383-2SUBC-C470-S400中文资料

AD芯片-----TECHWELL TW6805A仿真软件里的AD0809有问题,用0808代替定时/计数器的使用方法：CLK：计数和测频状态时，数字波的输入端。

（counter enable)CE：计数使能端；通过属性设置高还是低有效。

无效暂停计数RST:复位端（RESET),可设上升沿（Low-High)或者下降沿（High-Low）有效。

4种工作方式：通过属性Operating Mode 来选择。

Default : 缺省方式，计数器方式。

Time(secs):100S定时方式，由CE和RST控制暂停和重新开始。

Time(hms)：10小时定时方式，同上。

Frequency: 测频方式，CE和RST有效时，显示CLK端数字波频率Count:计数方式。

+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++常用元件列表：POT-HG 可调电位器7SEG-MPX8-CC-BLUE 8位数码管COMPIM 串口SW- 开关7SEG-BCD 含译码驱动的数显Speaker 扬声器2N5771和2N5772，15V对管300MARES , CAP,BUTTON 按钮开关KEYPAD-PHONE 3*4电话键盘KEYPAD-SMALLCALC 4*4计算器键盘KEYPAD-CALCULATOR 4*6计算器键盘PG160128A 128*128液晶++++++++元件库详细分类ics 模拟集成器件8个子类：amplifier 放大器comparators 比较器display drivers 显示驱动器filters 滤波器miscellaneous 混杂器件regulators 三端稳压器timers 555定时器voltage references 参考电压2，capacitors CAP电容，23个分类别animated 可显示充放电电荷电容audio grade axial 音响专用电容axial lead polypropene 径向轴引线聚丙烯电容axial lead polystyrene 径向轴引线聚苯乙烯电容ceramic disc 陶瓷圆片电容decoupling disc 解耦圆片电容high temp radial 高温径向电容high temp axial electrolytic高温径向电解电容metallised polyester film 金属聚酯膜电容metallised polypropene 金属聚丙烯电容metallised polypropene film 金属聚丙烯膜电容miniture electrolytic 微型电解电容multilayer metallised polyester film 多层金属聚酯膜电容mylar film 聚酯薄膜电容nickel barrier 镍栅电容non polarised 无极性电容polyester layer 聚酯层电容radial electrolytic 径向电解电容resin dipped 树脂蚀刻电容tantalum bead 钽珠电容variable 可变电容vx a xial electrolytic VX 轴电解电容3，CMOS 4000 series 4000系列数字电路adders 加法器buffers & drivers 缓冲和驱动器comparators 比较器counters 计数器decoders 译码器encoders 编码器flip-flops & latches 触发器和锁存器frequency dividers & tiner 分频和定时器gates & inverters 门电路和反相器memory 存储器混杂逻辑电路mutiplexers 数据选择器multivibrators 多谐振荡器phase-locked loops(PLL) 锁相环registers 寄存器signal switcher 信号开关4，connectors 接头；8个分类：audio 音频接头D-type D型接头DIL 双排插座header blocks 插头miscellaneous 各种接头PCB transfer PCB 传输接头SIL 单盘插座ribbon cable 蛇皮电缆terminal blocks 接线端子台5，data converters 数据转换器：4个分类：A/D converters 模数转换器D/A converters 数模转换器sample & hold 采样保持器temperature sensors 温度传感器6，debugging tools 调试工具数据：3个类别：breakpoint triggers 断点触发器logic probes 逻辑输出探针logic timuli 逻辑状态输入7，diodes 二极管；8个分类：bridge rectifiers 整流桥generic 普通二极管rectifiers 整流二极管schottky 肖特基二极管switching 开关二极管tunnel 隧道二极管varicap 稳压二极管8，inductors 电感：3个类别：generic 普通电感SMT inductors 表面安装技术电感transformers 变压器9,laplace primitives 拉普拉斯模型：7个类别：1st order 一阶模型2nd order 二阶模型controllers 控制器non-linear 非线性模型operators 算子poles/zeros 极点/零点symbols 符号10，memory ICs 存储器芯片：7个分类：dynamic RAM 动态数据存储器EEPROM 电可擦出程序存储器EPROM 可擦出程序存储器I2C memories I2C总线存储器memory cards 存储卡SPI Memories SPI总线存储器static RAM 静态数据存储器11，microprocessor ICs 微处理器：13个分类：12，modelling primitivvves 建模源：9个分类：13，operational amplifiers 运算放大器：7个分类：dual 双运放ideal 理想运放macromodel 大量使用的运放octal 8运放quad 4运放single 单运放triple 三运放14，optoelectronics 光电器件：11个分类：7-segment displays 7段显示alphanumeric LCDs 液晶数码显示bargraph displays 条形显示dot matrix displays 点阵显示graphical LCDs 液晶图形显示lamps 灯LCD controllers 液晶控制器LCD controllers 液晶面板显示LEDs 发光二极管optocouplers 光电耦合serial LCDs 串行液晶显示15，resistors 电阻：11个分类：metal film 金属膜电阻10 watt wirewound 10w绕线电阻2w metal film 2w 金属膜电阻3 watt wirewound 3w 绕线电阻7 watt wirewound 7w 绕线电阻generix 普通电阻high voltage 高压电阻NTC 负温度系数热敏电阻resistor packs 排阻variable 滑动变阻器varisitors可变电阻参考试验中采用的可变电阻是：POT-HG16，simulator primitives 仿真源：3个类别：flip-flops 触发器gates 门电路sources 电源17，switches and relays 开关和继电器：4个类别：key pads 键盘relays 普通继电器relays(specific) 专用继电器switches 开关18,switching devices 开关器件：4个分类：DIACs 两端交流开关generic 普通开关元件SCRs 可控硅TRIACs 三端双向可控硅19，真空管：20，传感器：2个分类：pressure 压力传感器temperature 温度传感器21，晶体管：8个分类：bipolar 双极型晶体管generic 普通晶体管(错误）IGBT 绝缘栅双极晶体管JFET 结型场效应管MOSFET 金属氧化物场效应管RF power LDMOS 射频功率LDMOS管RF power VDMOS 射频功率VDMOS管unijunction 单结晶体管Electromechanical 电机MOTOR AC 交流电机MOTOR SERVO 伺服电机双相步进电机motor-bistepper（Bipolar Stepper Motor），四相步进电机motor-stepper（unipolar stepper motor）驱动电路，用ULN2003可以，proteus中推荐的L298和L6201(电子元件-步进电机中有L298资料）+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++步进电机,可以用MTD2003,UN2916等专用芯片Proteus中图形液晶模块驱动芯片一览表LM3228 LM3229 LM3267 LM3283LM3287 LM4228 LM4265 LM4267LM4283 LM4287 PG12864F PG24064FPG128128A PG160128AAGM1232G EW12A03GLY HDM32GS12-B HDM32GS12Y-BHDG12864F-1 HDS12864F-3 HDG12864L-4 HDG12864L-6NOKIA7110 TG126410GFSB TG13650FEYAMPIRE128x64 LGM12641BS1RPROTEUS原理图元器件库详细说明单双向可控硅、包括电阻、电容、二极管、三极管和PCB的连接器符号、包括虚拟仪器和有源器件、拨动开关、键盘、可调电位器和开关、包括二极管和整流桥、稳压管、变容二极管、大功率二极管、高速二极管、可控硅、包括LCD、LED、LED阵列包括三极管包括场效应管包括模拟元器件AS 稳压二极管、全桥、74系列、及其他。

万能焊条气焊万能33F 高韧度, 适用于各钢类之气焊条焊金流动性与银焊条相似。

万能51 适用于铝及铸锌件之修理, 对铝与铜之焊接尤佳, 可做铝之此型T接及搭接, 铝及异指类金属之焊接。

万能55 本焊条是专门对铝, 铝合金, 铸铝而特吶设计的, 具备有此一种焊材可解决任何铝之焊接问题。

万能66F 是一种附带药皮的高银含量全功能焊条，适用于维修应用，对几乎所有黑色及有色金属的焊接都有带腐蚀性的出众效果。

万能67F 最幼细的, 涂以银质焊料之多用途焊枝为特殊之维修工作而配方。

万能75F 一种多用途的青铜质合金, 用于铸铁和其它金属的焊接。

万能77F 为焊接因磨损及破坏了的零件而设的超级敏感焊金。

万能88C 自生熔剂超强力软焊焊合金, 并具超强抗腐蚀之万能合金。

电弧焊万能8N12 多效的焊条用于焊接抗高温合金钢, 英高镍, 纯镍, 和所有镍合金. 可焊接50种以上的不同合金。

万能100 是最经济且速度最快之开槽焊条。

万能150 用来切割和穿洞。

万能210 具有广泛用途之电焊枝。

万能303 一种具有高效二相杆敷金属的焊条, 具有优越的抗裂作用。

万能305 高强度可在任何位置施杆之电杆条,对T-型钢, 管道及圆形管与钢板之焊接最适用。

万能307 钢合金焊枝。

万能393 特佳流火烧焊, 防止腐蚀。

万能395 特制的Duplex不锈钢焊条。

万能400 完全是针对轧碎而设计, 有优越之填补率而节省许多焊条。

万能401 用于一般耐冲击及耐磨耗。

万能402 可耐非常强劲的冲击及锰钢的接合。

万能403 含钦及铬合金乏耐磨炉条最耐高低重压之磨擦。

万能404 密度高硬度均匀之碳化钨电焊条, 可作最耐磨损之硬化补面。

( 亦可用于气杆)万能405 可堆填的焊条。

(强韧可机械加工火焰硬化)万能440 高速工具钢焊条, 专为耐长期磨损刀刃而设的独有合金。

万能480 多效用之钢焊枝, 为各类型工具维修而设。

万能505 极之容易使用之焊铝电焊枝。

易格斯直线轴承是一种经过设计和制造的精密机械零件，主要用于工业领域的各种设备和机械中。

它的代号中包含了很多不同的部分和含义，下面将逐一解释易格斯直线轴承代号中各部分的含义。

一、通用代号1. YGSL：表示该轴承为易格斯直线轴承的通用代号；2. 22：表示轴承的系列代号，例如22代表薄壁型系列。

二、型号代号1. 22 0411：其中22表示该型号属于薄壁型系列；0411为该型号的具体代号。

三、封边、封盖和密封代号1. TSU：表示轴承无封边；2. TSS：表示轴承有封边；3. LS：表示具有外部封盖；4. ZZ：表示具有外部金属封盖；5. RS：表示具有内部密封；6. 2RS：表示具有内、外部密封。

四、内部结构代号1. M：表示轴承的内部结构为“单列滚珠”；2. S：表示轴承的内部结构为“双列滚珠”；3. E：表示轴承的内部结构为“一对单列滚珠”。

五、清洗、润滑代号1. P0：表示不清洗不润滑；2. P6：表示预润滑；3. P5：表示轴承经过清洗；4. P6：表示轴承经过磷化处理并预润滑。

六、加强式代号1. C：表示轴承采用加强式设计。

七、稳固性代号1. H：表示轴承为高可靠性稳固性设计。

以上就是易格斯直线轴承代号中各部分的含义，通过了解这些代号的含义，我们可以更好地选择和使用适合自己需求的轴承产品。

让我们来详细解释一下易格斯直线轴承代号中各部分的含义以及其在实际应用中的重要性。

一、通用代号1. YGSL：易格斯直线轴承的通用代号。

这个代号是易格斯直线轴承产品的标志，它代表着产品的品牌和质量保证。

作为制造商，易格斯对轴承产品的品质把控非常严格，保证产品的每一个细节都符合标准，以满足客户的需求。

2. 22：这个数字是轴承产品的系列代号。

在易格斯直线轴承产品中，不同的系列代号代表着轴承产品在外形、尺寸、承载能力等方面的不同特点。

了解并选择适合的系列代号对于使用者来说非常重要，因为不同的系列代号适用于不同的工作环境和工作要求。

目录1. 远程控制概述 (1)1.1 如何远程控制 (1)1.2 通信协议 (3)1.3 远程控制功能 (5)2. SCPI简介 (10)2.1 命令格式 (10)2.2 符号说明 (10)2.3 参数类型 (11)2.4 命令缩写 (12)3. 模式共用命令 (13)3.1 IEEE公用命令子系统 (13)3.2 系统命令 (15)3.3 存储命令 (20)3.4 显示控制 (21)3.5 模式命令 (22)3.6 扫描命令 (22)4. 频谱分析模式 (24)4.1 仪器模式命令 (24)4.2 Initiate命令子系统 (24)4.3 Sense命令子系统 (25)4.4 Calculate命令系统 (43)4.5 Measurement命令系统 (58)4.6 触发 (72)4.7 TG (73)4.8 调制解调 (75)5. 矢量网络分析模式 (77)5.1 频率控制 (77)5.2 幅度控制 (78)5.3 带宽控制 (80)5.4 扫描控制 (80)5.5 TG (81)5.6 迹线 (81)5.7 光标 (85)6. 故障定点分析模式 (98)6.1 频率控制 (98)6.2 幅度控制 (99)6.3 扫描控制 (100)6.4 迹线 (101)6.5 光标 (102)6.6 测量 (105)7. 调制分析模式 (110)7.1 频率控制 (110)7.2 幅度控制 (111)7.3 带宽控制 (112)7.4 扫描控制 (113)7.5 迹线 (114)7.6 光标 (117)7.7 测量 (119)7.8 触发 (124)8. 实时频谱分析模式 (126)8.1 频率控制 (126)8.2 幅度控制 (129)8.3 带宽控制 (131)8.4 扫描控制 (132)8.5 迹线 (134)8.6 光标 (137)8.7 触发 (139)8.8 测量 (142)9. EMI测量 (145)9.1 频率控制 (145)9.2 幅度控制 (147)9.3 带宽控制 (150)9.4 扫描控制 (151)9.5 迹线 (153)9.6 光标 (155)9.7 限制 (159)10. 编程示例 (168)10.1 使用VISA的编程示例 (168)10.2Sockets/Telnet示例 (182)SIGLENT 1. 远程控制概述分析仪支持通过USB、LAN、GPIB-USB接口与计算机进行通信。

kh570编辑KH-570硅烷偶联剂，γ-甲基丙烯酰氧基丙基三甲氧基硅烷是一种有机官能团硅烷偶联剂，对于提高玻纤增强和含无机填料的热固性树脂能提高它们的机械电气性能，特别是通过活性游离基反应固化（如不饱和聚酯，聚氨酯和丙烯酸酯）的热塑性树脂的填充，包括聚烯烃和热塑性聚氨酯。

国外对应牌号：A-174（美国联合碳化物公司）KBM-503（日本信越化学工业株式会社）SH-6030（美国道康宁化学公司）三、化学名称：γ-（甲基丙烯酰氧）丙基三甲氧基硅烷四、分子式：CH2=C(CH3)COOC3H6Si(OCH3)3五、典型的物理性质参数标准指标外观微黄色至无色透明液体颜色Pt-Co, ≤ 30密度（ρ 20℃，g/cm3）1.043~1.053折光率（nD 25°C）1.4285 ~1.4310沸点：255℃纯度%, ≥ 97.0溶解性硅烷偶联剂KH-570可溶于甲醇、乙醇、乙丙醇、丙酮、苯、甲苯、二甲苯,水解后在搅拌下可溶于PH=4的水中,水解产生甲醇.六、用途：主要用于改善有机材料和无机材料的粘接性能，特别适用于游离基交联的聚酯橡胶，聚烯烃、聚苯乙烯和在光敏材料中作为助剂。

七CAS NO. : 2530-85-0八特征和用途KH-570硅烷偶联剂的用途：（1）当复合材料用经过与聚酯相容的表面处理剂处理过的玻纤时，能显著提高复合材料的强度，这种表面处理剂通常包括硅烷偶联剂、成膜剂、润滑剂和抗静电剂。

（2）此产品提高填充白碳黑、玻璃、硅酸盐和金属氧化物的聚酯复合材料的干湿态机械强度。

（3）此产品提高许多无机填料填充复合材料的湿态电气性能。

例如：交联聚乙烯和聚氯乙烯。

（4）此产品可与醋酸乙烯和丙烯酸酯或甲基丙烯酸酯单体共聚合成可室温交联固化的。

这些硅烷团化聚合物广泛应用于涂料、胶粘剂和密封胶中。

提供优异的粘接力和耐久力。

一、概述：偶联剂kh570是一类具有两不同性质官能团的物质，它们分子中的一部分官能团可与有机分子反应，另一部分官能团可与无机物表面的吸附水反应，形成牢固的粘合。

CESSNA150 A thru M O-200 CH48108-1 CFO-100-1F150 F thru M O-200 CH48108-1 CFO-100-1A150L O-200 CH48108-1 CFO-100-1FA150 O-200 CH48108-1 CFO-100-1152 O-235-L2C, H2C CH48110-1 –162 0-200-D CH48108-1 –C-172172 A thru H O-300 CH48108-1 CFO-100-1172 I thru M O-320 CH48110-1 CFO-100-1172N O-320-H2AD CH48103-1 –172P O-320-D2J CH48111-1 CFO-101-1F172 D thru H O-300 CH48108-1 CFO-100-1FR172 E thru K IO-360 CH48108-1 CFO-100-1R172K IO-360-K CH48108-1 –172R and S IO-360-L2A CH48110-1 –172RG O-360-F1A6 CH48110-1 CFO-100-1172S IO-360-L2A CH48110-1 –177 O-320 CH48110-1 CFO-100-1177A, B O-360-A1F6D CH48103-1 CFO-100-1177RG IO-360-A1B6D CH48103-1 CFO-100-1180 A thru J O-470 CH48108-1 CFO-100-1180Q O-470-U++ CH48108-1 CFO-100-1180-S/N 53087 & Up 1111O-470-U++ CH48108-1 –C-182182 A Thru P O-470 CH48108-1 CFO-100-1182Q, R O-470-U++ CH48108-1 CFO-100-1182S IO-540-AB1A5 CH48110-1 –A182 K thru N O-470 CH48108-1 CFO-100-1182-S/N 67042 & Up O-470-U++ CH48108-1 –F182-S/N 00130 & Up O-470-U++ CH48108-1 –R182 O-540-J3C5D CH48103-1 CFO-100-1T182 O-540-L3C5D CH48103-1 CFO-100-1TR182, FTR182 O-540-L3C5D CH48103-1 CFO-100-1185 A thru D IO-470, IO-520 CH48108-1 CFO-100-1A185E, F IO-470, IO-520 CH48108-1 CFO-100-1185-S/N 03852 & Up IO-520 CH48108-1 –188 O-470, IO-520 CH48108-1 CFO-100-1188-S/N 03474 & Up IO-520D CH48109-1 –T188-S/N 03474 & Up TSIO-520 CH48109-1 –205A IO-470 CH48108-1 CFO-100-1C-206 IO-540 CH48110-1 CFO-100-1206 A thru G IO-520 CH48108-1 CFO-100-1206H IO-540-AC1A5 CH48110-1 –206-S/N 05030 & Up IO-520 CH48109-1 –206-S/N 05030 & Up TSIO-520 CH48109-1 –U206 IO-520 CH48108-1 CFO-100-1T-206H TI0540-AJ1A CH48110-1 –TU-206 TSIO-520 CH48108-1 CFO-100-1P206 IO-520 CH48108-1 CFO-100-1TP206 TSIO-520 CH48108-1 CFO-100-1207 IO-520 CH48108-1 CFO-100-1207-S/N 05227 & Up IO-520 CH48109-1 –T207-S/N 05227 & Up TSIO-520 CH48109-1 –T207 TSIO-520 CH48108-1 CFO-100-1210 IO-470, IO-520 CH48108-1 CFO-100-1210-S/N 63373-63375 & Up IO-520 CH48109-1 –T210-S/N 63373-63375 & Up TSIO-520 CH48108-1 –P210-S/N 278 &Up TSIO-520 CH48108-1 –T210, P210-S/N 1-277 TSIO-520++ CH48108-1 CFO-100-1 32Aircraft engines not listed, but equipped with oil fi lters at overhaul, may accept Champion fi lters. Write Aviation Service Deptment for further information. Please include description of your engine. ++ Reference page 25-26 for other TCM application data. * Requires Lyco (54E23093) AEROSPATIABLE (SocataTB9 Tampico O-320-D2A CH48110-1 CFO-100-1TB10 Tobago O-360-A1AD CH48110-1 CFO-100-1TB20 Trinidad IO-540-C4D5D CH48103-1 CFO-100-1TB21 Trinidad TC TIO-540-AB1AD CH48103-1 CFO-100-1TB30 AEIO-540-L1B5D CH48103-1 CFO-100-1AEROSTAR (See Piper)BEECHBONANZAE33A, F33A, F33B, F33C IO-520 – CFO-100-1E33A, F33A, F33B, F33C IO-520B CH48109-1 –G-33 IO-470N CH48108-1H-35 O-470 CH48108-1 –J, K, M-35 IO 470-C CH48108-1N, P-35 IO-470-N CH48108-1S35, V35, V35A, V35B IO-520 – CFO-100-1S35 IO-520B CH48109-1 –V35TC, V35A-TC, V35B-TC TSIO-520 – CFO-100-1V35TC, V35A-TC, -V35B-TC TSIO-520D CH48109-1 –V35, V35A, V35B IO-520B CH48109-1 –36, A36 IO-520B CH48109-1 –A36TC, B36TC TSIO-520-UB CH48109-1 –B36-550 IO-550 CH48109-1 –DEBONAIR/BONANZAC33A, E33A, E33C IO-520 – CFO-100-1C33A, E33A, F33C IO-520B CH48109-1 –MUSKETEERSport III O-320 CH48110-1 CFO-100-123 O-320 CH48110-1 CFO-100-1A23-19, 19A, B19 Sport O-320 CH48110-1 CFO-100-1A23, 23, A23A IO-346 – CFO-100-1A23, A23A IO-346A CH48109-1 –B23, C23 Sundowner O-360 CH48110-1 CFO-100-1B23 O-360A4JD CH48103-1 CFO-100-1SIERRA24, A-24, A-24R, B-24R, C-24R IO-360, -L2A CH48110-1 CFO-100-1SKIPPER77 O-235-L2C CH48110-1 –BEECHBARONC55, D55, E55, 58 IO-520 – CFO-100-1C55, D55, E55, 58 IO-520C CH48109-1 –56TC, A56TC TIO-541-E CH48104-1 CFO-101-1Baron 58P TSIO-520-L++ – CFO-100-1Baron 58P, 58TC TSIO-520-L, -W, -B CH48108-1 –Baron 58C, 550 IO-550 CH48109-1 –DUKE60, A60, B60 TIO-541 CH48104-1 CFO-101-1QUEEN AIR65, 70 IGSO-480 CH48111-1 CFO-101-180, 88, B80 IGSO-540 CH48111-1 CFO-101-1TRAVEL AIR95, B95 O-360 CH48110-1 CFO-100-1B95A, D95A, E95 IO-360, L2A CH48110-1 CFO-100-1DUCHESS LO-360-A1G6D &76 O-360-A1G6D CH48103-1BELLANCA17-31A, 17-31ATC IO-540-K CH48110-1 CFO-100-117-31A Viking IO-540-K CH48110-1 CFO-100-117-31A Viking IO-520-D – CFO-100-117-31ATC Turbo TIO-540 CH48110-1 CFO-100-1ChampionEngine Spin-On ChampionModel Model Filter ElementChampionEngine Spin-On ChampionModel Model Filter ElementNOTE: A ll Cessna aircraft modifi ed under Cessna Service BulletinSEB-93-1 or MEB 93-1, require Champion Oil Filter CH48108-1.The CH48109-1 may also be used if clearance permits installation.Aircraft Engine ApplicationsCESSNA T303 LTSIO-520-AE &TSIO-520-AE CH48109-1 –310 C thru Q IO-470 CH48108-1 CFO-100-1310 RIO-520-M CH48108-1 –T310P, Q, R TSIO-520-B CH48108-1 CFO-100-1320-A TSIO-470 CH48104-1 –320-B, C TSIO-470 CH48109-1 CFO-101-1320-D TSIO-520 – CFO-100-1320-D, E, F TSIO-520-B CH48108-1 –335 TSIO-520-EB CH48109-1 –336 IO-360 CH48108-1 CFO-100-1337 IO-360 CH48108-1 CFO-100-1P337, P337H TSIO-360 CH48108-1 CFO-100-1T337H TSIO-360-H CH48108-1 CFO-100-1340 TSIO-520-K CH48108-1 –340A TSIO-520-N, -NB CH48109-1 CFO-100-1401/402TSIO-520-E CH48108-1 CFO-100-1402C TSIO-520-VB CH48109-1 CFO-100-1404GTSIO-520-M CH48111-1 CFO-101-1411-S/N 000 thru 0126 GTSIO-520-C CH48104-1 –411-S/N 0127 and up GTSIO-520-C CH48111-1 CFO-101-1414, 414A TSIO-520-J, -N CH48108-1 –421A, BGTSIO-520-D, -H, CH48111-1 CFO-101-1421C-S/N 1017 thru 1404 -L, -N, ++ CH48111-1 CFO-101-1CIRRUS AIRCRAFT SRV, SR20I0-360ES CH48108-1SR22I0-550N CH48109-1COLUMBIA/LANCAIR COLUMBIA 300, 350 I0-550N CH48109-1 CFO-100-1COLUMBIA 400 TS10-550 CH48109-1 CFO-100-1DIAMOND AIRCRAFT DA20-1C I0-240 CH48108-1 CFO-100-1DA40-180I0-360 CH48110-1 CFO-100-1GULFSTREAM AMERICAN (Single Engine Models)AA-1, 1A, 1B, 1B Trainer, TR 2/Lyco O-235 CH48110-1 CFO-100-1A1C Lynx, T-Cat Lyco O-235-L CH48110-1 CFO-100-1AA-5 Traveler Lyco O-320-E CH48110-1 CFO-100-1AA-5A Cheetah Lyco O-320-E CH48110-1 CFO-100-1AA-5B Tiger Lyco O-360-A4K CH48110-1 CFO-100-1Cougar 2/Lyco O-320-D CH48110-1 CFO-100-1COMMANDER 112, 112A IO-360-C, -L2A CH48110-1 CFO-100-1112TC TO-360-C1A6D CH48103-1 CFO-100-1114IO-540-T4A5D CH48103-1 CFO-100-1500B, 500U IO-540 CH48110-1 CFO-100-1700TIO-540-R2AD CH48103-1 CFO-100-1 33Aircraft engines not listed, but equipped with oil fi lters at overhaul, may accept Champion fi lters. Write Aviation Service Deptment for further information. Please include description of your engine. ++ Reference page 25-26 for other TCM application data. * Requires Lyco (54E23093)MAULEM5-180C, MX7-180 O-360-C, -C1F CH48110-1 M5-210C IO-360D, -L2A M5-210TCTO-360-C1A6D CH48103-1 M5-235C, M6-235, M7-235 O-540-J1A5D CH48103-1 MX-7-235O-540-W1A5D CH48103-1MOONEY AIRCRAFTM20A, B, Mark21O-360 CH48110-1M20D MasterO-360 CH48110-1 CFO-100-1 M20C RangerO-360 CH48110-1M20G StatesmanO-360CH48110-1 CFO-100-1 M20E ChaparralIO-360, -L2A CH48110-1 CFO-100-1 M20F Executive IO-360, -L2ACH48110-1 CFO-100-1 M20J-201 IO-360-A3B6D, -L2A CH48103-1 – M20K-231 TSIO-360-G, LB CH48108-1 M20M-TLS TIO-540-AFIA, B CH48110-1M20RIO-550 CH48108-1 –M22 Mustang TIO-541CH48110-1 CFO-100-1 M20K-252 TSE TSIO-360-MB1CH48108-1 –PIPER CUBPA-18 “150” O-320 CH48110-1 CFO-100-1 TRI-PACERPA-22 “150”O-320 CH48110-1 CFO-100-1 PA-22 “160”O-320CH48110-1 CFO-100-1 COMANCHEPA-24 “180” O-360CH48110-1 CFO-100-1 PA-24 “250”O-540 or IO-540 CH48110-1 CFO-100-1 PA-24B, PA-24C “260”O-540 or IO-540 CH48110-1 CFO-100-1 PA-24 Turbo “260”IO-540 CH48110-1 CFO-100-1 PAWNEEPA-25 “150” O-320 CH48110-1 CFO-100-1 A25 “260”O-540 CH48110-1 CFO-100-1 PA-36 Brave6-285B CH48109-1 –PA-36-375 Brave IO-720-D1C CH48110-1 CFO-100-1 PA-36-400 BraveIO-720D1CD CH48104-1 CFO-101-1 CHEROKEE, CADET PA-28 “140”O-320 CH48110-1 CFO-100-1 PA-28 “150”O-320 CH48110-1 CFO-100-1 PA-28 “160”, “161” O-320 CH48110-1 CFO-100-1 PA-28 “180”O-360CH48110-1 CFO-100-1 PA-28 “180”, “181”O-360-A4M CH48110-1 CFO-100-1 PA-28 “235”O-540 CH48110-1 CFO-100-1 PA-28 “151”O-320CH48110-1 CFO-100-1 ARROWPA-28R “180”IO-360, L2ACH48110-1 CFO-100-1 PA-28R “180 IO-360-C1CD, L2A CH48103-1 CFO-100-1 PA-28R “200” Arrow II IO-360, L2A CH48110-1 CFO-100-1 PA-284 “200” Turbo Arrow IIITSIO-360 CH48108-1 – PA-28-R-201TTSIO-360-F1CH48108-1Champion Engine Spin-On Champion Model ModelFilter ElementChampionEngine Spin-On Champion Model ModelFilter Element Aircraft Engine Applications34TWIN COMMANCHEPA-30 “160” Turbo IO-320 CH48110-1 CFO-100-1PA-39 “160” IO-320 CH48110-1CFO-100-1LIO-320 CH48110-1 CFO-100-1PA-39 “160” Turbo IO-320 CH48110-1 CFO-100-1LIO-320 CH48110-1 CFO-100-1NAVAJOPA-31 “300” IO-540 CH48110-1 CFO-100-1PA-31 “310” Turbo TIO-540 CH48110-1 CFO-100-1PA-31 “325” IO-540-F2BD CH48103-1 CFO-100-1LTIO-540-F2BD CH48103-1 CFO-100-1PA-31 “350” Chieftain TIO-540-J2BD CH48103-1 CFO-100-1LTIO-540-J2BD CH48103-1 CFO-100-1PA-31P “425” TIGO-541 CH48104-1 CFO-101-1PA-31P “350” Mojave TIO/LIO-540-V2AD CH48104-1SENECAPA-34 IO-360C CH48110-1 CFO-100-1LIO-360C CH48110-1 CFO-100-1PA-34 IO-360-C1E6D CH48103-1 CFO-100-1LIO-360-C1E6D CH48103-1 CFO-100-1Seneca II LTSIO-360-E CH48108-1 –TSIO-360-E CH48108-1 –Seneca III TSIO-360-KB CH48108-1PA-34-220T LTSIO-360-KB CH48108-1PIPER AEROSTARPA-60-600, -600A IO-540-G, -K CH48110-1 CFO-100-1PA-60-604, -601B IO-540-P, -S CH48110-1 CFO-100-1PA-60-601P IO-540-S CH48110-1 CFO-100-1PA-60-602P IO-540-AA1A5 CH48110-1 CFO-100-1SEMINOLEPA-44-180 O-360-E1AD CH48103-1* CFO-100-1PA-44-180T TO-360-E1A6DLTO-360-E1A6D CH48103-1* CFO-100-1 ChampionEngine Spin-On ChampionModel Model Filter ElementChampionEngine Spin-On Champion Model Model Filter ElementDAKOTAPA-28-235 O-540-J3A5D CH48103-1* CFO-100-1PA-28-201T TSIO-360-FB CH48108-1 –CHEROKEE SIXPA-32 “260” O-540 CH48110-1 CFO-100-1PA-32 “300” IO-540 CH48110-1 CFO-100-1PA-32R “300” IO-540-K1AD CH48103-1* CFO-100-1PA-32R “300” TIO-540-S1AD CH48103-1* CFO-100-1PA-32RT-300T TIO-540-S1AD CH48103-1* CFO-100-1PA-32-301 IO-540-K1G5D CH48103-1* CFO-100-1PA-32-301 TIO-540-S1AD CH48103-1* CFO-100-1PA-32R-301 IO-540-K1G5D CH48103-1* CFO-100-1PA-32R-301 TIO-540-S1AD CH48103-1* CFO-100-1TOMAHAWKTrainer PA-38-112 O-235-L2C CH48103-1* CFO-100-1MALIBUPA-46-301P Cont TSIO-520-BE CH48109-1MALIBU MIRAGEPA-46-350-P Lyco TIO-540-AE2A CH48103-1APACHEPA-23 “150” O-320 CH48110-1 CFO-100-1PA-23 “160” O-320 CH48110-1 CFO-100-1PA-23 “235” O-540 CH48110-1 CFO-100-1AZTECPA-23 “250” O-540 CH48110-1 CFO-100-1“C” PA-23 IO-540 CH48110-1 CFO-100-1PA-23 Turbo “250” IO-540 CH48110-1 CFO-100-1“C”, “D”, “E”, “F”PA-23 Turbo “250” TIO-540 CH48110-1 CFO-100-1Dimensional DataChampion Thread Dry WeightPart No. A B C D (SAE) Lbs./Kg.CH48103-1 4.48” (11.4 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 13/16-16-UNS-2B 1.32lbs. (0.59kg) CH48104-1 5.73” (14.6 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 13/16-16-UNS-2B 1.41lbs. (0.64kg) CH48108-1 4.48” (11.4 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2B 1.40lbs. (0.64kg) CH48109-1 5.73” (14.6 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2B 1.51lbs. (0.68kg) CH48110-1 4.48” (11.4 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2A 1.38lbs. (0.63kg) CH48111-1 5.73” (14.6 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2A 1.47lbs. (0.67kg)Popular spin-on oil fi ltersAircraft engines not listed, but equipped with oil fi lters at overhaul, may accept Champion fi lters. Write Aviation Service Department for furtherinformation. Please include description of your engine. * Requires Lyco (54E23093)Aircraft Engine Applications。

MKH 8040Instructions for useContentsImportant safety information (2)The MKH8040 (3)Delivery includes (4)Putting the microphone into operation (5)Connecting the microphone (5)Attaching the microphone using the microphone clip (5)Using the windshield (5)Exchanging the microphone head (6)Accessories (7)Specifications (8)Manufacturer Declarations (10)Thank you for choosing Sennheiser!We have designed this product to give you reliable operation over many years. Over 60 years of accumulated expertise in the design and manufacture of high-quality electro-acoustic equipment have made Sennheiser a world-leading company in this field. Please take a few moments to read these instructions carefully, as we want you to enjoy your new Sennheiser products quickly and to the fullest.1Important safety informationNotes on these instructions for use y Please read these instructions carefully and completely before using the microphone.y Make these instructions easily accessible to all users at all times.y Always include these instructions when passing the microphone on to third parties.Before putting the microphone intooperation y Never open the microphone. If devices are opened by customers in breach of this instruction, the warranty becomes null and void.During operation y Water entering the housing of the microphone can cause ashort-circuit and damage the electronics. Protect themicrophone from wetness. Use only a slightly damp cloth toclean the microphone.y Do not expose the microphone to extreme temperatures(normal operating temperatures: 10 °C to 35 °C).After operation y Use the microphone with care and store it in a clean, dust-free environment.Intended use of the microphoneIntended use includes:y having read these instructions, especially the chapter“Important safety information” on page2,y using the microphone within the operating conditions andlimitations described in this instruction manual.“Improper use” means using the microphone other than asdescribed in these instructions, or under operating conditionswhich differ from those described herein.2The MKH8040The MKH 8040 is a high-end cardioid studio condenser microphone from the modular MKH 8000 microphone series. This series has the following features:y Exceptionally low inherent self-noise prevents masking of filigree sound structuresy Symmetrical transducer technology ensures extremely low distortiony Extremely wide frequency response for an optimum resolution of the finest detailsy Transformerless and fully floating balanced output provides for easy connection at minimal distortiony High sensitivity ensures interference-free transmission witha high signal voltagey Frequency independent directional characteristics for minimum colouration in the direct and diffuse fieldy Rugged metal housing with non-reflective Nextel coating, making the microphone the ideal choice for in-vision usey Compact design and small diameter allow the unobtrusive positioning of the microphone, even close to instrumentsy Modular design provides for easy exchange of the microphone heads and the use of specially-tailored accessories to suit every application3Delivery includes1 x microphone, consisting of–MKH 8040 microphone head and–MZX 8000 XLR module1 x MZQ 8000 microphone clip1 x MZW 8000 double-layered windshield1 x carrying case1 x instructions for use·Microphone head»XLR module¿Microphone clip(thread adaptor included for 3/8" and 5/8" threads)45Putting the microphone into operation Connecting the microphoneConnection data of the MKH 8040:y 48V (+/- 4V) phantom powering (as per DIN 45596)y XLR-3y balancedy 25Ω impedancey 1000Ω min. terminating impedancëUse a microphone cable with XLR-3 connector to connect the microphone to the sound recording device. The sound recording device must provide 48V phantom powering.Attaching the microphone using the microphone clip ̈Select the suitable mounting thread:–Without thread insert: 5/8" thread–Thread insert: 3/8" thread̈Screw the microphone clip ¿ to a floor or table stand.̈Place the microphone into the microphone clip.Using the windshield̈Slide on the wind shield ³ to minimize wind noise.The wind shield changes the sound only slightly, but attenuates wind noise by approx. 30dB.Exchanging the microphone headYou can retrofit the microphones of the modular MKH 8000series by exchanging the microphone head.̈Unscrew the microphone capsule· from the XLR module».̈Screw the new microphone head· to the XLR module».6AccessoriesCat.No.Accessories/Spare parts502094MKHC 8020:Microphone head, omni-directional502095MKHC 8040:Microphone head, cardioid502096MKHC 8050:Microphone head, super-cardioid502098MZX 8000:XLR module502333MZW 8000:Windshield, double-layered502315MZE 8015:Extension tube, 15 cm502433MZE 8030:Extension tube, 30 cm502316MZE 8060:Extension tube, 60 cm502317MZE 8120:Extension tube, 120 cm502434MZEF 8030:Vertical bar, 30 cm502318MZEF 8060:Vertical bar, 60 cm502319MZEF 8120:Vertical bar, 120 cm502322MZFS 8000:Floor stand502323MZG 8000:Swivel joint502324MZGE 8000:Bar connector, mono502325MZGE 8002:Bar connector, stereo502326MZL 8003:Remote cable, 3 m502327MZL 8010:Remote cable, 10 m502328MZQ 8000:Microphone clip502329MZQ 8001:Mini clip502330MZS 8000:Shock mount502331MZT 8000:Metal table stand502332MZT 8001:Table stand with acrylic base502435MZH 8000:Ceiling mount7SpecificationsPick-up pattern cardioidFrequency response35 Hz – 50 kHzSensitivity −34 dBV/Pa (20 mV/Pa)Max. sound pressure level 142 dB SPLEquivalent noise level 13 dB(A)(DIN 651)22 dB(CCIR 268-3)Power supply48V (P48) phantom poweringCurrent consumption 3.3mADiameter 19mmLength41mm (75mm with MZX8000)Weight25g (55g with MZX8000)Temperature range−10 °C to +60 °C8Frequency reponse curve910Manufacturer DeclarationsWarranty2 yearsCE Declaration of ConformitySennheiser electronic GmbH & Co. KG declare that this device is in compliance with the essential requirements and other relevant provisions of Directive 89/336/EU.WEEE DeclarationPlease dispose of this product at the end of its operational lifetime by taking it to your local collection point or recycling centre for such equipment.Sennheiser electronic GmbH & Co. KG30900 Wedemark, GermanyPhone +49 (5130) 600 0Fax +49 (5130) 600 300Printed in Germany Publ. 06/07515895/A01。

尊敬的用户：西安西核彩桥实业科技有限公司地处西安市高新技术开发区，是专业生产火灾报警联动控制系统的高新技术企业，是中美合资西安盛赛尔电子有限公司（systemsensor）的紧密型合作伙伴。

公司自主研发的CH8000系列智能火灾报警控制系统，全面采用美国盛赛尔公司（systemsensor）的设计理念、先进技术、通讯协议、制造工艺，与国际火警行业的先进技术同步，该系统全面兼容盛赛尔公司生产的智能型、常规型、特殊型产品，具有工作稳定、扩展性强、容量大、网络化等特点。

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目录1、JTY-LZ-ZM991智能离子感烟火灾探测器2、JTY-GD-ZM992智能光电感烟火灾探测器3、JTW-BD-ZM995智能感温火灾探测器4、JTY-GD-882光电感烟火灾探测器5、JTW-BD-885感温火灾探测器6、JTYJ-GD-2630/B 独立式感烟火灾探测报警器7、JTYJ-GD-2690/B 独立式感烟火灾探测报警器8、BAEM1224S型红外光束感烟火灾探测器9、AEC2361a 可燃气体探测报警器10、AEC2371a 可燃气体探测报警器11、J-SAP-M-SB8304 编址手动火灾报警按钮12、J-SAP-M-SB8304/H 编址消火栓报警按钮13、SM8301 输入模块14、KM8302 输入/输出模块15、KM8302B 切换模块16、DB8307 总线短路保护器17、M902M 探测器接口模块18、SG8306A 编址声光警报器19、ZH8310A 现场转换盒20、SSM24-6 警铃21、SG8306 声光警报器22、CH8504 放气指示灯23、CH8505 紧急启停按钮24、CH8507 手/自动转换盒25、CH8316/20/48/72 路接线端子箱26、CH8907/6/12/20模块箱27、FS-100 火灾显示盘28、CH8605 多线联动控制盘29、CH8601 总线手动控制盘30、JB-QB-CH8000 火灾报警控制器（联动型）31、JB-QB-CH8800 火灾报警控制器（联动型）32、JB-QB-CH8000/S 火灾报警控制器33、JB-MH-CH8500 气体灭火控制器34、JB-QB-CH8800 气体灭火控制器35、CH8909 CRT火灾彩色平面图形显示系统36、GB9242 消防广播主机37、DH9251 多线火警电话主机38、DH9261 总线制火警电话主机39、CH9200 壁挂广播通讯柜1、JTY-LZ-ZM991智能离子感烟火灾探测器功能描述及技术指标◆适用于发生火灾后产生大量的烟和少量热的场所，如宾馆、饭店、办公楼、机房、医院、学校等各种室内场所。

1、SM490A 宝钢等大型钢厂有生产，与Q345B等同。

2、SM490YA是高强度焊接结构钢，于用于要求优良焊接性能的桥梁、船舶、车辆、石油贮槽、容器和其他结构件，一般焊接集装箱用这个。

我知道鞍钢、宝钢有生产，等同于我国的高耐候结构钢Q345GNHL。

3、SM570TMC是一种不用调质而可获得高张力的结构钢，通过在线热处理技术，主要是加速冷却工艺（OLAC）和添加微量合金元素（Nb、Ti、V）来实现钢的综合机械性能，又称微合金非调质钢，目前国内没有钢厂生产，也没有等同或对应的牌号。

我国虽然有非调质结构钢这个钢种和标准，如YF35V，但性能是达不到日本相应钢种的，国标可参见GB/T15712。

4、SSC400我认为是SS400，可能是写错了，对应我国的Q235B。

5、STK400中STK是碳素结构钢钢管的缩写。

我国无对应牌号，可根据使用要求选择国标GB/T8162结构用无缝钢管。

6、STKM13A也是碳素结构钢钢管，相当于我国国际GB/T8162中的20号钢钢管。

7、STKR400是碳素结构钢方形或矩形钢管，我国无对应牌号，可根据使用要求选择国标GB/T8162结构用无缝钢管。

8、SGP表示镀锌钢管，对应国内标准是GB/T3091-93《低压流体输送用镀锌焊接钢管》。

对于补充问题的回答：
你是作钢结构的吧，这些钢种全是钢结构上用的，知道了你的行业，我找到了SSC400这个牌号，它是一般结构用焊接H型轻型钢，我国标准称为“工”字钢，规定了相关的标准尺寸，材质多选用的是普通碳素结构钢，可根据设计要求选择，SSC400的材质就是Q235B，几何尺寸根据需要选取可参见GB/T706.。

General DescriptionThe MAX4080/MAX4081 are high-side, current-sense amplifiers with an input voltage range that extends from 4.5V to 76V making them ideal for telecom, automotive,backplane, and other systems where high-voltage cur-rent monitoring is critical. The MAX4080 is designed for unidirectional current-sense applications and the MAX4081 allows bidirectional current sensing. The MAX4081 single output pin continuously monitors the transition from charge to discharge and avoids the need for a separate polarity output. The MAX4081requires an external reference to set the zero-current output level (V SENSE = 0V). The charging current is rep-resented by an output voltage from V REF to V CC , while discharge current is given from V REF to GND.For maximum versatility, the 76V input voltage range applies independently to both supply voltage (V CC )and common-mode input voltage (V RS+). H igh-side current monitoring does not interfere with the ground path of the load being measured, making the MAX4080/MAX4081 particularly useful in a wide range of high-voltage systems.The combination of three gain versions (5V/V, 20V/V,60V/V = F, T, S suffix) and a user-selectable, external sense resistor sets the full-scale current reading and its proportional output voltage. The MAX4080/MAX4081offer a high level of integration, resulting in a simple,accurate, and compact current-sense solution.The MAX4080/MAX4081 operate from a 4.5V to 76V sin-gle supply and draw only 75µA of supply current. These devices are specified over the automotive operating temperature range (-40°C to +125°C) and are available in a space-saving 8-pin µMAX or SO package.ApplicationsAutomotive (12V, 24V, or 42V Batteries)48V Telecom and Backplane Current MeasurementBidirectional Motor Control Power-Management SystemsAvalanche Photodiode and PIN-Diode Current MonitoringGeneral System/Board-Level Current Sensing Precision High-Voltage Current SourcesFeatures♦Wide 4.5V to 76V Input Common-Mode Range ♦Bidirectional or Unidirectional I SENSE ♦Low-Cost, Compact, Current-Sense Solution ♦Three Gain Versions Available5V/V (MAX4080F/MAX4081F)20V/V (MAX4080T/MAX4081T)60V/V (MAX4080S/MAX4081S)♦±0.1% Full-Scale Accuracy ♦Low 100µV Input Offset Voltage ♦Independent Operating Supply Voltage ♦75µA Supply Current (MAX4080)♦Reference Input for Bidirectional OUT (MAX4081)♦Available in a Space-Saving 8-Pin µMAX PackageMAX4080/MAX408176VVoltage Output________________________________________________________________Maxim Integrated Products 1Pin ConfigurationsOrdering Information19-2562; Rev 0; 10/02For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,or visit Maxim’s website at .Selector Guide appears at end of data sheet.M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.V CC to GND............................................................-0.3V to +80V RS+, RS- to GND....................................................-0.3V to +80V OUT to GND.............-0.3V to the lesser of +18V or (V CC + 0.3V)REF1A, REF1B to GND(MAX4081 Only)....-0.3V to the lesser of +18V or (V CC + 0.3V)Output Short Circuit to GND.......................................Continuous Differential Input Voltage (V RS + - V RS -)...............................±80V Current into Any Pin..........................................................±20mAContinuous Power Dissipation (T A = +70°C)8-Pin µMAX (derate 4.5mW/°C above +70°C).............362mW 8-Pin SO (derate 5.88mW/°C above +70°C)................471mW Operating Temperature Range .........................-40°C to +125°C Junction Temperature......................................................+150°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CDC ELECTRICAL CHARACTERISTICSMAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________3DC ELECTRICAL CHARACTERISTICS (continued)M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 4_______________________________________________________________________________________AC ELECTRICAL CHARACTERISTICSNote 2:V REF is defined as the average voltage of V REF1A and V REF1B . REF1B is usually connected to REF1A or GND.V SENSE is defined as V RS+- V RS-.Note 3:The common-mode range at the low end of 4.5V applies to the most positive potential at RS+ or RS-. Depending on thepolarity of V SENSE and the device’s gain, either RS+ or RS- can extend below 4.5V by the device’s typical full-scale value of V SENSE .Note 4:Negative V SENSE applies to MAX4081 only.Note 5:V SENSE is:MAX4080F, 10mV to 1000mV MAX4080T, 10mV to 250mV MAX4080S, 10mV to 100mV MAX4081F, -500mV to +500mV MAX4081T, -125mV to +125mV MAX4081S, -50mV to +50mVNote 6:V OS is extrapolated from the gain accuracy test for the MAX4080 and measured as (V OUT - V REF )/A V at V SENSE = 0V, for theMAX4081.Note 7:V SENSE is:MAX4080F, 500mV MAX4080T, 125mV MAX4080S, 50mV MAX4081F/T/S, 0VV REF1B = V REF1A = 2.5VNote 8:Output voltage is internally clamped not to exceed 18V.Note 9:Output settles to within 1% of final value.Note 10:The device will not experience phase reversal when overdriven.MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________52015105302535-125-75-50-25-1000255075100125INPUT OFFSET VOLTAGE HISTOGRAMINPUT OFFSET VOLTAGE (μV)P E R C E N T A G E (%)INPUT OFFSET VOLTAGE vs. TEMPERATURE-300-250-150-200050-50-100300100150200250I N P U T O F F S E T V O L T A G E (μV )-502550-2575100125150TEMPERATURE (°C)-0.5-0.2-0.3-0.40-0.10.40.30.20.10.5-50-250255075100125GAIN ACCURACY vs. TEMPERATURETEMPERATURE (°C)G A I N A C C U R A C Y (%)GAIN ACCURACY vs. V CCV CC (V)G A I N A C C U R A C Y (%)6452402816-0.15-0.10-0.05-0.20476M A X 4080 t o c 05FREQUENCY (Hz)C O M M O N -M ODE R E J E C T I O N R A T I O (d B )100k10k1k10010-120-100-110-90-80-60-70-50-40-20-30-100-13011M MAX4081F/T/SCOMMON-MODE REJECTION RATIOvs. FREQUENCYM A X 080 t o c 06FREQUENCY (Hz)P O W E R -S U P P L Y R E J E C T I O N R A T I O (d B )100k 10k 1k 10010-120-100-110-90-80-60-70-50-40-20-30-100-13011MMAX4081F/T/SPOWER-SUPPLY REJECTION RATIOvs. FREQUENCYM A X 4080 t o c 07FREQUENCY (Hz)R E F E R E N C E R E J E C T I O N R A T I O (dB )-110-90-100-80-60-70-50-40-20-30-100-120MAX4081F/T/SREFERENCE REJECTION RATIOvs. FREQUENCY10k1k100101100k FREQUENCY (kHz)G A I N (d B )100101510152025303540455000.11000MAX4080F/T/SSMALL-SIGNAL GAIN vs. FREQUENCYFREQUENCY (kHz)G A I N (d B )10010151015202530354045500.11000MAX4081F/T/SSMALL-SIGNAL GAIN vs. FREQUENCYTypical Operating Characteristics(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 6_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)6065757080854281640526476MAX4080SUPPLY CURRENT vs. V CCV CC (V)S U P P L Y C U R R E N T (μA )V CC (V)S U P P L Y C U R R E N T (μA )6452162840859095100105110115120125476MAX4081SUPPLY CURRENT vs. V CC65807570908511010510095115-50-250255075100125MAX4080SUPPLY CURRENT vs. TEMPERATUREM A X 4080 t o c 12TEMPERATURE (°C)S U P P L Y C U R RE N T (μA )65807570908511010510095115-50-250255075100125MAX4081SUPPLY CURRENT vs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (μA )I OUT (SOURCING) (mA)V O U T H I G H V O L T A G E (V C C - V O H ) (V )0.90.80.60.70.20.30.40.50.10.050.100.150.200.250.300.350.400.450.5001.0V OUT HIGH VOLTAGE vs. I OUT (SOURCING)450400350300250200150100505010015020025030000500V OUT LOW VOLTAGE vs. I OUT (SINKING)I OUT (SINKING) (μA)V O U T L O W V O L T A G E (m V )MAX4080 toc16INPUT 5mV/div OUTPUT 25mV/div 20μs/div MAX4080FSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc17INPUT 5mV/div OUTPUT 100mV/div 20μs/div MAX4080TSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc18INPUT 5mV/divOUTPUT 300mV/div20μs/divMAX4080SSMALL-SIGNAL TRANSIENT RESPONSEMAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________7MAX4080 toc19INPUT 10mV/div OUTPUT 50mV/div 20μs/div MAX4081FSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc20INPUT 2.5mV/div OUTPUT 50mV/div 20μs/div MAX4081TSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc21INPUT 1mV/divOUTPUT 50mV/div20μs/divMAX4081SSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc22INPUT 400mV/div OUTPUT 2V/div 20μs/div MAX4080FLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc23INPUT 100mV/div OUTPUT 2V/div 20μs/div MAX4080TLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc24INPUT 33mV/divOUTPUT 2V/div20μs/divMAX4080SLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc25INPUT 400mV/div OUTPUT 2V/div 20μs/div MAX4081FLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc26INPUT 100mV/div OUTPUT 2V/div 20μs/div MAX4081TLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc27INPUT 33mV/divOUTPUT 2V/div20μs/divMAX4081SLARGE-SIGNAL TRANSIENT RESPONSETypical Operating Characteristics (continued)(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 8_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)4μs/div V CC -TRANSIENT RESPONSEV CC 5V/divV OUT 1V/divV RS+ = 20V V CC = 20V STEP V REF1 = V REF2 = 2.5VV CC = 40VV CC = 20VMAX4080 toc29INPUT 500mV/divOUTPUT 2V/div 20μs/div MAX4080FSATURATION RECOVERY RESPONSE(V CC = 4.5V)MAX4080 toc30V CC (0 TO 10V)5V/divOUTPUT 2.5V/div100μs/divMAX4080T STARTUP DELAY (V SENSE = 250mV)Detailed DescriptionThe MAX4080/MAX4081 unidirectional and bidirectional high-side, current-sense amplifiers feature a 4.5V to 76V input common-mode range that is independent of supply voltage. This feature allows the monitoring of current out of a battery as low as 4.5V and also enables high-side current sensing at voltages greater than the supply voltage (V CC ). The MAX4080/MAX4081 monitors current through a current-sense resistor and amplifies the voltage across the resistor. The MAX4080 senses current unidirectionally, while the MAX4081 senses cur-rent bidirectionally.The 76V input voltage range of the MAX4080/MAX4081applies independently to both supply voltage (V CC )and common-mode, input-sense voltage (V RS+). High-side current monitoring does not interfere with the ground path of the load being measured, making the MAX4080/MAX4081 particularly useful in a wide range of high-voltage systems.Battery-powered systems require a precise bidirectional current-sense amplifier to accurately monitor the bat-tery’s charge and discharge. The MAX4081 charging current is represented by an output voltage from V REF to V CC , while discharge current is given from V REF to GND. Measurements of OUT with respect to V REF yield a positive and negative voltage during charge and dis-charge, as illustrated in Figure 1 for the MAX4081T.Current MonitoringThe MAX4080 operates as follows: current from the source flows through R SENSE to the load (Figure 2), cre-ating a sense voltage, V SENSE . Since the internal-sense amplifier’s inverting input has high impedance, negligible current flows through RG2 (neglecting the input bias current). Therefore, the sense amplifier’s inverting input voltage equals V SOURCE - (I LOAD )(R SENSE ). The ampli-fier’s open-loop gain forces its noninverting input to the same voltage as the inverting input. Therefore, the drop across RG1 equals V SENSE . The internal current mirror multiplies I RG1by a current gain factor, β, to give I A2= β✕IRG1. Amplifier A2 is used to convert the output current to a voltage and then sent through amplifier A3.Total gain = 5V/V for MAX4080F, 20V/V for the MAX4080T, and 60V/V for the MAX4080S.The MAX4081 input stage differs slightly from the MAX4080 (Figure 3). Its topology allows for monitoring of bidirectional currents through the sense resistor.When current flows from RS+ to RS-, the MAX4081matches the voltage drop across the external sense resistor, R SENSE , by increasing the current through the Q1 and RG1. In this way, the voltages at the input ter-minals of the internal amplifier A1 are kept constant and an accurate measurement of the sense voltage is achieved. In the following amplifier stages of the MAX4081, the output signal of amplifier A2 is level-shifted to the reference voltage (V REF = V REF1A =V REF1B ), resulting in a voltage at the output pin (OUT)MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________9Pin DescriptionM A X 4080/M A X 4081that swings above V REF voltage for positive-sense volt-ages and below V REF for negative-sense voltages.V OUT is equal to V REF when V SENSE is equal to zero.Set the full-scale output range by selecting R SENSE and the appropriate gain version of the MAX4080/MAX4081.76V , High-Side, Current-Sense Amplifiers with Voltage Output 10______________________________________________________________________________________Figure 1. MAX4081T OUT Transfer CurveFigure 3. MAX4081 Functional DiagramFigure 2. MAX4080 Functional DiagramMAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output______________________________________________________________________________________11For the bidirectional MAX4081, the V OUT reference level is controlled by REF1A and REF1B. V REF is defined as the average voltage of V REF1A and V REF1B . Connect REF1A and REF1B to a low-noise, regulated voltage source to set the output reference level. In this mode,V OUT equals V REF1A when V SENSE equals zero (see Figure 4).Alternatively, connect REF1B to ground, and REF1A to a low-noise, regulated voltage source. In this case, the out-put reference level (V REF ) is equal to V REF1A divided by two. V OUT equals V REF1A /2 when V SENSE equals zero.In either mode, the output swings above the reference voltage for positive current-sensing (V RS+> V RS-). The output swings below the reference voltage for negative current-sensing (V RS+< V RS-).Recommended Component ValuesIdeally, the maximum load current develops the full-scale sense voltage across the current-sense resistor.Choose the gain needed to yield the maximum output voltage required for the application:V OUT = V SENSE ✕A Vwhere V SENSE is the full-scale sense voltage, 1000mV for gain of 5V/V, 250mV for gain of 20V/V, 100mV for gain of 60V/V, and A V is the gain of the device.In applications monitoring a high current, ensure that R SENSE is able to dissipate its own I 2R loss. If the resis-tor’s power dissipation is exceeded, its value may drift or it may fail altogether.The MAX4080/MAX4081 sense a wide variety of cur-rents with different sense-resistor values. Table 1 lists common resistor values for typical operation.M A X 4080/M A X 4081The full-scale output voltage is V OUT = R SENSE ✕I LOAD (MAX)✕A V , for the MAX4080 and V OUT = V REF ±R SENSE ✕ I LOAD(MAX)✕ A V for the MAX4081.V SENSE(MAX)is 1000mV for the 5V/V gain version,250mV for the 20V/V gain version, and 100mV for the 60V/V gain version.Choosing the Sense ResistorChoose R SENSE based on the following criteria:•Voltage Loss:A high R SENSE value causes the power-source voltage to degrade through IR loss. For minimal voltage loss, use the lowest R SENSE value.•Accuracy:A high R SENSE value allows lower cur-rents to be measured more accurately. This is due to offsets becoming less significant when the sense voltage is larger. For best performance, select R SENSE to provide approximately 1000mV (gain of 5V/V), 250mV (gain of 20V/V), or 100mV (gain of 60V/V) of sense voltage for the full-scale current in each application.•Efficiency and Power Dissipation:At high current levels, the I 2R losses in R SENSE can be significant.Take this into consideration when choosing the resistor value and its power dissipation (wattage)rating. Also, the sense resistor’s value might drift if it is allowed to heat up excessively.•Inductance:Keep inductance low if I SENSE has a large high-frequency component. Wire-wound resis-tors have the highest inductance, while metal film is somewhat better. Low-inductance, metal-film resis-tors are also available. Instead of being spiral-wrapped around a core, as in metal-film or wire-wound resistors, they are a straight band of metal and are available in values under 1Ω.Because of the high currents that flow through R SENSE ,take care to eliminate parasitic trace resistance from causing errors in the sense voltage. Either use a four-terminal current-sense resistor or use Kelvin (force and sense) PC board layout techniques.Dynamic Range ConsiderationAlthough the MAX4081 have fully symmetrical bidirec-tional V SENSE input capability, the output voltage range is usually higher from REF to V CC and lower from REF to GND (unless the supply voltage is at the lowest end of the operating range). Therefore, the user must con-sider the dynamic range of current monitored in both directions and choose the supply voltage and the refer-ence voltage (REF) to make sure the output swing above and below REF is adequate to handle the swings without clipping or running out of headroom.Power-Supply Bypassing and GroundingFor most applications, bypass V CC to GND with a 0.1µF ceramic capacitor. In many applications, V CC can be connected to one of the current monitor terminals (RS+or RS-). Because V CC is independent of the monitored voltage, V CC can be connected to a separate regulated supply.If V CC will be subject to fast-line transients, a series resistor can be added to the power-supply line of the MAX4080/MAX4081 to minimize output disturbance.This resistance and the decoupling capacitor reduce the rise time of the transient. For most applications, 1k Ωin conjunction with a 0.1µF bypass capacitor work well.The MAX4080/MAX4081 require no special considera-tions with respect to layout or grounding. Consideration should be given to minimizing errors due to the large charge and discharge currents in the system.76V , High-Side, Current-Sense Amplifiers with Voltage Output 12______________________________________________________________________________________Figure 4. MAX4081 Reference InputsPower ManagementThe bidirectional capability of the MAX4081 makes it an excellent candidate for use in smart battery packs. In the application diagram (Figure 5), the MAX4081 moni-tors the charging current into the battery as well as the discharge current out of the battery. The microcon-troller stores this information, allowing the system to query the battery's status as needed to make system power-management decisions.MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output______________________________________________________________________________________13Typical Operating CircuitChip InformationTRANSISTOR COUNT: 185PROCESS: BipolarFigure 5. MAX4081 Used In Smart-Battery ApplicationM A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 14______________________________________________________________________________________Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage OutputMaxim cannot assume responsib ility for use of any circuitry other than circuitry entirely emb odied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________15©2002 Maxim Integrated Productsis a registered trademark of Maxim Integrated Products.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)。

5、“热轧带钢”１．产品：普通碳素结构钢钢带标准：（GB/T3524-1992 、GB/T8164-1993 、QJ/HG02.22-1995规格：厚度： 2.0 -5.0mm 宽度：100 -230mm钢种：HG5 、Q215 、Q235２．产品：优质碳素结构钢钢带标准：（GB8749-1998 、GB/T8164-1993 size="3"> ）规格：厚度： 2.5 -4.5mm 宽度：钢种：10# 、20# 、45# 、50# 、40Mn 、45Mn 、65Mn ３．产品：自行车链条用钢带标准：QJ/HG02.15-1991规格：厚度： 2.75 -4.5mm 宽度：125 -205mm钢种：ZL20MnSi用途：焊接管用、工业链条用、自行车变速链条用、建筑机械、工具用、弹簧用（卷帘门弹簧、卡簧等）“ 冷轧带钢”１．产品：碳素结构钢冷轧钢带标准：（GB716-1991 、QJ/HG02.22-1995 ）规格：厚度：0.5 -2.0mm 宽度：≤ 205mm 钢种：HG5 、Q215 、Q235２．产品：优质碳素结构钢冷轧钢带标准：GB3522-1983 规格：厚度：0.5 -2.0mm 宽度：≤ 205mm钢种：10# 、20# 、40Mn 、45# 、50#３．产品：自行车链条用冷轧钢带标准：（QJ/HG02.15-1991 、GB3522-1983 ）规格：厚度：0.5 -2.0mm 宽度：125 -205mm钢种：ZL20MnSi 用途：工业链条用、自行车变速链条用、刀具用、家具用“ 小型材”１．产品：圆钢（小轧股份公司生产）标准：（GB699-1988 、GB700-1988 、GB3077-1988 、GB702-1986 、QJ/HG02.17-1991 ）规格：10 -42mm （10 、12 、14 、16 、18 、20 、22 、25 、28 、30 、32 、34 、35 、36 、38 、40 、42mm ）钢种：Q215 、Q235 、45# 、50# 、HG3 、20CrMnTi 、20Cr 、20CrMo 、35CrMo 、42CrMo 、60Si2Mn 、40Cr用途：机械零件、轴、五金工具、齿轮用钢、标准件用钢等；螺铆、螺栓、轴、销、自行车、摩托车等配件２．产品：螺纹钢筋标准:(GB1499-1991 、BS4449:1988 ）规格：10 、12 、14 、16 、18 、20 、22 、25 、28 、32 、36 、40mm钢种：20MnSi 、20MnV 、25MnSi 、BS20MnSi 。

热轧卷板简介热轧卷板热轧卷板，是以板坯（主要为连铸坯）为原料，经加热后由粗轧机组及精轧机组制成带钢。

从精轧最后一架轧机出来的热钢带通过层流冷却至设定温度，由卷取机卷成钢带卷，冷却后的钢带卷，根据用户的不同需求，经过不同的精整作业线（平整、矫直、横切或纵切、检验、称重、包装及标志等）加工而成为钢板、平整卷及纵切钢带产品。

由于热连轧钢板产品具有强度高，韧性好，易于加工成型及良好的可焊接性等优良性能，因而北广泛应用于船舶、汽车、桥梁、建筑、机械、压力容器等制造行业。

随着热轧尺寸精度、板形、表面质量等控制新技术的日益成熟以及新产品的不断问世，热连轧钢板、带产品得到了越来越广泛的应用并在市场上具有越来越强的竞争力。

热连轧钢板产品包括钢带（卷）及有其剪切而成的钢板。

而钢带（卷）可以分为直发卷及精整卷（分卷、平整卷及纵切卷）。

热连轧按其材质、性能的不同可分为：a) 普通碳素结构钢b) 低合金钢c) 合金钢按其用途的不同可分为：a) 冷成型用钢b) 结构钢c) 汽车结构钢d) 耐腐蚀结构用钢e) 机械结构用钢f) 焊接气瓶及压力容器用钢g) 管线用钢热连轧钢板产品，钢种规格品种繁多，用途广泛，从一般的工程结构至汽车、桥梁、船舶、锅炉压力容器等制造，都得到大量使用。

什么是热轧卷板：1、厚度：1.2mm—8/12mm（厚度不同，价格不同）2、宽度：1000mm/1250mm/1500mm（非标宽度一般要加价）3、牌号：国内：（硬、含碳高） Q235—Q215—Q195 （软、含碳低）日本： SS400—SS330—SPHC（国内一般套用）独联体： 08KP--08YU（较强拉深、深冲）德国： ST12— ST13— ST14（较强拉深、深冲）珠钢：ZJ330等4、卷重：主要是15吨/卷，也有要求10吨以下/卷。

要考虑开平机的承重、吊装设备的承重等问题.5、生产能力：厚度为0.9/1.2/1.5只有珠钢能够生产厚度为1.5mm邯钢、宝钢能够生产（邯钢质量较差）厚度为1.8mm本钢、鞍钢、太钢能够生产6、产品质量及价格：独联体：质量较差、价低。

TOSHIBA Field Effect Transistor Silicon N Channel MOS Type2SK4037470 MHz Band Amplifier Applications(Note)The TOSHIBA products listed in this document are intended for high frequency Power Amplifier of telecommunications equipment. These TOSHIBA products are neither intended nor warranted for any other use. Do not use these TOSHIBA products listed in this document except for high frequency Power Amplifier of telecommunications equipment• Output power: P o = 36.5dBmW (typ) • Gain: G p = 11.5dB (typ)• Drain Efficiency: ηD = 60.0% (typ)Absolute Maximum Ratings (Ta = 25°C)Characteristics Symbol Rating UnitDrain-source voltage V DSS 12 V Gate-source voltage V GSS (Note 1)3VDrain current I D 3 A Power dissipation P D (Note 2)20WChannel temperature T ch 150 °C Storage temperature rangeT stg−45~150 °CNote:Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in thereliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings.Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook (“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).Note 1: Operating Ranges: 0~3VNote 2: Tc = 25°C (When mounted on a 0.8 mm glass epoxy PCB)MarkingCaution: This device is sensitive to electrostatic discharge.Please make enough tool and equipment earthed when you handle.Unit: mmJEDEC―JEITA ― TOSHIBA 2-5N1A Weight: 0.08 g (typ.)Electrical Characteristics (Ta = 25°C)Characteristics Symbol Test Condition Min Typ. Max UnitOutput power P O 35.5 36.5 ⎯ dBmW Drain efficiency ηD 55.0 60.0 ⎯ % Power gain G pV DS = 6.0 V, Iidle = 250 mA(V GS = adjust)f = 470 MHz, P i = 25dBmWZ G = Z L = 50 Ω 10.5 11.5 ⎯ dBThreshold voltage V th V DS = 6.0 V, I D = 0.5 mA ⎯ 1.0 1.5 V Drain cut-off current I DSS V DS = 12 V, V GS = 0 V ⎯ ⎯ 10 μA Gate-source leakage currentI GSSV GS = 3V, V DS = 0 V⎯⎯ 5 μALoad mismatch (Note 3)⎯V DS = 6.0 V, f = 470 MHz, P i = 25dBmW,P o = 36.5dBmW (VGS = adjust) VSWR LOAD 10:1 all phaseNo degradation ⎯Note 3: These characteristic values are measured using measurement tools specified by Toshiba.Test CircuitZ G GS DS50 ΩL1: φ0.6 mm enamel wire, 5.8ID, 8T L2: φ0.6 mm enamel wire, 5.8ID, 8TLine: 2mmNote 4: These are only typical curves and devices are not necessarily guaranteed at these curves.RESTRICTIONS ON PRODUCT USE20070701-EN GENERAL •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patents or other rights of TOSHIBA or the third parties.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。