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(整理)集成电路英文代码对照

(整理)集成电路英文代码对照

集成电路英文代码及中文对照(一)我的文摘2009-11-21 11:32:53 阅读111 评论0 字号:大中小订阅性能说明产品名称型号规格LMLM24J 四运放(军用级)LM148J 通用四运放LM1875T 无线电控制/接收器LM224J 四运放(工业级)LM258N 分离式双电源双运放LM2901N 四电压比较器LM2904N 四运放LM301AN 通用运算放大器LM308N 单比较器LM311P 单比较器LM317L 可调三端稳压器/100mALM317T 可调三端稳压器/1.5ALM317K 可调三端稳压器/3ALM318 高速宽带运放LM324K 通用四运放LM331N V-F/F-V转换器LM336-2.5V 基准电压电路LM336 5V 基准电压电路LM337T 基准电压电路1ALM338K 可调三端稳压器5ALM339N 四比较器LM348N 四741运放LM358N 低功耗双运放LM361N 高速差动比较器LM386N 声频功率放大器LM3914N 十段点线显示驱动LM393N 低功耗低失调双比较器LM399H 精密基准源(6.9)LM723CN 可调正式负稳压器LM733CN 视频放大器LM741J 单运放LM741CN 双运放NENE521 高速双差分比较器NE5532 双运放NE5534 双运放NE555N 单运放NE555J 时基电路军品极NE556 双级型双时基电路NE564 锁相环NE565 锁相环NE567 音调译码器NE592 视频放大器OPOP07 低噪声运放OP27 超低噪声精密运放OP37 超低噪声精密运放光电耦合4N25 晶体管输出4N25MC 晶体管输出4N26 晶体管输出4N27 晶体管输出4N28 晶体管输出4N29 达林顿输出4N30 达林顿输出4N31 达林顿输出4N32 达林顿输出4N33 达林顿输出4N33MC 达林顿输出4N35 达林顿输出4N36 晶体管输出4N37 晶体管输出4N38 晶体管输出4N39 可控硅输出6N135 高速光耦晶体管输出6N136 高速光耦晶体管输出6N137 高速光耦晶体管输出6N138 达林顿输出6N139 达林顿输出MOC3020 可控硅驱动输出MOC3021 可控硅驱动输出MOC3023 可控硅驱动输出MOC3030 可控硅驱动输出MOC3040 过零触发可控硅输出MOC3041 过零触发可控硅输出MOC3061 过零触发可控硅输出MOC3081 过零触发可控硅输出TLP521-1 单光耦TLP521-2 双光耦TLP521-4 四光耦TLP621 四光耦TIL113 达林顿输出TIL117 TLL逻辑输出PC814 单光耦PC817 单光耦H11A2 晶体管输出H11D1 高压晶体管输出H11G2 电阻达林顿输出LFLF347N 宽带JFET输入四运放LF351N 宽带JFET输入运放LF353N JFET输入宽带运放LF355N JFET输入运放LF357N JFET宽带非全裣运放LF398N 采样/保持电路LF412N 低偏差飘移输入运放MCMC1377 彩色电视编码器MC1403 精密电压基准源(2.5)MC1413 周边七段驱动阵列MC1416 周边七段驱动陈列MC14409 二进制脉冲拨号器MC14433 3位半A/D转换器MC14489 多字符LED显示驱动器MC145026 编码器VD5026 编码器MC145027 译码器VD5027 译码器MC145028 译码器MC145030 编码译码器MC145106 频率合成器MC145146 4位数据总线TLTL062 低功耗JEFT输入双运放TL072 低噪声JEFTTL082TL084TL431TL494ULNULN2003 周边七段驱动陈列ULN2004 周边七段驱动陈列ULN2803 周边八段驱动陈列ULN2804 周边八段驱动陈列ICLICL7106 3位ADC/驱动LCDICL7107 3位半ADC/驱动LEDICL7109 4位半ADC/驱动LEDICL7129 4位半ADC/LCD驱动ICL7135 ADC/LCD驱动BCD输出ICL7136 3位半CMOSADC/LCD驱动ICL7218 CMOS低功耗运算放大器ICL7650 整零运放斩波ICL7652 整零运放斩波ICL7660 CMOS直流-直流转换器ICL8038 函数信号发生器ICL8049 反对数放大器CACA3140 单BIMOS运行CA3240 单BIMOS运行UCUC3842 WM电流型控制器UC3845 PWM电流型控制器DSDS12887 非易失实时时钟芯片L3845 中继接口电路SGSG3524 PWM解调调制器SG3525 PWM解调调制器20106 前置放大器MTMT8814 8x12模拟交换矩阵MT8816 8x模拟交换矩阵MT8870 综合DTMF接收器MT8870 综合DTMF接收器MT8880 综合DTMF发生接收器MIC24LC01 128x8串行EEPROM24LC02 256x8串行EEPROM24LC04 512x8串行EEPROM24LC16 2Kx8串行EEPROM93LC46 64x16串行EEPROM93LC56 256x16串行EEPROM93LC66 512x8 256x16 EEPROMPIC16C52 384x12 单片机PIC16C54 512x12 单片机PCI16C56 512x12 单片机PIC16C57 2048x12 单片机ATAT24C01 128x8串行EEPROMAT24C02 256x8串行EEPROMAT24C04 512x8串行EEPROMAT24C16 2Kx8串行EEPROMAT93C46 64x16串行EEPROMAT93C56 256x16串行EEPROMATF16V8 FLASH200门ATF20V8 FLASH300门高速ATF22V10 FLASH500门高速低电流AT28C16 2Kx8CMOS并行EEPROMAT28C17 2Kx8CMOS并行EEPROMAT28C64 8Kx8并行EEPROMAT28C256 32Kx8并行EEPROMAT28F010 128Kx8并行EEPROMA29C040 512Kx8 FLASH EEPROMHM6116 2Kx8 CMOS 静态PAMHY6264 8Kx8 CMOS 静态RAMHM6264 8Kx8 CMOS 静态RAMIS62C64 8Kx8 高速CMOS 静态RAMHY62256 32Kx8 CMOS 静态RAMHM62256 32Kx8 CMOS 静态RAMHM628128 128Kx8 CMOS 静态RAMHM628256 256Kx8 CMOS 静态RAMHM628512 512Kx8 CMOS 静态RAMHM628512 512Kx8 CMOS 静态RAM TCMTCM5087 双音调发生器MM5832 实时钟电路TCTC14433 3位半A/D转换器TC232 并行/串行接口电路TC7106 3位半ADC/LCD驱动TC7107 3位半ADC/LED驱动TC7116 3位半ADC/LCD驱动带保TC7129 4位半ADC/LCDTC7135 4位半ADC/LCD,BCD输出TC7650 整零运放斩波7575107 四差分线驱动器75174 四差分线驱动器75175 三态四差分接收器75176 差分总线接收器75188 四线驱动器75189 四线驱动器75451 双外围驱动器75452 双外围驱动器集成电路英文代码及中文对照(二)我的文摘2009-11-21 11:37:11 阅读191 评论0 字号:大中小订阅。

常用原材料英文缩写 中英文对照版

常用原材料英文缩写 中英文对照版
正向聚氯乙烯 气熔胶
全称 聚酰胺(尼龙) 聚癸二酸癸二胺(尼龙 1010) 聚十一酰胺(尼龙 11) 聚十二酰胺(尼龙 12) 聚己内酰胺(尼龙 6) 聚癸二酰乙二胺(尼龙 610) 聚十二烷二酰乙二胺(尼龙 612) 聚己二酸己二胺(尼龙 66) 聚辛酰胺(尼龙 8) 聚 9-氨基壬酸(尼龙 9)
PCTEE PD
PDAIP PDAP PDMS PE PEA PEAM PEC PECM PEE PEEK PEG PEHA PEN PEO PEOK PEP PES PET PETE PETP PF PF/PA PF/PVC PFA PFG PFS PG PGEEA PGL PH PHEMA PHP PI
环氧树脂 环氧氯丙烷 乙烯-丙烯共聚物 三元乙丙橡胶
乙丙橡胶 可发性聚苯乙烯 乙烯-丙烯-苯乙烯-丙烯腈共聚物 乙烯丙烯三元共聚物 乳液法聚氯乙烯 聚醚型聚氨酯 乙烯-醋酸乙烯共聚物 乙烯基乙基醚 醋酸乙烯-乙烯-丙烯酸酯三元共聚乳液
全称 乙烯/乙烯醇共聚物 四氟乙烯-偏氯乙烯共聚物 三氟氯乙烯-乙烯共聚物 四氟氯乙烯-乙烯共聚物
全称 醋酸纤维素 醋酸-丁酸纤维素
CAN CAP CBA CDP CF CFE CFM CFRP CLF CMC CMCNa CMD CMS D 英文缩写 DAF DAIP DAM DAP DATBP DBA DBEP DBP DBR DBS DCCA DCCK DCCNa DCHP DCPD DDA DDP DEAE DEP DETA
A 英文缩写
A/MMA AA AAS ABFN ABN ABPS B
英文缩写 BAA BAC BACN BAD BAL BBP BBS BC BCD BCG BCS BCNU BD BE BEE BFRM BG BGE BHA BHT BL BLE BLP BMA

雷达式液位测量 VEGAPULSWL61,61,62,63,65,66 中文选型手册

雷达式液位测量 VEGAPULSWL61,61,62,63,65,66 中文选型手册

产品选型手册雷达式物位测量仪表液位测量VEGAPULS WL 61, 61, 62, 63, 65, 66目录目录1 测量原理. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (3)2 仪表类型一览表. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 仪表选型. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. .64 选型规则. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 外壳. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .96 安装 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 电子部件 - 4 … 20 mA/HART –两线制. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .118 电子部件 - 4 … 20 mA/HART –四线制 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 129 电子部件– Profibus PA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (13)10 电子部件 - Foundation Fieldbus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1411 电子部件-, Modbus-, Level Master-协议. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (15)12 设定 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . (16)13 尺寸图. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (17)14 选型代码 (18)请注意防爆应用的安全说明防爆应用,需要注意相关的安全说明,可在V E G A公司的网站 上,在"Down loads - Approvals" 下面找到。

66572资料

66572资料

April 1996NEC Electronics Inc.A10616EU1V0DS00CMOS-8LHD3.3-Volt, 0.5-Micron CMOS Gate ArraysPreliminary DescriptionNEC's CMOS-8LHD gate-array family combines cell-based-level densities with the fast time-to-market and low development costs of gate arrays. With a unique heterogeneous cell architecture, CMOS-8LHD provides the very dense logic and RAM capabilities required to build devices for fast computer and communications systems.NEC delivers high-speed, 0.5-micron, drawn gate length (Leff=0.35-micron), three-level metal, CMOS technology with an extensive family of macros. I/O macros include GTL, HSTL, and pECL. TTL CMOS I/Os are provided with 5-V tolerance for applications requiring interface to 5-V logic. PCI signaling standards are also supported,including 3.3-V, 66 MHz PCI. The technology is enhanced by a set of advanced features, including phase-locked loops, clock tree synthesis, and high-speed memory. The CMOS-8LHD gate-array family of 3.3-V devices consists of 12 masters, offered in densities of 75K raw gates to 1.123 million raw gates. Usable gates range from 45K to 674K used gates.The gate-array family is supported by NEC's OpenCAD ®design system, a mixture of popular third-party EDA tools,and proprietary NEC tools. NEC proprietary tools include the GALET floorplanner, which helps to reduce design time and improve design speed, and a clock tree synthesis tool that automatically builds a balanced-buffer clock tree to minimize on-chip clock skew.Figure 1. CMOS-8LHD Package Options: BGA & QFPTable 1. CMOS-8LHD Family Features and BenefitsCMOS-8LHD ApplicationsThe CMOS-8LHD family is ideal for use in personal computer systems, engineering workstations, and telecommunications switching and transmission systems, where extensive integration and high speeds are primary design goals. With power dissipation of 0.21 µW/MHz/gate, CMOS-8LHD is also suited for lower-power applications where high performance is required.OpenCAD is a registered trademark of NEC Electronics Inc.CMOS-8LHD2Cell-Based Array ArchitectureThe CMOS-8LHD gate-array family is built with the Cell-Based Array (CBA) architecture licensed from the Silicon Architects Group of Synopsys. CBA architecture uses two types of cells: compute cells and drive cells.This heterogeneous cell architecture enables very high-density design. Compute cells are used to optimize intramacro logic. Drive cells are optimized for intermacro interconnect. The two cell types are also used to build macros with up to three different power/performance/area points.CBA has a rich macrocell library that is optimized for synthesis. RAM blocks are efficiently created from the CBA architecture, using compute cells as memory cores, and sense amplifiers and drive cells as word and address predecoder drivers.As shown in Figure 2, CBA is divided into I/O and array regions. The I/O region contains input and output buffers. The array region contains the gates used to build logic, RAM blocks, and other design features.Power Rail ArchitectureCMOS-8LHD provides additional flexibility for mixedvoltage system designs. As shown in Figure 2, the arrays contain two power rails: a 3.3-V rail, and V DD2.The V DD2 rail is used for interfaces such as 5-V PCI buffers where a clamping diode allows protection for up to an 11-V voltage spike, per the PCI revision 2.1specification.Figure 2. CBA Layout and Cell ConfigurationThe V DD2 rail is separated into sections to give flexibility for including two or more buses requiring special I/O voltage on one device. Each section can operate as an independent voltage zone, and sections can be linked together to form common voltage zones.Packaging and TestNEC utilizes BIST test structures for RAM testing. NEC also offers advanced packaging solutions including Plastic Ball Grid Arrays (PBGA), Plastic Quad Flat Packs (PQFP), and Pin Grid Arrays (PGA). Please call your local NEC ASIC design center representative for a listing of available master/package combinations.PublicationsThis data sheet contains preliminary specifications for the CMOS-8LHD gate-array family. Additional infor-mation will be available in NEC's CMOS-8LHD Block Library and CMOS-8LHD Design Manual . Call your local NEC ASIC design center representative or the NEC literature line for additional ASIC design information; see the back of this data sheet for locations and phone numbers.Table 2. CMOS-8LHD Base Array Line-upDevice Raw Gates Used Gates (1)Total Pads66562750404502416466563997925987518866565125216751292126656617963210777925266568202400121440268665692681281608763086657029792017875232466571359744215845356665725008643005184206657362054437232646866575802240481344532(1) Actual gate utilization varies depending on circuit implementation.Utilization is 60% for 3LM.3CMOS-8LHDInput/Output CapacitanceV DD =V I =0-V; f =1 MHzTerminal Symbol Typ Max Unit Input C IN 1020pF Output C OUT 1020pF I/OC I/O1020pF(1)Values include package pin capacitancePower ConsumptionDescription Limits Unit Internal gate (1)0.21µW/MHz Input buffer 2.546µW/MHz Output buffer10.60µW/MHzAbsolute Maximum RatingsPower supply voltage, V DD –0.5 to +4.6-VInput voltage, V I3.3-V input buffer (at V I < V DD + 0.5-V)–0.5 to +4.6-V 3.3-V fail-safe input buffer (at V I < V DD + 0.5-V)–0.5 to +4.6-V 5 V-tolerant (at V I < V DD + 3.0-V)–0.5 to +4.6-V Output Voltage, V O3.3-V output buffer (at V O < V DD + 0.5-V)–0.5 to +4.6-V 5-V-tolerant output buffer (at V O < V DD + 3.0-V)–0.5 to +4.6-V 5-V open-drain output buffer (at V O < V DD + 3.0-V)–0.5 to +4.6-VLatch-up current, I LATCH >1 A (typ)Operating temperature, T OPT –40 to +85°C Storage temperature, T STG–65 to +150°C (1) Assumes 30% internal gate switching at one timeCaution: Exposure to absolute maximum ratings for extended periods may affect device reliability; exceeding the ratings could cause permanent damage. The device should not be operated outside the recommended operating conditions.Recommended Operating ConditionsV DD = 3.3-V ±0.165-V; T j = 0 to +100°C3.3-V Interface 5-V Interface5-V PCI 3.3-V PCIBlock BlockLevel LevelParameterSymbol Min Max Min Max Min Max Min Max Unit I/O power supply voltage V DD 3.0 3.6 3.0 3.6 3.0 5.5 3.0 3.6V Junction temperature T J 0+1000+1000+1000+100°C High-level input voltage V IH 2.0V DD 2.0 5.5 2.0V CC 0.5 V CCV CC V Low-level input voltage V IL 00.800.800.800.3 V CCV Positive trigger voltage V P 1.50 2.70 1.50 2.70————V Negative trigger voltage V N 0.60 1.60.60 1.6————V Hysteresis voltage V H 1.10 1.3 1.10 1.3————V Input rise/fall time t R , t F 0200020002000200ns Input rise/fall time, Schmittt R , t F1010————nsAC CharacteristicsV DD = 3.3-V ±0.3-V; T j = –40 to +125°C ParameterSymbol MinTypMax Unit Conditions Toggle frequency (F611)f TOG356MHzD-F/F; F/O = 2 mmDelay time2-input NAND (F322)t PD181ps F/O = 1; L = 0 mmt PD 186ps F/O = 2; L = typ (0.42 mm)Flip-flop (F611)t PD 573ps F/O = 1; L = 0 mm t PD 688ps F/O = 2; L = typ t SETUP 410ps —t HOLD 540ps —Input buffer (FI01)t PD 268ps F/O = 1; L = 0 mm t PD 312ps F/O = 2; L = typ Output buffer (9 mA) 3.3-V (FO01)t PD 1.316ns C L = 15 pF Output buffer (9 mA) 5-V-tolerant (FV01)t PD 1.228ns C L = 15 pF Output buffer (9 mA) 5-V-swing (FY01)t PD 1.517ns C L = 15 pF Output rise time (9 mA) (FO01)t R 1.347ns C L = 15 pF Output fall time (9 mA) (FO01)t F1.284nsC L = 15 pFCMOS-8LHD4(3)Rating is for only one output operating in this mode for less than 1 second.(4)Normal type buffer: I OH < I OL .(5)Balanced buffer: I OH = I OL .(6)Resistor is called 50ký to maintain consistency with previous families.Notes:(1)Static current consumption increases if an I/O block with on-chip pull-up/pull-down resistor or an oscillator is used. Call an NEC ASIC design center repre-sentative for assistance in calculation.(2)Leakage current is limited by tester capabilities. Specification listed representsthis measurement limitation. Actual values will be significantly lower.DC CharacteristicsV DD = 3.3-V ±0.165-V; T j = 0 to +100°C ParameterSymbol Min Typ Max Unit Conditions Quiescent current (1)µPD66578I DDS 2.0300µA V I = V DD or GND µPD66575, 66573, 66572I DDS 1.0300µA V I = V DD or GND Remaining mastersI DDS 0.5200µA V I = V DD or GND Off-state output leakage current3.3-V buffers, 3.3-V PCII OZ ±10µA V O = V DD or GND 5-V-tolerant buffers, 5-V PCI I OZ ±14µA V O = V DD or GND 5-V open-drainI OZ ±14µA V O = V DD or GND Output short circuit current (3)I OS –250mA V O = GND Input leakage current (2)5-V PCI I IH +70, –70µA V IN = 2.7-V, 0.5-V 3.3-V PCI I I ±10µA V IN = V DD or GND RegularI I ±10–5±10µA V I = V DD or GND 50 k Ω pull-up I I –180–40µA V I = GND 5 k Ω pull-up I I –1400–350mA V I = GND 50 k Ω pull-down I I 30160µA V I = V DDResistor values50 k Ω pull-up (6)R pu 2075k Ω5 k Ω pull-upR pu 2.68.6k Ω50 k Ω pull-down (6)R pu 22.5100k ΩInput clamp voltageV IC –1.2V I I = 18 mA Low-level output current (ALL buffer types)3 mA I OL 3mA V OL = 0.4-V 6 mA I OL 6mA V OL = 0.4-V 9 mA I OL 9mA V OL = 0.4-V 12 mA I OL 12mA V OL = 0.4-V 18 mA I OL 18mA V OL = 0.4-V 24 mAI OL 24mA V OL = 0.4-V High-level output current (5-V-tolerant block)3 mA I OH –3mA V OH = V DD –0.4-V 6 mA I OH –3mA V OH = V DD –0.4-V 9 mA I OH –3mA V OH = V DD –0.4-V 12 mA I OH –3mA V OH = V DD –0.4-V 18 mA I OH –4mA V OH = V DD –0.4-V 24 mAI OH –4mA V OH = V DD –0.4-V High-level output current (3.3-V interface block)3 mA I OH –3mA V OH = V DD –0.4-V 6 mA I OH –6mA V OH = V DD –0.4-V 9 mA I OH –9mA V OH = V DD –0.4-V 12 mA I OH –12mA V OH = V DD –0.4-V 18 mA I OH -18mA V OH = V DD –0.4-V 24 mAI OH -24mA V OH = V DD –0.4-V Output voltage (5-V PCI)High-level output voltage V OH 2.4mA I OH = 2 mALow-level output voltage V OL 0.55mA I OL = 3 mA, 6 mA Output voltage (3.3-V PCI)High-level output voltage V OH 0.9 V DDmA I OH = 500 µA Low-level output voltage V OL 0.1 V DDmA I OL = 1500 µA Low-level output voltageV OL 0.1V I OL = 0 mA High-level output voltage, 5-V TTL V OH V DD –0.2V I OL = 0 mA High-level output voltage, 3.3-VV OHV DD –0.1VI OH = 0 mACMOS-8LHD5CMOS-8LHD6Document No. A10616EU1V0DS00For literature, call toll-free 7 a.m. to 6 p.m. Pacific time: 1-800-366-9782or FAX your request to: 1-800-729-9288©1996 NEC Electronics Inc./Printed in U.S.A.NEC ASIC DESIGN CENTERSWEST•3033 Scott Boulevard Santa Clara, CA 95054TEL 408-588-5008FAX 408-588-5017•One Embassy Centre9020 S.W. Washington Square Road,Suite 400Tigard, OR 97223TEL 503-671-0177FAX 503-643-5911THIRD-PARTY DESIGN CENTERSSOUTH CENTRAL/SOUTHEAST•Koos Technical Services, Inc.385 Commerce Way, Suite 101Longwood, FL 32750TEL 407-260-8727FAX 407-260-6227•Integrated Silicon Systems Inc.2222 Chapel Hill Nelson Highway Durham, NC 27713TEL 919-361-5814FAX 919-361-2019•Applied Systems, Inc.1761 W. Hillsboro Blvd., Suite 328Deerfield Beach, FL 33442TEL 305-428-0534FAX 305-428-5906NEC Electronics Inc.CORPORATE HEADQUARTERS2880 Scott Boulevard P.O. Box 58062Santa Clara, CA 95052TEL 408-588-6000No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Electronics Inc. (NECEL). The information in this document is subject to change without notice. ALL DEVICES SOLD BY NECEL ARE COVERED BY THE PROVISIONS APPEARING IN NECEL TERMS AND CONDITIONS OF SALES ONLY. INCLUDING THE LIMITATION OF LIABILITY,WARRANTY, AND PATENT PROVISIONS. 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For automotive and transportation equipment, traffic control systems, anti-disaster and anti-crime systems, it is recommended that the customer contact the responsible NECEL salesperson to determine the reliabilty requirements for any such application and any cost adder. NECEL does not recommend or approve use of any of its products in life support devices or systems or in any application where failure could result in injury or death.If customers wish to use NECEL devices in applications not intended by NECEL, customer must contact the responsible NECEL sales people to determine NECEL’s willingness to support a given application.SOUTH CENTRAL/SOUTHEAST•16475 Dallas Parkway, Suite 380Dallas, TX 75248TEL 972-735-7444FAX 972-931-8680•Research Triangle Park2000 Regency Parkway, Suite 455Cary, NC 27511TEL 919-460-1890FAX 919-469-5926•Two Chasewood Park 20405 SH 249, Suite 580Houston, TX 77070TEL 713-320-0524FAX 713-320-0574NORTH CENTRAL/NORTHEAST•The Meadows, 2nd Floor 161 Worcester Road Framingham, MA 01701TEL 508-935-2200FAX 508-935-2234•Greenspoint Tower2800 W. Higgins Road, Suite 765Hoffman Estates, IL 60195TEL708-519-3945FAX 708-882-7564。

化工产品常见英文缩写与中文名称的对照表

化工产品常见英文缩写与中文名称的对照表

化工产品常见英文缩写与中文名称的对照表A英文缩写全称A/MMA丙烯腈/甲基丙烯酸甲酯共聚物AA丙烯酸AAS 丙烯酸酯-丙烯酸酯-苯乙烯共聚物ABFN 偶氮(二)甲酰胺ABN 偶氮(二)异丁腈ABPS 壬基苯氧基丙烷磺酸钠B英文缩写全称BAA正丁醛苯胺缩合物BAC 碱式氯化铝BACN 新型阻燃剂BAD 双水杨酸双酚A酯BAL 2,3-巯(基)丙醇BBP 邻苯二甲酸丁苄酯BBS N-叔丁基-乙-苯并噻唑次磺酰胺BC 叶酸BCD β-环糊精BCG 苯顺二醇BCNU 氯化亚硝脲BD 丁二烯BE 丙烯酸乳胶外墙涂料BEE 苯偶姻乙醚BFRM 硼纤维增强塑料BG 丁二醇BGE 反应性稀释剂BHA特丁基-4羟基茴香醚BHT 二丁基羟基甲苯BL 丁内酯BLE 丙酮-二苯胺高温缩合物BLP 粉末涂料流平剂BMA甲基丙烯酸丁酯BMC 团状模塑料BMU 氨基树脂皮革鞣剂BN 氮化硼BNE 新型环氧树脂BNS β-萘磺酸甲醛低缩合物BOA己二酸辛苄酯BOP 邻苯二甲酰丁辛酯BOPP 双轴向聚丙烯BP 苯甲醇BPA双酚ABPBG 邻苯二甲酸丁(乙醇酸乙酯)酯BPF 双酚FBPMC 2-仲丁基苯基-N-甲基氨基酸酯BPO 过氧化苯甲酰BPP 过氧化特戊酸特丁酯BPPD 过氧化二碳酸二苯氧化酯BPS 4,4’-硫代双(6-特丁基-3-甲基苯酚) BPTP 聚对苯二甲酸丁二醇酯BR 丁二烯橡胶BRN 青红光硫化黑BROC 二溴(代)甲酚环氧丙基醚BS 丁二烯-苯乙烯共聚物BS-1S 新型密封胶BSH 苯磺酰肼BSU N,N’-双(三甲基硅烷)脲BT 聚丁烯-1热塑性塑料BTA苯并三唑BTX 苯-甲苯-二甲苯混合物BX 渗透剂BXA己二酸二丁基二甘酯BZ 二正丁基二硫代氨基甲酸锌C英文缩写全称CA醋酸纤维素CAB 醋酸-丁酸纤维素CAN 醋酸-硝酸纤维素CAP 醋酸-丙酸纤维素CBA化学发泡剂CDP 磷酸甲酚二苯酯CF 甲醛-甲酚树脂,碳纤维CFE 氯氟乙烯CFM 碳纤维密封填料CFRP 碳纤维增强塑料CLF 含氯纤维CMC 羧甲基纤维素CMCNa 羧甲基纤维素钠CMD 代尼尔纤维CMS 羧甲基淀粉D英文缩写全称DAF 富马酸二烯丙酯DAIP 间苯二甲酸二烯丙酯DAM 马来酸二烯丙酯DAP 间苯二甲酸二烯丙酯DA TBP 四溴邻苯二甲酸二烯丙酯DBA己二酸二丁酯DBEP 邻苯二甲酸二丁氧乙酯DBP 邻苯二甲酸二丁酯DBR 二苯甲酰间苯二酚DBS 癸二酸二癸酯DCCA二氯异氰脲酸DCCK 二氯异氰脲酸钾DCCNa 二氯异氰脲酸钠DCHP 邻苯二甲酸二环乙酯DCPD 过氧化二碳酸二环乙酯DDA己二酸二癸酯DDP 邻苯二甲酸二癸酯DEAE 二乙胺基乙基纤维素DEP 邻苯二甲酸二乙酯DETA二乙撑三胺DFA薄膜胶粘剂DHA己二酸二己酯DHP 邻苯二甲酸二己酯DHS 癸二酸二己酯DIBA己二酸二异丁酯DIDA己二酸二异癸酯DIDG 戊二酸二异癸酯DIDP 邻苯二甲酸二异癸酯DINA己二酸二异壬酯DINP 邻苯二甲酸二异壬酯DINZ 壬二酸二异壬酯DIOA己酸二异辛酯E英文缩写全称E/EA乙烯/丙烯酸乙酯共聚物E/P 乙烯/丙烯共聚物E/P/D 乙烯/丙烯/二烯三元共聚物E/TEE 乙烯/四氟乙烯共聚物E/V AC 乙烯/醋酸乙烯酯共聚物E/V AL 乙烯/乙烯醇共聚物EAA乙烯-丙烯酸共聚物EAK 乙基戊丙酮EBM 挤出吹塑模塑EC 乙基纤维素ECB 乙烯共聚物和沥青的共混物ECD 环氧氯丙烷橡胶ECTEE 聚(乙烯-三氟氯乙烯)ED-3 环氧酯EDC 二氯乙烷EDTA乙二胺四醋酸EEA乙烯-醋酸丙烯共聚物EG 乙二醇2-EH 异辛醇EO 环氧乙烷EOT 聚乙烯硫醚EP 环氧树脂EPI 环氧氯丙烷EPM 乙烯-丙烯共聚物EPOR 三元乙丙橡胶EPR 乙丙橡胶EPS 可发性聚苯乙烯EPSAN 乙烯-丙烯-苯乙烯-丙烯腈共聚物EPT 乙烯丙烯三元共聚物EPVC 乳液法聚氯乙烯EU 聚醚型聚氨酯EVA 乙烯-醋酸乙烯共聚物EVE 乙烯基乙基醚EXP 醋酸乙烯-乙烯-丙烯酸酯三元共聚乳液F英文缩写全称F/VAL 乙烯/乙烯醇共聚物F-23 四氟乙烯-偏氯乙烯共聚物F-30 三氟氯乙烯-乙烯共聚物F-40 四氟氯乙烯-乙烯共聚物FDY 丙纶全牵伸丝FEP 全氟(乙烯-丙烯)共聚物FNG 耐水硅胶FPM 氟橡胶FRA 纤维增强丙烯酸酯FRC 阻燃粘胶纤维FRP 纤维增强塑料FRPA-101 玻璃纤维增强聚癸二酸癸胺(玻璃纤维增强尼龙1010树脂) FRPA-610 玻璃纤维增强聚癸二酰乙二胺(玻璃纤维增强尼龙610树脂) FWA 荧光增白剂G英文缩写全称GF 玻璃纤维GFRP 玻璃纤维增强塑料GFRTP 玻璃纤维增强热塑性塑料促进剂GOF 石英光纤GPS 通用聚苯乙烯GR-1 异丁橡胶GR-N 丁腈橡胶GR-S 丁苯橡胶GRTP 玻璃纤维增强热塑性塑料GUV 紫外光固化硅橡胶涂料GX 邻二甲苯GY 厌氧胶H英文缩写全称H 乌洛托品HDI 六甲撑二异氰酸酯HDPE 低压聚乙烯(高密度)HEDP 1-羟基乙叉-1,1-二膦酸HFP 六氟丙烯HIPS 高抗冲聚苯乙烯HLA 天然聚合物透明质胶HLD 树脂性氯丁胶HM 高甲氧基果胶HMC 高强度模塑料HMF 非干性密封胶HOPP 均聚聚丙烯HPC 羟丙基纤维素HPMC 羟丙基甲基纤维素HPMCP 羟丙基甲基纤维素邻苯二甲酸酯HPT 六甲基磷酸三酰胺HS 六苯乙烯HTPS 高冲击聚苯乙烯I英文缩写全称IEN 互贯网络弹性体IHPN 互贯网络均聚物IIR 异丁烯-异戊二烯橡胶IO 离子聚合物IPA 异丙醇IPN 互贯网络聚合物IR 异戊二烯橡胶IVE 异丁基乙烯基醚J英文缩写全称JSF 聚乙烯醇缩醛胶JZ 塑胶粘合剂K英文缩写全称KSG 空分硅胶L英文缩写全称LAS 十二烷基苯磺酸钠LCM 液态固化剂LDJ 低毒胶粘剂LDN 氯丁胶粘剂LDPE 高压聚乙烯(低密度)LDR 氯丁橡胶LF 脲LGP 液化石油气LHPC 低替代度羟丙基纤维素LIM 液体侵渍模塑LIPN 乳胶互贯网络聚合物LJ 接体型氯丁橡胶LLDPE 线性低密度聚乙烯LM 低甲氧基果胶LMG 液态甲烷气LMWPE 低分子量聚乙稀LN 液态氮LRM 液态反应模塑LRMR 增强液体反应模塑LSR 羧基氯丁乳胶M英文缩写全称MA丙烯酸甲酯MAA甲基丙烯酸MABS 甲基丙烯酸甲酯-丙烯腈-丁二烯-苯乙烯共聚物MAL 甲基丙烯醛MBS 甲基丙烯酸甲酯-丁二烯-苯乙烯共聚物MBTE 甲基叔丁基醚MC 甲基纤维素MCA三聚氰胺氰脲酸盐MCPA-6 改性聚己内酰胺(铸型尼龙6)MCR 改性氯丁冷粘鞋用胶MDI 3,3’-二甲基-4,4’-二氨基二苯甲烷MDI 二苯甲烷二异氰酸酯(甲撑二苯基二异氰酸酯) MDPE 中压聚乙烯(高密度)MEK 丁酮(甲乙酮)MEKP 过氧化甲乙酮MES 脂肪酸甲酯磺酸盐MF 三聚氰胺-甲醛树脂M-HIPS 改性高冲聚苯乙烯MIBK 甲基异丁基酮MMA甲基丙烯酸甲酯MMF 甲基甲酰胺MNA甲基丙烯腈MPEG 乙醇酸乙酯MPF 三聚氨胺-酚醛树脂MPK 甲基丙基甲酮M-PP 改性聚丙烯MPPO 改性聚苯醚MPS 改性聚苯乙烯MS 苯乙烯-甲基丙烯酸甲酯树脂MSO 石油醚MTBE 甲基叔丁基醚MTT 氯丁胶新型交联剂MWR 旋转模塑MXD-10/6 醇溶三元共聚尼龙MXDP 间苯二甲基二胺N英文缩写全称NBR 丁腈橡胶NDI 二异氰酸萘酯NDOP 邻苯二甲酸正癸辛酯NHDP 邻苯二甲酸己正癸酯NHTM 偏苯三酸正己酯NINS 癸二酸二异辛酯NLS 正硬脂酸铅NMP N-甲基吡咯烷酮NODA己二酸正辛正癸酯NODP 邻苯二甲酸正辛正癸酯NPE 壬基酚聚氧乙烯醚NR 天然橡胶O英文缩写全称OBP 邻苯二甲酸辛苄酯ODA己二酸异辛癸酯ODPP 磷酸辛二苯酯OIDD 邻苯二甲酸正辛异癸酯OPP 定向聚丙烯(薄膜)OPS 定向聚苯乙烯(薄膜) OPVC 正向聚氯乙烯OT 气熔胶P英文缩写全称PA聚酰胺(尼龙)PA-1010 聚癸二酸癸二胺(尼龙1010)PA-11 聚十一酰胺(尼龙11)PA-12 聚十二酰胺(尼龙12)PA-6 聚己内酰胺(尼龙6)PA-610 聚癸二酰乙二胺(尼龙610)PA-612 聚十二烷二酰乙二胺(尼龙612)PA-66 聚己二酸己二胺(尼龙66)PA-8 聚辛酰胺(尼龙8)PA-9 聚9-氨基壬酸(尼龙9)PAA聚丙烯酸PAAS 水质稳定剂PABM 聚氨基双马来酰亚胺PAC 聚氯化铝PAEK 聚芳基醚酮PAI 聚酰胺-酰亚胺PAM 聚丙烯酰胺PAMBA抗血纤溶芳酸PAMS 聚α-甲基苯乙烯PAN 聚丙烯腈PAP 对氨基苯酚PAPA聚壬二酐PAPI 多亚甲基多苯基异氰酸酯PAR 聚芳酰胺PAR 聚芳酯(双酚A型)PAS 聚芳砜(聚芳基硫醚)PB 聚丁二烯-[1,3]PBAN 聚(丁二烯-丙烯腈)PBI 聚苯并咪唑PBMA聚甲基丙烯酸正丁酯PBN 聚萘二酸丁醇酯PBR 丙烯-丁二烯橡胶PBS 聚(丁二烯-苯乙烯)PBS 聚(丁二烯-苯乙烯)PBT 聚对苯二甲酸丁二酯PC 聚碳酸酯PC/ABS 聚碳酸酯/ABS树脂共混合金PC/PBT 聚碳酸酯/聚对苯二甲酸丁二醇酯弹性体共混合金PCD 聚羰二酰亚胺PCDT 聚(1,4-环己烯二亚甲基对苯二甲酸酯)PCE 四氯乙烯PCMX 对氯间二甲酚PCT 聚对苯二甲酸环己烷对二甲醇酯PCT 聚己内酰胺PCTEE 聚三氟氯乙烯PD 二羟基聚醚PDAIP 聚间苯二甲酸二烯丙酯PDAP 聚对苯二甲酸二烯丙酯PDMS 聚二甲基硅氧烷PTA对苯二甲酸R英文缩写全称RE 橡胶粘合剂RF 间苯二酚-甲醛树脂RFL 间苯二酚-甲醛乳胶RP 增强塑料RP/C 增强复合材料RX 橡胶软化剂S英文缩写全称S/MS 苯乙烯-α-甲基苯乙烯共聚物SAN 苯乙烯-丙烯腈共聚物SAS 仲烷基磺酸钠SB 苯乙烯-丁二烯共聚物SBR 丁苯橡胶SBS 苯乙烯-丁二烯-苯乙烯嵌段共聚物SC 硅橡胶气调织物膜SDDC N,N-二甲基硫代氨基甲酸钠SE 磺乙基纤维素SGA丙烯酸酯胶SI 聚硅氧烷SIS 苯乙烯-异戊二烯-苯乙烯嵌段共聚物SIS/SEBS 苯乙烯-乙烯-丁二烯-苯乙烯共聚物SM 苯乙烯SMA苯乙烯-顺丁烯二酸酐共聚物SPP 间规聚苯乙烯SPVC 悬浮法聚氯乙烯SR 合成橡胶ST 矿物纤维T英文缩写全称TAC 三聚氰酸三烯丙酯TAME 甲基叔戊基醚TAP 磷酸三烯丙酯TBE 四溴乙烷TBP 磷酸三丁酯TCA三醋酸纤维素TCCA三氯异氰脲酸TCEF 磷酸三氯乙酯TCF 磷酸三甲酚酯TCPP 磷酸三氯丙酯TDI 甲苯二异氰酸酯TEA三乙胺TEAE 三乙氨基乙基纤维素TEDA三乙二胺TEFC 三氟氯乙烯TEP 磷酸三乙酯TFE 四氟乙烯THF 四氢呋喃TLCP 热散液晶聚酯TMP 三羟甲基丙烷TMPD 三甲基戊二醇TMTD 二硫化四甲基秋兰姆(硫化促进剂TT) TNP 三壬基苯基亚磷酸酯TPA对苯二甲酸TPE 磷酸三苯酯TPS 韧性聚苯乙烯TPU 热塑性聚氨酯树脂TR 聚硫橡胶TRPP 纤维增强聚丙烯TR-RFT 纤维增强聚对苯二甲酸丁二醇酯TRTP 纤维增强热塑性塑料TTP 磷酸二甲苯酯U英文缩写全称U 脲UF 脲甲醛树脂UHMWPE 超高分子量聚乙烯UP 不饱和聚酯V英文缩写全称V AC 醋酸乙烯酯V AE 乙烯-醋酸乙烯共聚物V AM 醋酸乙烯V AMA醋酸乙烯-顺丁烯二酐共聚物VC 氯乙烯VC/CDC 氯乙烯/偏二氯乙烯共聚物VC/E 氯乙烯/乙烯共聚物VC/E/MA氯乙烯/乙烯/丙烯酸甲酯共聚物VC/E/V AC 氯乙烯/乙烯/醋酸乙烯酯共聚物VC/MA氯乙烯/丙烯酸甲酯共聚物VC/MMA氯乙烯/甲基丙烯酸甲酯共聚物VC/OA氯乙烯/丙烯酸辛酯共聚物VC/V AC 氯乙烯/醋酸乙烯酯共聚物VCM 氯乙烯(单体)VCP 氯乙烯-丙烯共聚物VCS 丙烯腈-氯化聚乙烯-苯乙烯共聚物VDC 偏二氯乙烯VPC 硫化聚乙烯VTPS 特种橡胶偶联剂W英文缩写全称WF 新型橡塑填料WP 织物涂层胶WRS 聚苯乙烯球形细粒X英文缩写全称XF 二甲苯-甲醛树脂XMC 复合材料Y英文缩写全称YH 改性氯丁胶YM 聚丙烯酸酯压敏胶乳YWG 液相色谱无定型微粒硅胶Z英文缩写全称ZE 玉米纤维ZH 溶剂型氯化天然橡胶胶粘剂ZN 粉状脲醛树脂胶从A到Z的化学品英语名称大全Acetals 缩醛类\\Acetic acid 乙酸\\Acetic acid n-butyl ester 乙酸正丁酯Acetic acid ethyl ester 乙酸乙酯Acetic acid isobutyl ester 乙酸异丁酯Acetic acid isopropyl ester 乙酸异丙酯Acetic acid methyl amyl ester 乙酸甲基戊酯Acetic acid methyl ester 乙酸甲酯Acetic acid-n-propyl ester 乙酸正丙酯Acetic acid vinyl ester 乙酸乙烯酯Acetic anhydride 乙酸酐\\Acrylic acid 丙烯酸\\Acrylic acid butyl ester 丙烯酸正丁酯Acrylic acid ethyl ester 丙烯酸乙酯Acrylic acid 2-ethylhexyl ester 丙烯酸2-乙基己酯Acrylic acid methyl ester 丙烯酸甲酯Alcohols 醇类\\Aldehydes 醛类\\Allylamine 烯丙胺Amines 胺类\\1-Aminobutane 1-氨基丁烷\\2-Aminobutane 2-氨基丁烷\\ Aminocyclohexane 氨基环己烷\\1-Amino-3-methyl butane 1-氨基-3-甲基丁烷\\2-Aminomethylfurane 2-氨甲基呋喃3-Aminomethylheptane 3-氨甲基庚烷\\1-Aminooctane 1-氨基辛烷\\1-Aminopropane 1-氨基丙烷\\2-Aminopropane 2-氨基丙烷\\B3(4),8(9)-Bis-(aminomethyl)-tricyclo[5.2.1.02.6] decane 3(4),8(9)-二-(氨甲基)-三环- [5.2.1.02.6] 癸烷\\1,2-Bis(tert-butylamino)ethane1.2-二(特丁基氨基)乙烷\\2,2-Bis-(hydroxymethyl)-1,3-propanediol 2,2-二-(羟甲基)-1,3-丙二醇3(4).8(9)-Bis-(hydroxymethyl)-tricyclo [5.2.1.02.6]decane 3(4),8(9)二(羟甲基)-三环- [5.2.1.02.6] 癸烷\\n-Butanal 正丁醛1,3-Butanediol 1,3-丁二醇n-Butanoic acid 正丁酸\\n-Butanoic anhydride 正丁酸酐\\n-Butanol 正丁醇2-Butanone 2-丁酮2-Butenal 2-丁烯醛Butoxyl® 乙酸3-甲氧基正丁酯n-Butyl acetate 乙酸正丁酯n-Butyl acrylate 丙烯酸正丁酯n-Butyl alcohol 正丁醇n-Butylamine 正丁胺sec-Butylamine 仲丁胺1,3-Butylene glycol 1,3-丁二醇n-Butyraldehyde 正丁醛n-Butyric acid 正丁酸\\n-Butyric anhydride 正丁酸酐\\Cn/i-C13/C15-Aldehyde 正/异-C13/C-15-醛Carboxylic acid esters 羧酸酯类\\Carboxylic acids 羧酸类\\CCS 500 CCS 500混合的溶剂Celfluid® 异丁醛-二-(2-乙基己基)-缩醛Celtone® Celtone® 混合的溶剂Crotonaldehyde 巴豆醛Cyclohexylamine 环己胺DDiacetone alcohol 双丙酮醇Diallylamine 二烯丙胺Diamines 二元胺类\\Diamylamine 二戊胺Dibutylamine 二丁胺Di-n-butylamine 二正丁胺Di-sec-butylamine 二仲丁胺N,N'-Di-tert-butylethylenediamine N,N'-二-特丁基乙二胺Di-n-butyl maleate 马来酸二正丁酯Dibutyl phthalate 邻苯二甲酸二丁酯DBP 邻苯二甲酸二丁酯DEHP 邻苯二甲酸二-(2-乙基己)酯3-Diethylaminopropylamine 3-二乙基氨基丙胺N,N-Diethyl-1,3-diaminopropane N,N-二乙基-1,3-二氨基丙烷\\ Di-(2-ethylhexyl)amine 二-(2-乙基己基)胺Di-(2-ethylhexyl) phthalate 邻苯二甲酸二-(2-乙基己)酯Diethyl phthalate 邻苯二甲酸二乙酯DEP 邻苯二甲酸二乙酯Diisobutylamine 二异丁胺Diisononylamine 二异壬胺Dimethylamine 二甲胺3-Dimethylaminopropylamine 3-二甲基氨基丙胺N,N-Dimethyl-n-butylamine N,N-二甲基正丁胺N,N-Dimethyl-1,3-diaminopropane N,N-二甲基-1,3-二氨基丙烷\\ N,N-Dimethyldipropylenetriamine N,N-二甲基二丙基三胺Dimethyl formamide 二甲基甲酰胺N,N-Dimethyl formamide 二甲基甲酰胺Dimethyl maleate 马来酸二甲酯Dimethyl phthalate 邻苯二甲酸二甲酯2,2-Dimethylpropanediol-1,3 2,2-二甲基-1,3-丙二醇Di-(l-methylpropyl)amine 二-(1-甲基丙基)胺Di-(2-methylpropyl)amine 二-(2-甲基丙基)胺DMP 邻苯二甲酸二甲酯Di-n-octylamine 二正辛胺Dioctyl maleate 马来酸二辛酯Dioctyl phthalate 邻苯二甲酸二-(2-乙基己)酯DOP 邻苯二甲酸二-(2-乙基己)酯Dipentaerythritol 双季戊四醇Di-(2-propenyl)amine 二(2-丙烯基)胺Dipropylamine 二丙胺Di-n-propylamine 二正丙胺EEthanal 乙醛Ethanoic acid 乙酸\\Ethyl acetate 乙酸乙酯Ethyl acrylate 丙烯酸乙酯2-Ethylbutanal 2-乙基丁醛2-Ethylbutanoic acid 2-乙基丁酸\\2-Ethylbutenal 2-乙基丁烯醛2-Ethyl-2-butenal 2-乙基-2-丁烯醛N-Ethyl-n-butylamine N-乙基正丁胺2-Ethylbutyraldehyde 2-乙基丁醛2-Ethylbutyric acid 2-乙基丁酸\\2-Ethylcaproic acid 2-乙基己酸\\2-Ethylhexylaldehyde 2-乙基己醛2-Ethylhexanal 2-乙基己醛2-Ethylhexanoic acid 2-乙基己酸\\2-Ethylhexanol 2-乙基己醇2-Ethylhexyl acrylate 丙烯酸2-乙基己酯2-Ethylhexylalcohol 2-乙基己醇2-Ethylhexylamine 2-乙基己胺N-Ethylmethylallylamine N-乙基甲基烯丙胺N-Ethyl-(2-methyl-2-propenyl)-amine N-乙基-(2-甲基-2-丙烯基)胺7-Ethyl-2-methyl-4-undecanol7-乙基-2-甲基-4-十--醇N-Ethyl-n-propylamine N-乙基正丙胺FFormaldehyde 甲醛Formcel®-n-butanol Formcel®-正丁醇Formcel®-methanol Formcel®-甲醇Formic acid 甲酸\\Formic acid methyl ester 甲酸甲酯Furfurylamine 糠胺GGenomoll® 100 邻苯二甲酸二-(2-乙基己)酯(DOP, DEHP)Glycolic acid n-butyl ester 乙醇酸正丁酯Hn-Heptanal 正庚醛n-Heptanoic acid 正庚酸\\n-Heptylaldehyde 正庚醛4-Hydroxy-4-methyl-2-pentanone 4-羟基-4-甲基-2-戊酮8-Hydroxymethyl-tricyclo[5.2.1.02.6]decane 8-羟甲基-三环-[5.2.1.02.6]癸烷\\ IIsobutanol 异丁醇Isobutyl acetate 乙酸异丁酯Isobutylamine 异丁胺Isobutyraldehyde 异丁醛Isobutyraldehyde-di-(2-ethylhexyl)-acetal 异丁醛-二-(2-乙基己基)-缩醛Isobutyric acid 异丁酸\\Isobutyric anhydride 异丁酸酐\\Isononanal 异壬醛Isononanoic acid 异壬酸\\Isononanol 异壬醇Isononylaldehyde 异壬醛Isononylamine 异壬胺Isooctadecyl alcohol 异十八醇Isopropyl acetate 乙酸异丙酯Isopropylamine 异丙胺Isovaleraldehyde 异戊醛Isovaleric acid 异戊酸\\KKetones 酮类\\MMaleic acid di-n-butyl ester 马来酸二正丁酯Maleic acid di-(2-ethylhexyl) ester 马来酸二-(2-乙基己)酯Maleic acid dimethyl ester 马来酸二甲酯MEK 甲乙酮Mesityloxide 亚异丙基丙酮Methanoic acid 甲酸\\Methanol 甲醇Methoxybutanol 甲氧基丁醇3-Methoxy-l-butanol 3-甲氧基-1-丁醇3-Methoxy-1-butyl acetate 3-甲氧基-1-丁酯Methyl acetate 乙酸甲酯Methyl acrylate 丙烯酸甲酯Methyl alcohol 甲醇N-(2-Methallyl)-ethylamine N-(2-甲基丙烯基)-乙胺Methylamine 甲胺Methyl amyl acetate 乙酸甲基戊酯2-Methylbutanal 2-甲基丁醛3-Methylbutanal 3-甲基丁醛2-Methylbutanoic acid 2-甲基丁酸\\3-Methylbutanoic acid 3-甲基丁酸\\3-Methylbutylamine 3-甲基丁胺2-Methylbutyraldehyde 2-甲基丁醛2-Methylbutyric acid 2-甲基丁酸\\3-Methylbutyric acid 3-甲基丁酸\\2-Methyldecanal 2-甲基葵醛Methyl ethyl ketone 甲乙酮Methyl formate 甲酸甲酯Methylisobutylcarbinol 甲基异丁基甲醇Methyl isobutyl ketone 甲基异丁基酮Methylnonylacetaldehyde 甲基壬基乙醛Methyloctylacetaldehyde 甲基辛基乙醛2-Methylpentanal 2-甲基戊醛4-Methyl-2-pentanol 4-甲基-2-戊醇4-Methylpentanone-2 4-甲基-2-戊酮2-Methyl-2-pentene-4-one 2-甲基-2-戊烯基-4-酮2-Methylpropanal 2-甲基丙醛2-Methylpropionic acid 2-甲基丙酸\\2-Methylpropanol 2-甲基丙醇2-Methylpropionic anhydride 2-甲基丙酸醉\\2-Methylpropylamine 2-甲基丙胺2-Methylundecanal 2-甲基十一醛2-Methylvaleraldehyde 2-甲基戊醛MIBK 甲基异丁基酮MNA 甲基壬基乙醛MOA 甲基辛基乙醛Mono alcohols 一元醇类\\Monoamines, primary 一烷基胺类\\Monoamines, secondary 二烷基胺类\\ Monoamines, tertiary 三烷基胺类\\ Monomers 单体\\NNeopentyl glycol 新戊二醇n-Nonanal 正壬醛Nonanoicacid 壬酸\\n-Nonanoic acid 正壬酸\\Nonylaldehyde 正壬醛Nonanal 壬醛On-Octylamine 正辛胺PParaformaldehyde 多聚甲醛Pelargonaldehyde 壬醛Pelargonic acid 壬酸\\Pentaerythritol 季戊四醇n-Pentanal 正戊醛n-Pentanoic acid 正戊酸\\Pentanol 45 戊醇45Phthalic acid di-n-butyl ester 邻苯二甲酸二丁酯Phthatic acid diethyl ester 邻苯二甲酸二乙酯Phthalic acid dimethyl ester 邻苯二甲酸二甲酯Polyols 多元醇类\\Polyoxymethylene 聚甲醛Polysolvan O® 乙醇酸正丁酯Primary monoamines 一烷基胺类\\n-Propanal 正丙醛n-Propanoic acid 丙酸, 正丙酸\\n-Propanol 正丙醇Propenoic acid 丙烯酸\\2-Propenylamine 2-丙烯基胺n-Propionaldehyde 丙醛Propionic acid 丙酸\\Propionic anhydride 丙酸酐\\Propyl acetate 乙酸正丙酯n-Propyl alcohol 正丙醇n-Propylamine 正丙胺SSAIB 蔗糖乙酸酯异丁酸酯Succrose acetate isobutyrate 蔗糖乙酸酯异丁酸酯Secondary monoamines 二烷基胺类\\Sodium formate 甲酸钠TTCD-Alcohol M TCD-醇MTCD-Alcohol DM TCD-醇DMTCD-Diamine TCD-二胺TCD-Ketone A TCD-酮ATertiary monoamines 三烷基胺类\\Tetradecanol 十四醇Triallylamine 三烯丙胺Triamines 三元胺类\\Tributylamine 三丁胺Tri-n-butylamine 三正丙胺Tricyclo[5.2.1.02.6] decane-8-one 三环[5.2.1.02.6]癸烷-8-酮Triethyleneglycol di-n-heptanoate(3G7) 三甘醇二正庚酸酯(3G7)Triethyleneglycol di-2-ethylhexanoate (3G8, 3GO) 三甘醇二-2-乙基己酸酯(3G8, 3GO)Trimethylamine 三甲胺3,5,5-Trimethylhexanal 3,5,5-三甲基己醛3,5,5-Trimethylhexanoic acid 3,5,5-三甲基己酸\\3,5,5-Trimethylhexylamine 3,5,5-三甲基己胺Trimethylolpropane 三羟甲基丙烷\\Trimethylpentanediol 三甲基戊二醇2,2,4-Trimethylpentane-1,3-diol 2,4,4-三甲基-1,3-戊二醇Trioctylamine 三辛胺Tri-n-octylamine 三正辛胺Tri-(2-propenyl)amine 三-(2-丙烯基)胺Tripropylamine 三丙胺Tri-n-propylamine 三正丙胺1,1,1-Tris-(hydroxymethyl)-propane 1,1,1-三-(羟甲基)-丙烷\\ Vn-Valeraldehyde 正戊醛n-Valeric acid 正戊酸\\Vinyl acetate 乙酸乙烯酯。

处方常用拉丁文缩写与中文对照表

处方常用拉丁文缩写与中文对照表

处方常用拉丁文及药物缩写中文对照表《执业药师必备手册》一、药物拉丁缩写:注:剂量单位一般用毫克mg,剂量数字没有单位表示克g.二、处方缩写:五、制剂用法:七、常用医学拉丁文:八、医用药品别名:1(丁胺卡那霉素——阿米卡星)2;(醋酸泼泥松——强的松)3(头孢哌酮——先锋必)4(头孢塞肟钠——先锋7号)5(头孢唑林钠——先锋5号)6(头孢曲松钠——菌必治)7(苄星青霉素——长效青霉素)8(大观霉素——淋必治)9(利巴韦林——病毒唑)10(吗啉双呱——病毒灵)11(葡醛内酯——肝泰乐)12(百炎净——复方磺胺甲恶唑-SMZ)13(诺氟沙星——氟哌酸)14(呋喃妥因——呋喃坦定)15(呋喃唑酮——痢特灵)16(甲硝唑——灭滴灵)17(阿昔洛韦——无坏鸟甘)18(庆大霉素普鲁卡因——胃炎灵)19(庆大霉素碳酸必——肠炎宁)20(呋噻米——速尿)21(心律平——普罗帕酮)22(异博定——盐酸维拉帕米)23(硝酸异山梨酯片——消心痛)24(脑复新——盐酸吡硫醇)25(脑脉宁——盐酸托哌酮片)26(曲安奈德——康A——康尼克通)27(心的安——盐酸普萘洛尔)28(脑复康——吡拉西坦)29(硫酸软骨素——康的宁)30(肝安——15AA)(肾安——9AA)31(沙丁胺醇——硫酸舒喘宁)32(必嗽平——溴已新)33(咳必清——枸椽酸喷托维林片)34(脑溢嗪——盐酸桂利嗪)35(盐酸二氧嗪片——咳克敏)36(妇康片——炔诺酮片)37(化痰片——羧甲司坦片)38(维尔新——维生素E烟酸酯胶囊)39(螺内酯——安体舒通)40(西咪替丁——甲青咪瓜)41(胃舒平——氢氧化铝)42(甲疏咪唑——他巴唑)43(肾上腺色腙素——安洛血)44(扑尔敏——马来酸氯苯那敏)45(盐酸异丙嗪——非那根)46(碳酸氢钠——小苏打)47(706代血浆——羟乙基淀粉40氯化钠针)48(低份子右旋糖——右旋糖酐40葡萄糖针)49(酚磺乙胺——止血敏)50(罗通定——颅痛定)51(维生素B2——核黄素)52(维生素C——抗坏血酸)53(A TP——三磷酸腺苷酸)54(GM——庆大霉素)55(潘生丁——双嘧达莫)56(扑炎痛——贝诺酯)57(消炎痛——吲哚美辛)58(扑热息痛——对乙酰胺基酚)59(止血芳酸——氨甲苯酸)60(强力霉素——多西坏素)61(癣敌——硝酸溢康唑软膏)62(治癣必妥——联苯苄唑乳膏)63(维脑路通——曲克芦丁)64(氢氯噻嗪——双克片)65(黄体酮——醋酸甲羟孕酮)66(阿司匹林——乙酰水杨酸)67(吡罗昔康——炎痛喜康)68(盐酸黄莲素——盐酸小檗碱)69(双氯灭痛——双氯芬酸酯)70(强筋松——苯丙氨酯)71(酚酞片——果异片)72(甲氯普胺——胃复安)73(溴丙胺太林片——普鲁苯辛)74(牙痛水——樟脑水合氯醛酊)75(654-2——消旋山莨菪碱片)76(心脉宁——复方毛冬青氯贝酸铝)77(脉通——复方亚油酸乙酯胶丸)78(心痛定——硝苯地平)79(毛花洋地黄苷丙——西地兰)80(苯磺酸阿曲库铵——卡肌宁)81(杜冷丁——哌替啶)82(氨伽黄敏胶囊——速效伤风胶囊)83(乳酶生——表飞明(鸣))84(异烟肼——雷米封)85(卡托普利——克普定)86头孢曲松钠(菌必治)87头孢噻吩(先锋I) 88头孢氨苄(先锋IV)89头孢拉定(先锋VI) 90强力霉素(多西环素)91艾司唑仑(安定)92他巴唑(甲巯咪唑)93甲氧氯普胺(胃复安)94 复方丹参(香丹)95氨苄青霉素(氨苄西林)96氟桂利嗪(西比定)97复方氢氧化铝(胃舒平)98奥美拉唑(洛赛克)99琥乙红霉素(利君沙)100吲哚美辛(消炎痛)101硝酸异山梨酯(消心痛)102硝苯地平(心痛定)103普萘洛尔(心得安)104硫酸新霉素滴眼液(的确当)105硝苯地平缓释片(圣通平)106诺氟沙星(氟哌酸)107复方新诺明(百炎净)108沙丁胺醇(舒喘灵)109水飞蓟宾葡甲胺片(西利复安)110曲安奈德(肤疾灵)111酒石酸美托洛尔(倍他乐克)112维拉帕米(异搏定)113桂利嗪(脑益嗪)114普罗帕酮(心律平)115格列齐特(达美康)116格列本脲(优降糖)117格列吡嗪(美吡达)118曲咪新乳膏(皮康霜)119林旦软膏(疥得治)120酮康他唑(皮康王)。

LM7912中文资料

LM7912中文资料
-11.5
-12
-12.5
V
IO = 5mA to1A,PO≤15W VI = -15.5V to -27V
-11.4
-12
-12.6
Line Regulation线性调整率(Note1)
ΔVO
TJ=+25℃
VI = -14.5V to -30V
-
12
240
mV
VI = -16V to -22V
-
6
ΔIQ
IO = 5mA to1A
-
0.05
0.5
mA
VI = -15V to -30V
-
0.1
1
Temperature Coefficient of VD温度系数
ΔVo/ΔT
IO = 5mA
-
-0.8
-
mV/℃
Output Noise Voltage输出噪声电压
VN
f = 10Hz to 100KHz TA =+25℃
(VI = -18V, IO = 500mA,0℃≤TJ≤+125℃, CI =2.2μF, CO =1μF, unless otherwise specified.)
Parameter参数
Symbol符号
Conditions条件
最小.
典型.
最大.
单位
Output Voltage输出电压
VO
TJ=+25℃
LM7912中文资料(引脚图,电气特性参数,应用电路)
负12V,1A三端稳压器LM7912中文资料(引脚图,电气特性参数,应用电路)
LM7912引脚图及外形图:
图1 LM7912外形引脚排列图管脚图

常用化工品英文缩写与中文名对照表

常用化工品英文缩写与中文名对照表
环氧酯
EDC
二氯乙烷
EDTA
乙二胺四醋酸
EEA
乙烯-醋酸丙烯共聚物
EG
乙二醇
2-EH:异辛醇
EO
环氧乙烷
EOT
聚乙烯硫醚
EP
环氧树脂
EPI
环氧氯丙烷
EPM
乙烯-丙烯共聚物
EPOR
三元乙丙橡胶
EPR
乙丙橡胶
EPS
可发性聚苯乙烯
EPSAN
乙烯-丙烯-苯乙烯-丙烯腈共聚物
EPT
乙烯丙烯三元共聚物
EPVC
乳液法聚氯乙烯
SIS/SEBS
苯乙烯-乙烯-丁二烯-苯乙烯共聚物
SM
苯乙烯
SMA
苯乙烯-顺丁烯二酸酐共聚物
SPP:间规聚苯乙烯
SPVC
悬浮法聚氯乙烯
SR
合成橡胶
ST
矿物纤维
T
英文缩写
全称
TAC
三聚氰酸三烯丙酯
TAME
甲基叔戊基醚
TAP
磷酸三烯丙酯
TBE
四溴乙烷
TBP
磷酸三丁酯
TCA
三醋酸纤维素
TCCA
三氯异氰脲酸
XMC
复合材料
Y
英文缩写
全称
YH
改性氯丁胶
YM
聚丙烯酸酯压敏胶乳
YWG
液相色谱无定型微粒硅胶
Z
英文缩写
全称
ZE
玉米纤维
ZH
溶剂型氯化天然橡胶胶粘剂
ZN
粉状脲醛树脂胶
PAEK
聚芳基醚酮
PAI
聚酰胺-酰亚胺
PAM
聚丙烯酰胺
PAMBA
抗血纤溶芳酸

70g33l标准

70g33l标准

70G33L是美国杜邦公司生产的一种尼龙66(PA66)材料,其名称中的“70”表示熔体流动速率(MFR)约为70g/10min,而“33”表示玻纤增强比例为33%。

这种材料具有高强度、高刚性和耐磨性等特点。

关于70G33L的具体标准,我未能在公开资料中找到详细的信息。

然而,作为一款尼龙66材料,它通常需要满足以下方面的标准:
1. 物理性能:包括密度、熔点、脆化温度、热分解温度、连续耐热性等。

2. 机械性能:包括拉伸强度、屈服强度、弯曲强度、冲击强度等。

3. 耐腐蚀性:尼龙66材料通常具有良好的耐腐蚀性,能够抵抗酸、碱、盐等化学物质的侵蚀。

4. 吸水性:尼龙66材料的吸水性较大,因此尺寸稳定性较差。

在使用过程中,需要考虑环境湿度对材料性能的影响。

5. 颜色和外观:70G33L可能有多种颜色和外观,如半透明或不透明、乳白色结晶形聚合物等。

以上仅作为一般性的参考,具体的70G33L标准应根据您的需求和实际应用场景来制定。

IL66中文资料

IL66中文资料
Clearance ................................................7 min mm
Comparative Tracking Index..............................175
Isolation Resistance VIO=500 V, TA=25°C................................≥1012 Ω VIO=500 V, TA=100°C..............................≥1011 Ω
10 ° Typ.
.008 (.20) .012 (.30)
.115 (2.92) .135 (3.43)
5–1
元器件交易网
Electrical Characteristics (TA=25C)
Symbol
Min. Typ.
GaAs Emitter
Forward Voltage
VF - Forward Voltage - V
1.3
Ta = -55°C
1.2 Ta = 25°C
1.1
1.0
0.9
Ta = 100°C
0.8
0.7
.1
1
10
100
IF - Forward Current - mA
Figure 2. Normalized non-saturated and saturated CTRce versus LED curren
Storage Temperature ................... –55°C to +125°C Operating Temperature................ –55°C to +100°C Lead Soldering Time at 260°C ....................10 sec.

LM60中文资料

LM60中文资料

Parameter
Conditions
Typical
LM60B
LM60C
Units
(Note 6)
Limits
Limits
(Limit)
(Note 7)
(Note 7)
Accuracy (Note 8)
±2.0
±3.0
˚C (max)
±3.0
±4.0
˚C (max)
Output Voltage at 0˚C
n Accuracy at 25˚C: ±2.0 and ±3.0˚C (max) n Accuracy for −40˚C to +125˚C: ±4.0˚C (max) n Accuracy for −25˚C to +125˚C: ±3.0˚C (max) n Temperature Slope: +6.25mV/˚C n Power Supply Voltage Range: +2.7V to +10V n Current Drain @ 25˚C: 110µA (max) n Nonlinearity: ±0.8˚C (max) n Output Impedance: 800Ω (max)
The LM60’s linear output, +424 mV offset, and factory calibration simplify external circuitry required in a single supply environment where reading negative temperatures is required. Because the LM60’s quiescent current is less than 110 µA, self-heating is limited to a very low 0.1˚C in still air in the SOT-23 package. Shutdown capability for the LM60 is intrinsic because its inherent low power consumption allows it to be powered directly from the output of many logic gates.

MS31xxx中文资料

MS31xxx中文资料

MS31xxx中⽂资料Shell Size/No. of Dimensions in InchesInsert Arrange-Contacts/Digi-Key Price EachL L1N Q U V Fitting XY Amphenol ment No.Size DescriptionPart No.11050Max.Max.Ref.Max.Ref.ThreadRef.Ref.Part No.Straight Plugs with Solid Shells10SL-33/16Straight Plug w/Socket 97-3106A-10SL-3S-ND 12.008.40 6.2497-3106A-10SL-3S 10SL-42/16Straight Plugw/Socket 97-3106A-10SL-4S-ND 11.357.95 5.911-3/8—3/47/8—5/8-24——97-3106A-10SL-4S 12S-32/16Straight Plugw/Pins 97-3106A-12S-3P-ND 10.407.28 5.411-7/16—25/321—5/8-24——97-3106A-12S-3P Straight Plug w/Socket 97-3106A-12S-3S-ND 11.137.79 5.7997-3106A-12S-3S 14S-13/16Straight Plug w/Pins 97-3106A-14S-1P-ND 10.437.30 5.4397-3106A-14S-1P Straight Plug w/Socket 97-3106A-14S-1S-ND 12.308.61 6.4097-3106A-14S-1S 14S-24/16Straight Plug w/Pins 97-3106A-14S-2P-ND 10.387.27 5.401-15/32—7/81-1/8—3/4-20——97-3106A-14S-2P Straight Plug w/Socket9.026.7097-3106A-14S-2S SS RRL MKMS3100A Wall Mount ReceptacleMounting Holes .147 Dia. sizes 24,28.120 Dia.all other sizesCInsert Patterns (Front face of pin insert shown.Drawings not to scale.)SERVICE RATING:INST A D EB C Limited Operating DC 2507001250175024504200Voltages at Sea Level AC(rms)200500900125017503000TEST CURRENT: Contact Size 16 = 13 amperes, Contact Size 12 = 23 amperes NOTE: Transients were not considered in calculating these values.NOTE: Limiting operating voltage at 50,000 feet altitude are approx. 25% of the sea level values.Insert Arrangement Service Rating10SL-3A18-10A 18-11A18-12A18-16C18-19A20-4D20-29A22-14A 22-19A24-7A28-11A28-16A28-21A22-2224-1114S-716-1016-1118-1124-28INST.20-15A20-16A20-27A 20-7A,B,H,G = D C,D,E,F = A10SL-4A 12S-3A 14S-1A14S-2INST.14S-5INST.14S-6INST.18-4D18-8A18-1B,C,F,G = A all others = INST.A C BA BB AA C BD A C BE B D CA E ADCBF A EF G DCBA E D CBCB AD EFG H I J CBA D CB A D EF GH D A C BD EA CBE DB A D E F GHK JBCA D ABCDEFGHBCAD EFGA BCD EF GH I AB C D E FGHIJ K L M N A BC D EHJLK M P N TSRAB C D E F GH JLK MN P A B CD EF G HJ L KMNPO I AB C DEFG HJ LK M N U TV PSR A B C D E F G H JT Y V Q P S X R W A B C DEF G H JL K M N U W XTV IP S R ABC DEF GHJ L K M N U T V Q PS R A B C Dn p r sE F G H Jgh i k m L K M N V U W X Z R P b a c d fe T S LNAVNL N Q V MS3106A Straight Plug (97 Series)MS3108B Angle Plug (97 Series) XL 1UVQSizes 10SL, 14SVL1Q YShell is split longi-tudinally for conve-nient solder or in-spection. Frontshell is keyed to allow the 90 degree angle housing to be rotated and locked at any 45 degree increment. Underwriters Laboratories approved recognition File E115497. Canadian Standard Association Certification File LR69183 L 1MK N 1ASS R RSS R R16128Panel OpeningOCoupling ring ma-chined from solid alu-minum bar stock forhigh tensile strength.Mates with all types of 97 series receptacles.Front shell includespolarization keyway.Solid shell. Threadedbackshell.Mounting Holes.147 Dia. sizes 24,28.120 Dia. all other sizes97 Series Plugs(Continued)LKN XLKNML KZL M NBAAB CD A C IG DFEHB CA BA BC A BA BCDES SShell Size/No. of Dimensions in InchesInsert Arrange-Contacts/Digi-KeyPrice EachLL1N Q U V Fitting XY Amphenol ment No.Size Description Part No.11050Max.Max.Ref.Max.Ref.ThreadPart No.14S-55/16Straight Plug w/Pins 97-3106A-14S-5P-ND 11.608.12 6.0497-3106A-14S-5P Straight Plug w/Socket 97-3106A-14S-5S-ND 13.839.687.1997-3106A-14S-5S 14S-66/16Straight Plug w/Pins 97-3106A-14S-6P-ND 12.038.42 6.261-15/32—7/81-1/8—3/4-20——97-3106A-14S-6P Straight Plug w/Socket 97-3106A-14S-6S-ND 13.959.777.2697-3106A-14S-6S 16S-17/16Straight Plug w/Pins 97-3106A-16S-1P-ND 12.038.42 6.2697-3106A-16S-1P Straight Plug w/Socket 97-3106A-16S-1S-ND 15.4010.788.0197-3106A-16S-1S 16S-85/16Straight Plug w/Pins 97-3106A-16S-8P-ND 13.439.40 6.991-15/32—11-1/4—7/8-20——97-3106A-16S-8P Straight Plug w/Socket 97-3106A-16S-8S-ND 13.939.757.2597-3106A-16S-8S 18-110/16Straight Plug w/Pins 97-3106A-18-1P-ND 15.7811.058.2197-3106A-18-1P Straight Plug w/Socket 97-3106A-18-1S-ND 17.4512.229.0897-3106A-18-1S 18-44/16Straight Plug w/Pins 97-3106A-18-4P-ND 14.6010.227.6097-3106A-18-4P Straight Plug w/Socket 97-3106A-18-4S-ND 15.7511.038.1997-3106A-18-4S 18-84/1#12,Straight Plug w/Pins 97-3106A-18-8P-ND 17.2411.269.4497-3106A-18-8P 4/7#16Straight Plug w/Socket 97-3106A-18-8S-ND 18.6212.1610.2097-3106A-18-8S 18-104/12Straight Plug w/Pins 97-3106A-18-10P-ND 17.4812.249.0997-3106A-18-10P Straight Plug w/Socket 97-3106A-18-10S-ND 18.6212.1610.2097-3106A-18-10S 18-115/12Straight Plug w/Pins 97-3106A-18-11P-ND 17.4812.249.091-31/32—1-1/81-20——97-3106A-18-11P Straight Plug w/Socket 97-3106A-18-11S-ND 17.2411.269.4497-3106A-18-11S 18-126/16Straight Plug w/Pins 97-3106A-18-12P-ND 14.3310.037.4597-3106A-18-12P Straight Plug w/Socket 97-3106A-18-12S-ND 17.4812.249.0997-3106A-18-12S 18-161/12Straight Plug w/Pins 97-3106A-18-16P-ND 17.4812.249.0997-3106A-18-16P Straight Plug w/Socket 97-3106A-18-16S-ND 19.6412.8210.7697-3106A-18-16S 18-1910/16Straight Plug w/Pins 97-3106A-18-19P-ND 22.5214.4212.7797-3106A-18-19P Straight Plug w/Socket 97-3106A-18-19S-ND 19.2112.5410.5297-3106A-18-19S 20-44/12Straight Plug w/Pins 97-3106A-20-4P-ND 20.1613.1611.0497-3106A-20-4P Straight Plug w/Socket 97-3106A-20-4S-ND 26.3516.8714.9497-3106A-20-4S 20-78/16Straight Plug w/Pins 97-3106A-20-7P-ND 20.1613.1611.0497-3106A-20-7P Straight Plug w/Socket 97-3106A-20-7S-ND 21.6614.1411.8697-3106A-20-7S 20-157/12Straight Plug w/Pins 97-3106A-20-15P-ND 22.0914.4212.0997-3106A-20-15P Straight Plug w/Socket 97-3106A-20-15S-ND 27.7017.7315.701-7/8—1-1/41-15/32—1-3/16-18——97-3106A-20-15S 20-169/2#12,Straight Plug w/Pins 97-3106A-20-16P-ND 22.1114.4412.1197-3106A-20-16P 9/7#16Straight Plug w/Socket 97-3106A-20-16S-ND 22.5014.4012.7597-3106A-20-16S 20-2714/16Straight Plug w/Pins 97-3106A-20-27P-ND 19.7812.9210.8397-3106A-20-27P Straight Plug w/Socket 97-3106A-20-27S-ND 23.1814.8413.1497-3106A-20-27S 20-2917/16Straight Plug w/Pins 97-3106A-20-29P-ND 21.0713.7511.5497-3106A-20-29P Straight Plug w/Socket 97-3106A-20-29S-ND 25.4516.2914.4397-3106A-20-29S 22-1419/16Straight Plug w/Pins 97-3106A-22-14P-ND 24.0515.4013.6397-3106A-22-14P Straight Plug w/Socket 97-3106A-22-14S-ND 27.3217.4915.4897-3106A-22-14S 22-1914/16Straight Plug w/Pins 97-3106A-22-19P-ND 23.5815.1013.371-31/32—1-3/81-19/32—1-3/16-18——97-3106A-22-19P Straight Plug w/Socket97-3106A-22-19S-ND 24.0515.4013.6397-3106A-22-19S 24-716/2 #12,Straight Plug w/Pins 97-3106A-24-7P-ND 28.4618.2216.1397-3106A-24-7P 16/14 #16Straight Plug w/Socket 97-3106A-24-7S-ND 30.8319.7317.4797-3106A-24-7S 24-2824/16Straight Plug w/Pins 97-3106A-24-28P-ND 29.7719.0616.872-1/4—1-1/21-23/32—1-7/16-18——97-3106A-24-28P Straight Plug w/Socket 97-3106A-24-28S-ND 33.7121.5819.1097-3106A-24-28S 28-1122/4#12,Straight Plug w/Pins97-3106A-28-11P-ND 32.2720.6518.2997-3106A-28-11P 22/18#16Straight Plug w/Socket 97-3106A-28-11S-ND 34.6624.2721.6797-3106A-28-11S 28-1620/16Straight Plug w/Pins 97-3106A-28-16P-ND 33.2321.2718.842-1/4—1-3/41-31/32—1-7/16-18——97-3106A-28-16P Straight Plug w/Socket 97-3106A-28-16S-ND 33.6621.5519.0897-3106A-28-16S 28-2137/16 Straight Plug w/Pins 97-3106A-28-21P-ND 34.5424.1821.5997-3106A-28-21P Straight Plug w/Socket97-3106A-28-21S-ND38.9427.2624.3497-3106A-28-21SAngle Plugs with Split Shell10SL-33/16Angle Plug w/Socket 97-3108B-10SL-3S-ND 16.0311.228.3497-3108B-10SL-3S 10SL-42/16Angle Plugw/Socket 97-3108B-10SL-4S-ND 15.3010.717.96—1-1/2—7/815/8-24——97-3108B-10SL-4S 14S-13/16Angle Plug w/Pins 97-3108B-14S-1P-ND 13.939.757.2597-3108B-14S-1P Angle Plug w/Socket 97-3108B-14S-1S-ND 14.2810.007.4397-3108B-14S-1S 14S-24/16Angle Plug w/Pins 97-3108B-14S-2P-ND 13.809.667.1897-3108B-14S-2P Angle Plug w/Socket 97-3108B-14S-2S-ND14.9010.437.75—1-23/32—1-1/81-1/163/4-2021/32—97-3108B-14S-2S 14S-55/16Angle Plug w/Pins 97-3108B-14S-5P-ND 15.1310.597.8797-3108B-14S-5P Angle Plug w/Socket 97-3108B-14S-5S-ND 15.5510.898.0997-3108B-14S-5S 14S-66/16Angle Plug w/Pins 97-3108B-14S-6P-ND 15.5510.898.0997-3108B-14S-6P Angle Plug w/Socket 97-3108B-14S-6S-ND 15.9811.198.3197-3108B-14S-6S 18-110/16Angle Plug w/Pins 97-3108B-18-1P-ND 22.0214.3712.0697-3108B-18-1P Angle Plug w/Socket 97-3108B-18-1S-ND 24.0815.4113.65—2-5/32—1-11/321-3/161-201-41/641-41/6497-3108B-18-1S 18-44/16Angle Plug w/Pins 97-3108B-18-4P-ND 18.5012.0810.1397-3108B-18-4P Angle Plug w/Socket97-3108B-18-4S-ND19.7412.8910.8197-3108B-18-4SA(Continued)Shell Size/Dimensions in InchesInsert No. ofB Min X Min Arrange-Contacts/Digi-KeyPrice EachFull N Cable Amphenol ment No.SizeDescription Part No.11050Thread K L M Dia.R S Dim.Z Part No.3/16Plug w/Socket MS3106E-10SL-3S-ND *14.7010.297.65—.531 2.129—.896—.946.281—MS3106E-10SL-30S 3/16 Plug w/Socket MS3106F-10SL-3S-ND?16.7011.698.69—.531 2.129—.896—.946.281—MS3106F-10SL-3S 10SL-33/16Plug w/Socket MS3106R-10SL-3S-ND?15.2510.687.93—.531 1.057 1.120.807—.946——MS3106R-10SL-3S3/16Recept. w/Pins MS3102E-10SL-3P-ND *7.24 4.11 3.03.391.672.297.562.625.719 1.000—.422MS3102E-10SL-3P 3/16Recept. w/Pins MS3102R-10SL-3P-ND? 6.47 3.67 2.71.391.672.297.562.625.719 1.000—.422MS3102R-10SL-3P 2/16Plug w/Socket MS3106A-10SL-4S-ND 15.0810.567.84—.531.937———.946——MS3106A-10SL-4S 2/16Plug w/Socket MS3106E-10SL-4S-ND *16.7811.758.73—.531 2.129—.896—.946.281—MS3106E-10SL-4S 10SL-42/16Plug w/Socket MS3106F-10SL-4S-ND?14.8810.427.74—.531 2.129—.896—.946.281—MS3106F-10SL-4S2/16Recept. w/Pins MS3102E-10SL-4P-ND * 6.60 3.75 2.76.391.672.297.562.625.719 1.000—.422MS3102E-10SL-4P 2/16Recept. w/Pins MS3102R-10SL-4P-ND? 5.86 3.33 2.45.391.672.297.562.625.719 1.000—.422MS3102R-10SL-4P 4/16Plug w/Pins MS3106F-14S-2P-ND?12.808.96 6.66—.531 2.201— 1.021— 1.123.406—MS3106F-14S-2P 4/16Plugw/Socket MS3106A-14S-2S-ND 11.708.19 6.09—.531.937——— 1.123——MS3106A-14S-2S 4/16Plug w/Socket MS3106F-14S-2S-ND?16.9111.049.26—.531 2.201— 1.021— 1.123.406—MS3106F-14S-2S 14S-24/16Recept. w/Pins MS3102E-14S-2P-ND *8.82 5.30 4.12.450.672.297.562.750.906 1.188—.422MS3102E-14S-2P4/16Recept. w/Socket MS3102E-14S-2S-ND *8.74 4.96 3.66.450.672.297.562.750.906 1.188—.422MS3102E-14S-2S4/16Recept. w/Pins MS3102R-14S-2P-ND? 5.93 3.37 2.48.450.672.297.562.750.906 1.188—.422MS3102R-14S-2P4/16Recept. w/Socket MS3102R-14S-2S-ND?8.84 5.02 3.70.450.672.297.562.750.906 1.188—.422MS3102R-14S-2S5/16Plug w/Pins MS3106A-14S-5P-ND 11.588.11 6.02—.531.937——— 1.123——MS3106A-14S-5P 5/16Plug w/Socket MS3106A-14S-5S-ND 13.009.10 6.76—.531.937——— 1.123——MS3106A-14S-5S 14S-55/16Recept. w/Pins MS3102E-14S-5P-ND *7.67 4.36 3.21.450.672.297.562.750.906 1.188—.422MS3102E-14S-5P5/16Recept. w/Pins MS3102R-14S-5P-ND?9.08 5.15 3.80.450.672.297.562.750.906 1.188—.422MS3102R-14S-5P6/16Plug w/Socket MS3106A-14S-6S-ND 13.009.10 6.76—.531.937——— 1.123——MS3106A-14S-6S 6/16Plug w/Socket MS3106F-14S-6S-ND?16.8011.768.74—.531 2.201— 1.021— 1.123.406—MS3106F-14S-6S 6/16Recept. w/Pins MS3102E-14S-6P-ND *7.84 4.45 3.28.450.672.297.562.750.906 1.188—.422MS3102E-14S-6P 14S-66/16Recept. w/Socket MS3102E-14S-6S-ND *9.84 5.91 4.60.450.672.297.562.750.906 1.188—.422MS3102E-14S-6S6/16Recept. w/Pins MS3102R-14S-6P-ND? 5.49 3.12 2.30.450.672.297.562.750.906 1.188—.422MS3102R-14S-6P 6/16 Recept. w/Socket MS3102R-14S-6S-ND?9.01 5.12 3.77.450.672.297.562.750.906 1.188—.422MS3102R-14S-6S 14S-73/16Plug w/Socket MS3106F-14S-7S-ND?17.0511.139.34—.531 2.201— 1.021— 1.123.406—MS3106F-14S-7S 7/16Plug w/Socket MS3106A-16S-1S-ND 15.4810.848.05—.531.937——— 1.250——MS3106A-16S-1S 7/16Plug w/Socket MS3106F-16S-1S-ND?23.1815.1312.69—.531 2.201— 1.151— 1.250.500—MS3106F-16S-1S 16S-17/16Recept. w/Pins MS3102E-16S-1P-ND *8.49 5.10 3.97.450.672.297.562.875.969 1.281—.422MS3102E-16S-1P7/16Recept. w/Pins MS3102R-16S-1P-ND? 6.80 3.86 2.85.450.672.297.562.875.969 1.281—.422MS3102R-16S-1P 3/12 Plug w/Socket MS3106A-16-10S-ND 16.5311.578.60—.719 1.124——— 1.250——MS3106A-16-10S 16-103/12Plugw/Socket MS3106F-16-10S-ND?23.0014.7213.04—.719 2.524— 1.151— 1.250.500—MS3106F-16-10S 16-112/12Recept. w/Pins MS3102R-16-11P-ND? 6.83 3.88 2.86.625.860.484.750.875.969 1.281—.672MS3102R-16-11P10/16Recept. w/Pins MS3102E-18-1P-ND *10.20 6.12 4.76.625.891.453.750 1.000 1.062 1.375—.641§MS3102E-18-1P 18-110/16Recept. w/Pins MS3102R-18-1P-ND?10.14 6.09 4.74.625.891.453.750 1.000 1.062 1.375—.641§MS3102R-18-1P10/16Plug w/Socket MS3106A-18-1S-ND 18.1211.839.92—.719 1.219——— 1.333——MS3106A-18-1S18-115/12Recept. w/Pins MS3102E-18-11P-ND *8.68 4.93 3.63.625.891.453.750 1.000 1.062 1.375—.641§MS3102E-18-11P 20-2714/16Recept. w/Pins MS3102R-20-27P-ND?10.80 6.48 5.04.625.891.453.750 1.125 1.156 1.500—.641§MS3102R-20-27P 22-1419/16Recept. w/Pins MS3102E-22-14P-ND *11.43 6.86 5.34.625.891.453.750 1.250 1.250 1.625—.641§MS3102E-22-14P 22-1914/16Recept. w/Socket MS3102E-22-19S-ND *12.008.40 6.24.625.891.453.750 1.250 1.250 1.625—.641§MS3102E-22-19S 22-224/8Recept. w/Pins MS3102E-22-22P-ND *14.9010.437.75.625.891.453.750 1.250 1.250 1.625—.641§MS3102E-22-22P 3/#8 6/#12Recept. w/Pins MS3102R-24-11P-ND?11.658.166.06.625.953.453.812 1.375 1.375 1.750—.578§MS3102R-24-11P 24-113/#8 6/#12Plug w/SocketMS3106R-24-11S-ND?23.8315.2513.51—.7191.2911.9941.557—1.715——MS3106R-24-11SShell Size/No. of Dimensions in InchesInsert Arrange-Contacts/Digi-Key Price EachL L1N Q U V Fitting XY Amphenol ment No.Size DescriptionPart No.11050Max.Max.Ref.Max.Ref.ThreadRef.Ref.Part No.18-84/1#12,Angle Plug w/Pins 97-3108B-18-8P-ND 22.0214.3712.0697-3108B-18-8P 4/7#16Angle Plug w/Socket 97-3108B-18-8S-ND 23.3915.2712.8197-3108B-18-8S 18-104/12Angle Plug w/Pins 97-3108B-18-10P-ND 21.3813.9511.7097-3108B-18-10P Angle Plug w/Socket 97-3108B-18-10S-ND 23.3915.2712.8197-3108B-18-10S 18-115/12Angle Plug w/Pins 97-3108B-18-11P-ND 21.3813.9511.7097-3108B-18-11P Angle Plug w/Socket 97-3108B-18-11S-ND 22.0214.3712.06—2-5/32—1-11/321-3/161-201-41/641-41/6497-3108B-18-11S 18-126/16Angle Plug w/Pins 97-3108B-18-12P-ND 20.2613.2311.0997-3108B-18-12P Angle Plug w/Socket 97-3108B-18-12S-ND 21.3813.9511.7097-3108B-18-12S 18-161/12Angle Plug w/Pins 97-3108B-18-16P-ND 22.0414.3912.0797-3108B-18-16P Angle Plug w/Socket 97-3108B-18-16S-ND 24.1015.4313.6697-3108B-18-16S 18-1910/16Angle Plug w/Pins 97-3108B-18-19P-ND 27.1417.3715.3897-3108B-18-19P Angle Plug w/Socket97-3108B-18-19S-ND22.7014.5312.8797-3108B-18-19SMSwAShell Size No. of Dimensions in InchesInsert Con-AV Arrange-tacts/Digi-Key Price Each Coupling K L L1M N N1O R S Fitting Amphenol ment No.Size DescriptionPart No.11050Thread Ref.Max.Max.Ref.Ref.Ref.Ref.Ref.Ref.ThreadPart No.Receptacles With Solid Shells10SL-33/16Cable recept. w/pins97-3101A-10SL-3P-ND 14.089.867.3297-3101A-10SL-3P Box mount recept. w/pins 97-3102A-10SL-3P-ND 9.69 5.82 4.53 5/8-245/641-9/3261.649/163/411/16.81223/3215/8-2497-3102A-10SL-3P 10SL-42/16Cable recept. w/pins97-3101A-10SL-4P-ND 13.439.40 6.9997-3101A-10SL-4P Box mount recept. w/pins 97-3102A-10SL-4P-ND 8.91 5.35 4.1697-3102A-10SL-4P 12S-32/16Box mount recept. w/pins 97-3102A-12S-3P-ND 8.27 4.70 3.4697-3102A-12S-3P Box mount recept. w/socket 97-3102A-12S-3S-ND 8.88 5.04 3.713/4-205/641-15/3231/329/1625/3211/16.81213/161-3/325/8-2497-3102A-12S-3S Wall mount recept. w/pins 97-3100A-14S-1P-ND 12.008.40 6.2497-3100A-14S-1P Wall mount recept.w/socket 97-3100A-14S-1S-ND 12.308.61 6.4097-3100A-14S-1S 14S-13/16Cable recept. w/pins 97-3101A-14S-1P-ND 14.7810.357.6997-3101A-14S-1P Cable recept. w/socket 97-3101A-14S-1S-ND 15.0010.507.8097-3101A-14S-1S Wall mount recept. w/pins 97-3100A-14S-2P-ND 13.359.35 6.9597-3100A-14S-2P Wall mount recept. w/socket 97-3100A-14S-2S-ND 12.588.81 6.5497-3100A-14S-2S 14S-24/16Cable recept. w/pins 97-3101A-14S-2P-ND 14.7010.297.6597-3101A-14S-2P Cable recept. w/socket 97-3101A-14S-2S-ND 15.5510.898.0997-3101A-14S-2S Wall mount recept. w/pins 97-3100A-14S-5P-ND 13.359.35 6.957/8-205/641-15/3261/649/167/83/4.93829/321-3/163/4-2097-3100A-14S-5P Wall mount recept. w/socket 97-3100A-14S-5S-ND 12.038.42 6.2697-3100A-14S-5S 14S-55/16Cable recept. w/pins 97-3101A-14S-5P-ND 15.8511.108.2597-3101A-14S-5P Cable recept. w/socket 97-3101A-14S-5S-ND 16.5511.598.6197-3101A-14S-5S Wall mount recept. w/pins 97-3100A-14S-6P-ND 12.038.42 6.2697-3100A-14S-6P Wall mount recept. w/socket 97-3100A-14S-6S-ND 13.839.687.1997-3100A-14S-6S 14S-66/16Cable recept. w/pins 97-3101A-14S-6P-ND 16.5511.598.6197-3101A-14S-6P Cable recept. w/socket 97-3101A-14S-6S-ND 16.9311.858.8197-3101A-14S-6S Box mount recept. w/pins 97-3102A-16S-1P-ND 11.677.01 5.4597-3102A-16S-1P 16S-17/16Box mount recept. w/socket 97-3102A-16S-1S-ND 11.887.13 5.5597-3102A-16S-1S Box mount recept. w/pins 97-3102A-16S-8P-ND 11.52 6.92 5.381-205/641-15/3261/649/1617/8 1.06231/321-9/327/8-2097-3102A-16S-8P 16S-85/16Box mount recept. w/socket 97-3102A-16S-8S-ND 11.977.19 5.5997-3102A-16S-8S Box mount recept. w/pins 97-3102A-18-1P-ND 13.259.28 6.8997-3102A-18-1P 18-110/16Box mount recept. w/socket 97-3102A-18-1S-ND 12.788.95 6.6597-3102A-18-1S Box mount recept. w/pins 97-3102A-18-4P-ND 11.52 6.92 5.3897-3102A-18-4P 18-44/16Box mount recept. w/socket 97-3102A-18-4S-ND 10.407.28 5.4197-3102A-18-4S 4/1#12,Box mount recept. w/pins 97-3102A-18-8P-ND 13.259.28 6.8997-3102A-18-8P 18-84/7#16Box mount recept. w/socket 97-3102A-18-8S-ND14.4810.147.5397-3102A-18-8S Box mount recept. w/pins 97-3102A-18-10P-ND 12.308.61 6.4097-3102A-18-10P 18-104/12Box mount recept. w/socket 97-3102A-18-10S-ND 14.4810.147.531-1/8-181/81-63/641-3/83/41-1/81 1.1881-1/161-3/81-2097-3102A-18-10S Box mount recept. w/pins 97-3102A-18-11P-ND 12.308.61 6.4097-3102A-18-11P 18-115/12Box mount recept. w/socket 97-3102A-18-11S-ND 11.538.07 6.0097-3102A-18-11S Box mount recept. w/pins 97-3102A-18-12P-ND 11.207.84 5.8397-3102A-18-12P 18-126/16Box mount recept. w/socket 97-3102A-18-12S-ND 10.707.49 5.5797-3102A-18-12S Box mount recept. w/pins 97-3102A-18-16P-ND 11.738.21 6.1097-3102A-18-16P 18-161/12Box mount recept. w/socket 97-3102A-18-16S-ND 15.0010.507.8097-3102A-18-16S Box mount recept. w/pins 97-3102A-18-19P-ND19.0712.4510.4497-3102A-18-19P 18-1910/16Box mount recept. w/socket 97-3102A-18-19S-ND 13.059.14 6.7997-3102A-18-19S Box mount recept. w/pins 97-3102A-20-4P-ND 12.008.40 6.2497-3102A-20-4P 20-44/12Box mount recept. w/socket 97-3102A-20-4S-ND 14.7810.357.6997-3102A-20-4S Box mount recept. w/pins 97-3102A-20-7P-ND 12.008.40 6.2497-3102A-20-7P 20-78/16Box mount recept. w/socket 97-3102A-20-7S-ND 13.839.687.1997-3102A-20-7S Box mount recept. w/pins 97-3102A-20-15P-ND 16.0511.248.3597-3102A-20-15P 20-157/12Box mount recept. w/socket 97-3102A-20-15S-ND 20.6613.4911.3197-3102A-20-15S 9/2#12,Box mount recept. w/pins 97-3102A-20-16P-ND 14.4810.147.531-1/4-181/81-57/641-3/83/41-1/41-1/8 1.3121-5/321-1/21-3/16-1897-3102A-20-16P 20-169/7#16Box mount recept. w/socket 97-3102A-20-16S-ND 15.7511.038.1997-3102A-20-16S Box mount recept. w/pins 97-3102A-20-27P-ND 14.7810.357.6997-3102A-20-27P 20-2714/16Box mount recept. w/socket 97-3102A-20-27S-ND 14.7510.337.6797-3102A-20-27S Box mount recept. w/pins 97-3102A-20-29P-ND 16.6011.628.6497-3102A-20-29P 20-2917/16Box mount recept. w/socket 97-3102A-20-29S-ND 18.0511.789.8897-3102A-20-29S Box mount recept. w/pins 97-3102A-22-14P-ND 17.2411.269.4497-3102A-22-14P 22-1419/16Box mount recept. w/socket 97-3102A-22-14S-ND 21.0013.7111.5097-3102A-22-14S Box mount recept. w/pins 97-3102A-22-19P-ND 16.9111.049.261-3/8-181/81-63/641-3/83/41-3/81-1/4 1.4381-1/41-5/81-3/16-1897-3102A-22-19P 22-1914/16Box mount recept. w/socket 97-3102A-22-19S-ND 17.2411.269.4497-3102A-22-19S16/2#12,Box mount recept. w/pins 97-3102A-24-7P-ND 20.2813.2411.1197-3102A-24-7P 24-716/14#16Box mount recept. w/socket 97-3102A-24-7S-ND 22.7514.8512.461-1/2-181/82-1/41-3/813/161-1/21-3/8 1.5621-3/81-3/41-7/16-1897-3102A-24-7S Box mount recept. w/pins 97-3102A-24-28P-ND 22.0614.4012.0897-3102A-24-28P 24-2824/16Box mount recept. w/socket 97-3102A-24-28S-ND 24.5015.6913.8997-3102A-24-28S 22/4#12,Box mount recept. w/pins 97-3102A-28-11P-ND 22.9314.6813.0097-3102A-28-11P 28-1122/18#16Box mount recept. w/socket 97-3102A-28-11S-ND29.4818.8716.7197-3102A-28-11S Box mount recept. w/pins 97-3102A-28-16P-ND 24.0515.4013.6397-3102A-28-16P 28-1620/16Box mount recept. w/socket 97-3102A-28-16S-ND 24.2315.5113.741-3/4-181/82-1/41-3/813/161-3/41-5/8 1.8121-9/1621-7/16-1897-3102A-28-16S Box mount recept. w/pins 97-3102A-28-21P-ND 29.2718.7416.5997-3102A-28-21P 28-2137/16Box mount recept. w/socket97-3102A-28-21S-ND30.6821.4819.1897-3102A-28-21SMax.Dimensions in Inches Shell O.D.Digi-Key Price EachC D. Internal Amphenol Size Cable Description Part No.11050A B Dia.Thread E FG L Part No.Cable Clamp 97-3057-1004-ND 5.76 3.27 2.41.795.8425/165/8-24————97-3057-100410SL,Bushing 97-79-513-3-ND 1.12.67.44————.130.210.374 2.8759779-513-312S 5/16Bushing97-79-513-4-ND1.31.79.51————.220.302.500 2.7509779-513-4Cable Clamp w/Bushing97-3057-1004-1-ND*7.00 3.98 2.93.795.8425/165/8-24.220.302.500 2.75097-3057-1004-1*Cable Clamp 97-3057-1007-ND 5.58 3.34 2.18.850.9957/163/4-20————97-3057-100712SL,7/16Bushing97-79-513-6-ND 1.27.76.50————.312.427.614 2.6259779-513-614SCable Clamp w/Bushing97-3057-1007-1-ND 7.07 4.01 2.96.850.9957/163/4-20.312.427.614 2.62597-3057-1007-1Cable Clamp 97-3057-1008-ND 6.40 3.63 2.68.920 1.1209/167/8-20————97-3057-1008-116,16S 9/16Bushing97-79-513-8-ND 1.04.63.41————.437.552.739 2.5009779-513-8Cable Clamp w/Bushing97-3057-1008-1-ND 7.47 4.24 3.13.920 1.1209/167/8-20.437.552.739 2.50097-3057-1008-1Cable Clamp 97-3057-1010-ND 5.43 3.08 2.27.920 1.2165/81-20————97-3057-1010185/8Bushing97-79-513-10-ND 1.12.67.44————.562.615.889 2.3759779-513-10Cable Clamp w/Bushing97-3057-1010-1-ND 6.37 3.61 2.66.920 1.2165/81-20.562.615.889 2.37597-3057-1010-1Cable Clamp 97-3057-1012-ND 5.43 3.08 2.27.927 1.4033/41-3/16-18————97-3057-101220,223/4Bushing97-79-513-12-ND 1.23.74.48————.625.740 1.084 2.2509779-513-12Cable Clamp w/Bushing97-3057-1012-1-ND 6.50 3.69 2.72.927 1.4033/41-3/16-18.625.740 1.084 2.25097-3057-1012-1Cable Clamp 97-3057-1016-ND 5.90 3.35 2.47 1.015 1.68315/161-7/16-18————97-3057-1016**24,2815/16Bushing 97-79-513-12-ND 1.23.74.48————.625.740 1.084 2.2509779-513-12Bushing97-79-513-16-ND 1.66.99.65————.750.927 1.309 2.1259779-513-16Cable Clamp w/Bushing97-3057-1016-1-ND**8.384.753.50 1.015 1.68315/161-7/16-18————97-3057-1016-1**CBADInternal ThreadFor jacketed cable or wires protected by tubing.Both clamping halves float for maximum strain relief. For unjacketed cable or wires, use corresponding MS3420 bushing. Clamp and bushing can be ordered together. Two telescoping bushings are furnished with shell sizes 24 and larger.Accessories For 97 Series ConnectorsL.063.02G45°FERubber bushing specifically designed for MS3057A type cable clamp. Can also be used as a reducing bushing. Order separately or with cable clamp.97 Series Receptacles* When Clamp and bushing are ordered together for shell sizes 10SL and 12S, bushing 97-79-513-4 will be furnished.**Two telescoping bushings (97-79-513-12 and 97-79-513-16) are furnished with each cable clamp for shell sizes 24 and 28. BushingCable ClampMS3075A TypeMS3420 TypeA。

集成电路英文代码对照

集成电路英文代码对照

集成电路英文代码及中文对照〔一〕我的文摘2021-11-21 11:32:53 阅读111 评论0 字号:大中小订阅产品名称型号规格性能说明LMLM24J 四运放(军用级)LM148J 通用四运放LM1875T 无线电控制/接收器LM224J 四运放(工业级)LM258N 别离式双电源双运放LM2901N 四电压比拟器LM2904N 四运放LM301AN 通用运算放大器LM308N 单比拟器LM311P 单比拟器LM317L 可调三端稳压器/100mALM317TLM317K 可调三端稳压器/3ALM318 高速宽带运放LM324K 通用四运放LM331N V-F/F-V转换器基准电压电路LM336 5V 基准电压电路LM337T 基准电压电路1ALM338K 可调三端稳压器5ALM339N 四比拟器LM348N 四741运放LM358N 低功耗双运放LM361N 高速差动比拟器LM386N 声频功率放大器LM3914N 十段点线显示驱动LM393N 低功耗低失调双比拟器LM399H 精细基准源(6.9)LM723CN 可调正式负稳压器LM733CN 视频放大器LM741J 单运放LM741CN 双运放NENE521 高速双差分比拟器NE5532 双运放NE5534 双运放NE555N 单运放NE555J 时基电路军品极NE556 双级型双时基电路NE564 锁相环NE565 锁相环NE567 音调译码器NE592 视频放大器OPOP07 低噪声运放OP27 超低噪声精细运放OP37 超低噪声精细运放光电耦合4N25 晶体管输出4N25MC 晶体管输出4N26 晶体管输出4N27 晶体管输出4N28 晶体管输出4N29 达林顿输出4N30 达林顿输出4N31 达林顿输出4N32 达林顿输出4N33 达林顿输出4N33MC 达林顿输出4N35 达林顿输出4N36 晶体管输出4N37 晶体管输出4N38 晶体管输出4N39 可控硅输出6N135 高速光耦晶体管输出6N136 高速光耦晶体管输出6N137 高速光耦晶体管输出6N138 达林顿输出6N139 达林顿输出MOC3020 可控硅驱动输出MOC3021 可控硅驱动输出MOC3023 可控硅驱动输出MOC3030 可控硅驱动输出MOC3040 过零触发可控硅输出MOC3041 过零触发可控硅输出MOC3061 过零触发可控硅输出MOC3081 过零触发可控硅输出TLP521-1 单光耦TLP521-2 双光耦TLP521-4 四光耦TLP621 四光耦TIL113 达林顿输出TIL117 TLL逻辑输出PC814 单光耦PC817 单光耦H11A2 晶体管输出H11D1 高压晶体管输出H11G2 电阻达林顿输出LFLF347N 宽带JFET输入四运放LF351N 宽带JFET输入运放LF353N JFET输入宽带运放LF355N JFET输入运放LF357N JFET宽带非全裣运放LF398N 采样/保持电路LF412N 低偏向飘移输入运放MCMC1377 彩色电视编码器MC1403 精细电压基准源(2.5)MC1413 周边七段驱动阵列MC1416 周边七段驱动陈列MC14409 二进制脉冲拨号器MC14433 3位半A/D转换器MC14489 多字符LED显示驱动器MC145026 编码器VD5026 编码器MC145027 译码器VD5027 译码器MC145028 译码器MC145030 编码译码器MC145106 频率合成器MC145146 4位数据总线TLTL062 低功耗JEFT输入双运放TL072 低噪声JEFTTL082TL084TL431TL494ULNULN2003 周边七段驱动陈列ULN2004 周边七段驱动陈列ULN2803 周边八段驱动陈列ULN2804 周边八段驱动陈列ICLICL7106 3位ADC/驱动LCDICL7107 3位半ADC/驱动LEDICL7109 4位半ADC/驱动LEDICL7129 4位半ADC/LCD驱动ICL7135 ADC/LCD驱动BCD输出ICL7136 3位半CMOSADC/LCD驱动ICL7218 CMOS低功耗运算放大器ICL7650 整零运放斩波ICL7652 整零运放斩波ICL7660 CMOS直流-直流转换器ICL8038 函数信号发生器ICL8049 反对数放大器CACA3140 单BIMOS运行CA3240 单BIMOS运行UCUC3842 WM电流型控制器UC3845 PWM电流型控制器DSDS12887 非易失实时时钟芯片L3845 中继接口电路SGSG3524 PWM解调调制器SG3525 PWM解调调制器20216 前置放大器MTMT8814 8x12模拟交换矩阵MT8816 8x模拟交换矩阵MT8870 综合DTMF接收器MT8870 综合DTMF接收器MT8880 综合DTMF发生接收器MIC24LC01 128x8串行EEPROM24LC02 256x8串行EEPROM24LC04 512x8串行EEPROM24LC16 2Kx8串行EEPROM93LC46 64x16串行EEPROM93LC56 256x16串行EEPROM93LC66 512x8 256x16 EEPROMPIC16C52 384x12 单片机PIC16C54 512x12 单片机PCI16C56 512x12 单片机PIC16C57 2048x12 单片机ATAT24C01 128x8串行EEPROMAT24C02 256x8串行EEPROMAT24C04 512x8串行EEPROMAT24C16 2Kx8串行EEPROMAT93C46 64x16串行EEPROMAT93C56 256x16串行EEPROMATF16V8 FLASH200门ATF20V8 FLASH300门高速ATF22V10 FLASH500门高速低电流AT28C16 2Kx8CMOS并行EEPROMAT28C17 2Kx8CMOS并行EEPROMAT28C64 8Kx8并行EEPROMAT28C256 32Kx8并行EEPROMAT28F010 128Kx8并行EEPROMA29C040 512Kx8 FLASH EEPROMHM6116 2Kx8 CMOS 静态PAMHY6264 8Kx8 CMOS 静态RAMHM6264 8Kx8 CMOS 静态RAMIS62C64 8Kx8 高速CMOS 静态RAMHY62256 32Kx8 CMOS 静态RAMHM62256 32Kx8 CMOS 静态RAMHM628128 128Kx8 CMOS 静态RAMHM628256 256Kx8 CMOS 静态RAMHM628512 512Kx8 CMOS 静态RAMHM628512 512Kx8 CMOS 静态RAM TCMTCM5087 双音调发生器MM5832 实时钟电路TCTC14433 3位半A/D转换器TC232 并行/串行接口电路TC7106 3位半ADC/LCD驱动TC7107 3位半ADC/LED驱动TC7116 3位半ADC/LCD驱动带保TC7129 4位半ADC/LCDTC7135 4位半ADC/LCD,BCD输出TC7650 整零运放斩波7575107 四差分线驱动器75174 四差分线驱动器75175 三态四差分接收器75176 差分总线接收器75188 四线驱动器75189 四线驱动器75451 双外围驱动器75452 双外围驱动器集成电路英文代码及中文对照〔二〕我的文摘2021-11-21 11:37:11 阅读191 评论0 字号:大中小订阅。

LN66资料

LN66资料
*
Conditions IF = 50mA IF = 50mA IF = 50mA IF = 100mA VR = 3V VR = 0V, f = 1MHz
The angle in which radiant intencity is 50%
min 5
1.0
typ 8 950 50 1.3 35 25
IF = 100mA
1
Forward voltage
0.8
1
(2)
10 –1
0.4
10 –1
10 –2
1
10
10 2
10 3
10 4
0 – 40
0
40
80
120
10 –2 – 40
0
40
80
120
Pulse forward current IFP (mA)
Ambient temperature Ta (˚C )
Relative radiant intensity (%)
980
80
80 70
Relative radiant intensity (%)
30˚
960
60
60 50 40
40˚ 50˚ 60˚ 70˚ 80˚ 90˚
940
40 30 20 20
920
900 – 40
0
40
80
120
0 860
900
1
Modulation output
10 –1
10 –2
10 –3 10
10 2
10 3
10 4
Frequency
f (kHz)
3
Ratings 160 100 1.5 3 –25 to +85 – 40 to +100

MT8962资料

MT8962资料

6-19®Features•ST-BUS ™ compatible•Transmit/Receive filters & PCM Codec in one I.C•Meets AT&T D3/D4 and CCITT G711 and G712•µ-Law: MT8960/62/64/67•A-Law: MT8961/63/65/67•Low power consumption:Op.: 30 mW typ.Stby.: 2.5 mW typ.•Digital Coding Options:MT8964/65/66/67 CCITT Code MT8960/61/62/63 Alternative Code•Digitally controlled gain adjust of both filters •Analog and digital loopback•Filters and codec independently user accessible for testing•Powerdown mode available • 2.048 MHz master clock input•Up to six uncommitted control outputs •±5V ±5% power supplyDescriptionManufactured in ISO 2-CMOS, these integrated filter/codecs are designed to meet the demanding performance needs of the digital telecommunications industry, e.g., PABX, Central Office, Digital telephones.Ordering InformationMT8964/65AC 18 Pin Ceramic DIP MT8960/61/64/65AE 18 Pin Plastic DIP MT8962/63AE 20 Pin Plastic DIP MT8962/63/66/67AS 20 Pin SOIC0°C to+70°CFigure 1 - Functional Block DiagramANUL V XSD0SD1SD2SD3SD4SD5V RV RefGNDA GNDDV DD V EEDSToCSTi CAF1i C2iDSTiTransmit FilterOutput RegisterReceive FilterAnalog to Digital PCM EncoderPCM Digital to Analog DecoderOutput RegisterInput RegisterA Register 8-BitsB-Register 8-BitsControl LogicISSUE 10May 1995MT8960/61/62/63/64/65/66/67Integrated PCM Filter CodecISO 2-CMOS 元器件交易网MT8960/61/62/63/64/65/66/67ISO 2-CMOS6-20Figure 2 - Pin ConnectionsPin DescriptionPin Name DescriptionCSTiControl ST-BUS In is a TTL-compatible digital input used to control the function of the filter/codec. Three modes of operation may be effected by applying to this input a logic high (V DD ), logic low (GNDD), or an 8-bit serial word, depending on the logic states of CA and F1i.Functions controlled are: powerdown, filter gain adjust, loopback, chip testing, SD outputs.DSTi Data ST-BUS In accepts the incoming 8-bit PCM word. Input is TTL-compatible.C2i Clock Input is a TTL-compatible 2.048 MHz clock.DST o Data ST-BUS Out is a three-state digital output driving the PCM bus with the outgoing 8-bit PCM word.V DD Positive power Supply (+5V).F1iSynchronization Input is an active low digital input enabling (in conjunction with CA) the PCM input, PCM output and digital control input. It is internally sampled on every positive edge of the clock, C2i, and provides frame and channel synchronization.CA Control Address is a three-level digital input which enables PCM input and output and determines into which control register (A or B) the serial data, presented to CSTi, is stored.SD3System Drive Output is an open drain output of an N-channel transistor which has its source tied to GNDA. Inactive state is open circuit.SD4-5System Drive Outputs are open drain outputs of N-channel transistors which have their source tied to GNDD. Inactive state is open circuit.SD0-2System Drive Outputs are “T otempole“ CMOS outputs switching between GNDD and V DD . Inactive state is logic low.V EE Negative power supply (-5V).V X Voice Transmit is the analog input to the transmit filter.ANUL Auto Null is used to integrate an internal auto-null signal. A 0.1µF capacitor must be connected between this pin and GNDA.V R Voice Receive is the analog output of the receive filter.GNDA Analog ground (0V).V Ref Voltage Reference input to D to A converter.GNDDDigital ground (0V).123456789101112201918171615141320 PIN PDIP/SOICCSTi DSTi C2i DSTo VDD SD5SD4F1i CA SD3GNDD VRef GNDA VR ANUL VX VEE SD0SD1SD212345678910181716151413121118 PIN CERDIP/PDIPCSTi DSTi C2i DSTo VDD F1i CA SD3SD2GNDD VRef GNDA VR ANUL VX VEE SD0SD1MT8960/61/64/65MT8962/63/66/67元器件交易网ISO 2-CMOS MT8960/61/62/63/64/65/66/676-21Figure 3 - µ-Law Encoder Transfer CharacteristicFigure 4 - A-Law Encoder Transfer Characteristic111111111111000011100000110100001100000010110000101000001001000010000000000000000001000000100000001100000100000001010000011000000111000001111111100000001000111110011111101011111011111111001111110111111110111111111111011111110110111101011111010011110011111100101111000111110000111100000000-2.415V-1.207V0V+1.207V +2.415VBit 7... 0MSB LSBAnalog Input Voltage (V IN )MT8960/62Digital Output MT8964/66Digital Output 111111111111000011100000110100001100000010110000101000001001000010000000000000000001000000100000001100000100000001010000011000000111000001111111101010101010010110110101100001011001010111100101111101011100010111010101010101010100010101110101011001010001010100000101001101010010010100101010-2.5V-1.25V0V+1.25V+2.5VBit 7... 0MSB LSBAnalog Input Voltage (V IN )MT8961/63Digital Output MT8965/67Digital Output 元器件交易网MT8960/61/62/63/64/65/66/67ISO 2-CMOS6-22Functional DescriptionFigure 1 shows the functional block diagram of the MT8960-67. These devices provide the conversion interface between the voiceband analog signals of a telephone subscriber loop and the digital signals required in a digital PCM (pulse code modulation)switching system. Analog (voiceband) signals in the transmit path enter the chip at V X , are sampled at 8kHz, and the samples quantized and assigned 8-bit digital values defined by logarithmic PCM encoding laws. Analog signals in the receive path leave the chip at V R after reconstruction from digital 8-bit words.Separate switched capacitor filter sections are used for bandlimiting prior to digital encoding in the transmit path and after digital decoding in the receive path. All filter clocks are derived from the 2.048 MHz master clock input, C2i. Chip size is minimized by the use of common circuitry performing the A to D and D to A conversion. A successive approximation technique is used with capacitor arrays to define the 16 steps and 8 chords in the signal conversion process. Eight-bit PCM encoded digital data enters and leaves the chip serially on DSTi and DSTo pins,respectively.Transmit PathAnalog signals at the input (Vx) are firstly bandlimited to 508 kHz by an RC lowpass filter section. This performs the necessary anti-aliasing for the following first-order sampled data lowpass pre-filter which is clocked at 512 kHz. This further bandlimits the signal to 124 kHz before a fifth-order elliptic lowpass filter, clocked at 128 kHz, provides the 3.4 kHz bandwidth required by the encoder section. A 50/60 Hz third-order highpass notch filter clocked at 8 kHz completes the transmit filter path.Accumulated DC offset is cancelled in this last section by a switched-capacitor auto-zero loop which integrates the sign bit of the encoded PCM word, fed back from the codec and injects this voltage level into the non-inverting input of the comparator. An integrating capacitor (of value between 0.1 and 1 µF)must be externally connected from this point (ANUL)to the Analog Ground (GNDA).The absolute gain of the transmit filter (nominally 0dB at 1 kHz) can be adjusted from 0 dB to 7 dB in 1dB steps by means of three binary controlled gain pads.The resulting bandpass characteristics with the limits shown in Figure 10 meet the CCITT and AT&T recommended specifications. Typical atttenuationsare 30 dB for 0-60 Hz and 35 dB for 4.6 kHz and above.The filter output signal is an 8 kHz staircase waveform which is fed into the codec capacitor array,or alternatively, into an external capacitive load of 250 pF when the chip is in the test mode. The digital encoder generates an eight-bit digital word representation of the 8 kHz sampled analog signal.The first bit of serial data stream is bit 7 (MSB) and represents the sign of the analog signal. Bits 4-6represent the chord which contains the analog sample value. Bits 0-3 represent the step value of the analog sample within the selected chord. The MT8960-63 provide a sign plus magnitude PCM output code format. The MT8964/66 PCM output code conforms to the AT &T D3 specification, i.e.,true sign bit and inverted magnitude bits. The MT8965/67 PCM output code conforms to the CCITT specifications with alternate digit inversion (even bits inverted). See Figs. 3 and 4 for the digital output code corresponding to the analog voltage, V IN , at V X input.The eight-bit digital word is output at DSTo at a nominal rate of 2.048 MHz, via the output buffer as the first 8-bits of the 125 µs sampling frame.Receive PathAn eight-bit PCM encoded digital word is received on DSTi input once during the 125 µs period and is loaded into the input register. A charge proportional to the received PCM word appears on the capacitor array and an 8 kHz sample and hold circuit integrates this charge and holds it for the rest of the sampling period.The receive (D/A) filter provides interpolation filtering on the 8 kHz sample and hold signal from the codec.The filter consists of a 3.4 kHz lowpass fifth-order elliptic section clocked at 128 kHz and performs bandlimiting and smoothing of the 8 kHz "staircase"waveform. In addition, sinx/x gain correction is applied to the signal to compensate for the attenuation of higher frequencies caused by the capacitive sample and hold circuit. The absolute gain of the receive filter can be adjusted from 0 dB to -7 dB in 1 dB steps by means of three binary controlled gain pads. The resulting lowpass characteristics, with the limits shown in Figure 11,meet the CCITT and AT & T recommended specifications.Typical attenuation at 4.6 kHz and above is 30 dB.The filter is followed by a buffer amplifier which will drive 5V peak/peak into a 10k ohm load, suitable for driving electronic 2-4 wire circuits.元器件交易网ISO 2-CMOS MT8960/61/62/63/64/65/66/676-23V RefAn external voltage must be supplied to the V Ref pin which provides the reference voltage for the digital encoding and decoding of the analog signal. For V Ref = 2.5V, the digital encode decision value for overload (maximum analog signal detect level) is equal to an analog input V IN = 2.415V (µ-Law version) or 2.5V (A-Law version) and is equivalent to a signal level of 3.17 dBm0 or 3.14 dBm0respectively, at the codec.The analog output voltage from the decoder at V R is defined as:µ-Law:-0.5 2C16.5 + SVRefX[(128 )+( 128)(33)]±VOFFSETA-Law: 2C+1 0.5 + SV RefX[( 128 )( 32)] ±VOFFSET C=02C 16.5 + S VRefX[( 128 )(32)]±VOFFSET C ≠0where C = chord number (0-7)S = step number (0-15)V Ref is a high impedance input with a varying capacitive load of up to 40 pF.The recommended reference voltage for the MT8960series of codecs is 2.5V ±0.5%. The output voltage from the reference source should have a maximum temperature coefficient of 100 ppm/C°. This voltage should have a total regulation tolerance of ±0.5%both for changes in the input voltage and output loading of the voltage reference source. A voltage reference circuit capable of meeting these specifications is shown in Figure 5. Analog Devices ’AD1403A voltage reference circuit is capable ofdriving a large number of codecs due to the high input impedance of the V Ref input. Normal precautions should be taken in PCB layout design to minimize noise coupling to this pin. A 0.1 µF capacitor connected from V Ref to ground and located as close as possible to the codec is recommended to minimize noise entering through V Ref . This capacitor should have good high frequency characteristics.TimingThe codec operates in a synchronous manner (see Figure 9a). The codec is activated on the first positive edge of C2i after F1i has gone low. The digital output at DST o (which is a three-state output driver) will then change from a high impedance state to the sign bit of the encoded PCM word to be output. This will remain valid until the next positive edge, when the next most significant bit will be output.On the first negative clock edge (after F1i signal has been internally synchronized and CA is at GNDD or V EE ) the logic signal present at DSTi will be clocked into the input shift register as the sign bit of the incoming PCM word.The eight-bit word is thus input at DSTi on negative edges of C2i and output at DSTo on positive edges of C2i.F1i must return to a high level after the eighth clock pulse causing DSTo to enter high impedance and preventing further input data to DSTi. F1i will continue to be sampled on every positive edge of C2i. (Note: F1i may subsequently be taken low during the same sampling frame to enable entry of serial data into CSTi. This occurs usually mid-frame,in conjunction with CA=V DD , in order to enter an 8-bit control word into Register B. In this case, PCM input and output are inhibited by CA at V DD .)Figure 5 - Typical Voltage Reference CircuitNC 12345678AD1403A +5V2.5V0.1 µFV RefMT8960-67FILTER/CODECNC NC NC NC元器件交易网MT8960/61/62/63/64/65/66/67ISO 2-CMOS6-24Internally the codec will then perform a decode cycle on the newly input PCM word. The sampled and held analog signal thus decoded will be updated 25µs from the start of the cycle. After this the analog input from the filter is sampled for 18 µs, after which digital conversion takes place during the remaining 82 µs of the sampling cycle.Since a single clock frequency of 2.048 MHz is required, all digital data is input and output at this rate. DST o, therefore, assumes a high impedance state for all but 3.9 µs of the 125 µs frame. Similarly,DSTi input data is valid for only 3.9 µs.Digital Control FunctionsCSTi is a digital input (levels GNDD to V DD ) which is used to control the function of the filter/codec. It operates in three different modes depending on the logic levels applied to the Control Address input (CA) and chip enable input (F1i) (see Table 1).Mode 1CA=-5V (V EE ); CSTi=0V (GNDD)The filter/codec is in normal operation with nominal transmit and receive gain of 0dB. The SD outputs are in their active states and the test modes cannot be entered.CA = -5V (V EE ); CSTi = +5V (V DD )A state of powerdown is forced upon the chip whereby DST o becomes high impedance, V R is connected to GNDA and all analog sections have power removed.Mode 2CA= -5V (V EE ); CSTi receives an eight-bit control wordCSTi accepts a serial data stream synchronously with DSTi (i.e., it accepts an eight-bit serial word in a 3.9 µs timeslot, updated every 125 µs, and is specified identically to DSTi for timing considerations). This eight-bit control word is entered into Control Register A and enables programming of the following functions: transmit and receive gain, powerdown, loopback. Register B is reset to zero and the SD outputs assume their inactive state. T est modes cannot be entered.Mode 3CA=0V (GNDD); CSTi receives an eight-bit control wordAs in Mode 2, the control word enters Register A and the aforementioned functions are controlled. In this mode, however, Register B is not reset, thus not affecting the states of the SD outputs.CA=+5V (V DD ); CSTi receives an 8-bit control word In this case the control word is transferred into Register B. Register A is unaffected. The input and output of PCM data is inhibited.The contents of Register B controls the six uncommitted outputs SD0-SD5 (four outputs, SD0-SD3, on MT8960/61/64/65 versions of chip) and also provide entry into one of the three test modes of the chip.Table 1. Digital Control ModesMODE CA CSTi FUNCTION1(Note 1)V EE GNDD Normal chip operation.V DD Powerdown.2V EE Serial Eight-bit control word into Register A. Register B is reset.Data 3(Note 2)GNDD Serial Eight-bit control word into register A. Register B is unaffected.Data V DDSerial Eight-bit control word into register A. Register B is unaffected.DataNote 1:When operating in Mode 1, there should be only one frame pulse (F1i) per 125µs frame Note 2:When operating in Mode 3, PCM input and output is inhibited by CA=V DD .元器件交易网ISO 2-CMOS MT8960/61/62/63/64/65/66/676-25Note: For Modes 1 and 2, F1i must be at logic low for one period of 3.9 µs, in each 125 µs cycle, when PCM data is being input and output, and the control word at CSTi enters Register A. For Mode 3, F1i must be at a logic low for two periods of 3.9 µs, in each 125 µs cycle. In the first period, CA must be at GNDD or V EE , and in the second period CA must be high (V DD).Control Registers A, BThe contents of these registers control the filter/codec functions as described in Tables 2 and 3.Bit 7 of the registers is the MSB and is defined as the first bit of the serial data stream input (corresponding to the sign bit of the PCM word).On initial power-up these registers are set to the powerdown condition for a maximum of 25 clock cycles. During this time it is impossible to change the data in these registers.Chip TestingBy enabling Register B with valid data (eight-bit control word input to CSTi when F1i=GNDD and CA=V CC ) the chip testing mode can be entered. Bits 6and 7 (most sign bits) define states for testing the transmit filter, receive filter and the codec function.The input in each case is V X input and the output in each case is V R output. (See Table 3 for details.)LoopbackLoopback of the filter/codec is controlled by thecontrol word entered into Register A. Bits 6 and 7(most sign bits) provide either a digital or analog loopback condition. Digital loopback is defined as follows:•PCM input data at DSTi is latched into the PCMinput register and the output of this register is connected to the input of the 3-state PCM output register.•The digital input to the PCM digital-to-analog decoder is disconnected, forced to zero (0).•The output of the PCM encoder is disabled and thus the encoded data is lost. The PCM output at DSTo is determined by the PCM input data.Analog loopback is defined as follows:•PCM input data is latched, decoded and filteredas normal but not output at V R .Table 2. Control States - Register A•Analog output buffer at V R has its input shorted to GNDA and disconnected from the receive filter output.•Analog input at V X is disconnected from the transmit filter input.•The receive filter output is connected to the transmit filter input. Thus the decode signal is fed back through the receive path and encoded in the normal way. The analog output buffer at V R is not tested by this configuration.In both cases of loopback, DSTi is the input and DSTo is the output.BIT 2BIT 1BIT 0TRANSMIT (A/D)FILTER GAIN (dB)0000001+1010+2011+ 3100+4101+5110+ 6111+7BIT 5BIT 4BIT 3RECEIVE (D/A)FILTER GAIN (dB)0000001-1010-2011-3100-4101- 5110-6111-7BIT 7BIT 6FUNCTION CONTROL 00Normal operation 01Digital Loopback 10Analog Loopback 11Powerdown元器件交易网MT8960/61/62/63/64/65/66/67ISO 2-CMOS6-26Logic Control Outputs SD0-5These outputs are directly controlled by the logic states of bits 0-5 in Register B. A logic low (GNDD)in Register B causes the SD outputs to assume an inactive state. A logic high (V DD ) in Register B causes the SD outputs to assume an active state (see T able 3). SD0-2 switch between GNDD and V DD and may be used to control external logic or transistor circuitry, for example, that employed on the line card for performing such functions as relay drive for application of ringing to line, message waiting indication, etc.SD3-5 are used primarily to drive external analog circuitry. Examples may include the switching in or out of gain sections or filter sections (eg., ring trip filter) (Figure 7).MT8962/63/66/67 provides all six SD outputs.MT8960/61/64/65 each packaged in an 18-pin DIP provide only four control outputs, SD0-3.Figure 6 - Typical Line TerminationTelephone Set2 Wire AnalogSupervision Protection Battery Feed RingingPCM Highway 2W/4W ConverterMT8960/61MT8962/63MT8964/65MT8966/67Table 3. Control States - Register BBITS 0-2LOGIC CONTROL OUTPUTS SD 0-SD 20Inactive state - logic low (GNDD).1Active state - logic high (V DD ).BIT 3LOGIC CONTROL OUTPUT SD 30Inactive state - High Impedance.1Active state - GNDA.BITS 4,5LOGIC CONTROL OUTPUTS SD 4, SD 50Inactive state - High Impedance.1Active state - GNDD.BIT 7BIT 6CHIP TESTING CONTROLS00Normal operation.1Transmit filter testing, i.e.:Transmit filter input connected to V X inputReceive filter and Buffer disconnected from V R 10Receive filter testing, i.e.:Receive filter input connected to V X input Receive filter input disconnected from codec11Codec testing i.e.:Codec analog input connected to V XCodec analog input disconnected from transmit filter output Codec analog output connected to V RV R disconnected from receive filter output元器件交易网ISO 2-CMOS MT8960/61/62/63/64/65/66/676-27PowerdownPowerdown of the chip is achieved in several ways:Internal Control:1)Initial Power-up. Initial application of V DD and V EE causes powerdown for a period of 25 clock cycles and during this period the chip will accept input only from C2i. The B-register is reset to zero forcing SD0-5 to be inactive. Bits 0-5 of Register A (gain adjust bits) are forced to zero and bits 6 and 7 of Register A become logic high thus reinforcing the powerdown.2)Loss of C2i. Powerdown is entered 10 to 40µs after C2i has assumed a continuous logic high (V DD ). In this condition the chip will be in the same state as in (1) above.Note: If C2i stops at a continuous logic low (GNDD), the digital data and status is indeterminate.External Control:1)Register A. Powerdown is controlled by bits 6and 7 ( when both at logic high) of Register A which in turn receives its control word input via CSTi, when F1i is low and CA input is either at V EE or GNDD. Power is removed from the filters and analog sections of the chip.The analog ouput buffer at V R will be connected to GNDA. DST o becomes high impedance and the clocks to the majority of the logic are stopped. SD outputs are unaffected and may be updated as normal.2)CSTi Input. With CA at V EE and CSTi held at continuous logic high the chip assumes the same state as described in External Control (1) above.Figure 7 - Typical Use of the Special Drive OutputsFrom ST-BUS From ST-BUS Master Clock to ST-BUS5VAlignment Register SelectCSTi DSTi C2i DSTo V DD F1i CA SD3SD2GNDD V Ref GNDAV R ANUL V X V EE SD0SD12.5V0.1µF-5VMT8960/61/64/65Gain Section2/4 Wire ConverterMessage Waiting(With Relay Drive)Ring Feed (With Relay Drive)-100V DCTelephone Line-48V DC -48V DC 90V RMSRing Trip Filter (With Relay Drive)元器件交易网MT8960/61/62/63/64/65/66/67ISO2-CMOS6-28Figure 8 - Example Architecture of a Simple Digital Switching System Using the MT8960-67DSTiDSToCDTiV XV RSD0SDn...•••Repeated for Lines2 to 255Line 1Line 2568888SpeechSwitch-8980ControllingMicro-ProcessorControl &Signalling-8980DSTiDSToCDTiV XV RSD0SDn...••••••Repeated for Lines2 to 255LineInterface&MonitoringCircuitryLineInterface&MonitoringCircuitry•••MT8960-67MT8960-67元器件交易网*Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied.Note 1: Temperature coefficient of V Ref should be better than 100 ppm/°C.*Typical figures are at 25°C with nominal ±5V supplies. For design aid only: not guaranteed and not subject to production testing.Absolute Maximum Ratings*ParameterSymbol Min Max Units 1DC Supply Voltages V DD -GNDD -0.3+6.0V V EE -GNDD-6.0+0.3V 2Reference Voltage V Ref GNDA V DD V 3Analog Input V X V EE V DD V 4Digital Inputs Except CAGNDD-0.3V DD +0.3V CA V EE -0.3V DD +0.3V 5Output VoltageSD 0-2GNDD-0.3V DD +0.3V SD 3V EE -0.3V DD +0.3V SD 4-5V EE -0.3V DD +0.3V 6Current On Any Pin I I 20mA 7Storage T emperatureT S -55+125°C 8Power Dissipation at 25°C (Derate 16 mW/°C above 75°C)P Diss500mWRecommended Operating Conditions - Voltages are with respect to GNDD unless otherwise statedCharacteristicsSym Min Typ*Max Units Comments1Supply VoltageV DD 4.75 5.0 5.25V V EE -5.25-5.0-4.75V V Ref2.5V See Note 12Voltage On Digital GroundVGNDD-0.10.0+0.1Vdc Ref. to GNDA-0.40.0+0.4Vac Ref. to GNDA 400ns max. duration in 125µs cycle 3Operating T emperature T O 0+70°C 4Operating CurrentV DD V EE I DD I EE 3.03.0 4.04.0mA mA All digital inputs at V DD or GNDD (or V EE for CA)V Ref I Ref 2.0µA Mean current5Standby CurrentV DD V EEI DDO I EEO0.250.251.01.0mA mAAll digital inputs at V DD or GNDD (or V EE for CA)DC Electrical Characteristics - Voltages are with respect to GNDD unless otherwise stated.T A =0 to 70°C, V DD =5V±5%, V EE =-5V±5%, V Ref =2.5V±0.5%, GNDA=GNDD=0V,Clock Frequency =2.048MHz. Outputs unloaded unless otherwise specified.CharacteristicsSym MinTyp*Max Units Test Conditions 1D I G I T A LInput Current Except CA I I 10.0µA V IN = GNDD to V DD CA I IC 10.0µA V IN = V EE to V DD2Input Low Except CA V IL 0.00.8V VoltageCAV ILC V EE V EE +1.2V 3Input High Voltage All Inputs V IH 2.4 5.0V 4Input Intermediate CA VoltageV IIC 0.00.8V 5Output Leakage DST o Current (Tristate)SD 3-5I 0Z±0.110.0µA µAOutput High ImpedanceNote 2:V OSIN specifies the DC component of the digitally encoded PCM word.*Typical figures are at 25°C with nominal ±5V supplies. For design aid only: not guaranteed and not subject to production testing.DC Electrical Characteristics (cont’d)CharacteristicsSym Min Typ*Max Units Test Conditions 6D I G I T A LOutput Low DST o V OL 0.4V I OUT =1.6 mA Voltage SD 0-2V OL 1.0V I OUT =1 mA 7Output High DST o V OH 4.0V I OUT =-100µA VoltageSD 0-2V OH 4.0VI OUT =-1mA 8Output Resistance SD 3-5R OUT 1.0 2.0K ΩV OUT =+1V9Output Capacitance DST o C OUT 4.0pF Output High Impedance 10A N A L O GInput Current V X I IN 10.0µA V EE ≤ V IN ≤ V CC 11Input Resistance V X R IN 10.0M Ω12Input Capacitance V X C IN 30.0pF f IN = 0 - 4 kHz 13Input Offset Voltage V X V OSIN +1.0mVSee Note 214Output ResistanceV RR OUT 100Ω15Output Offset Voltage V RV OSOUT100mVDigital Input= +0AC Electrical Characteristics - Voltages are with respect to GNDD unless otherwise stated.T A =0 to 70°C, V DD =5V±5%, V EE =-5V±5%, V Ref =2.5V±0.5%, GNDA=GNDD=0V, Clock Frequency=2.048 MHz. Outputs unloaded unlessotherwise specified.CharacteristicsSym Min Typ*Max Units Test Conditions 1D I G I T A LClock Frequency C2i f C 2.0462.0482.05MHz See Note 32Clock Rise Time C2i t CR 50ns 3Clock Fall Time C2i t CF50ns 4Clock Duty Cycle C2i 405060%5Chip Enable Rise Time F1i t ER 100ns 6Chip Enable Fall TimeF1it EF 100ns 7Chip Enable Setup Time F1i t ES 50ns See Note 48Chip Enable Hold Time F1i t EH 25nsSee Note 49Output Rise Time DST o t OR 100ns 10Output Fall TimeDST ot OF 100ns 11Propagation Delay Clock DST o to Output Enable t PZL t PZH 122122ns ns R L =10K Ω to V CC 12Propagation Delay DST o Clock to Output t PLH t PHL 100100ns ns C L =100 pF13Input Rise Time CSTi DSTi t IR 100100ns ns 14Input Fall Time CSTi DSTi t IF 100100ns ns 15Input Setup Time CSTi DSTi t ISH t ISL 250ns ns 16Input Hold TimeCSTi DSTit IH6060ns ns。

6MD66_中文样本

6MD66_中文样本

SIPROTEC 4 6MD66图13/2 SIPROTEC 46MD66高电间隔控制单元高压间隔控制单元通讯接口 系统接口 — IEC60870-5-103协议 — PROFIBUS-FMS/DP — DIGSI4的服务接口(调制解调器), 温度检测(电阻箱) — DIGSI4的前端接口 — 通过IRIG B/DCF77的时间同步 功能概况应 用*内置断路器检同期功能*用CFC (连续功能表)的图像方法 使 自动化能很容易得到配置。

* 灵活的测量值处理* 4电压互感器与3电流互感器以 及2个20mA 传感器的输入。

* 适合高电压用的信号输入量*最多可操作14个11/2控制对象。

* 最多可操作11个2极控制对象*最多有65个遥信输入 最多有45个继电器输出*供应的6MD662、6MD663或6MD664都 有3种信号,但6MD662为35个遥信, 25个遥控,6MD663为50个遥信与35 个遥控,而6MD664则为65个遥信与45 个遥控,而测量值数则是相同的。

*开关装置的联闭锁*即使在与高一级控制与保护没有主站 接口的情况下与6MD622(35个指示, 25个指令)以及6MD66系列的其它装 置有继电器之间的通讯来完成联闭锁。

*适用于冗余主站*V 、I 、P 、Q 、S 、f cos φ(功率因数) (单相与三相测量)运行测量值的图形显示。

*测量值的限值*可以标准外壳的方式供货以供组屏安 装用,也可以单独显示装置,以 便有关操作人员对一些元件能自由定 位。

* 4个能重定义的功能快捷键。

L S P 2187-a f p .e p s说 明 6MD66高电间隔控制单元是源自SIPROTEC4继电器系列供高压用的控制 单元。

其综合功能使它为高电压开关舱的最佳并低成本的解决措施。

与其它保护与组合单元相比,6MD66高电间隔控制单元的设计无论是 外观或感觉上都是与它们一致的。

其配置是用容易使用的DIGSI4配置按标准 化的方法完成的。

pa66 电导率

pa66 电导率

pa66 电导率【最新版】目录1.尼龙 66 的概述2.尼龙 66 的电导率特性3.影响尼龙 66 电导率的因素4.尼龙 66 电导率的应用领域5.我国尼龙 66 电导率研究的发展正文尼龙 66,又称聚酰胺 66,是一种热塑性树脂,具有优良的机械性能、化学稳定性和耐热性。

在众多工程塑料中,尼龙 66 因其良好的综合性能而受到广泛关注。

电导率是衡量材料导电能力的物理量,对于工程塑料而言,电导率直接影响其应用范围。

本文将从尼龙 66 的电导率特性、影响因素、应用领域及我国研究现状等方面进行探讨。

首先,尼龙 66 是一种非金属材料,其电导率相对较低。

通常情况下,尼龙66 的电导率在 10^-10 数量级,与金属材料相比,导电能力较弱。

然而,在某些特定条件下,尼龙 66 的电导率可以得到显著提高。

例如,通过加入导电填料或采用特殊的加工工艺,可以使尼龙 66 的电导率达到 10^-6 甚至 10^-4 数量级,从而满足一定的应用需求。

其次,影响尼龙 66 电导率的因素主要包括材料本身的结构、组成以及外部环境。

首先,尼龙 66 分子结构中的非共轭π电子和非晶态结构使其具有较低的电导率。

其次,通过改变尼龙 66 分子结构、组成和形态,可以改变其电导率。

例如,制备尼龙 66 纳米复合材料时,纳米填料的加入可以显著提高尼龙 66 的电导率。

最后,外部环境因素如温度和湿度也会影响尼龙 66 的电导率。

在实际应用中,尼龙 66 的电导率具有广泛的应用领域。

例如,在电子、电气领域,尼龙 66 可用于制作绝缘子、插座等部件;在汽车工业中,尼龙 66 可用于制作油箱、发动机罩等部件。

此外,随着我国新能源汽车、电子信息等产业的快速发展,对尼龙 66 等工程塑料的电导率性能提出了更高的要求。

近年来,我国在尼龙 66 电导率研究方面取得了显著进展。

一方面,我国研究者通过研究不同导电填料对尼龙 66 电导率的影响,为提高尼龙 66 的电导率提供了理论依据;另一方面,我国在尼龙 66 纳米复合材料的研究方面取得了突破,成功制备出具有高电导率的尼龙 66 纳米复合材料。

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LM66Dual Output Internally Preset ThermostatGeneral DescriptionThe LM66is a precision low power thermostat.Two stable temperature trip points (V T1and V T2)are generated by divid-ing down the LM661.250V bandgap voltage reference using a resistors divider network.The LM66has two digital out-puts.OUT1goes LOW when the temperature exceeds T1and goes HIGH when the the temperature goes below (T1–T HYST ).Similarly,OUT2goes LOW when the tempera-ture exceeds T2and goes HIGH when the temperature goes below (T2–T HYST ).T HYST is an internally set 5˚C typical hys-teresis.The LM66is currently available in an 8-lead small outline package.ApplicationsnMicroprocessor Thermal Management n Appliancesn Portable Battery Powered 3.0V or 5V Systems n Fan Controln Industrial Process Control n HVAC SystemsnRemote Temperature Sensingn Electronic System ProtectionFeaturesn Digital outputs support TTL logic levels n Internal temperature sensorn 2internal comparators with hysteresis n Internal voltage referencenCurrently available in 8-pin SO plastic packageKey Specificationsn Power Supply Voltage 2.7V to 10V n Power Supply Current 250µA (max)n V REF1.250V ±1.4%(max)n Hysteresis Temperature 5˚Cn Internal Temperature SensorOutput Voltage (+6.20mV/˚C x T)+400mVn Temperature Trip Point Accuracy±3˚C (max)n T1set point +73˚C n T2set point +82˚CSimplified Block Diagram and Connection DiagramOrdering InformationTABLE 1.Order Number LM66CIM-RLSKB LM66CIMX-RLSKB NS Tackage Number M08A M08A Transport MediaBulk Rail2500Units Tape&ReelTypical ApplicationDS100854-1DS100854-2DS100854-3April 2000LM66Dual Output Internally Preset Thermostat©2000National Semiconductor Corporation Absolute Maximum Ratings (Note 1)Input Voltage12V Input Current at any pin (Note 2)5mA Package Input Current (Note 2)20mA Package Dissipation at T A =25˚C (Note 3)900mW ESD Susceptibility (Note 4)Human Body Model 1000V Machine Model 200VSoldering Information SO Package (Note 5):Vapor Phase (60seconds)215˚C Infrared (15seconds)220˚CStorage Temperature −65˚C to +150˚COperating Ratings (Note 1)Operating Temperature Range T MIN ≤T A ≤T MAX LM66CIM−40˚C ≤T A ≤+125˚CPositive Supply Voltage (V +)+2.7V to +10VMaximum V OUT1and V OUT2+10VLM66Electrical CharacteristicsThe following specifications apply for V +=2.7V DC ,and V REF load current =0µA unless otherwise specified.Boldface lim-its apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C unless otherwise specified.TypicalLM66CIM Units SymbolParameterConditions(Note 6)Limits (Limits)(Note 7)Temperature SensorTrip Point Accuracy (Includes V REF ,Comparator Offset,and +25˚C ≤T A ≤+85˚C±3˚C (max)Temperature Sensitivity errors)Trip Point HysteresisT A =+73˚C 6 4.5˚C (min)7.5˚C (max)T A =+82˚C6 4.5˚C (min)7.5˚C (max)Internal Temperature Sensitivity +6.20mV/˚C Temperature Sensitivity Error+25˚C ≤T A ≤+85˚C ±3˚C (max)−25˚C ≤T A ≤+125˚C ±4˚C (max)−40˚C ≤T A ≤−25˚C±5˚C (max)Output Impedance −1µA ≤I L ≤+40µA 1500Ω(max)Line Regulation+3.0V ≤V +≤+10V,+25˚C ≤T A ≤+85˚C ±0.36mV/V (max)+3.0V ≤V +≤+10V,−40˚C ≤T A <25˚C ±0.61mV/V (max)+2.7V ≤V +≤+3.3V±2.3mV (max)V REF Output V REFV REF Nominal 1.250VVV REF Error±1.4%(max)±17.5mV (max)∆V REF /∆V +Line Regulation+3.0V ≤V +≤+10V 0.130.21mV/V (max)+2.7V ≤V +≤+3.3V0.15 1.5mV (max)L M 66 2LM66Electrical CharacteristicsThe following specifications apply for V+=2.7V DC,and V REF load current=50µA unless otherwise specified.Boldface lim-its apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C unless otherwise specified.Symbol Parameter Conditions Typical Limits Units(Note6)(Note7)(Limits) V+Power SupplyI S Supply Current V+=+10V250µA(max)V+=+2.7V250µA(max) Digital Output(s)I OUT(“1”)Logical“1”Output LeakageCurrent V+=+5.0V1µA(max)V OUT(“0”)Logical“0”Output Voltage I OUT=+50µA0.4V(max)Note1:Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.Operating Ratings indicate conditions for which the device is func-tional,but do not guarantee specific performance limits.For guaranteed specifications and test conditions,see the Electrical Characteristics.The guaranteed speci-fications apply only for the test conditions listed.Some performance characteristics may degrade when the device is not operated under the listed test conditions.Note2:When the input voltage(V I)at any pin exceeds the power supply(V I<GND or V I>V+),the current at that pin should be limited to5mA.The20mA maxi-mum package input current rating limits the number of pins that can safely exceed the power supplies with an input current of5mA to four.Note3:The maximum power dissipation must be derated at elevated temperatures and is dictated by T Jmax(maximum junction temperature),θJA(junction to am-bient thermal resistance)and T A(ambient temperature).The maximum allowable power dissipation at any temperature is P D=(T Jmax–T A)/θJA or the number givenin the Absolute Maximum Ratings,whichever is lower.For this device,T Jmax=125˚C.For this device the typical thermal resistance(θJA)of the different packagetypes when board mounted follow:Package TypeθJAM08A110˚C/WNote4:The human body model is a100pF capacitor discharge through a1.5kΩresistor into each pin.The machine model is a200pF capacitor discharged directlyinto each pin.Note5:See AN450“Surface Mounting Methods and Their Effects on Product Reliability”or the section titled“Surface Mount”found in any post1986National Semi-conductor Linear Data Book for other methods of soldering surface mount devices.Note6:Typicals are at T J=T A=25˚C and represent most likely parametric norm.Note7:Limits are guaranteed to National’s AOQL(Average Outgoing Quality Level).LM663Part Number TemplateThe series of digits labled vw xy z in the part number LM66CIM-vw xy z,describe theset points and the function of OUT1and OUT2as follows:The place holders v w describe the set point of T1as shown in the following table.The place holders xy describe the set point of T2as shown in the following table.z=0(Other assignments are reserved.)For example the part number LM66CIM-RLSKB has:T1=73˚C,T2=82˚C,OUT1and OUT2set as active-low open-collector outputs with OUT1mapped to pin 7and OUT2mapped to pin 6.v,w,x and yTemperature (˚C)B −5C −4D −3F −2G −1H −0J 1K 2L 3N4v,w,x and yTemperature (˚C)P 5Q 6R 7S 8T 9V 10X 11Y 12Z13The value of z describes the assignment/function of OUT1and OUT2as shown in the following table:Active Low//HighOpen Collector/Totem PoleMappingValue of zFunction of OUT1and OUT2000B Active-Low,Open-Collector,OUT1mapped to pin 7,OUT2mapped to pin 6001C Active-Low,Open-Collector,OUT1mapped to pin 6,OUT2mapped to pin 7010D Active-Low,Totem Pole,OUT1mapped to pin 7,OUT2mapped to pin 6011F Active-Low,Totem Pole,OUT1mapped to pin 6,OUT2mapped to pin 7100G Active-High,Open-Collector,OUT1mapped to pin 7,OUT2mapped to pin 6101H Active-High,Open-Collector,OUT1mapped to pin 6,OUT2mapped to pin 7110J Active-High,Totem Pole,OUT1mapped to pin 7,OUT2mapped to pin 6111KActive-High,Totem Pole,OUT1mapped to pin 6,OUT2mapped to pin 7L M 66 4Physical Dimensionsinches (millimeters)unless otherwise notedLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION.As used herein:1.Life support devices or systems are devices or systems which,(a)are intended for surgical implant into the body,or (b)support or sustain life,and whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in a significant injury to the user.2.A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,or to affect its safety or effectiveness.National Semiconductor Corporation AmericasTel:1-800-272-9959Fax:1-800-737-7018Email:support@National Semiconductor EuropeFax:+49(0)180-5308586Email:europe.support@Deutsch Tel:+49(0)6995086208English Tel:+44(0)8702402171Français Tel:+33(0)141918790National Semiconductor Asia Pacific Customer Response Group Tel:65-2544466Fax:65-2504466Email:ap.support@National Semiconductor Japan Ltd.Tel:81-3-5639-7560Fax:81-3-5639-75078-Lead (0.150"Wide)Molded Small Outline Package,JEDECOrder Number LM66CIM or LM66CIMXNS Package Number M08ALM66Dual Output Internally Preset ThermostatNational does not assume any responsibility for use of any circuitry described,no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.。

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