.6 Description of components 38112.7 Checking the compressor oil level38712.8 Checking the magnetic clutch38812.9 Inspection and maintenance work38912.10 Checking, replacing the refrigerant compressor V-belt 38912.11 Service the air conditioning39012.12 Drying and evacuation39312.13 Emptying in case of repair39312.14 Leak test 39412.15 Filling instructions 39512.16 Trouble shooting in refrigerant circuit, basic principles 39812.17 Trouble shooting, refrigerant circuit diagram 40212.18 Trouble shooting procedure 40312.19 Steam table for R134a41312.20 Heating control / air conditioning control 419 Replacing the cab window panes42513.1 Assembly of window panes42613.2 Special tools 42713.3 Auxiliary materials42813.4 Removing and installing the window pane430 Drum43514.1 Special tools, drum, single drum rollers 43614.2 Repair overview for drum 43814.3 Removing and installing the drum 44614.4 Repairing the drum45114.5 Disassembling and assembling the change-over weight 48414.6 Changing the rubber buffers and adjusting the pretension487 Oscillating articulated joint49115.1 Special tools49215.2 Repair overview oscillating articulated joint49415.3 Removing and installing the oscillating articulated joint 49715.4 Dismantling the oscillating articulated joint 49915.5 Assembling the oscillating articulated joint504 Suppliers documentation51516.1 Travel pump series 90R517e pc at al o g s .c omBuy nowBomag Single Drum Roller BW211/212/213 D/PD-40 Service Manual PDF With Instant Download。
1732 ArmorBlock 诊断16点I O模块系列A用户指南说明书
Wiring Diagrams Pinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series ACatalog Numbers 1732D-8X81212D, -8X81212HD,-8I8O1212D, -IB161212D, -IBDPM12MND, -8X8M12D Package ContentsYour package contains one 1732 ArmorBlock module and these wiring instructions.For complete installation instructions, refer to the Module Publication Number table and visit .Module Publication NumberModule PublicationNumber1732D-IN009 DeviceNet 1732 ArmorBlock Network-powered 8-input Auxiliary-powered8-output Module, Series A (cat. no. 1732-8X81212D)1732D-IN010 DeviceNet 1732 ArmorBlock Network-powered 8-input/8-output Module,Series A (cat. no. 1732-8I8O1212D)1732D-IN011 DeviceNet 1732 ArmorBlock Network-powered 8-input Auxiliary-powered8-output Module, Series A (cat. no. 1732-8X81212DH)1732D-IN012 DeviceNet 1732 ArmorBlock Network-powered 16-input Module, Series A(cat. no. 1732-IB161212D)1732D-IN007 DeviceNet 1732 ArmorBlock Network Powered 16-Input Module, Series A(cat. no. 1732D-IBDPM12MND)1732D-IN004 DeviceNet 1732 ArmorBlock Network-powered 8-input Auxiliary-powered8-output Module, Series A (cat. no. 1732D-8X8M12D)Publication 1732-WD003C-EN-P - July 20092 Pinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series A Publication 1732-WD003C-EN-P - July 2009DeviceNet ConnectorsI/O Connectors1732 DeviceNet Micro-style(view into connector)Pin 1DrainPin 2V+Pin 3 V-Pin 4CAN_HPin 5CAN_L (view into connector)Pin 1DrainPin 2V+Pin 3V-Pin 4CAN_HPin 5CAN_LNetwork-in Male Connector Network-out Female Connector1732 DeviceNet Mini-styleNetwork-in Male Connector(view into connector)Pin 1 Sensor Source VoltagePin 2 Input BPin 3 ReturnPin 4 Input APin 5 PE 5-pin Female Input Micro-stylePinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series A 3Publication 1732-WD003C-EN-P - July 2009Auxiliary Power Connector ATTENTION Two sets of mounting holes are used to mount the module directly to a panel or machine. Mounting holes accommodate #6 (M3) pan head screws. The torquespecification is 0.64 Nm (6 in-lb).ATTENTION This equipment is considered Group 1, Class A industrial equipment accordingto IEC/CISPR Publication 11. Without appropriate precautions, there may bepotential difficulties ensuring electromagnetic compatibility in otherenvironments due to conducted as well as radiated disturbance.(view into connector)Pin 1 Not UsedPin 2 Output BPin 3 ReturnPin 4 Output APin 5 PE5-pin Female Output Micro-style(view into connector)Pin 1Sensor Source VoltagePin 2 OutputPin 3 ReturnPin 4 InputPin 5 PE5-pin Female Combination Micro-style(view into connector)Pin 1Output Power+Pin 2No ConnectionPin 3No ConnectionPin 4Output Power-4-pin Mini-style4 Pinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series A Publication 1732-WD003C-EN-P - July 2009SpecificationsEnvironmental Specifications AttributeValue Temperature, operating-20…60 °C (-4…140 °F)Ambient temperaturerating (UL)60 °C (140 °F)Operating voltage11…30V DC Output current 1732D-8I8O1212D - 0.5A per output1732D-8X81212D - 0.5A per output1732D-8X81212HD - 1.4A per output1732D-8X8M12D - 0.5A per outputEnclosure type ratingMeets IP65/66/67/69K (when marked), and NEMA 4X/6P withreceptacle dust caps or cable termination.CertificationsCertifications (whenproduct is marked)(1)(1)See the Product Certification link at for Declarations of Conformity, Certificates, and other certification details.Value c-UL-usUL Listed Industrial Control Equipment, certified for US and Canada. See UL File E322657CE European Union 2004/108/EC EMC Directive, compliant with:EN 61326-1; Meas./Control/Lab., Industrial RequirementsEN 61000-6-2; Industrial ImmunityEN 61000-6-4; Industrial EmissionsEN 61131-2; Programmable Controllers (Clause 8, Zone A & B)C-Tick Australian Radiocommunications Act,compliant with: AS/NZS CISPR 11; Industrial EmissionsDeviceNetODVA conformance tested to DeviceNet specificationsPinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series A 5 Notes:Publication 1732-WD003C-EN-P - July 20096 Pinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series A Notes:Publication 1732-WD003C-EN-P - July 2009Pinout Guide for 1732 ArmorBlock Diagnostic 16-point I/O Modules, Series A 7 Notes:Publication 1732-WD003C-EN-P - July 2009Publication 1732-WD003C-EN-P - July 2009PN-51088Supersedes Publication 1732-WD003B-EN-P - January 2008Copyright © 2009 Rockwell Automation, Inc. All rights reserved. Printed in Singapore.Rockwell Automation SupportRockwell Automation provides technical information on the Web to assist you in using its products. At , you can find technicalmanuals, a knowledge base of FAQs, technical and application notes, sample code and links to software service packs, and a MySupport feature that you can customize to make the best use of these tools.For an additional level of technical phone support for installation, configuration and troubleshooting, we offer TechConnect Support programs. For more information, contact your local distributor or Rockwell Automation representative, or visit .Installation AssistanceIf you experience a problem with a hardware module within the first 24 hours ofinstallation, please review the information that's contained in this manual. You can also contact a special Customer Support number for initial help in getting your module up and running:New Product Satisfaction ReturnRockwell tests all of its products to ensure that they are fully operational when shipped from the manufacturing facility. However, if your product is not functioning and needs to be returned:Allen-Bradley, Rockwell Automation, TechConnect, and ArmorBlock are trademarks of Rockwell Automation, Inc. Trademarks not belonging to Rockwell Automation are property of their respective companies.United States1.440.646.3434 Monday – Friday, 8am – 5pm EST Outside United States Please contact your local Rockwell Automation representative for any technical support issues.United States Contact your distributor. You must provide a Customer Support case number (see phone number above to obtain one) to your distributor in order to complete the return process.Outside United StatesPlease contact your local Rockwell Automation representative for returnprocedure.。
B82799S0223N001;B82799S0513N001;中文规格书,Datasheet资料
Data and signal line chokesCommon-mode chokes, ring core, EIA 1812 0.011 … 0.47 mH, 200 … 300 mA, 60 °CSeries/Type:B82799C0/S0Date:October 2008Rated voltage 42 V AC/80 V DCRated inductance 0.011 mH to 0.47 mHRated current 200 mA to 300 mAConstruction■Current-compensated ring core double choke■Ferrite core■LCP case (UL 94 V-0)■Silicone potting■Bifilar winding (B82799C0)■Sector winding (B82799S0)Features■150 °C version■Qualified to AEC-Q200■Suitable for reflow soldering■Suitable for conductive adhesion due gold-plated terminals■RoHS-compatibleFunction■B82799C0:Suppression of asymmetrical interference coupled in on lines,whereas data signals up to some MHz can pass unaffectedly.■B82799S0:Suppression of asymmetrical and symmetrical interference (by L stray) coupled in on lines. The high-frequency portions of the symmetrical data signal are decreased so far that EMC problems can besignificantly reduced.Applications■Automotive applications, e.g. CAN busTerminals■Base material CuSn6■Layer composition Ni, Ag, Au■Electro-platedMarking■Marking on component: Manufacturer, bifilar or sectorwinding (coded), L value (nH, coded), date of manufacture (YWWD)■Minimum data on reel: Manufacturer, ordering code,L value and tolerance, quantity, date of packingDelivery mode and packing unitCommon-mode chokes, ring core, EIA 1812Dimensional drawing and pin configurationLayout recommendationTaping and packing Blister tapeReelDimensions in mmDimensions in mmCommon-mode chokes, ring core, EIA 1812Technical data and measuring conditions Characteristics and ordering codes Rated voltage V R 42 V AC (50/60 Hz) / 80 V DC Rated temperature T R 60 °CRated current I RReferred to 50 Hz and rated temperatureApplicable current I Rfor high temperature applications 0.5 × I R ,referred to 50 Hz and 150°C ambient temperature Rated inductance L R Measured with Agilent 4284A at 100 kHz, 0.1 mA, 20 °C Inductance is specified per winding.Inductance tolerance ±30% at 20 °CInductance decrease ΔL/L < 10% at DC magnetic bias with I R , 20 °CStray inductance L stray,typMeasured with Agilent 4284A, 5 mA, 20 °C, typical values Measuring frequency:L R ≤ 11 μH = 1 MHzL R > 11 μH = 100 kHz DC resistance R typ Measured at 20°C, typical values, specified per winding SolderabilitySnPb:(215 ±3) °C, (3 ±0.3) s Sn96.5Ag3.0Cu0.5:(245 ±5) °C, (3 ±0.3) s Wetting of soldering area ≥ 95%(to IEC 60068-2-58)Resistance to soldering heat (260 ±5) °C, (10 ±1) s (to IEC 60068-2-58)Climatic category55/150/56 (to IEC 60068-1)Storage conditions (packaged)–25 °C … +40 °C, ≤ 75% RH WeightApprox. 0.09 gL R mH L stray,typ nH I R mA R typ m ΩV test V DC, 2 s Ordering code0.011 40300120250B82799C0113N0010.02260250170250B82799C0223N0010.0221200250170250B82799S0223N0010.03370200200250B82799C0333N0010.0331500200200250B82799S0333N0010.05190200250250B82799C0513N0010.0512300200250250B82799S0513N0010.10 50300150750B82799C0104N0010.22 60200200750B82799C0224N0010.33 70200250750B82799C0334N0010.47100200320750B82799C0474N001Common-mode chokes, ring core, EIA 1812Insertion loss α (typical values at |Z| = 50 Ω, 20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)L R = 0.011 mHL R = 0.022 mH (high L stray)L R = 0.022 mH (low L stray) L R = 0.033 mH (low L stray)Common-mode chokes, ring core, EIA 1812Insertion loss α (typical values at |Z| = 50 Ω, 20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)L R = 0.033 mH (high L stray) L R = 0.051 mH (high L stray)L R = 0.051 mH (low L stray) L R = 0.10 mHCommon-mode chokes, ring core, EIA 1812L R = 0.22 mH L R = 0.47 mH L R = 0.33 mHCurrent derating I op/I R versus ambient temperatureInsertion loss α (typical values at |Z| = 50 Ω, 20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)Common-mode chokes, ring core, EIA 1812Recommended reflow soldering curvePb containing solder material (based on CECC 00802 edition 2)Pb-free solder material (based on JEDEC J-STD 020C)T 1°C T 2°C T 3°C T 4°C t 1s t 2s t 3s150200217250< 110< 90< 40 @ T 4 –5 °CCommon-mode chokes, ring core, EIA 1812■Please note the recommendations in our Inductors data book (latest edition) and in the data sheets.–Particular attention should be paid to the derating curves given there.–The soldering conditions should also be observed. Temperatures quoted in relation to wave soldering refer to the pin, not the housing.■If the components are to be washed varnished it is necessary to check whether the washing varnish agent that is used has a negative effect on the wire insulation, any plastics that are used, or on glued joints. In particular, it is possible for washing varnish agent residues to have a negative effect in the long-term on wire insulation.■The following points must be observed if the components are potted in customer applications: –Many potting materials shrink as they harden. They therefore exert a pressure on the plastic housing or core. This pressure can have a deleterious effect on electrical properties, and in extreme cases can damage the core or plastic housing mechanically.–It is necessary to check whether the potting material used attacks or destroys the wire insulation, plastics or glue.–The effect of the potting material can change the high-frequency behaviour of the components.■Ferrites are sensitive to direct impact. This can cause the core material to flake, or lead to breakage of the core.■Even for customer-specific products, conclusive validation of the component in the circuit can only be carried out by the customer.The following applies to all products named in this publication:1.Some parts of this publication contain statements about the suitability of our products forcertain areas of application. These statements are based on our knowledge of typical requirements that are often placed on our products in the areas of application concerned. We nevertheless expressly point out that such statements cannot be regarded as binding statements about the suitability of our products for a particular customer application.As a rule, EPCOS is either unfamiliar with individual customer applications or less familiar with them than the customers themselves. For these reasons, it is always ultimately incumbent on the customer to check and decide whether an EPCOS product with the properties described in the product specification is suitable for use in a particular customer application.2.We also point out that in individual cases, a malfunction of electronic components or failurebefore the end of their usual service life cannot be completely ruled out in the current state of the art, even if they are operated as specified. In customer applications requiring a very high level of operational safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health (e.g. in accident prevention or life-saving systems), it must therefore be ensured by means of suitable design of the customer application or other action taken by the customer (e.g. installation of protective circuitry or redundancy) that no injury or damage is sustained by third parties in the event of malfunction or failure of an electronic component.3.The warnings, cautions and product-specific notes must be observed.4.In order to satisfy certain technical requirements, some of the products described in thispublication may contain substances subject to restrictions in certain jurisdictions (e.g.because they are classed as hazardous). Useful information on this will be found in our Material Data Sheets on the Internet (/material). Should you have any more detailed questions, please contact our sales offices.5.We constantly strive to improve our products. Consequently, the products described in thispublication may change from time to time. The same is true of the corresponding product specifications. Please check therefore to what extent product descriptions and specifications contained in this publication are still applicable before or when you place an order.We also reserve the right to discontinue production and delivery of products.Consequently, we cannot guarantee that all products named in this publication will always be available.The aforementioned does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.6.Unless otherwise agreed in individual contracts, all orders are subject to the current versionof the “General Terms of Delivery for Products and Services in the Electrical Industry”published by the German Electrical and Electronics Industry Association(ZVEI).7.The trade names EPCOS, BAOKE, Alu-X, CeraDiode, CSMP, CSSP, CTVS, DSSP, MiniBlue,MKK, MLSC, MotorCap, PCC, PhaseCap, PhaseCube, PhaseMod, SIFERRIT, SIFI, SIKOREL, SilverCap, SIMDAD, SIMID, SineFormer, SIOV, SIP5D, SIP5K, ThermoFuse, WindCap are分销商库存信息:EPCOSB82799S0223N001B82799S0513N001。
LT1078和LT1079微电源双路和四路单倍电源精密操作电路说明书
LT1078IS8#TRPBF LT1078S8#PBF LT1079CN#PBF LT1079CN#PBF .LT1078CN8#PBF LT1078IN8#PBF110789feQuad, Single Supply, Precision Op Amps■Available in 8-Pin SO Package■50μA Max Supply Current per Amplifier ■70μV Max Offset Voltage■180μV Max Offset Voltage in 8-Pin SO ■250pA Max Offset Current■0.6μV P-P , 0.1Hz to 10Hz Voltage Noise ■3pA P-P , 0.1Hz to 10Hz Current Noise ■0.4μV/°C Offset Voltage Drift ■200kHz Gain Bandwidth Product ■0.07V/μs Slew Rate ■Single Supply OperationInput Voltage Range Includes GroundOutput Swings to Ground while Sinking Current No Pull-Down Resistors Needed■Output Sources and Sinks 5mA Load CurrentThe LT ®1078 is a micropower dual op amp in 8-pin packages including the small outline surface mount pack-age. The LT1079 is a micropower quad op amp offered in the standard 14-pin packages. Both devices are optimized for single supply operation at 5V. ±15V specifications are also provided.Micropower performance of competing devices is achieved at the expense of seriously degrading precision, noise,speed and output drive specifications. The design effort of the LT1078/LT1079 was concentrated on reducing sup-ply current without sacrificing other parameters. The offset voltage achieved is the lowest on any dual or quad nonchopper stabilized op amp—micropower or other-wise. Offset current, voltage and current noise, slew rate and gain bandwidth product are all two to ten times better than on previous micropower op amps.The 1/f corner of the voltage noise spectrum is at 0.7Hz,at least three times lower than on any monolithic op amp.This results in low frequency (0.1Hz to 10Hz) noise performance which can only be found on devices with an order of magnitude higher supply current.Both the LT1078 and LT1079 can be operated from a single supply (as low as one lithium cell or two Ni-Cad batteries). The input range goes below ground. The all-NPN output stage swings to within a few millivolts of ground while sinking current—no power consuming pull down resistors are needed.■Battery or Solar-Powered Systems Portable Instrumentation Remote Sensor Amplifier Satellite Circuitry■Micropower Sample-and-Hold ■Thermocouple Amplifier ■Micropower FiltersDistribution of Input Offset Voltage (LT1078 and LT1079 in H, J, N Packages)INPUT OFFSET VOLTAGE (μV)–120P E R C E N T O F U N I T S801078/79 • TA02–80–40401614121086420120Single Battery, Micropower, Gain = 100, Instrumentation AmplifierTYPICAL PERFORMANCEINPUT OFFSET VOLTAGE = 40μV INPUT OFFSET CURRENT = 0.2nATOTAL POWER DISSIPATION = 240μWCOMMON MODE REJECTION = 110dB (AMPLIFIER LIMITED)GAIN BANDWIDTH PRODUCT = 200kHzOUTPUT NOISE = 85μV P-P 0.1Hz TO 10Hz= 300μV RMS OVER FULL BANDWIDTHINPUT RANGE = 0.03V TO 1.8V OUTPUT RANGE = 0.03V TO 2.3V(0.3mV ≤ V IN + – V IN – ≤ 23mV)OUTPUTS SINK CURRENT—NO PULL-DOWN RESISTORS ARE NEEDEDAPPLICATIO SUFEATURESTYPICAL APPLICATIOUDESCRIPTIOU2LT1078/LT107910789feABSOLUTE AXI U RATINGSW W WUOperating Temperature Range LT1078AM/LT1078M/LT1079AM/LT1079M (OBSOLETE).....–55°C to 125°C LT1078I/LT1079I....................................–40°C to 85°C LT1078AC/LT1078C/LT1078S8/LT1079AC/LT1079C ....................................0°C to 70°C Lead Temperature (Soldering, 10 sec)..................300°CSupply Voltage ......................................................±22V Differential Input Voltage.......................................±30V Input Voltage ...............Equal to Positive Supply Voltage............5V Below Negative Supply VoltageOutput Short-Circuit Duration..........................Indefinite Storage Temperature RangeAll Grades.........................................–65°C to 150°CPACKAGE/ORDER I FOR ATIO WUU(Note 1)LT1078/LT1079 ELECTRICAL CHARACTERISTICS V S = 5V, 0V, V CM = 0.1V, V O = 1.4V, T A = 25°C unless otherwise noted.10789fe34LT1078/LT107910789feELECTRICAL CHARACTERISTICSThe ● denotes the specifications which apply over the temperature range–40°C ≤ T A ≤ 85°C for I grades, –55°C ≤ T A ≤ 125°C for AM/M grades. V S = 5V, 0V, V CM = 0.1V, V O = 1.4V unless otherwise noted.The ● denotes the specifications which apply over the temperature range 0°C ≤ T A ≤ 70°C. V S = 5V, 0V, V CM = 0.1V, V O = 1.4V unless otherwise noted.5LT1078/LT107910789feELECTRICAL CHARACTERISTICSV S = ±15V, T A = 25°C unless otherwise noted.LT1078C/LT1079C LT1078I/LT1079I LT1078AC/LT1079AC LT1078M/LT1079M LT1078AM/LT1079AM LT1078S8/LT1079SW SYMBOL PARAMETER CONDITIONSMIN TYP MAXMIN TYP MAXUNITS V OS Input Offset Voltage (Including LT1078IS8/LT1078S8)5025070350μV LT1079ISW/LT1079SW80500μV I OS Input Offset Current 0.050.250.050.35nA I BInput Bias Current 68610nA Input Voltage Range13.5 13.8 13.5 13.8V –15.0–15.3–15.0–15.3V CMRR Common Mode Rejection Ratio V CM = 13.5V, –15V 10011497114dB PSRR Power Supply Rejection Ratio V S = 5V, 0V to ±18V 102114100114dB A VOL Large-Signal Voltage Gain V O = ±10V, R L = 50k 1000500010005000V/mV V O = ±10V, R L = 2k 40011003001100V/mVV OUT Maximum Output Voltage R L = 50k ±13.0±14.0±13.0±14.0V Swing R L = 2k±11.0±13.2±11.0±13.2V SR Slew Rate0.060.100.060.10V/μs I SSupply Current per Amplifier46654775μAThe ● denotes the specifications which apply over the temperature range –40°C ≤ T A ≤ 85°C for I grades, –55°C ≤ T A ≤ 125°C for AM/M grades. V S = ±15V unless otherwise noted.LT1078I/LT1079ILT1078AM/LT1079AM LT1078M/LT1079M SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAXUNITS V OS Input Offset Voltage (Including LT1078IS8)●90430120600μV LT1079ISW ●130825μV ΔV OS Input Offset Voltage Drift ●0.51.80.6 2.5μV/°C ΔT (Note 6)LT1078IS8●0.7 3.8μV/°C LT1079ISW ●0.8 5.0μV/°C I OS Input Offset Current●0.070.500.070.70nA LT1078I/LT1079I●0.1 1.0nA I B Input Bias Current ●710712nA A VOL Large-Signal Voltage Gain V O = ±10V, R L = 5k ●200700150700V/mV CMRR Common Mode Rejection Ratio V CM = 13V, –14.9V ●9411090110dB PSRR Power Supply Rejection Ratio V S = 5V, 0V to ±18V●9811094110dB Maximum Output Voltage Swing R L = 5k●±11.0±13.5±11.0±13.5VI SSupply Current per Amplifier●52805495μA6LT1078/LT107910789feELECTRICAL CHARACTERISTICSThe ● denotes the specifications which apply over the temperature range0°C ≤ T A ≤ 70°C. V S = ±15V unless otherwise noted.LT1078C/LT1079C LT1078AC/LT1079AC LT1078S8/LT1079SW SYMBOL PARAMETER CONDITIONS MIN TYP MAXMIN TYP MAXUNITS V OSInput Offset Voltage●7033090460μV LT1078S8●100540μV LT1079SW●115750μV ΔV OS Input Offset Voltage Drift ●0.5 1.80.6 2.5μV/°C ΔT (Note 6)LT1078S8●0.7 3.8μV/°C LT1079SW●0.8 5.0μV/°C I OS Input Offset Current ●0.060.350.060.50nA I B Input Bias Current ●69611nA A VOL Large-Signal Voltage Gain V O = ±10V, R L = 5k ●30012002501200V/mV CMRR Common Mode Rejection Ratio V CM = 13V, –15V ●9711294112dB PSRRPower Supply Rejection Ratio V S = 5V, 0V to ±18V ●10011297112dB Maximum Output Voltage SwingR L = 5k ●±11.0±13.6±11.0±13.6V I SSupply Current per Amplifier●49735085μANote 1: Absolute Maximum Ratings are those values beyond which the life of a device may be impaired.Note 2: Typical parameters are defined as the 60% yield of parameter distributions of individual amplifiers, i.e., out of 100 LT1079s (or 100LT1078s) typically 240 op amps (or 120) will be better than the indicated specification.Note 3: This parameter is tested on a sample basis only. All noise parameters are tested with V S = ±2.5V, V O = 0V.Note 4: This parameter is guaranteed by design and is not tested.Note 5: Power supply rejection ratio is measured at the minimum supply voltage. The op amps actually work at 1.8V supply but with a typical offset skew of –300μV.Note 6: This parameter is not 100% tested.7LT1078/LT107910789feTIME (SEC)N O I S E V O L T A G E (0.4μV /D I V )LT1078/79 • TPC04TYPICAL PERFOR A CE CHARACTERISTICSU WInput Bias Currentvs Common Mode VoltageInput Bias and Offset Currents vs TemperatureSupply Current vs TemperatureTEMPERATURE (°C)–50S U P P L Y C U R R E N T P E R A M P L IF I E R (μA )555045403530252575LT1078/79 • TPC01–2550100125TEMPERATURE (°C)–50B I A S C U R R E N T (n A )O F F S E T C U R R E N T (p A )05075LT1078/79 • TPC02–2525100125COMMON MODE VOLTAGE (V)–1I N P U T B I A S C U R R E N T (n A )–2–4–6–8–10–120123LT1078/79 • TPC0340.1Hz to 10Hz Noise0.01Hz to 10Hz NoiseNoise SpectrumTIME (SEC)N O I S E V O L T A G E (0.4μV /D I V )LT1078/79 • TPC05FREQUENCY (Hz)0.11100V O L T A G E N O I S E D E N S I T Y (n V /√H z )C U R R E N T N O I S E D E N S I T Y (f A /√H z )101000LT1078/79 • TPC0610Hz Voltage Noise DistributionDistribution of Offset Voltage Drift with Temperature (In All Packages Except Surface Mount)Long Term Stability of Two Representative Units (LT1078)VOLTAGE NOISE DENSITY (nV/√Hz)25LT1078/79 • TPC07303540P E R C E N T O F U N I T S35302520151050TIME (MONTHS)O F F S E T V O L TA G E C H A N G E (μV )1234LT078/79 • TPC095151050–5–10–15OFFSET VOLTAGE DRIFT WITH TEMPERATURE (μV/°C)P E R C E N T O F U N I T S252015105LT1078/79 • TPC08–2–10128LT1078/LT107910789feTYPICAL PERFOR A CE CHARACTERISTICSU WLOAD RESISTANCE TO GROUND (Ω)100100kV O L T A G E G A I N (V /V )1M 10M10k 100k 1k 1MLT1078/79 • TPC18Minimum Supply VoltagePOSITIVE SUPPLY VOLTAGE (V)I N P U T O F F S E T V O L T A G E (μV )1000–100–200–300–400–500LT1078/79 • TPC16123Voltage Gain vs FrequencyFREQUENCY (Hz)0.01V O L T A G E G A I N (dB )1M LT1078/79 • TPC10110010k 140120100806040200–200.1101k 100k Slew Rate, Gain Bandwidth Product and Phase Margin vs TemperatureTEMPERATURE (°C)–50G A I N B A N D W I D T H P R O D U C T (k H z )S L E W R A T E (V /μs )PHASE MARGIN (DEG)807060504005075LT1078/79 • TPC13–2525100125Large-Signal Transient Response V S = 5V, 0V 1V /D I VA V = 1, NO LOAD 50μs/DIV INPUT PULSE 0V TO 3.8VLT1078/79 • TPC270VWarm-Up DriftTIME AFTER POWER-ON (MINUTES)C H AN G E I NO F F S E T V O L T A G E (μV )LT1078/79 • TPC17120.80.70.60.50.40.30.20.103Large-Signal Transient Response V S = ±15V5V /D I VA V = 1100μs/DIVNO LOADLT1078/79 • TPC280VVoltage Gain vs Load ResistanceCapacitive Load HandlingCAPACITIVE LOAD (pF)O V E R S H O O T (%)120100806040200LT1078/79 • TPC12Gain, Phase vs FrequencyFREQUENCY (kHz)30100300LTC1078/79 TPC11V O L T A G E G A I N (d B )100120140160180200PHASE SHIFT (DEG)1010009LT1078/LT107910789feTYPICAL PERFOR A CE CHARACTERISTICSU WTEMPERATURE (°C)–50C O M M O N M O D E R A N G E (V )–250255075LT1078/79 • TPC22125VV +V +V –V –V –100Output Saturation vs Temperature vs Sink CurrentTEMPERATURE (°C)–50S A T U R A T I O N V O L T A G E (m V )1000100101–25125LT1078/79 • TPC190255010075Common Mode Range vs TemperatureClosed Loop Output ImpedanceFREQUENCY (Hz)O U T P U T I M P E D A N C E (Ω)1k1001010.1LT1078/79 • TPC24101001k 10k100kOutput Voltage Swing vs Load CurrentSOURCING OR SINKING LOAD CURRENT (mA)0.01O U T P U T V O L T A G E S W I N G (V )VV +V +V –V–V 10LT1078/79 • TPC200.11Undistorted Output Swing vs FrequencyFREQUENCY (kHz)0.01P E A K -T O -P E A K O U T P U T S W I N G , V S = ±15V (V )PEAK-TO-PEAK OUTPUT SWING, V S = 5V, 0V (V)3020100543210100LT1078/79 • TPC23110Distribution of Input Offset Voltage (LT1078 in 8-Pin SO Package)Channel Separation vs FrequencyPower Supply Rejection Ratio vs FrequencyCommon Mode Rejection Ratio vs FrequencyFREQUENCY (Hz)10CO M M O N M O D E R E J E C T I O N R A T I O (d B )1001k 10k 100kLT1078/79 • TPC251M120100806040200FREQUENCY (Hz)0.1P O W E R S UP P L Y R E J E C T I O N R A T I O (d B )12010080604020010010k LT1078/79 • TPC261101k 100k1MFREQUENCY (Hz)11k 100kLT1078/79 • TPC271010010k 1MC H A N N E L S E P A R A T I O N (d B )140120100806040200INPUT OFFSET VOLTAGE (μV)–160P E R C E N T O F U N I T S160LT1078/79 • TPC21–80080161412108642–120–40401201010789feTYPICAL PERFOR A CE CHARACTERISTICSU WSmall-Signal Transient Response VS = ±2.5V20m V /D I VA V = 110μs/DIVC L = 15pFLT1078/79 • TPC250VSmall-Signal Transient Response V S = 5V, 0V20m V /D I VA V = 110μs/DIV C L = 15pFINPUT 50mV TO 150mVLT1078/79 • TPC240.1V Small-Signal Transient Response VS = ±15V20m V /D I VA V = 110μs/DIVC L = 15pFLT1078/79 • TPC260VAPPLICATIO S I FOR ATIO WUU U The LT1078/LT1079 devices are fully specified with V + = 5V, V – = 0V, V CM = 0.1V. This set of operating conditions appears to be the most representative for battery-powered micropower circuits. Offset voltage is internally trimmed to a minimum value at these supply voltages. When 9V or 3V batteries or ±2.5V dual supplies are used, bias and offset current changes will be minimal.Offset voltage changes will be just a few microvolts as given by the PSRR and CMRR specifications. For example,if PSRR = 114dB (= 2μV/V), at 9V the offset voltage change will be 8μV. Similarly, V S = ±2.5V, V CM = 0V is equivalent to a common mode voltage change of 2.4V or a V OS change of 7μV if CMRR = 110dB (3μV/V).A full set of specifications is also provided at ±15V supply voltages for comparison with other devices and for com-pleteness.Single Supply OperationThe LT1078/LT1079 are fully specified for single supply operation, i.e., when the negative supply is 0V. Input common mode range goes below ground and the output swings within a few millivolts of ground while sinking current. All competing micropower op amps either cannot swing to within 600mV of ground (OP-20, OP-220, OP-420)or need a pull-down resistor connected to the output to swing to ground (OP-90, OP-290, OP-490, HA5141/42/44). This1110789feAPPLICATIO S I FOR ATIO W UU U difference is critical because in many applications these competing devices cannot be operated as micropower op amps and swing to ground simultaneously.As an example, consider the instrumentation amplifier shown on the front page. When the common mode signal is low and the output is high, amplifier A has to sink current. When the common mode signal is high and the output low, amplifier B has to sink current. The competing devices require a 12k pull-down resistor at the output of amplifier A and a 15k at the output of B to handle the specified signals. (The LT1078 does not need pull-down resistors.) When the common mode input is high and the output is high these pull-down resistors draw 300μA (150μA each), which is excessive for micropower applications.The instrumentation amplifier is by no means the only application requiring current sinking capability. In seven of the nine single supply applications shown in this data sheet the op amps have to be able to sink current. In two of the applications the first amplifier has to sink only the 6nA input bias current of the second op amp. The compet-ing devices, however, cannot even sink 6nA without a pull-down resistorSince the output of the LT1078/LT1079 cannot go exactly to ground, but can only approach ground to within a few millivolts, care should be exercised to ensure that the output is not saturated. For example, a 1mV input signal will cause the amplifier to set up in its linear region in the gain 100 configuration shown in F igure 1a, but is notSingle supply operation can also create difficulties at the input. The driving signal can fall below 0V — inadvertently or on a transient basis. If the input is more than a few hundred millivolts below ground, two distinct problems can occur on previous single supply designs, such as the LM124, LM158, OP-20, OP-21, OP-220, OP-221, OP-420(1 and 2), OP-90/290/490 (2 only):1.When the input is more than a diode drop below ground,unlimited current will flow from the substrate (V –terminal) to the input. This can destroy the unit. On the LT1078/LT1079, resistors in series with the input protect the devices even when the input is 5V below ground.2.When the input is more than 400mV below ground (at 25°C), the input stage saturates and phase reversal occurs at the output. This can cause lockup in servo systems. Due to a unique phase reversal protection cir-cuitry, the LT1078/LT1079 output does not reverse, as illustrated in Figure 2, even when the inputs are at –1V.enough to make the amplifier function properly in the voltage follower mode, Figure 1b.Figure 1a. Gain 100 AmplifierFigure 1b. Voltage FollowerFigure 2. Voltage Follower with Input Exceeding the Negative Common Mode Range (V S = 5V, 0V)2V 0V 6V P-PINPUT 1ms/DIV–1V TO 5VLT1078/79 • F02a1ms/DIVLT1078/LT1079 NO PHASE REVERSALLT1078/79 • F02C2V0V4V1ms/DIVOP-90 EXHIBITS OUTPUT PHASE REVERSALLT1078/79 • F02b2V0V4V4V1210789feAPPLICATIO S I FOR ATIO W UU U Matching SpecificationsIn many applications the performance of a system de-pends on the matching between two op amps, rather than the individual characteristics of the two devices. The two and three op amp instrumentation amplifier configura-tions shown in this data sheet are examples. Matching characteristics are not 100% tested on the LT1078/LT1079.Some specifications are guaranteed by definition. F or example, 70μV maximum offset voltage implies that mis-match cannot be more than 140μV. 97dB (= 14μV/V)CMRR means that worst-case CMRR match is 91dB (= 28μV/V). However, Table 1 can be used to estimate the expected matching performance at V S = 5V, 0V between the two sides of the LT1078, and between amplifiers A and D, and between amplifiers B and C of the LT1079.Table 1Comparator ApplicationsThe single supply operation of the LT1078/LT1079 and its ability to swing close to ground while sinking currentlends itself to use as a precision comparator with TTL compatible output.4V S = 5V, 0V200μs/DIVLT2078/79 • F0320–100I N P U T (m V )O U T P U T (V )Figure 3. Comparator Rise Response Time to 10mV, 5mV, 2mV OverdrivesV S = 5V, 0V200μs/DIVLT2078/79 • F040100I N P U T (m V )O U T P U T (V )42Figure 4. Comparator Fall Response Time to 10mV, 5mV, 2mV OverdrivesTYPICAL APPLICATIO SUMicropower, 10ppm/°C, ±5V Reference Gain of 10 Difference Amplifier–5.000V OUTTHE LT1078 CONTRIBUTES LESS THAN 3% OF THE TOTAL OUTPUT NOISE ANDDRIFT WITH TIME AND TEMPERATURE. THE ACCURACY OF THE –5V OUTPUTDEPENDS ON THE MATCHING OF THE TWO 1M RESISTORSOUTPUT0.0035V TO 2.4VBANDWIDTH= 20kHzOUTPUT OFFSET= 0.7mVOUTPUT NOISE= 80μV P-P (0.1Hz TO 10Hz)260μV RMS OVER FULLBANDWIDTHTHE USEFULNESS OF DIFFERENCE AMPLIFIERS IS LIMITED BYTHE FACT THAT THE INPUT RESISTANCE IS EQUAL TO THE SOURCE RESISTANCE. THE PICOAMPERE OFFSET CURRENT AND LOWCURRENT NOISE OF THE LT1078 ALLOWS THE USE OF 1M SOURCE RESISTORS WITHOUT DEGRADATION IN PERFORMANCE. IN ADDITION, WITH MEGOHM RESISTORS MICROPOWER OPERATION CAN BE MAINTAINEDLT1078/79 • TA04Picoampere Input Current, Triple Op Amp Instrumentation Amplifier with Bias Current CancellationLT`1078/79 • TA05B)(2R) + 20mV ≈ 140mV1310789feTYPICAL APPLICATIO SU85V, –100V Common Mode RangeInstrumentation Amplifier (A V = 10)LT1078/79 • TA06 OUTPUT NOISE=0.8mV P-P (0.1Hz TO 10Hz)=1.4mV RMSOVER FULL BANDWIDTH(DOMINATED BY RESISTOR NOISE) INPUT RESISTANCE=10MOUTPUTLT1078/79 • TA07 1.8V–1.8V1.8V0VHalf-Wave RectifierAbsolute Value Circuit (Full-Wave Rectifier)LT1078/79 • TA08V OMIN = 4mVNO DISTORTION TO 100HzProgrammable Gain Amplifier (Single Supply)ARE ELIMINATED1410789fe1510789feTYPICAL APPLICATIO SUSingle Supply, Micropower, Second Order Lowpass Filter with 60Hz Notch600μVMicropower Multiplier/Divider505k 0.1%505k Y INPUT (5mV TO 50V)X INPUT (5mV TO 50V)Z INPUT(5mV TO 50V)Q1,Q2, Q3, Q4 = MAT-04TYPICAL LINEARITY = 0.01% OF FULL-SCALE OUTPUTOUTPUT = , POSITIVE INPUTS ONLY(X)(Y)(Z)NEGATIVE SUPPLY CURRENT = 165μA +X + Y+ Z + OUT500k POSITIVE SUPPLY CURRENT = 165μA +BANDWIDTH (< 3V P-P SIGNAL):X AND Y INPUTS = 10kHzZ INPUT = 4kHzOUT500kUTYPICAL APPLICATIO SMicropower Dead Zone GeneratorIN1610789fe1710789feTYPICAL APPLICATIO SUPlatinum RTD Signal Conditioner with Curvature CorrectionOUT =°C TO 220°C ±0.1°CLead-Acid Low-Battery Detector with System ShutdownLO = BATTERY LOW (IF V S < 10.90V)LO = SYSTEM SHUTDOWN (IF V S < 10.05V)18SCHE ATICW W SI PLIFIED 1/2 LT1078, 1/4 LT1079+IN IN PACKAGE DESCRIPTIOU1910789feInformation furnished by Linear Technology Corporation is believed to be accurate and reliable.However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen-tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.PACKAGE DESCRIPTIOUN8 Package8-Lead PDIP (Narrow .300 Inch)(Reference LTC DWG # 05-08-1510)BSC0.065(1.651)TYP–0.3818.255*THESE DIMENSIONS DO NOT INCLUDE MOLD FLASH OR PROTRUSIONS. MOLD FLASH OR PROTRUSIONS SHALL NOT EXCEED 0.010 INCH (0.254mm)20LT1078/LT107910789feLT/CPI 1201 1.5K REV E • PRINTED IN USA© LINEAR TECHNOLOGY CORPORA TION 1994PACKAGE DESCRIPTIO US8 Package8-Lead Plastic Small Outline (Narrow .150 Inch)SW Package16-Lead Plastic Small Outline (Wide .300 Inch)(Reference LTC DWG # 05-08-1620)N Package14-Lead PDIP (Narrow .300 Inch)(Reference LTC DWG # 05-08-1510)Linear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417(408) 432-1900 ● F AX: (408) 434-0507 ● BSC–0.3818.255*THESE DIMENSIONS DO NOT INCLUDE MOLD FLASH OR PROTRUSIONS. MOLD FLASH OR PROTRUSIONS SHALL NOT EXCEED 0.010 INCH (0.254mm)SHALL NOT EXCEED 0.006" (0.152mm) PER SIDEFLASH SHALL NOT EXCEED 0.010" (0.254mm) PER SIDE***NOTE 10.037 – 0.045(0.940 – 1.143)0.093 – 0.104(2.362 – 2.642)TYPNOTE:1. PIN 1 IDENT, NOTCH ON TOP AND CAVITIES ON THE BOTTOM OF PACKAGES ARE THE MANUFACTURING OPTIONS. THE PART MAY BE SUPPLIED WITH OR WITHOUT ANY OF THE OPTIONSDIMENSION DOES NOT INCLUDE MOLD FLASH. MOLD FLASH SHALL NOT EXCEED 0.006" (0.152mm) PER SIDEDIMENSION DOES NOT INCLUDE INTERLEAD FLASH. INTERLEAD FLASH SHALL NOT EXCEED 0.010" (0.254mm) PER SIDE***LT1078IS8#TRPBF LT1078S8#PBF LT1079CN#PBF LT1079CN#PBF .LT1078CN8#PBF LT1078IN8#PBF。
江民序列号
江民序列号KI005-89380-F84R2-61603-V8NAKKI005-89385-SKS54-22Z7B-GXM0SKI005-89388-HM4WB-2B9PV-JC59HKI005-89392-JKNTM-3CVLX-FKHDAKI005-89397-V8B8W-Q0V2R-LXWYFKG017-47078-XWWFA-YHR8Q-L50X4KG017-47079-DZ3X2-HNC7T-JMYMPKF011-06188-S32L1-88K7S-JYYZRKF011-01468-5C5MF-9HTRN-MKL7AKF011-06670-499XN-Z60B5-DQ3LJKF011-06671-B8BZD-Q8SDL-QV9ZFKF011-06672-SYV9Q-3P6AN-BKTJHKF011-06673-VT7NG-TFHQG-231VRKF011-06674-2Y35C-BMM7B-PYKNBKF011-06675-BL215-32XN7-RR8YWKF011-06676-56ZLR-XA1Y6-8FSYDKF011-06677-7Y6FY-PDAWL-BNFD7KF011-08036-S3VT5-V76YQ-WAW09KF011-08037-H9C12-3VJC3-78WFYSD004-61336-GTBAY-HJS7M-TA1F3KI005-89300-AL7JD-9VHD9-T5B4C KI005-89306-X8732-14N95-Q5N6K KI005-89308-2N7CK-8XLYS-01VKZ KI005-89309-H362T-1TX4M-0SKN4 KI005-89324-2C70M-X2JG8-5MRP6 KI005-89326-X9SL9-Z0TB4-7QS9G KI005-89330-B93J8-PPW9M-8KK57 KI005-89336-7NZMV-GYZAD-YA1ZT KI005-89338-J3NMG-VT388-CMX13 KI005-89351-V84QT-8NGQ1-BTD5D KF011-06678-5M9CB-JQLL4-J8JCV KF011-06679-A9ZR4-6CW3S-GXM6X KF011-01469-7K957-SFRV3-B896G KF011-01472-1R5JW-8798Q-9AYYJ KF011-06205-G3DQA-0TP46-3NA7AKF011-06207-J99VN-5MW2Y-3CN9Y KF011-06208-197C5-LX2Z4-4KLQA KF011-06209-58ZFB-C7TNF-198DB KF011-06210-XWN01-Q5AFG-C1YYG KF011-06211-F92X6-7R77M-SGKA2 KF011-06179-48WGD-VK8VD-SWF6CKI005-89361-JZS84-7JN99-F8MG8 KI005-89363-FQN97-C6K72-W3VWV KI005-89365-SYWN5-34PCT-Z8ZL2 KI005-89371-1CDG1-K1N56-BJ453 KI005-89372-VYB1X-1JYHZ-NBAWA KI005-89380-F84R2-61603-V8NAK KI005-89385-SKS54-22Z7B-GXM0S KI005-89388-HM4WB-2B9PV-JC59H KI005-89392-JKNTM-3CVLX-FKHDA KI005-89397-V8B8W-Q0V2R-LXWYF KG017-47078-XWWFA-YHR8Q-L50X4 KG017-47079-DZ3X2-HNC7T-JMYMP KF011-06188-S32L1-88K7S-JYYZR KF011-01468-5C5MF-9HTRN-MKL7A KF011-06670-499XN-Z60B5-DQ3LJ KF011-06671-B8BZD-Q8SDL-QV9ZF KF011-06672-SYV9Q-3P6AN-BKTJH KF011-06673-VT7NG-TFHQG-231VR KF011-06674-2Y35C-BMM7B-PYKNB KF011-06675-BL215-32XN7-RR8YW KF011-06676-56ZLR-XA1Y6-8FSYD KF011-06677-7Y6FY-PDAWL-BNFD7KF011-08036-S3VT5-V76YQ-WAW09 KF011-08037-H9C12-3VJC3-78WFY SD004-61336-GTBAY-HJS7M-TA1F3 KI005-89300-AL7JD-9VHD9-T5B4C KI005-89306-X8732-14N95-Q5N6K KI005-89308-2N7CK-8XLYS-01VKZ KI005-89309-H362T-1TX4M-0SKN4 KI005-89324-2C70M-X2JG8-5MRP6 KI005-89326-X9SL9-Z0TB4-7QS9G KI005-89330-B93J8-PPW9M-8KK57 KI005-89336-7NZMV-GYZAD-YA1ZT KI005-89338-J3NMG-VT388-CMX13 KI005-89351-V84QT-8NGQ1-BTD5D KF011-06678-5M9CB-JQLL4-J8JCV KF011-06679-A9ZR4-6CW3S-GXM6X KF011-01469-7K957-SFRV3-B896G KF011-01472-1R5JW-8798Q-9AYYJ KF011-06205-G3DQA-0TP46-3NA7A KF011-06207-J99VN-5MW2Y-3CN9Y KF011-06208-197C5-LX2Z4-4KLQA KF011-06209-58ZFB-C7TNF-198DB KF011-06210-XWN01-Q5AFG-C1YYGKF011-06211-F92X6-7R77M-SGKA2KF011-06179-48WGD-VK8VD-SWF6CKI005-89361-JZS84-7JN99-F8MG8KI005-89363-FQN97-C6K72-W3VWVKI005-89365-SYWN5-34PCT-Z8ZL2KI005-89371-1CDG1-K1N56-BJ453江民杀毒软件2010序列号 (有效期:100天) 序列号:KH024-97290-JMCXS-JP966-S3JA7序列号:KH024-96747-4Z7AW-XJR2S-Z4KAY序列号:KH024-96750-JYNN4-HKTMV-S2RX2序列号:KH024-96751-BN39Q-TP7NQ-VK1V7序列号:KH024-96754-VC2B6-7VHSP-H6752序列号:KH024-96755-AKSYN-RBJBC-RXSMZ序列号:KH024-96746-ARVNH-A972P-0FMRR序列号:KH024-95456-583YB-4DPL9-43WTT序列号:KH024-95340-F36LW-5PR8R-SAS6K序列号:KH024-95341-B3QAL-ZHVN1-M1M5P序列号:KH024-95343-V9ND1-Q39CC-T94LS序列号:KH024-95344-VTCSV-L5LK7-Z7VMT江民杀毒软件2010序列号 (有效期:100天) 序列号:KH025-04119-SN33P-BVN6A-FXSBV序列号:KH025-04138-4M42V-QN6LG-S5LQS序列号:KH025-04150-ACQFG-8F5PH-0BXN1 序列号:KH025-04177-VCVNA-VPM3J-RBWP0 序列号:KH025-04193-AY5KH-Z7V7Y-2T9AH 序列号:KH025-04285-ARQCV-FLJSG-T69CB 序列号:KH025-04306-2ZCBP-02FXV-1XD1X 序列号:KH025-04308-F8NCL-3TMAX-FFBTR 序列号:KH025-04341-1MQ6L-4XKCT-HJZGH 序列号:KH025-04375-HR2CR-QF2S0-V0DBR 序列号:KH025-04420-56NKT-XSGC7-P6G43 序列号:KH025-04439-X8SRX-BB9Q4-QXX9X 序列号:KH025-04476-70586-C2X1N-45Z95 序列号:KH025-04493-FTS3J-SQ3VT-SA97B 序列号:KH025-04579-4NBQH-S2GWD-T2DCN 序列号:KH025-04584-H8B2S-FRKD9-TA516 序列号:KH025-04619-HT9ZF-ZMBZ2-619MB 序列号:KH025-04624-DL5C8-DC1W0-WBJYA 序列号:KH025-04639-PLQXR-7YPDC-BJW8R 序列号:KH025-04660-GY74X-JL5WK-1B57C 序列号:KH025-04686-DQZF5-8ATS3-SBK53 序列号:KH025-04715-BNBQR-W8NVR-2WYD6 序列号:KH025-04850-HYQ9M-SJA44-KXXL8 序列号:KH025-04707-V95SK-57XQK-TVVJD序列号:KH025-05213-PLQ7L-DRQW5-6X1S3 序列号:KH025-05218-B6ZK8-5XJ1J-L5KV8 序列号:KH025-04524-4C61R-3TV8K-VQW4H。
FAG轴承型号后缀含义
FAG轴承型号含义-FAG轴承型号后缀常见轴承型号:FAG轴承公司的轴承代号由基本代号,前置代号和后置代号构成。
基本代号表示轴承的基本类型,结构和尺寸。
前置代号表示轴承零件置于基本代号之前。
后置代号表示轴承结构形状,尺寸,密封,保持架,公差,游隙,热处理,包装,技术要求等有改变时,在轴承基本代号后添加的补充代号。
1 前置代号前置代号R直接放在轴承基本代号之前,其余前置代号用小圆点与基本代号隔开。
GS—推力圆柱滚子轴承座圈。
例:GS.81112K –-滚动体与保持架的组合件。
例::推力圆柱滚子与保持架的组合件K.81108。
R –-不带可分离内圈或外圈的轴承。
例:RNU207-不带内圈的NU207轴承。
WS—推力圆柱滚子轴承轴圈。
例:WS.81112。
2 后置代号后置代号置于基本代号的后面.当具有多组后置代号时,应按轴承代号表中所列后置代号的顺序从左至右的排列。
某些后置代号前用小圆点与基本代号隔开。
(1) 内部结构A,B,C,D,E内部结构变化例1:角接触球轴承7205C,7205E,7205B,C-15度接触角,E-25度接触角,B-40度接触角。
例2:圆柱滚子,调心滚子及推力调心滚子轴承N309E,21309E,29412E-加强型设计,轴承负载能力提高。
VH-滚子自锁的满滚子圆柱滚子轴承(滚子的复圆直径不同于同型号的标准轴承)。
例:NJ2312VH(2)轴承的外形尺寸及外部结构DA-带双半内圈的可分离型双列角接触球轴承。
例:3306DADZ-圆柱型外径的滚轮轴承。
例:ST017DZK-圆锥孔轴承,锥度1:12。
例:2308K。
K30-圆锥孔轴承,锥度1:30。
例:24040K30。
2LS-双内圈,两面带防尘盖的双列圆柱滚子轴承。
例:,双内圈,两面带防尘盖,满滚子双列圆柱滚子轴承。
N-外圈上带止动槽的轴承。
例:6207N。
NR-外圈上带止动槽和止动环的轴承。
例:6207NR。
N2-外圈上带两个止动槽的四点接触球轴承。
SINUMERIK SIMODRIVE 用户操作指南说明书
System Titel SW Ausgabe Bestellnummer Dateiname 840D/840Di/810D AnwenderBedienung840D/810D Bedienungsanleitung HMI Embedded 6.503/046FC5298-6AC00-0AP3BEM840D sl/840Di sl/840D Bedienungshandbuch HMI Advanced 7.501/086FC5398-2AP10-3AA0BAD840D/840Di/810D Bedienen/Programmieren ShopMill 6.410/046FC5298-6AD10-0AP3BAS840D/840Di/810D Bedienen/Programmieren ShopTurn 6.406/036FC5298-6AD50-0AP2BAT810D/840D Bedienen/Programmieren ManualTurn608/026FC5298-6AD00-0AP0BAM840D/840Di/810D Bedienungsanleitung HT 6 6.403/046FC5298-0AD60-0AP3BAH840D/810D Projektierung Bedienoberfläche OP 030609/016FC5297-6AC40-0AP0FBO SINUMERIK/SIMODRIVE Diagnosehandbuch7.411/066FC5298-7AA20-0AP3DA Programmierung840D sl/840Di sl/840D/840Di/810D Programmierhandbuch Grundlagen 7.411/066FC5398-1BP10-2AA0PG840D sl/840Di sl/840D/840Di/810D Programmierhandbuch Arbeitsvorbereitung 7.411/066FC5398-2BP10-4AA0PGA840D sl/840Di sl/840D Programmierhandbuch Zyklen 7.501/086FC5398-3BP20-1AA0PGZ840D sl/840Di sl/840D Programmierhandbuch Messzyklen7.501/086FC5398-4BP20-2AA0BNMProgramming Guide ISO Turning7.404/076FC5398-5BP10-0BA0PGTProgramming Guide ISO Milling7.404/076FC5398-7BP10-0BA0PGM840D sl/840Di sl/840D/840Di/810D Listenhandbuch Systemvariablen 7.411/066FC5397-6AP10-1AA0PGA1 840D/840Di/810D Hersteller/ServiceProjektierung840D Gerätehandbuch Projektierung NCU 03/066FC5297-7AC10-0AP1PHD810D Gerätehandbuch Projektierung CCU03/066FC5297-7AD10-0AP0PHC840Di Handbuch01/056FC5297-7AE60-0AP2HBi840D/840Di/810D Gerätehandbuch Bedienkomponenten07/076FC5297-7AA50-0AP2BH840D sl/840Di sl/840D/840Di/810D Bedienhandbuch SinuCom Inbetriebnahme-/Servicetools07/08Online-Hilfe des IBN-Tools INC840D/810D Projektierung Bedienoberfläche OP 03009/016FC5297-6AC40-0AP0FBO840D/810D Projektierungsanleitung Projektiersyntax09/03Online-Hilfe des IBN-Tools PSProjektierungsanleitung EMV-Aufbaurichtlinie03/046FC5297-0AD30-0AP2EMVGerätehandbuch, ADI4 - Analoge Antriebsschnittstelle für 4 Achsen05/056FC5297-0BA01-0AP4ADI4Handbuch @Event03/026AU1900-0CL20-0AA0HBA PROFIBUS SINEC DP-Programmierschnittstelle Ausgabe 3C79000-B8900-C071/03SINEC_DP PROFIBUS SINEC FDL Programmierschnittstelle Ausgabe 2C79000-B8900-C072/02SINEC_FD Inbetriebnahme840D/810D/611D Inbetriebnahmehandbuch03/066FC5297-6AB20-0AP0IADC840D sl/840Di sl/840D Inbetriebnahme Basesoftware und HMI-Advanced03/096FC5397-0DP10-3AA0IHA840D sl/840Di sl/840D/840Di/810D Inbetriebnahme CNC Teil 2 (HMI)01/066FC5397-3AP10-1AA0IAM840D/840Di/810D Inbetriebnahme HMI03/046FC5297-6AE20-0AP3IAM04840D sl/840Di sl/840D/810D Inbetriebnahme CNC Teil 5 (Basesoftware)07/066FC5397-2CP10-2AA0IAM2 SINUMERIK/SIMODRIVE Listen (Buch 1)11/066FC5297-7AB70-0AP2LIS1 SINUMERIK/SIMODRIVE Listen (Buch 2)11/066FC5297-7AB71-0AP0LIS2 SINUMERIK/SIMODRIVE Ausführliche Maschinendaten Beschreibung11/06-AMDFunktionen840D sl/840Di sl/840D/840Di/810D Funktionshandbuch Grundfunktionen11/066FC5397-0BP10-2AA0FB1840D sl/840Di sl/840D/840Di/810D Funktionshandbuch Erweiterungsfunktionen11/066FC5397-1BP10-2AA0FB2840D sl/840Di sl/840D/840Di/810D Funktionshandbuch Sonderfunktionen11/066FC5397-2BP10-2AA0FB3611D/840D/810D Funktionshandbuch Antriebsfunktionen05/106SN1197-0AA80-2AP1FBA840D/840Di/810D Funktionsbeschreibung Werkzeugverwaltung09/056FC5297-6AC60-0AP1FBW802D sl/840D/840D sl/840Di/840Di sl/810D Funktionshandbuch ISO-Dialekte für SINUMERIK03/076FC5297-7BP10-0AA0FBFA840D/611D Funktionshanduch HLA-Modul 03/066SN1197-0AB60-0AP4FBHLA840D/611D Funktionsbeschreibung ANA-MODUL02/006SN1197-0AB80-0AP0FBAN840D/611D Funktionsbeschreibung Safety Integrated03/066FC5297-7AB80-0AP1FBSI840D sl/840Di sl/840D/840Di/810D Funktionsbeschreibung Synchronaktionen11/066FC5397-5BP10-2AA0FBSY840D Funktionsbeschreibung Digitalisieren 07/996FC5297-4AC50-0AP0FBD840D/840Di/810D Funktionsbeschreibung Ferndiagnose03/046FC5297-0AF00-0AP3FBFE840D Funktionsbeschreibung C-PLC-Programmierung03/966FC5297-3AB60-0AP0FBP840D/840Di/810D Funktionsbeschreibung ShopMill 02/056FC5297-6AD80-0AP3FBSP840D/840Di/810D Funktionsbeschreibung ShopTurn03/046FC5297-6AD70-0AP2FBT840D/810D Funktionsbeschreibung ManualTurn08/026FC5297-6AD50-0AP0FBMA840D/810D Funktionsbeschreibung ManualTurn, Ergänzende Informationen07/04-FBMAx802D/802D base lineAnwender802D base line Bedienen und Programmieren, Drehen208/056FC5698-2AA00-1AP4802D_BPD802D Kurzanleitung Drehen111/006FC5698-1AA30-0AP0802DBNKD802D Kurzanleitung ISO-Dialekt Drehen109/016FC5698-1AA60-0AP0802D_ISD802D Bedienen und Programmieren, Fräsen208/056FC5698-2AA10-1AP5802D_BPF802D Kurzanleitung Fräsen111/006FC5298-1AA40-0AP0802DBNKF802D Kurzanleitung ISO-Dialekt Fräsen 109/016FC5698-1AA50-0AP0802D_ISF802D Diagnoseanleitung110/026FC5698-2AA20-0AP1802D_DIA Hersteller/Service802D base line Funktionsbeschreibung11/036FC5697-2AA10-0AP2802D_fb802D base line Inbetriebnahmehandbuch08/056FC5697-2AA00-1AP5802D_IBNGerätehandbuch, ADI4 - Analoge Antriebsschnittstelle für 4 Achsen05/056FC5297-0BA01-0AP4ADI4802S/802C base lineAnwender802S/ 802C base line Bedienen und Programmieren, Drehen408/036FC5598-4AA01-0AP0802SC_BPD 802S/ 802C base line Bedienen und Programmieren, Fräsen408/036FC5598-4AA11-0AP0802SC_BPF802S/ 802C base line Diagnoseanleitung408/036FC5598-4AA21-0AP0802SC_DIA Hersteller/Service802S/802C base line Funktionsbeschreibung08/036FC5597-4AA11-0AP0802SC_FB802C base line Inbetriebnahmeanleitung08/036FC5597-4AA21-0AP0802C_IBN802S base line Inbetriebnahmeanleitung08/036FC5597-4AA01-0AP0802S_IBN SIMODRIVE base line A Start-Up09/046SN1197-0AB21-0BP1802C_IBN_SBLASIMODRIVE611 digital Projektierungshandbuch Umrichter05/086SN1197-0AA00-1AP1PJU611 universal Funktionshandbuch06/116SN1197-0AB20-2AP3FBU611 universal Tausch Ersatzteil07/05A5E00150834FBU_TE611 universal Tausch Ersatzteil HR/HRS12/05A5E00423710FBU_TEH611 analog Inbetriebnahmeanleitung10/006SN1197-0AA60-0AP6IAA611 analog Beschreibung10/006SN1197-0AA30-0AP1BSFunktionsbeschreibung FM-STEPDRIVE/SIMOSTEP02/056SN1197-0AA70-0YP4FBSTSINAMICS S120/SIMODRIVE Systemhandbuch Schaltschrankintegration09/076SL3097-0AT00-0AP0SH1 SIMODRIVE SensorBenutzeranleitung Absolutwertgeber mit PROFIBUS-DP07/056SN1197-0AB10-0YP4BHAProjektierungshandbuch Hohlwellenmesssystem SIMAG H201/116SN1197-0AB31-0AP8PMH2Montageanleitung SIMAG H2 an SIMAG H08/05-SIMAGH2_M1Montageanleitung SIMAG H2 an SIZAG 208/05-SIMAGH2_M2Montageanleitung Zahnradgeber SIZAG 205/086SN1197-0AB00-0YP3SIZAG2_MBetriebsanleitung Gebersysteme ERN 1381.00106/03610.41 334.02ERN1381_BEBetriebsanleitung Gebersysteme ERN 1387 … / S21 / EQN 1325 …01/05610.41 304.02ERN1387_BEBeiblatt Anschlusshaube Hohlwellengeber PROFIBUS DP06/05-SSB_DPHBeiblatt Anschlusshaube Vollwellengeber PROFIBUS DP05/04-SSB_DPVBeiblatt Geberstecker SSI - EnDat06/08-SSB_SSIBeiblatt Geberstecker TTL - HTL- 1Vpp07/04-SSB_TTL Synchronmotoren1FK6Projektierungsanleitung Drehstrom-Servomotoren05/036SN1197-0AD05-0AP0PFK61FK7Projektierungshandbuch Synchromotoren10/056SN1197-0AD06-0AP1PFK71FK7Betriebsanleitung Drehstrom-Servomotoren 1FK7 02. - 1FK7 10. 03/11610.40700.01c1FK7_BE1FK7Betriebsanleitung Getriebemotoren03/05610.40 064.011FK7G_BE1FK7/1FT6Betriebsanleitung Getriebemotoren-Planetengetriebe09/05610.40 072.011FK7GP_BE1FT5Projektierungsanleitung Drehstrom-Servomotoren 05/036SN1197-0AD01-0AP0PFT51FT5Betriebsanleitung Drehstrom-Servomotoren 1FT5 02. -1FT5 04.09/93610.42078.21.a1FT502_BE1FT5Betriebsanleitung Drehstrom-Servomotoren 1FT5 06. -1FT5 13.04/93610.41199.21.c1FT506_BE1FT6Projektierungshandbuch Synchronmotoren 1FT610/056SN1197-0AD02-0AP1PFT61FT6Betriebsanleitung Drehstrom-Servomotoren 1FT6 02. -1FT6 10.07/03610.43 410.211FT602_BE1FT6Betriebsanleitung Drehstrom-Servomotoren 1FT6 13. -1FT6 16.03/07610.43 600.211FT613_BE1FT6Instandhaltungsanleitung Drehstrom-Servomotoren 1FT6 03 - 04 / 06 - 1307/96610.43411.02.a1FT6_IA1FT7Projektierungshandbuch Synchronmotoren 1FT703/106SN1197-0AC13-0AP3PFT71FT7Betriebsanleitung Synchronmotoren 1FT705/11610.40075.01c1FT7_BE1FE1Projektierungshandbuch Synchron-Einbaumotoren09/086SN1197-0AC00-1AP0PFE11FE1Montagehandbuch Synchron-Einbaumotoren10/10610.43000.011FE1_M1FE1Betriebsanleitung Spannungs-Begrenzungs-Modul VPM20008/09A5E00302261B1FE1_VPM200_BE 1FE1Betriebsanleitung Spannungs-Begrenzungs-Modul VPM200 DYNAMIK08/09A5E00777655A1FE1_VPM200D_BE 1FE1Betriebsanleitung Spannungs-Begrenzungs-Modul VPM12008/09A5E00302281B1FE1_VPM120_BE 1PH8Betriebsanleitung Synchron-/Asynchronmotoren 1PH813 und 1PH81605/10610.48006.011PH813_BE1PH8Betriebsanleitung/Montageanleitung Drehstrom-Synchronmotoren 1PH818, 1PH82207/10A5E03029571B AA1PH818S_BE1PH8Betriebsanleitung Drehstrom-Synchronmotoren 1PH818, 1PH82209/09A5E02446774B AB1PH818S_BE0909 2SP1Projektierungshandbuch ECS-Motorspindel11/086SN1197-0AD04-0AP5PMS2SP1Betriebsanleitung ECS-Motorspindel02/116SN1197-0AD14-0AP12SP1_BEAsynchronmotoren1PH2Projektierungsanleitung Asynchronmotoren 10/036SN1197-0AC63-0AP0APH21PH2Betriebsanleitung Drehstrom-Einbaumotoren 04/96610.43 414.021PH2_BE1PH4Projektierungshandbuch Asynchronmotoren04/066SN1197-0AC64-0AP1APH41PH4Betriebsanleitung Asynchronmotoren 1PH405/10610.43093.01e1PH4_BE1PH7Projektierungsanleitung Asynchronmotoren05/046SN1197-0AC65-0AP1APH71PH7Betriebsanleitung Fremdbelüftete Drehstrommotoren 1PH7 10-1611/08610.43 429.211PH7_BE1PH7Betriebsanleitung Drehstrom-Asynchronmotor 1PH71802/08A5E00215737A1PH718_BE 1PH7Betriebsanleitung Drehstrom-Asynchronmotor 1PH72203/08A5E00264361A1PH722_BE 1PH7Betriebsanleitung Drehstrom-Asynchronmotor 1PH72803/08A5E00171047A1PH728_BE 1PH8Betriebsanleitung Asynchronmotoren 1PH808 und 1PH81005/10610.48004.011PH808_BE 1PH8Betriebsanleitung Synchron-/Asynchronmotoren 1PH813 und 1PH81605/10610.48006.011PH813_BE 1PH8Betriebsanleitung Drehstrom-Asynchronmotor 1PH818, 1PH822, 1PH82807/09A5E02605207B AA1PH8_BE1PM6/1PM4Projektierungshandbuch Hohlwellenmotoren08/056SN1197-0AD03-0AP1PPM1PM6Betriebsanleitung Hohlwellenmotoren, luftgekühlt12/05610.40 037.311PM6_BE1PM4Betriebsanleitung Hohlwellenmotoren, flüssigkeitsgekühlt12/05610.40 036.311PM4_BE Linear-/Torquemotoren1FN1Projektierungshandbuch Linearmotoren10/066SN1197-0AB72-0AP0PFN11FN3Projektierungshandbuch Dauerlastmotoren03/086SN1197-0AB74-0AP2PFN3DLM1FN3Projektierungshandbuch Spitzenlastmotoren04/086SN1197-0AB73-0AP1PFN3SLM1FW6Projektierungshandbuch Einbau-Torquemotoren05/096SN1197-0AD00-0AP7PJTM1FW6Betriebsanleitung Einbau-Torquemotoren 1FW606/116SN1197-0AF00-0AP01FW6_BE1FN1/1FN3/1FW6Gerätehandbuch Sensor Module External SME9x11/076SN1197-0AE10-0AP0GH_SME9x Sicherheitshinweise für Direktantriebe01/10-1FN_FW_SH Dezentrale AntriebstechnikPOSMO A Benutzerhandbuch10/076SN2197-0AA00-1AP1POS1 POSMO A Betriebsanleitung Power Management Modul DC-PMM / 24 V04/03-POS1_BE24 POSMO A Betriebsanleitung Power Management Modul DC-PMM / 48 V04/03-POS1_BE48 POSMO A Montageanleitung08/03A5E00158596POS2 POSMO A Montageanleitung "getrennte Variante"12/06A5E00397126Aaf posa_mv POSMO A Montageanleitung Tausch Antriebseinheit 12/01A5E00101611B posa_mta POSMO A/SI Montageanleitung Tausch Getriebe02/04A5E00297127posa_mtg POSMO SI/CD/CA Benutzerhandbuch06/086SN2197-0AA20-1AP4POS3 POSMO SI/CD/CA Montageanleitung Entstörfilter 08/03A5E00245073B-A1poscd_mf POSMO SI/CD/CA Montageanleitung Tausch PROFIBUS–Einheit 07/06A5E00145169 ae poscd_mpe POSMO SI/CD/CA Montage Entstörfilter ECOFAST03/03-poscd_mfe POSMO SI/CD/CA Montageanleitung Tausch PROFIBUS-Einheit ECOFAST07/06A5E00335711 ac poscd_mpee POSMO SI Montageanleitung07/06A5E00282739 ac poss_m POSMO SI Montageanleitung Tausch Lüfter 07/05462 028 0042 00ab poss_mtl POSMO SI Montageanleitung Tausch Antriebseinheit 07/05A5E00145904ac poss_mta POSMO SI Montageanleitung mit PROFIBUS–Einheit ECOFAST07/06A5E00335557 ac poss_mpe POSMO CD/CA Montageanleitung07/06A5E00257954 ad posca_m POSMO CD/CA Montageanleitung mit PROFIBUS–Einheit ECOFAST07/06A5E00335554 ac posca_meMotion Control Information System840D sl/840Di sl/840D/840Di/810D Funktionshandbuch Rechnerkopplung RPC SINUMERIK10/056FC5297-6AD61-0AP1FBR840D sl/840Di sl/840D/840Di/810D Funktionshandbuch NC-Programmmanagement DNC Plant/Cell12/106FC5297-2AE80-0AP3FBDN840D sl/840Di sl/840D/840Di/810D Funktionsbeschreibung NC-Programmmanagement DNC Machine09/036FC5297-1AE81-0AP0FBDM840D sl/840Di sl/840D/840Di/810D Benutzeranleitung Bedienoberfläche "DNC-Machine"07/07-BBDNC 840D sl/840Di sl/840D/840Di/810D Funktionsbeschreibung,Vorbeugende Instandhaltung TPM02/076FC5260-2FX28-0AG3FBTP840D sl/840Di sl/840D/840Di/810D Funktionsbeschreibung TDI Ident Connection06/036FC5297-1AE60-0AP0FBIC840D sl/840Di sl/840D/840Di/810D Bedienungsanleitung Tool Data Information (TDI) 06/076FC5297-6AE01-0AP4BTDI840D sl/840Di sl/840D/840Di/810D Betriebsanleitung ADDM Server Version 6.008/05-BEDMS 840D sl/840Di sl/840D/840Di/810D Betriebsanleitung ADDM Client Version 6.110/07-BEDMC 840D sl/840Di sl/840D/840Di/810D Betriebsanleitung ADDM Agent Version 1.107/05-BEDMA 840D sl/840Di sl/840D/840Di/810D Benutzeranleitung MDA / PDA Maschinenauswertungen08/07-GUIRT 840D sl/840Di sl/840D/840Di/810D Benutzeranleitung MDA Monitor08/07-MonGUI 840D sl/840Di sl/840D/840Di/810D Benutzeranleitung MDA Bedienoberfläche "Projektierung"08/07-PrjGUI840D sl/840Di sl/840D/840Di/810D Benutzeranleitung MDA Werkskalender08/07-WkalGUI 840D sl/840Di sl/840D/840Di/810D Projektierung MDA10/07-PMDA840D sl/840Di sl/840D/840Di/810D Inbetriebnahme MDA Machine10/07-IMDA_M 840D sl/840Di sl/840D/840Di/810D Inbetriebnahme MDA Cell10/07-IMDA_C 840D sl/840Di sl/840D/840Di/810D Inbetriebnahme MDA HMI06/07-IMDA_HMI 840D sl/840Di sl/840D/840Di/810D Inbetriebnahme Datenbankprogramm Oracle für MDA04/05-IMDA_O 840D sl/840Di sl/840D/840Di/810D Funktionsbeschreibung MDA Machine 10/03-FMDA SIMATIC PostionierbaugruppenHandbuch FM 353 für Schrittantrieb08/086ES7353-1AH01-8AG0FM353Handbuch FM 354 für Servoantrieb08/086ES7354-1AH01-8AG0FM354Getting Started Erste Schritte zur Inbetriebnahme FM 354/FM 35304/07-FM354_GSHandbuch FM 357-2 für Servo- bzw. Schrittantrieb01/036ES7357-4AH00-8AG0FM357_2Handbuch FM 453 für Servo- bzw. Schrittantrieb08/086ES7453-3AH00-8AG0FM453Getting Started Erste Schritte zur Inbetriebnahme FM 45304/07-FM453_GS ePS Network Services840D/840Di/810D Installationshandbuch02/08-EPS_IA 840D/840Di/810D Bedienhandbuch11/06-EPS_BH 840D sl/840Di sl/840D/840Di Projektierungshandbuch04/10-EPS_PH 840D sl/840Di sl/840D/840Di Funktionshandbuch12/10-EPS_FH 840D sl/840D Betriebsanleitung eP-Satellite Server12/10-EP_BA 840D/840Di/810D Leistungsbeschreibung ASP Schein01/09-EPS_LB 840D sl/840Di sl/840D/840Di Release Notes12/10-EPS_RNSIMATICSIMATIC S7Getting Started: Erste Schritte und Übungen mit STEP 7 V5.403/06-S7_GS SIMATIC S7Programmieren mit STEP 7 V5.403/06-S7P SIMATIC S7HW konfigurieren und Verbindungen projektieren mit STEP 7 V5.403/06-S7_HW SIMATIC S7-300/400Referenzhandbuch Kontaktplan (KOP)03/06-S7_KOP SIMATIC S7-300/400Referenzhandbuch Funktionsplan (FUP)03/06-S7_FUP SIMATIC S7-300/400Referenzhandbuch Anweisungsliste (AWL)03/06-S7_AWL SIMATIC S7-300/400Referenzhandbuch System- und Standardfunktionen03/06-S7_SFC SIMATIC S7-300Betriebsanleitung CPU 31xC und CPU 31x: Aufbauen06/08-S7_BA31A SIMATIC S7-300Gerätehandbuch CPU 31xC und CPU 31x, Technische Daten06/08-S7_GH31TD SIMATIC S7-300Referenzhandbuch CPU-Daten CPUs 312 IFM bis 318-2 DP10.01-S7300Re2 SIMATIC S7-300Operationsliste CPU Daten: CPUs 312 IFM bis 318-2 DP10.01-S7OP1 SIMATIC S7-300Operationsliste CPU 31xC, CPU 31x06/08-S7OP2 SIMATIC S7-300Technologische Funktionen: CPU 31xC02/07-S7300TF SIMATIC S7-200Systemhandbuch09/07-S7200SH SIMATIC S7-200Systemhandbuch CPU 210Ausgabe 1-S7_C210 SIMATIC Systemhandbuch Kommunikation mit SIMATIC09/06-SSH_Komm SIMATIC HMI Betriebsanleitung Bediengerät Mobile Panel 177 (WinCC flexible)07/05-SBE_MP177 Info/TrainingSystemhandbuch Safety Integrated20056ZB5000-0AA02-0BA1APPL_HBSystemhandbuch Safety Integrated Nachtrag20066ZB5000-0AB01-0BA0APPL_HBNTrainingsunterlage Einfacher fräsen mit ShopMill08/066FC5095-0AA50-0AP2TUSMTrainingsunterlage Einfacher drehen mit ShopTurn04/046FC5095-0AA80-0AP1ST_ein840D/840Di/810D Einsteigeranleitung Fräsen und Drehen 10/036FC5095-0AB00-0AP1SIN_ein840D/840D sl/840Di Handbuch 5 Achs-Bearbeitung05/096FC5095-0AB10-0AP1SIN_WF5 840D/840Di/810D/802D sl Handbuch Werkzeug- und Formenbau (3 Achsen)08/076FC5095-0AB20-0AP0SIN_WF3 SteuerungsübersichtSINUMERIK powerline Funktionsübersichten 2009-BU840D/810D Steuerungsübersicht Fräsen mit ShopMill06/07-SSM840D/810D Steuerungsübersicht Drehen mit ShopTurn04/07-SSTaktualisierte Ausgabeerstmalig auf DOConCD。
SEMI T007-00-0997E2
SEMI T7-0997E© SEMI 1997, 20001SEMI T7-0997ESPECIFICATION FOR BACK SURFACE MARKING OF DOUBLE-SIDE POLISHED WAFERS WITH A TWO-DIMENSIONAL MATRIX CODE SYMBOLThis specification was technically approved by the Global Traceability Committee and is the direct responsibility of the North American Traceability Committee. Current edition approved by the North American Traceability Committee on April 30, 1999. Initially available on SEMI OnLine May 1999; to be published June 1999. Originally published in 1996.EThis document was modified in April 1999 to reflect the creation of SEMI AUX1 as the source for vendor identification codes. Changes were made to numerous sections. This document was also modified in April 2000 to clarify patent issues. Changes were made to the notice at the end of this document.1 Purpose1.1 This specification is intended to provide a marking symbology that can be used to mark silicon wafers with no intrusion into the fixed quality area of the wafer.2 Scope2.1 This specification defines the geometric and spatial relationships and content (including the error checking and correcting code) of a rectangular two-dimensional (2-D), machine-readable, binary data matrix code symbol for back surface marking of notched, double-side polished wafers of silicon which comply with SEMI M28, and other materials with diameters of 300 mm and larger. It may be used in conjunction with the alphanumeric marking codes specified in SEMI M12 and SEMI M13 or the bar code specified in SEMI T1.2.2 Although this specification do es not specify the marking techniques that may be employed when complying with its requirements, it is assumed that the symbol will be obtained by laser scribing individual dots.2.3 The matrix code is applicable to a broad range of wafer products including epitaxial wafers, SOI wafers,and unpatterned or patterned polished wafers. The format and algorithms of this code are based on two-dimensional symbology specified in AIM International Symbology Specification-Data Matrix.3 Referenced Documents3.1 SEMI StandardsSEMI AUX1 — List of Vendor Identification Codes SEMI M12 — Specification for Serial Alphanumeric Marking of the Front Surface of WafersSEMI M13 — Specification for Alphanumeric Marking of Silicon WafersSEMI M28 — Specification for Developmental 300mm Diameter Polished Single Crystal Silicon WafersSEMI T1 — Specification for Back Surface Bar Code Marking of Silicon Wafers3.2 AIM International Technical Specification 1AIM International Symbology Specification — Data Matrix3.3 ANSI Standards 2ANSI MH10.8.2 — Data Application Identifier StandardANSI X3.4-1986 — American Standard Code for Information Interchange (ASCII)NOTE 1: This standard is equivalent to ISO 646, Information Processing – ISO 7-bit Coded Character Set for Information Exchange.4 Terminology4.1 alignment bar, of a data matrix code symbol — a solid line of contiguous filled cells abutting a line of alternately filled and empty cells [AIM - Data Matrix].4.2 binary values — a dot in the wafer surface indicates the binary value 1. The absence of a dot, or a smooth surface surrounding a cell center point indicates the binary value 0.4.3 border column — the outermo st column of a data matrix code symbol. This column is a portion of the finder pattern.4.4 border row — the outermost r ow of a data matrix code symbol. This row is a portion of the finder pattern.4.5 cell, of a data matrix code symbol — the area within which a dot may be placed to indicate a binary value.1AIM International Inc., 11860 Sunrise Valley Drive, Suite 101,Reston, VA 22091, tel.: 203-391-7621, fax: 203-391-7624.2American National Standards Institute, 11 West 42nd Street, New York, NY 10036, tel.: 212-642-4900, fax: 212-398-0023.SEMI T7-0997E© SEMI 1997, 200024.6 cell center point, of an array — the point at which the centerline of a row intersects the centerline of a column.4.7 cell spacing, of an array — the (equal) vertical or horizontal distance between the cell center points of contiguous cells.4.8 center line, of a row or column — the line positioned parallel to, and spaced equally between, the boundary lines of the row or column.4.9 central area, of a cell — the a rea enclosed by a circle centered at the cell center point; used by code readers to sense the binary value of the cell.4.10 data matrix code symbol — a two-dimensional array of square cells arranged in contiguous rows and columns. In certain ECC200 symbols, data regions are separated by alignment patterns. The data region is surrounded by a finder pattern [AIM - Data Matrix].4.11 dot — a localized region with a reflectance which differs from that of the surrounding surface.NOTE 2: To assure reading efficiency, a minimum contrast of 30% is required between the reflectance value of a dot and the surrounding wafer surface. Various densitometers can provide such measurements nondestructively.4.12 dot misalignment, within a cell — the distance between the physical center point of a dot and the cell center point.4.13 finder pattern, of a data matrix code symbol — a perimeter to the data region. Two adjacent sides contain dots in every cell; these are used primarily to define physical size, orientation and symbol distortion. The two opposite sides are made up of cells containing dots in alternate cells [AIM Data Matrix].4.14 reference point, of a data matrix code symbol —the physical center point of a corner cell common to the primary border row and the solid line of the alignment bar, used to identify the physical location of the symbol on the object being marked with the symbol.NOTE 3: The reference point is at a fixed location on the object. Different cells may be chosen as the reference point depending on the desired orientation of the symbol on the object and the size variability of the symbol. The particular cell to be used as the reference point must be specified for each application.5 Requirements5.1 Shape and Size of the Data Matrix Code Symbol 5.1.1 Data Matrix Code Symbol Dimensions5.1.1.1 Each rectangular matrix code symbol shall be composed of an array of 8 rows and 32 columns with an alignment bar as defined in AIM ISS Data Matrix.5.1.1.2 Cell spacing shall be 125 µm, center to center.5.1.2 Dot Size — The nominal shape of the dot produced in the matrix may be circular or square. Its diameter or edge length (after polishing) shall be 100µm ± 10 µm.5.1.3 Border Rows and Columns5.1.3.1 One border row and one border column shall contain a dot in each cell. These are identified as the primary border row and the primary border column.These are used by the code reader to determine the orientation of the matrix.5.1.3.2 The opposing (secondary) border row and column shall contain dots in alternating cells.5.1.3.3 For these rectangular matrix code symbols, the reference point of the symbol shall be the physical centerpoint of the cell common to the primary border row and the center alignment bar.5.1.4 The maximum dot misalignme nt within a cell is 20 µm. This ensures that a minimum size dot covers a cell central area of radius 25 µm.5.2 Content of the Data Matrix Co de Symbol5.2.1 Each rectangular matrix code symbol shall contain 10 message characters, together with the error checking and correcting (ECC200) code characters,encoded in accordance with AIM ISS-Data Matrix.5.2.2 The message characters may include any of those designated as "mostly upper case" in AIM ISS-Data Matrix, in Table 5 and Annex J. The ten message characters shall contain two elements:a. a vendor-assigned 8-character wafer identification code, followed byb. a 2-character vendor identification code (see SEMI AUX1).5.3 Location of the Data Matrix Code Symbol 5.3.1 With the wafer positioned bac k surface up and with the primary fiducial toward the operator, the origin of the data matrix code symbol shall be located as specified below.5.3.1.1 The 8 row x 32 column rectangular 2-D matrix code symbol shall be placed entirely outside a fixed quality area (FQA) with a nominal edge exclusion of 3mm. The reference point shall be located 148.95 ± 0.15mm from the center of the wafer, along a radius 5.0 ±0.1° counterclockwise from the axis of the notch fiducial bisector.5.3.2 The primary row of the matrix code symbol shall be placed toward the periphery of the wafer.SEMI T7-0997E© SEMI 1997, 20003Figure 1Data Matrix Field DimensionsECC200 - 8 rows x 32 columnsFigure 2Data Matrix Code Fields ECC200 - 8 rows x 32 columnsSEMI T7-0997E© SEMI 1997, 20004Figure 3Data Matrix Code Symbol Location on Back Surface of Notched 300 mm Diameter WaferNOTE 1: The peripheries are of wafers of nominal diameter with nominal notch dimensions. The dots of the finder pattern are shown for an 8 row x 32 column data matrix code symbol with 125 µm spacing.NOTICE: These standards do not purport to address safety issues, if any, associated with their use. It is the responsibility of the user of these standards to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.SEMI makes no warranties or representations as to the suitability of the standards set forth herein for any particular application. The determination of the suitability of the standard is solely the responsibility of the user. Users are cautioned to refer to manufacturer ’s instructions, product labels, product data sheets, and other relevant literature respecting any materials mentioned herein. These standards are subject to change without notice.The user ’s attention is called to the possibility that compliance with this standard may require the use of copyrighted material or of an invention covered by patent rights. RVSI Acuity CiMatrix has filed a statement with SEMI asserting that the patented orcopyrighted item can be used by the public for the purpose of implementing this standard without specific license and without payment of royalty or other charge.Attention is also drawn to the possibility that some elements of this standard may be subject to patented technology or copyrighted items other than those identified above. Semiconductor Equipment and Materials International (SEMI) shall not be held responsible for identifying any or all such patented technology or copyrighted items. By publication of this standard, SEMI takes no position respecting the validity of any patent rights or copyrights asserted in connection with any item mentioned in this standard. Users of this standard are expressly advised that determination of any such patent rights or copyrights and the risk of infringement of such rights are entirely their own responsibility.Copyright by SEMI® (Semiconductor Equipment and Materials International), 805 East Middlefield Road, Mountain View, CA 94043.Reproduction of the contents in whole or in part is forbidden without express written consent of SEMI.。
凯斯挖掘机故障代码
107 大气压 力传感 器故障 低压故 障
传感器电压 低于0.5V 大约 5秒
108 大气压 力传感 器故障 高压故 障
传感器回路钥匙开关输 开路/短路 入是18V或更 在线束里。高。 代码1630,16 32没有发现。
传感器电压 低于0.5V 大约 5秒
112 进气温 度传感 器故障 (低电压 113 进气温 度传感 器故障 (低电压
钥匙开关输 入是18V或更 高。 代码1630,16 33没有发现。 钥匙开关输 入是18V或更 高。 代码1630,16 33没有发现。 起动发动机3 分钟后。 钥匙开关输 入是18V或更 高。 代码1630,16 33没有发现。 钥匙开关输 入是18V或更 高。 代码1630,16 33没有发现。 主继电器供电 是否高于18V 转速高于70转 盘车时(打马达 故障代码0611 126.0211没有 发现
182 燃油温 度故障 (低电 压) 183 燃油温 度故障 (高电 压)
传感器回路 开路/短路 在线束里。
传感器回路 开路/短路 在线束里。
192 共轨压 力故障 (低电 压) 193 共轨压 力故障 (高电 压) 201 1缸喷 嘴驱动 系统开 路
传感器回路 /短路 在线束里。
传感器回路 开路/短路 在线束里。
钥匙开关的输 凸轮轴信号 入电压大于18V 脉冲失谐。 曲轴脉冲正常 故障代码0335 0336,0340,0 341,1345,163 5没有发现。 发动机在运转
输出降低,冒 白烟,发动机 可能会剧烈抖 动,发动机会 停转,(当重 新起动,凸轮 轴信号正常) 备份: 以凸轮轴为基 础的控制,当 凸轮轴传感器 正常时。 输出降低,冒 白烟,发动机 可能会剧烈抖 动,发动机会 停转,(当重 新起动,凸轮 轴信号正常) 备份: 以凸轮轴为基 础的控制,当 凸轮轴传感器 正常时。 发动机停转后 将不能启动, 发动机运转期 间不能改变 行为, 备份: 发动机运转以 曲轴为基础当 它是正常时。 停车后,不能 识别气缸。( 不能重起) 发动机停转后 将不能启动, 发动机运转期 间不能改变 行为, 备份: 发动机运转以 曲轴为基础当 它是正常时。 停车后,不能 识别气缸。( 不能重起)
PBA线性马达中文型录【2011年6月版】
PBA线性马达中文型录【2011年6月版】!***-*****!***-**********DXMAKES A *****NCE.sgDX50BC C4C PC TMC 2.0C AC FCDX10B DX20B DX30B DX50B DX65B DX90BC1 C2 C3 C4 C5:S-TM DX30B, DX50B, DX65B, DX90B ( DX20B )2.0 m( )3.0 mAFC -P-TC - PT 100DX20B ( DX30B, DX50B, DX65B, DX90B )5.0 mW-: TMC On/Off TCCDX50BC TL300C K2DX10B DX20B DX30B DX50B DX65B DX90B:TL180 - 180mm TL300 - 300mm TL600 - 600mm TL900 - 900mm Blank -K1, K2, K3, K4, K5, K6.. -*****DXMAKES A *****NCE.sgDX 10BDX10B-C1 N N W W12.6 3.2 98.1 6.1DX10B-C225.2 6.3 196.2 12.3DX10B-C337.9 9.5 294.3 18.4DX10B-C450.5 12.6 392.4 24.5DX10B-C1 S A pk A pk N/Apk V/ms-1 ohms mH N/√W VDC6.4 1.6 1.97 2.28 1.2 0.11 1.8 60DX10B-C2 S6.4 1.6 3.94 4.55 2.5 0.22 2.6 60DX10B-C3 S6.4 1.6 5.91 6.83 3.7 0.33 3.1 60DX10B-C4 S6.4 1.6 7.89 9.11 4.9 0.44 4.0 60DX10B-C1°C/ W°C32.6 120DX10B-C216.3 120DX10B-C310.9 120DX10B-C48.2 120DX10B-C1 kg mm N mm0.025 22 0 21DX10B-C20.05 43 0 21DX10B-C30.075 64 0 21DX10B-C40.1 85 0 21PAGE 3*****DXMAKES A *****NCE.sgDX 10BE-M2.5 5.0 A(PITCH) 5.014.021.6***** TRACKS *****CE36.0 42.0 G- 3.5 THRU 6.0 3.0 BOTH SIDES 21.0 21.0(PITCH) 13.85 10.8 21.0(PITCH) 20.9 25.4 3.59.90.321.6H- M3 THRU'TL 63 TL 84 TL 105TL (mm) 62.7 83.7 84.7= 0.15kg/ 63mm.(kg)0.15 0.20 0.25G (ea)2 3 4H (ea)3 4 5C1 C2 C3 C4CL(mm) 22.0 43.0 64.0 85.0(kg)0.025 0.05 0.075 0.1E (ea)4 6 8 8A (ea)12.0 16.5 18.0 25.0PAGE 4*****DXMAKES A *****NCE.sgDX 10BA: B:(DX10B-C1S) (48VDC)6 6 5(DX10B-C1S) (48VDC)5A4B4A(m/s)B(m/s)33 22 1 1 0 0 0 0 10 20 30 40 10 20 30 40 50 60 (N)(N)(DX10B-C1S) (48VDC)6 56 5(DX10B-C1S) (48VDC)A4B(m/s)4 3A(m/s)3 2 1 0 0 10 20 30 (N) 40 50 60B2 1 0 0 10 20 30 40 50 60(N)PAGE 5*****DXMAKES A *****NCE.sgDX 20BDX20B-C2 N N W W88 22 404 25.3DX20B-C3132 33 605.9 37.9DX20B-C4176 44 808 50.5DX20B-C2 S A pk A pk N/Apk V/ms-1 ohms mH N/√W VDC8 2 11 12.7 6.5 1.5 4.4 330DX20B-C3 P16 4 5.5 6.4 1.6 0.38 4.4 330DX20B-C4 P16 4 8.25 9.5 2.4 0.56 5.4 330S8 2 16.5 19.1 9.8 2.25 5.4 330S8 2 22 25.4 13 3.0 6.2 330P16 4 11 12.7 3.3 0.75 6.2 330DX20B-C2°C/ W°C4.0 120DX20B-C32.6 120DX20B-C42.0 120DX20B-C2 kg mm N mm0.12 61 0 30DX20B-C30.18 91 0 30DX20B-C40.24 121 0 30PAGE 6*****DXMAKES A *****NCE.sgDX 20B121.0(C4) 91.0(C3) 61.0(C2)16.6M3 7.0 36.5 73.03.0 37.53.0E -M3 THRU109.5 73.0 36.5 6.010.50.0 2.3 7.5 10.5M36.05.655.6 52.0 51.3 39.1 38.13.34.6 B -M4 THRU 6.0 3.2(BOTH SIDES)60.0(PITCH) 7.9 0.010.6 10.660.0(PITCH)A-M5 THRUTL 120 TL 180 TL 240* TL 300 TL 360 TL 480TL (mm) 119.7 179.7 239.7 299.7 359.7 479.7= 0.22kg/ 60mm. (kg)0.44 0.660.88 1.10 1.32 1.76A (ea)2 3 4 5 6 8B (ea)2 3 4 5 6 8C2 C3 C4CL(mm) 61.0 91.0 121.0(kg)0.12 0.18 0.24D (ea)3 5 7E (ea)2 3 4PAGE 70.029.8529.85*****DXMAKES A *****NCE.sgDX 20BA:vs6B:vs6 5(DX20B-C2S) (1 - 110V)(DX20B-C4S) (1 - 110V)6 5vs5A4B(m/s)A4 4A(m/s)B(m/s)333 2 1 0B22 1 1 0 0 0 0 25 50 75 100 125 25 50 75 100 125 150 175 200 0 25 50 75 100 125 150 175(N)(N)(N)vs6 5(DX20B-C2P) (1 - 110V)6 5vs(DX20B-C4P) (1 - 110V)6 5vsA4(m/s)B4A(m/s)B4A(m/s)B3 2 1 0 0 25 50 75(N) 3 2 1 03 2 1 0100125255075100125150175200255075100125150175(N)(N)vs6 5(DX20B-C3S) (1 - 110V)6 vs(DX20B-C2S) (1 - 220V)6 5 vs(DX20B-C4S) (1 - 220V)5A4B4A(m/s)B4A(m/s)B(m/s)3 233 22 1 1 0 0 25 50 75 100 125 150 175 0 0 25 50 75 100 125 0 0 25 50 75 100 125 150 175 200 1(N)(N)(N)vs6 5(DX20B-C3P) (1 - 110V)6 5vs(DX20B-C2P) (1 - 220V)6 5vs(DX20B-C4P) (1 - 220V)A4B4(m/s)AB4A(m/s)B(m/s)3 2 1 0 0 25 50 75 100 125 150 1753 2 1 0 0 25 50(N)3 2 1 075100125255075100125150175200(N)(N)PAGE 8*****DXMAKES A *****NCE.sgDX 30BDX30B-C1 N N W W144 36 386.3 24.1DX30B-C2289 72 772.6 48.3DX30B-C3433 108 1158.9 72.4DX30B-C4577 144 1545.2 96.6DX30B-C5722 181 1931.5 120.7DX30B-C1 S A pk A pk N/Apk V/ms-1 ohms mH N/√W VDC9.2 2.3 15.7 18.1 4.7 3.1 7.4 330DX30B-C2 S P9.2 2.3 31.4 36.3 9.4 6.2 10.4 330 18.4 4.6 15.7 18.1 2.4 1.6 10.4 330DX30B-C3 S P9.2 2.3 47.1 54.4 14.1 9.3 12.7 330 18.4 4.6 23.6 27.2 3.5 2.3 12.7 330DX30B-C4 S P9.2 2.3 62.8 72.5 18.8 12.4 14.7 330 18.4 4.6 31.4 36.3 4.7 3.1 14.7 330DX30B-C5 S P9.2 2.3 78.5 90.6 23.5 15.5 16.4 330 18.4 4.6 39.3 45.3 5.9 3.9 16.4 330DX30B-C1°C/ W°C4.1 120DX30B-C22.1 120DX30B-C31.4 120DX30B-C41.0 120DX30B-C50.8 120DX30B-C1 kg mm N mm0.22 61 0 60DX30B-C20.45 121 0 60DX30B-C30.68 181 0 60DX30B-C40.91 241 0 60DX30B-C51.14 301 0 60PAGE 9*****DXMAKES A *****NCE.sgDX 30B301.0(C5) 241.0(C4) 181.0(C3) 121.0(C2) 61.0(C1)28.0D -M4 THRU30.0(PITCH)2.5 45.517.5 13.7 17.50.05.668.5 61.2 55.2 52.1 50.83.34.258.5 0.0 17.85 17.85 22.25B -M5 THRU 7.3 6.35(BOTH SIDES)60.0A -M5 TRHUTL 120 TL 180 TL 240 TL 300 TL 360 TL 480*TL(mm) 119.5 179.5 239.5 299.5 359.5 479.5= 0.57kg/ 60mm. (kg)1.14 1.71 2.28 2.85 3.42 4.56A (ea)2 3 4 5 6 8B (ea)2 3 4 5 6 8C1 C2 C3 C4 C5CL (mm) 61.0 121.0 181.0 241.0 301.0(kg)0.22 0.45 0.68 0.91 1.14D (ea)3 7 11 15 19PAGE 100.060.0(PITCH)29.75*****DXMAKES A *****NCE.sgDX 30B6 5A:vs (DX30B-C1S) (1 - 110V)B:vs (DX30B-C4S) (1 - 110V)6 5 * BUS ***** NOT *****ND EDA4B4(m/s)(m/s)33 22 1 1 0 0 0 50 100 150 200 250 300 0A B100 200 300 400 500 600 700 800 (N)(N)vs (DX30B-C2S) (1 - 110V)vs (DX30B-C4P) (1 - 110V)6 56 5A4(m/s) (m/s)4B3 2 1 0 0 50 100 150 200 250(N)A3B2 1 0300350400450500100200300400500600700800(N)vs (DX30B-C2P) (1 - 110V)6 5 6 5vs (DX30B-C5S) (1 - 110V)* BUS ***** NOT *****NDEDA4B4(m/s)3 2 1 0 0 50 100 150 200 250 300 350 400 450 500(m/s)3 2 1 0 0 100 200 300 400 500 600 700 800A B(N)(N)vs (DX30B-C3S) (1 - 110V)6 5 4 6 5 4vs (DX30B-C5P) (1 - 110V)(m/s)3 2 1 0 0 50 100 150 200 250 300 350 400 450 500 550 600 (m/s)3A BA2B1 0 0 100 200 300 400 500 600 700 800(N)(N)vs (DX30B-C3P) (1 - 110V)6 5vs6 5(DX30B-C1S) (1 - 220V)A4A 4 B(m/s)B(m/s)3 2 13 2 10 0 50 100 150 200 250 300 350 400 450 500 550 600 0 0 50 100 150 (N) 200 250 300(N)PAGE 11*****DXMAKES A *****NCE.sgDX 30B6 5 A 4(m/s)A:vs (DX30B-C1S) (1 - 220V)B:vs (DX30B-C4S) (1 - 220V)6 5B 4(m/s)A 3 2 1 B3 2 10 0 0 50 100 150 (N) 200 250 300 0 100 200 300 400 (N) 500 600 700 800vs (DX30B-C2S) (1 - 220V)6 5(m/s)vs (DX30B-C4P) (1 - 220V)6 5 A B4(m/s)AB4 3 23 2 1 0 0 50 100 150 200 250 (N) 300 350 400 450 500 1 0 0 100 200 300 400 (N) 500 600 700 800vs (DX30B-C2P) (1 - 220V)6 5 A 4(m/s)vs (DX30B-C5S) (1 - 220V)6B(m/s)5 4 3 2 B 1 A3 2 1 0 0 50 100 150 200 250 (N) 300 350 400 450 5000 0 100 200 300 400 (N) 500 600 700 800vs (DX30B-C3S) (1 - 220V)6 5 A 4(m/s)vs (DX30B-C5P) (1 - 220V)6 5 A 4(m/s)BB 3 2 1 0 0 50 100 150 200 250 300 350 400 450 500 550 600 (N)3 2 1 0 0 100 200 300 400 (N) 500 600 700 800vs (DX30B-C3P) (1 - 220V)6 5 A 4(m/s)B3 2 1 0 0 50 100 150 200 250 300 350 400 450 500 550 600 (N)PAGE 12*****DXMAKES A *****NCE.sgDX 50BDX50B-C1 N N W W224 56 378.1 23.6DX50B-C2447 112 756.2 47.3DX50B-C3671 168 1134.2 70.9DX50B-C4894 224 1512.3 94.5DX50B-C1 S A pk A pk N/Apk V/ms-1 ohms mH N/√W VDC9.2 2.3 24.3 28.1 4.6 3.6 11.5 330DX50B-C2 S9.2 2.3 48.6 56.1 9.2 7.2 16.3 330DX50B-C3 P S9.2 2.3 72.9 84.2 13.8 10.8 19.9 330DX50B-C4 P S9.2 2.3 97.2 112.2 18.4 14.4 23.0 330P18.4 4.6 48.6 56.1 4.6 3.5 23.0 33018.4 4.6 24.3 28.1 2.3 1.8 16.3 33018.4 4.6 36.5 42.1 3.5 2.7 19.9 330DX50B-C1°C/ W°C4.2 120DX50B-C22.1 120DX50B-C31.4 120DX50B-C41.1 120DX50B-C1 kg mm N mm0.28 61 0 60DX50B-C20.52 121 0 60DX50B-C30.76 181 0 60DX50B-C41 241 0 60PAGE 13*****DXMAKES A *****NCE.sgDX 50B241.0(C4) 181.0(C3) 121.0(C2) 61.0(C1)30.0D -M4 THRU30.0(PITCH)6.0 46.019.113.9 19.10.05.693.0 86.0 80.0 77.4 76.23.36.012.760.0(PITCH)29.75A -M6 THRUTL 120 TL 180 TL 240 TL 300 TL 360 TL 480* TL (mm) 119.5 179.5 239.5 299.5 359.5 479.5 (kg)1.73 2.60 3.46 4.33 5.20 6.92A (ea)2 3 4 5 6 10B (ea)2 3 4 5 6 10= 0.866kg/ 60mm.C1 C2 C3 C4CL (mm) 61.0 121.0 181.0 241.0(kg)0.28 0.52 0.76 1.00D (ea)3 7 11 15PAGE 1419.3538.70.09.0B -M6 THRU0.060.0(PITCH)6.35(BOTH SIDES)*****DXMAKES A *****NCE.sgDX 50Bvs (DX50B-C1S) (1 - 110V)A:B:vs (DX50B-C4S) (1 - 110V)vs (DX50B-C3S) (1 - 220V)6 5 4(m/s)6 5 A (m/s) (m/s) 4 3 2 B6 5 4 3 2 1* BUS ***** NOT *****NDED3 2 1A B1 0 0 100 200 300 (N) 400 500 600A 0 0 100 200B 300 400 500 (N) 600 700 800 900 10000 0 100 200 300 400 (N) 500 600 700 800vs (DX50B-C2S) (1 - 110V)vs (DX50B-C4P) (1 - 110V)6 5 4 (m/s) 3 2 1 0 0 100 200 300 400 (N) 500 600 700 800 A B (m/s) vs (DX50B-C3P) (1 - 220V)6 5 A B 4(m/s)6 5 4 3 2 1 0 0 100 200 300 400 500 (N) 600 700 800 900 1000 A B3 2 1 0 0 100 200 300 400 (N) 500 600 700 800vs (DX50B-C2P) (1 - 110V)6 5 A 4 (m/s) 3 2 1 B(m/s)6 5 A 4 3 2 Bvs (DX50B-C1S) (1 - 220V)6 5 4(m/s)vs (DX50B-C4S) (1 - 220V)3 2 1 A B10 0 100 200 300 400 (N) 500 600 700 8000 0 100 200 300 (N) 400 500 6000 0 100 200 300 400 500 (N) 600 700 800 900 1000vs (DX50B-C3S) (1 - 110V)vs (DX50B-C2S) (1 - 220V)6 5 A(m/s)vs (DX50B-C4P) (1 - 220V)6 5 A B6 5 4 (m/s) 3 2 1 0 0 100 200 300 400 (N) 500 600 700 800 A B4 3 2 1 0 0 100 200B(m/s)4 3 2 1 0 300 400 (N) 500 600 700 800 0 100 200 300 400500 (N)600700800900 1000vs (DX50B-C3P) (1 - 110V)vs (DX50B-C2P) (1 - 220V)6 5 A B 4(m/s)6 5 4 (m/s) 3 2 1 0 0 100 200 300 400 (N) 500 600 700 800 A B3 2 1 0 0 100 200 300 400 (N) 500 600 700 800PAGE 15*****DXMAKES A *****NCE.sgDX 65BDX65B-C2 N N W W616 154 1145.5 71.6DX65B-C3924 231 1718.3 107.4DX65B-C***** 308 2291 143.2DX65B-C***** 462 3436.5 214.8DX65B-C***** 616 4582 286.4DX65B-C***** 770 5727.6 358DX65B-C2 S P A pk A pk N/Apk V/ms-1 ohms mH N/√W VDC12.8 3.2 48.1 55.5 7.2 10.0 18.2 330 25.6 6.4 24.1 27.8 1.8 2.5 18.2 330DX65B-C3 S P12.8 3.2 72.2 83.3 10.8 15.0 22.3 330 25.6 6.4 36.1 41.7 2.7 3.8 22.3 330DX65B-C4 S P12.8 3.2 96.2 111.1 14.4 20.0 25.7 330 25.6 6.4 48.1 55.5 3.6 5.0 25.7 330DX65B-C6 S P12.8 3.2 144.4 166.6 21.6 30.0 31.5 330 25.6 6.4 72.283.3 5.4 7.5 31.5 330DX65B-C8 S P12.8 3.2 192.4 222.2 28.8 40.0 36.4 330 25.6 6.4 96.2 111.1 7.2 10.0 36.4 330DX65B-C10 S P12.8 3.2 240.5 277.7 36.0 50.0 40.7 330 25.6 6.4 120.3 138.9 9.0 12.5 40.7 330DX65B-C2°C/ W°C1.4 120DX65B-C30.9 120DX65B-C40.7 120DX65B-C60.5 120DX65B-C80.4 120DX65B-C100.3 120DX65B-C2 kg mm N mm0.79 121 0 60DX65B-C31.21 181 0 60DX65B-C41.63 241 0 60DX65B-C62.47 361 0 60DX65B-C83.31 481 0 60DX65B-C104.15 601 0 60PAGE 16*****DXMAKES A *****NCE.sgDX 65B601.0(C10) 481.0(C8) 361.0(C6) 39.0 241.0(C4) 181.0(C3) 121.0(C2)D -M5 THRU60.0(PITCH)51.05.60.0 18.5 24.524.53.3122.0 112.0 106.9 101.4 100.0 6.516.0 0 25.0 25.0A -M6 THRU60.0(PITCH)0.09.0B -M6 THRU(BOTH SIDES)60.0(PITCH)29.7529.7550.0TL 180 TL 240 TL 300 TL 360 TL 600 TL 900*TL(mm) 179.5 239.5 299.5 359.5 599.5 899.5 (kg)4.50 6.00 7.50 9.00 15.00 22.50A (ea)3 4 5 6 10 15B (ea)3 4 5 6 10 15= 1.5kg/ 60mm.C2 C3 C4 C6 C8 C10CL (mm) 121.0 181.0 241.0 361.0 481.0 601.0(kg)0.79 1.21 1.63 2.47 3.31 4.15D (ea)4 6 8 12 16 20PAGE 17*****DXMAKES A *****NCE.sgDX 65BA:B:vs (1 - 220V)/ (3 - 200V)(DX65B-C5P) 6 5vs (DX65B-C8P) (1 - 220V)/ (3 - 200V)vs (DX65B-C2P) (3 - 400V)6 5 4 (m/s) 3 B 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 (m/s) A6 5 4 (m/s) 3 2 B 1 0 0 500 1000 1500 (N) 20XX年2500 3000 0 200 400 600 800 ***** 1800 20XX年(N) A B4 3 2 1 0 Avs (DX65B-C6S) (1 - 220V)/ (3 - 200V)vs (DX65B-C10S) (1 - 220V)/ (3 - 200V)vs (DX65B-C3S) (3 - 400V)6 5 4 (m/s) (m/s) 3 2 1 0 0 500 A B 1000 1500 (N) 20XX年2500 30006 5 4* BUS ***** NOT *****NDED6 5 A 4 (m/s) 3 2 1 B3 2 1 0 0 A 500 B 10000 1500 20XX年(N) 2500 3000 3500 0 200 400 600 800 ***** 1800 20XX年(N)vs (DX65B-C6P) (1 - 220V)/ (3 - 200V)vs (DX65B-C10P) (1 - 220V)/ (3 - 200V)vs (DX65B-C3P) (3 - 400V)6 5 (m/s) 4 (m/s) 3 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 A B6 5 (m/s) 4 3 2 A 1 0 0 500 1000 1500 20XX年(N) 2500 3000 3500 B6 5 4 3 2 1 0 0 200 400 600 800 ***** 1800 20XX年(N) A Bvs (DX65B-C8S) (1 - 220V)/ (3 - 200V)6 5 4 (m/s) 3 2* BUS ***** NOT *****NDED6 5 A 4 (m/s) Bvs (DX65B-C2S) (3 - 400V)vs (DX65B-C4P) (3 - 400V)6 5 4 (m/s) 3 2 1 A B3 21 0 0A 500B 1000 1500 (N) 20XX年2500 30001 0 0 0 200 400 600 800 ***** 1800 20XX年(N) 0 200 400 600 800 ***** 1800 20XX年(N)PAGE 18*****DXMAKES A *****NCE.sgDX 65BA:B:vs (DX65B-C4P) (3 - 400V)vs (DX65B-C6P) (3 - 400V)vs (DX65B-C10P) (3 - 400V)6 5 A 4 (m/s) (m/s) 3 2 1 0 0 200 400 600 800 ***** 1800 20XX年(N) B6 5 4 3 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 A B (m/s)6 5 4 3 2 1 0 0 500 1000 1500 20XX年(N) 2500 3000 3500 A Bvs (DX65B-C5S) (3 - 400V)vs (DX65B-C8S) (3 - 400V)6 5 4 (m/s) 3 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 A B (m/s)6 5 4 3 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 A Bvs (DX65B-C5P) (3 - 400V)vs (DX65B-C8P) (3 - 400V)6 5 A 4 (m/s) (m/s) 3 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 B6 5 4 3 2 1 0 0 500 1000 1500 (N) 20XX年2500 3000 A Bvs (DX65B-C6S) (3 - 400V)vs (DX65B-C10S) (3 - 400V)6 5 4 (m/s) (m/s) A 2 B 1 0 0 500 1000 1500 (N) 20XX年2500 3000 36 5 4 3 2 1 0 0 500 1000 1500 20XX年(N) 2500 3000 3500 A BPAGE 19*****DXMAKES A *****NCE.sgDX 90BDX90B-C2 N N W W725 181 1209.2 75.6DX90B-C***** 272 1813.7 113.4DX90B-C***** 363 2418.3 151.1DX90B-C***** 544 3627.5 226.7DX90B-C***** 725 4836.6 302.3DX90B-C***** 906 6045.8 377.9DX90B-C2 S P A pk A pk N/Apk V/ms-1 ohms mH N/√W VDC12.8 3.2 56.7 65.4 7.6 9.0 20.9 330 25.6 6.4 28.3 32.7 1.9 2.3 20.9 330DX90B-C3 S P12.8 3.2 85.0 98.1 11.4 13.5 25.5 330 25.6 6.4 42.5 49.1 2.9 3.4 25.5 330DX90B-C4 S P12.8 3.2 113.3 130.8 15.2 18.0 29.5 330 25.6 6.4 56.7 65.4 3.8 4.5 29.5 330DX90B-C6 S P12.8 3.2 169.9 196.2 22.8 27.0 36.1 330 25.6 6.4 85.0 98.1 5.7 6.8 36.1 330DX90B-C8 S P12.8 3.2 226.6 261.6 30.4 36 41.7 330 25.6 6.4 113.3 130.8 7.6 9.0 41.7 330DX90B-C10 S P12.8 3.2 283.2 327.1 38.0 45.0 46.6 330 25.6 6.4 141.6 163.5 9.5 11.25 46.6 330DX90B-C2°C/ W°C1.3 120DX90B-C30.9 120DX90B-C40.7 120DX90B-C60.4 120DX90B-C80.3 120DX90B-C100.3 120DX90B-C2 kg mm N mm1.30 121 0 60。
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|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Features•PT8A977B works as encoder and PT8A9781 works as decoder•Four control functions•Operating power-supply voltage: 1.8V to 5.0V(977B)1.0V to 1.5V (9781)•Auto-power-off and oscillation-off if no press on any button (977B)•Press on any button to wake up (977B)•On-chip oscillator with an external resistor (977B)•On-chip oscillator with an external resistor and capacitor (9781)•On-chip amplifiers (9781)•Low operating current•Few external components needed General DescriptionThe PT8A977B and PT8A9781 provide a complete control functions to the remote-controlled toy. The PT8A9781 has four output pins corresponding with the four actions i.e, forward, backward, right, left. The received signals are amplified by the three-stage amplifier, and then the appropriate amplified signals are sampled, fault-tolerantly checked and decoded to control the actions of the remote-controlled toy.There is an internal oscillator in the PT8A9781. By adding an external resistor and capacitor conveniently, the oscillator will be constructed. The external resistor and capacitor can adjust the oscillator frequency. The relative error between the frequencies of the two on-chip oscillators in the PT8A977B and PT8A9781 must be less than ±25%.Part No.PackagePT8A977BP14-pin DIPPT8A977BW14-pin SOICPT8A977BDE Die FormPT8A9781W16-pin SOICPT8A9781DE Die Form Ordering Information||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Block DiagramBlock Diagram of 977BBlock Diagram of 9781Pin Configuration||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Pad LocationPT8A977BDE||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Pad LocationPT8A9781DE|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Pin/Pad Description of 9781Pin/Pad Name DescriptionVI2VO2SI OSCI OSCO Right Left Backward Forward FOUT DVDD VI1VO1AGND Input pin for the amplifier 2Output pin for the amplifier 2Input pin of the encoding signalOscillator input pin Oscillator output pin Rightward output pinLeftward output pinBackward output pin Forward output pin Output pulse with 50% duty cycle, fequency is about 64kHz.Digital power supply, bonded to AVDD as V CC Input pin for the amplifier 1Output pin for the amplifier 1Analog ground, bonded to DGND as GND Pin/Pad DescriptionPin/Pad Description of 977B Pin No.1 2 5 6 4 7 8 3 9 10 11 12 13 14Pin/Pad Name OFF Backward GND Forward Test Turbo SC SO V cc PC OSCO OSCI LeftRight DescriptionWith Pull-up resistor, this pin is used to shut down the external power supply.With Pull-up resistor, backward function selected if this pin connected to GND.Negative power supplyWith Pull-up resistor, forward function selected if this pin connected to GND.With Pull-up resistor, turbo function selected if this pin connected to GND.With Pull-up resistor, leftward function selected if this pin connected to GND.With Pull-up resistor, rightward function selected if this pin connected to GND.With Pull-up resistor, this pin is used for testing mode.Output pin of the encoding signal with carrier frequency Output pin of the encoding signal without carrier frequency Positive power supply Power control output pin Oscillator output pin Oscillator input pinNote: additional V CC may be needed for on-chip analog circuit.VR Amplifier bias voltage AVDD Analog power supply, bonded to DVDD as V CC DGNDDigital ground, bonded to AGND as GND 1 2 5 6 4 7 8 3 9 10 1612 13 14 Pin No.15GND V CC|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||Maximum Ratings(Above which the useful life may be impaired. For user guidelines, not tested)Storage Temperature ..............................................................-25o C to +85o C Ambient Temperature with Power Applied..........................10o C to +40o C Supply Voltage to Ground Potential(Inputs & V CC Only) (977B)..................................................-0.5 to +6.0V Supply Voltage to Ground Potential(Outputs & D/O Only) (977B)..............................................-0.5 to +6.0V DC Input Voltage (977B)..........................................................-0.5 to +6.0V Supply Voltage to Ground Potential(Inputs & V CC Only) (9781)..................................................-0.5 to +5.0V Supply Voltage to Ground Potential(Outputs & D/O Only) (9781)..............................................-0.5 to +5.0V DC Input Voltage (9781)..........................................................-0.5 to +5.0V DC Output Current................................................................................20mA Power Dissipation ..............................................................................500mWNote:Stresses greater than those listed under MAXI-MUM RATINGS may cause permanent damage to the device. This is a stress rating only and func-tional operation of the device at these or any other conditions above those indicated in the opera-tional sections of this specification is not implied.Exposure to absolute maximum rating conditions for extended periods may affect reliability.DC Electrical CharateristicsDC Electrical Charateristics of 977B1.8 4.0 5.0 VParametersDescriptionTest Condition Min. Type Max. UnitsI CC Supply Current Output unloaded 100 uAV IL Input Low Voltage Guaranteed Logic LOW level 0.8 V I IL Input Low Current -60 uA I OHOutput High CurrentI OL Output Low Current V OUT = 3.5 V -1.0 mAV OUT = 0.5 V 150 uA V CCOperating Voltage I STBStand-by Current OFF State 5 uA V IH Input High Voltage Guaranteed Logic HIGH level 3.0 VI IH Input High Current Pin 1, 4, 5, 6, 14 V IH = 4V, ON state 10 uAPin 1, 4, 5, 6, 14 V IL = 0V, ON state Pin 7, 8, 10Pin 11V OUT = 3.5 V -500 uANote : Over the Operating Rating, 0O C ≤ T A ≤ 70O C, V CC = 4VI I Input CurrentPin 12 V IH = 0 ~ 4V, ON state ±10 uA|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||AC Electrical CharacteristicsAC Electrical Characteristics of 977BNote : Over the Operating Rating, 0O C ≤ T A ≤ 70O C, V CC = 4V* The relative error between the frequencies of the two on-chip oscillators in the PT8A977B and PT8A9781 must be less than ±25%.AC Electrical Characteristics of 9781Parameters Description Test Condition Min. Type Max. Units f OSCOscillator Frequency *t FUN Cycle Time of Function Code t STACycle Time of Start Code Carrier Frequency of SC PinT A = 25O C, R = 200 k Ω 102 128 154 κΗz f OSC = 102 to 154 kHz 0.8 1 1.2 ms f OSC = 102 to 154 kHz 1.6 2 2.4 ms f OSC = 102 to 154 kHz 51 64 77 kHzf CSCOscillator Frequency Fluctuation T A =25O C, V CC = 1.8 ~ 5V 15 k Ηz f max -f minT A = 10~40°C, V cc = 1.0V~1.5V* The relative error between the frequencies of the two on-chip oscillators in the PT8A977B and PT8A9781 must be less than ±25%.DC Electrical Charateristics of 9781T A = 10~40°C, V cc = 1.0V~1.5V * 2.2M Ω feedback resistors for the two reversing amplifiers; 9.1k Ω external resistor and a 180pf capacitor for the on-chip oscillator.||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Application CircuitsTypical Application of PT8A977B For Transmit Circuit||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Typical Application of PT8A9781 For Receive Circuit||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| Mechanical Diagram of 14-pin SOICData SheetPT8A977B/9781 5-Function Remote Controller for 1V Micro CarsPT0118(02/04) Ver:311|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||NotesPericom Technology Inc.Email: support@Web Site: , China :No. 20 Building, 3/F, 481 Guiping Road, Shanghai, 200233, China Tel: (86)-21-6485 0576Fax: (86)-21-6485 2181Asia Pacific :Unit 1517, 15/F, Chevalier Commercial Centre, 8 Wang Hoi Rd, Kowloon Bay, Hongkong Tel: (852)-2243 3660Fax: (852)- 2243 3667U.S.A.:2380 Bering Drive, San Jose, California 95131, USA Tel: (1)-408-435 0800Fax: (1)-408-435 1100Pericom Technology Incorporation reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or performance and to supply the best possible product. Pericom Technology does not assume any responsibility for use of any circuitry described other than the circuitry embodied in Pericom Technology product. The company makes no representations that circuitry described herein is free from patent infringement or other rights, of Pericom Technology Incorporation.。