NP40类型

荧光原位杂交（FISH）操作常规FISH试剂：0.075M KCl （2月一次）固定液（甲醇：冰醋酸＝3 ：1）(一周一次)2×SSC (PH=7.0,一周一次)2×SSC 0.1%NP40 (PH=7.0,一周一次)0.4*SSC 0.3%NP40 (PH=7.0,一周一次)70％、85％、100％乙醇（一周一次）一、标本的采集1.1 外周血不少于2ml×2（WBC计数大于20×109），EDTA抗凝，4℃保存小于3天1.2 骨髓不少于1ml×2（BM增生明显活跃），肝素抗凝，保存时间小于3天，4℃保存二、标本前期处理2.1 .样本2500R离心8 min，让血细胞沉淀，去上清，留沉淀2.2 沉淀+ 0.075M KCl混合（1ml样本＋8ml KCl），吸管吹匀，水浴箱37℃低渗30 min 2.3 取出按样本：固定液＝10：1比例加固定液，固定液不的超过1 ml2.4 混匀，吹散细胞，1800R 离心8 min2.5 去上清，留沉淀，加5～10ml 固定液（不得超过10ml），混匀，静置10 min（吸去底部絮状沉淀）2.6 重复2.4～2.5步骤2次，（外周血2洗3次，骨髓3～4次）2.7 去上清液，加少许固定液1～2min 4℃保存1～2月（保存样本）三、标本玻片制备3.1 保存样本离心，加新鲜固定液，配制适当浓度滴到载玻片上，观察标本质量（10 Cell/HP）3.2 室温（20℃～37℃）2×SSC（Ph 7.0）液中浸泡2 min（老化）3.3 依次室温（20℃～37℃）70%、85％、100％乙醇中浸泡2 min（脱水）待干，3.4 适当区域滴加探针液6 ul ，18×18 盖玻片封盖，封片胶密闭封片无气泡、无空隙；待干四、变性杂交4.1 杂交仪预订程序75℃变性1～2min，37℃杂交不小于16 h（过程中保持湿度，湿条＋润湿纱布块）五、洗片5.1 小心去掉盖玻片和封片胶5.2 在75℃水浴箱中，玻片浸泡在0.4×SSC、0.3％NP40(pH7.0)（72℃+/-1℃）液中2 min 5.3 晾干，在2×SSC、0.1％NP40（pH7.0）室温中浸泡30s（背景信号好坏）5.4 晾干，加6ul DAPI antifade 到载玻片上，18×18盖玻片5.5暗环境，荧光显微镜观察2008-11-16。

12R e l e a s e da t e : 2 0 1 6 -12 -0 5 1 2 : 1 5 D a t e o f i s s u e : 2 0 1 7 -0 1 -0 2 2 13 8 3 9 _ e n g . x m lPinoutL+L-13421 BN2 B UWire colors in accordance with EN 60947-5-6(brown)(blue)3R e l e a s e d a t e : 2016-12-05 12:15D a t e o f i s s u e : 2017-01-02213839_e n g .x m lInstructionManual electrical apparatus for hazardous areas Device category 1Gfor use in hazardous areas with gas, vapour and mist EC-T ype Examination CertificateCE marking ATEX marking ¬ II 1G Ex ia IIC T6…T1 G aThe Ex-related marking can also be printed on the enclosed label.Standards EN 60079-0:2012+A11:2013 EN 60079-11:2012 Ignition protection "Intrinsic safety"Use is restricted to the following stated conditions Appropriate typeNBN40-U.K-N0...Effective internal inductivity C i≤ 105 nF ; a cable length of 10 m is considered.Effective internal inductance L i ≤ 300 µH ; a cable length of 10 m is considered.G eneralThe apparatus has to be operated according to the appropriate data in the data sheet and in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! Directive 94/9/EC and there-fore the EC-type-examination certificates generally apply only to the use of electrical apparatus under atmospheric conditions. The device has been checked for suitabil-ity for use at ambient temperatures of >60°C by the named certification authority. The surface temperature of the device remains within the required limits. If the equip-ment is not used under atmospheric conditions, a reduction of the permissible mini-mum ignition energies may have to be taken into consideration.Ambient temperatureDetails of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the temperature class, and the effective internal reac-tance values can be found on the EC-type examination certificate. Note: Use the temperature table for category 1 The 20 % reduction in accordance with EN 1127-1 has already been applied to the temperature table for category 1.Installation, commissioningLaws and/or regulations and standards governing the use or intended usage goal must be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. The associated apparatus must satisfy the requirements of category ia.Due to the possible danger of ignition, which can arise due to faults and/or transient currents in the equipotential bonding system, galvanic isolation of the power supply and signal circuit is preferable. Associated apparatus without electrical isolation must only be used if the appropriate requirements of IEC 60079-14 are met. If the Ex-related marking is printed only on the supplied label, then this must be attached in the immediate vicinity of the sensor. The sticking surface for the label must be clean and free from grease. The attached label must be legible and indelible, including in the event of possible chemical corrosion. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible.Special conditionsThe connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum. The maxi-mum allowable proportions of metallic materials in enclosure parts in accordance with IEC/EN 60079-0 have been exceeded. Check whether the device is suitable for the specific application, e.g., to prevent ignition hazards arising from impact or fric-tion.Protection from mechanical dangerWhen using the device in a temperature range of -60 °C to -20 °C, protect the sensor against the effects of impact by installing an additional enclosure. The information regarding the minimum ambient temperature for the sensor as provided in the datasheet must also be observed.Electrostatic chargeElectrostatic charges must be avoided on the mechanical housing components. Dangerous electrostatic charges on the mechanical housing components can be avoided by incorporating these in the equipotential bonding. Avoid electrostatic charges that can cause electrostatic discharge when installing or operating the device. Additional requirements for gas group IIC. Information on electrostatic haz-ards can be found in the technical specification IEC/TS 60079-32-1.4Releasedate:216-12-512:15Dateofissue:217-1-2213839_eng.xmlInstruction Manual electrical apparatus for hazardous areasDevice category 2G for use in hazardous areas with gas, vapour and mistEC-T ype Examination CertificateCE markingATEX marking ¬ II 1G Ex ia IIC T6…T1 G aThe Ex-related marking can also be printed on the enclosed label.Standards EN60079-0:2012+A11:2013,EN60079-11:2012Ignition protection "Intrinsic safety"Use is restricted to the following stated conditionsAppropriate type NBN40-U.K-N0...Effective internal inductivity C i≤ 105 nF ; a cable length of 10 m is considered.Effective internal inductance L i≤ 300 µH ; a cable length of 10 m is considered.G eneral The apparatus has to be operated according to the appropriate data in the data sheetand in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! Directive 94/9/EC and there-fore the EC-type-examination certificates generally apply only to the use of electricalapparatus under atmospheric conditions. The device has been checked for suitabil-ity for use at ambient temperatures of >60°C by the named certification authority.The surface temperature of the device remains within the required limits. If the equip-ment is not used under atmospheric conditions, a reduction of the permissible mini-mum ignition energies may have to be taken into consideration.Maximum permissible ambient temperature T amb Details of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the temperature class, and the effective internal reac-tance values can be found on the EC-type examination certificate.Installation, commissioning Laws and/or regulations and standards governing the use or intended usage goalmust be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. If the Ex-relatedmarking is printed only on the supplied label, then this must be attached in the imme-diate vicinity of the sensor. The sticking surface for the label must be clean and freefrom grease. The attached label must be legible and indelible, including in the eventof possible chemical corrosion. After opening the housing, you should check that theseal is in the correct position and is clean and intact before closing the housingagain.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible.Special conditions The connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical danger When using the device in a temperature range of -60 °C to -20 °C, protect the sensoragainst the effects of impact by installing an additional enclosure. The informationregarding the minimum ambient temperature for the sensor as provided in thedatasheet must also be observed.Electrostatic charge Electrostatic charges must be avoided on the mechanical housing components.Dangerous electrostatic charges on the mechanical housing components can beavoided by incorporating these in the equipotential bonding. Additional requirementsfor gas group IIC. Avoid electrostatic charges that can cause electrostatic dischargewhen installing or operating the device. Information on electrostatic hazards can befound in the technical specification IEC/TS60079-32-1.5R e l e a s e d a t e : 2016-12-05 12:15D a t e o f i s s u e : 2017-01-02213839_e n g .x m lInstructionManual electrical apparatus for hazardous areas Device category 3G (ic) for use in hazardous areas with gas, vapour and mist CertificateCE marking ATEX marking ¬ II 3G Ex ic IIC T6…T1 GcThe Ex-related marking can also be printed on the enclosed label.StandardsEN 60079-0:2012, EN 60079-11:2012 Ignition protection category "ic" Use is restricted to the following stated conditions Effective internal inductivity C i≤ 105 nF ; a cable length of 10 m is considered.Effective internal inductance L i≤ 300 µH ; A cable length of 10 m is considered.G eneralThe apparatus has to be operated according to the appropriate data in the data sheet and in this instruction manual. The data stated in the data sheet are restricted by this operating instruction!The special conditions must be observed!The ATEX Directive applies only to the use of apparatus under atmospheric condi-tions.If you use the device outside atmospheric conditions, consider that the permissible safety parameters should be reduced.Installation, commissioningLaws and/or regulations and standards governing the use or intended usage goal must be observed. The sensor must only be operated with energy-limited circuits, which satisfy the requirements of IEC 60079-11. The explosion group complies with the connected, supplying, power limiting circuit. If the Ex-relevant identification is printed exclusively on the adhesive label provided, this label must be affixed in the immediate vicinity of the sensor! The background surface to which the adhesivelabel is to be applied must be clean and free from grease! The applied label must be dura-ble and remain legible, with due consideration of the possibility of chemical corro-sion! After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.MaintenanceNo changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.Special conditionsfor Pi=34 mW, Ii=25 mA, T6 73 °C (163.4 °F) for Pi=34 mW, Ii=25 mA, T5 88 °C (190.4 °F) for Pi=34 mW, Ii=25 mA, T4-T1 100 °C (212 °F) for Pi=64 mW, Ii=25 mA, T6 66 °C (150.8 °F) for Pi=64 mW, Ii=25 mA, T5 81 °C (177.8 °F) for Pi=64 mW, Ii=25 mA, T4-T1 100 °C (212 °F) for Pi=169 mW, Ii=52 mA, T6 45 °C (113 °F) for Pi=169 mW, Ii=52 mA, T5 60 °C (140 °F) for Pi=169 mW, Ii=52 mA, T4-T1 89 °C (192.2 °F) for Pi=242 mW, Ii=76 mA, T6 30 °C (86 °F) for Pi=242 mW, Ii=76 mA, T5 45 °C (113 °F) for Pi=242 mW, Ii=76 mA, T4-T1 74 °C (165.2 °F)Protection from mechanical dangerThe sensor must not be mechanically damaged.When used in the temperature range below -20 °C the sensor should be protected from knocks by the provision of an additional housing.Electrostatic chargeWhen used in group IIC non-permissible electrostatic charges should be avoided on the plastic housing parts. Avoid electrostatic charges that can cause electrostatic dis-charge when installing or operating the device. Information on electrostatic hazards can be found in the technical specification IEC/TS 60079-32-1. Electrostatic charges must be avoided on the mechanical housing components. Dangerous electrostatic charges on the mechanical housing components can be avoided by incorporating these in the equipotential bonding.Connection partsThe connection parts are to be installed, such that a minimum protection class of IP20 is achieved, in accordance with IEC 60529.6Releasedate:216-12-512:15Dateofissue:217-1-2213839_eng.xml Instruction Manual electrical apparatus for hazardous areasDevice category 1D for use in hazardous areas with combustible dustEC-T ype Examination Certificate PTB 00 ATEX 2032 XATEX marking ¬ II 1D Ex ia IIIC T135°C DaThe Ex-related marking can also be printed on the enclosed label.Standards EN 60079-0:2012+A11:2013 EN 60079-11:2012Ignition protection "Intrinsic safety" Use is restricted to the following stated condi-tionsAppropriate type NBN40-U.K-N0...Effective internal inductivity C i≤ 105 nF ; a cable length of 10 m is considered.Effective internal inductance L i≤ 300 µH ; a cable length of 10 m is considered.G eneral The apparatus has to be operated according to the appropriate data in the data sheetand in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! The ATEX directive and there-fore the EU-type examination certificates are in general only applicable to the use ofelectrical apparatus operating at atmospheric conditions.The use in ambient temperatures of > 60 °C was tested with regard to hot surfacesby the mentioned certification authority.If the equipment is not used under atmospheric conditions, a reduction of the permis-sible minimum ignition energies may have to be taken into consideration. Permissible ambient temperature range Details of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the surface temperature, and the effective internalreactance values can be found on the EC-type-examination certificate. The maxi-mum permissible ambient temperature of the data sheet must be noted, inaddition, the lower of the two values must be maintained.Installation, commissioning Laws and/or regulations and standards governing the use or intended usage goalmust be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. If the Ex-relatedmarking is printed only on the supplied label, then this must be attached in the imme-diate vicinity of the sensor. The sticking surface for the label must be clean and freefrom grease. The attached label must be legible and indelible, including in the eventof possible chemical corrosion. After opening the housing, you should check that theseal is in the correct position and is clean and intact before closing the housingagain.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible. After opening the housing, you shouldcheck that the seal is in the correct position and is clean and intact before closing thehousing again.Special conditions The connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical danger When using the device in a temperature range of -60 °C to -20 °C, protect the sensoragainst the effects of impact by installing an additional enclosure. The informationregarding the minimum ambient temperature for the sensor as provided in thedatasheet must also be observed.Electrostatic charge Avoid electrostatic charges that can cause electrostatic discharge when installing oroperating the device. Information on electrostatic hazards can be found in the techni-cal specification IEC/TS60079-32-1. Electrostatic charges must be avoided on themechanical housing components. Dangerous electrostatic charges on the mechani-cal housing components can be avoided by incorporating these in the equipotentialbonding. Do not attach the nameplate provided in areas where electrostatic chargecan build up.。

bcd工艺中npn和pnp结构
在BCD（Bipolar-CMOS-DMOS）工艺中，NP结构（NPN结构）和PNP结构是两种常见的双极型晶体管结构。

1. NPN结构：NPN结构由两个N型区域夹一个P型区域组成。

其中，两个N型区域被称为发射区和集电区，P型区域被称为基区。

NPN晶体管可以被用作放大器和开关。

当输入到基极
的电流够大时，它将通过基极-发射区结，导致集电区与发射
区之间的电流放大。

2. PNP结构：PNP结构由两个P型区域夹一个N型区域组成。

其中，两个P型区域被称为发射区和集电区，N型区域被称为基区。

PNP晶体管也可以用作放大器和开关。

当输入到基极
的电流够大时，它将通过基极-发射区结，导致集电区与发射
区之间的电流放大。

这两种结构在BCD工艺中广泛应用于模拟和数字电路设计。

它们可以在同一芯片上与CMOS和DMOS等其他器件结合，
以实现高度集成的电子系统。

Working protocol for CO-IPDAY 1接种细胞DAY 2换细胞液（无PS），并转染（36h RNA表达量最高，48h蛋白表达量最高）DAY 3观察细胞长势DAY 41.add 500ul NP-40 lysis buffer (1:100 protease inhibitor) to the cell plate (6 wells plate),incubating 30min, at 4℃2.Wash protein-A sepharose with NP40 rinsing buffer 3 times, centrifuging at 6,000g 2 minand store at 4℃(50ul for each protein sample=25ul for blocking + 25ul for co-IP)3.transfer cell lysis to a new 1.5ml tube and centrifuge at 12,000rpm for 15 min, at 4℃4.aliquot 60ul and store at -80℃for input control5.add 25ul protein-A sepharose to the rest of supernatant, at 4℃, O/N(目的：Pre-coupling of protein- A sepharose)DAY 5 (8:30开始-11:30-13:30-15:00-15:30跑胶-17:30转膜-19:00封闭-/21:00加一抗)6.centrifuge at 3,000g for 2 min and collect supernatant7.Add more than 1ug(2~3ul) IP-antibody to the supernatant, incubating for 2h-4h(取3h),at4℃8.Add 25 ul fresh protein- A sepharose , for 2h ,at 4℃9.Wash the mix with NP40 rinsing buffer more than 8 times, incubating 5 min and cetrifuging2min at 4℃10.Collect the sepharose (~60ul), then boil in SDS-loading buffer for 15 min to elute coupledprotein.11.cetrifuge at 12,000rpm，2 min12.Western blotting80v，40min；120v，1h20min0.35A，1h5%milk(TBST稀释) 封闭；2.5%milk 稀释抗体western blotting 的膜再生1、TBST洗10min2、用PBS密封，于99℃水浴中加热3min3、立即置于冰水中冷却3min4、TBST洗30min5、加一抗2h/过夜所用试剂1)NP-40裂解液Protease inhibitor cocktail (Sigma，#P8340，l:100 dilution)2)ProteinA Sepharose3)NP-40 washing buffer50mM Tris-HCl(pH7.4)150mM NaCI0.1 % NP-400.15 %(w/v) BSA10 %(v/v) 甘油Protease inhibitor cocktail (Sigma，#P8340，l:100 dilution)，一般不加4)Loading buffer ：。

常用光耦简介及常见型号光电耦合器（简称光耦）是开关电源电路中常用的器件。

光电耦合器分为两种：一种为非线性光耦，另一种为线性光耦。

常用的4N系列光耦属于非线性光耦常用的线性光耦是PC817A—C系列。

非线性光耦的电流传输特性曲线是非线性的，这类光耦适合于弄开关信号的传输，不适合于传输模拟量。

线性光耦的电流传输手特性曲线接进直线，并且小信号时性能较好，能以线性特性进行隔离控制。

开关电源中常用的光耦是线性光耦。

如果使用非线性光耦，有可能使振荡波形变坏，严重时出现寄生振荡，使数千赫的振荡频率被数十到数百赫的低频振荡依次为号调制。

由此产生的后果是对彩电，彩显，VCD，DCD等等，将在图像画面上产生干扰。

同时电源带负载能力下降。

在彩电，显示器等开关电源维修中如果光耦损坏，一定要用线性光耦代换。

常用的4脚线性光耦有PC817A----C。

PC111 TLP521等常用的六脚线性光耦有：TLP632 TLP532 PC614 PC714 PS2031等。

常用的4N25 4N26 4N35 4N36是不适合用于开关电源中的，因为这4种光耦均属于非线性光耦。

经查大量资料后，以下是目前市场上常见的高速光藕型号：100K bit/S:6N138、6N139、PS87031M bit/S:6N135、6N136、CNW135、CNW136、PS8601、PS8602、PS8701、PS9613、PS9713、CNW4502、HCPL-2503、HCPL-4502、HCPL-2530（双路）、HCPL-2531（双路）10M bit/S:6N137、PS9614、PS9714、PS9611、PS9715、HCPL-2601、HCPL-2611、HCPL-2630（双路）、HCPL－2631（双路）光耦合器的增益被称为晶体管输出器件的电流传输比(CTR)，其定义是光电晶体管集电极电流与LED正向电流的比率(ICE/IF)。

光电晶体管集电极电流与VCE有关，即集电极和发射极之间的电压。

Santoprene™ 103-40Thermoplastic Vulcanizate产品说明关键特性 • UL它是热塑性弹性体（TPE ）系列中的一种硬质、黑色、通用型热塑性硫化弹性体（TPV ） 。

这种材料同时具有良好的物理性质和耐化学性， 适用于广泛的领域。

这一牌号的山都平 TPV 是剪切速率依赖型产品，列名：档案号：#QMFZ2.E80017，塑料部件；档案号：#QMFZ8.E80017，加拿大认证的塑料部件。

-尽管此产品未经 NSF 认证，但是它已经在 NSF备案了一份《材料提供商申请表》，可在常规热塑性注塑成型、挤出成型、吹塑成型、热成型或真空成型 设备上加工。

它是聚烯烃基产品，可以完全回收利用。

这可以方便评估此产品能否用于需要 NSF 认证的应用中。

- 优异的耐臭氧性能。

- 符合 RoHS 规范。

总体 供货地区 1 • 北美洲 • 非洲和中东 • 拉丁美洲 • 南美洲• 欧洲 • 亚太地区 应用• 汽车 -• 汽车 - 进气系统导管• 汽车 -火花塞、保险杠、护孔环、管 转向和悬挂系统的防尘套和风 夹箱用途• 电气部件 • 隔膜 • 活动的铰链 • 家电部件 • 汽车领域的应用： • 消费品应用领域 • 管道 • 汽车的发动机罩下的零件 机构评级 • EU Annex XVII of Regulation • UL QMFZ2(EC) No 1907/2006• UL QMFZ8RoHS 合规性 汽车要求 • RoHS 合规• CHRYSLER MS-AR100 FGN • GM GMP.E/P.006 • FORD WSD-M2D441-A • GM GMW15813, Type 9 UL 档案号 外观 • E80017 • 黑色 形式 • 颗粒料 加工方法• 吹塑成型• 多次注射成型 • 共挤出成型 • 挤出 • 挤出吹塑成型 • 片材挤出成型 • 热成型• 真空成型 • 注吹成型 • 注射成型• 型材挤出成型修订信息 • 01/22/2013物理性能 典型数值 (英制 ) 典型数值 (公制 ) 测试依据 ASTM D792 ISO 1183 UL 749 比重 0.950 0.950 密度0.950 g/cm³0.950 g/cm³Detergent Resistance Detergent Resistance f3f4f3f4UL 2157 硬度典型数值 (英制 )41典型数值 (公制 )41测试依据 ISO 868支撐硬度邵氏 D, 15 秒, 73°F (23°C), 0.0787 in (2.00 m m) 弹性体典型数值 (英制 )1310 psi 典型数值 (公制 )9.00 MPa测试依据 拉伸应力（在100％时） - 横向流量 (73°F (23°C))ASTM D412弹性体典型数值 (英制 )典型数值 (公制 )9.00 MPa测试依据 ISO 37 拉伸应力（在100％时） - 横向流量 (73°F (23°C)) 1310 psi 拉伸断裂强度 - 横向流量 (73°F (23°C)) 拉伸断裂应力 - 横向流量 (73°F (23°C)) 3000 psi3000 psi 610 % 20.7 MPa 20.7 MPa 610 % ASTM D412 ISO 37 伸长率（在断裂伸长时） - 横向流量 (73°F (23°C)) ASTM D412 拉伸断裂应变 - 横向流量 (73°F (23°C)) 撕裂强度 - 横向流量 (73°F (23°C), C 模具) 610 % 610 % ISO 37 383 lbf/in 380 lbf/in67.0 kN/m 67 kN/mASTM D624 ISO 34-1撕裂强度 - 横向流量 (73°F (23°C), B方法，直角形试样（割口）) 压缩永久变形ASTM D395BISO 815158°F (70°C), 22.0 hr, 类型 1 257°F (125°C), 70.0 h r, 类型 1 压缩永久变形54 % 61 % 54 %61 % 158°F (70°C), 22.0 hr, 类型 A 257°F (125°C), 70.0 h r, 类型 A 54 % 61 % 54 % 61 % 热性能 典型数值 (英制 )-62 °F典型数值 (公制 )-52 °C测试依据ASTM D746 ISO 812 UL 746 脆化温度 脆化温度 RTI Elec RTI Str -62 °F -52 °C 185 °F 85.0 °C 185 °F 85.0 °C UL 746 电气性能典型数值 (英制 ) 800 V/mil典型数值 (公制 ) 32 kV/mm测试依据 介电强度 (73°F (23°C), 0.0800 in (2.03 mm))ASTM D149 介电常数 (73°F (23°C), 0.0780 in (1.98 mm))2.60 2.60 2.60 2.60 ASTM D150 IEC 60250 介电常数 (73°F (23°C), 0.0780 in (1.98 mm))相比耐漏电起痕指数(CTI) 高电弧燃烧指数(HAI)高压电弧抗压指数 (HVAR) (PLC) 高电压电弧起痕速率 (HVTR) 热丝引燃 (HWI) PLC 0 PLC 0 PLC 5 PLC 1 PLC 0 PLC 0 PLC 5 PLC 1 UL 746 UL 746 UL 746 UL 746 UL 7460.0394 in (1.00 m m) PLC 4 PLC 3 PLC 2 PLC 4 PLC 3 PLC 2 0.0591 in (1.50 m m) 0.118 in (3.00 m m) 注射 典型数值 (英制 )180 °F 典型数值 (公制 )82.2 °C 干燥温度 干燥时间3.0 hr 3.0 hr 建议的最大水分含量 建议的最大回制料比例 螺筒后部温度 螺筒中部温度 螺筒前部温度 射嘴温度0.080 % 20 % 0.080 % 20 % 380 °F 193 °C 390 °F199 °C400 °F204 °C410 到 460 °F210 到 238 °C注射典型数值 (英制 )典型数值 (公制 ) 216 到 232 °C 10.0 到 51.7 °C快速加工（熔体）温度420 到 450 °F 50.0 到 125 °F快速模具温度注射速度 背压 50.0 到 100 psi 100 到 200 rpm 3.0 到 5.0 tons/in² 0.125 到 0.250 in0.345 到 0.689 MPa 100 到 200 rpm41 到 69 MPa 3.18 到 6.35 mm 螺杆转速 合模力 垫层螺杆长径比 16.0:1.0 至 20.0:1.0 16.0:1.0 至 20.0:1.0 螺杆压缩比 排气孔深度 2.0:1.0 至 2.5:1.00.0010 in2.0:1.0 至 2.5:1.00.025 m m注射说明Santoprene TPV 与乙缩醛和PVC 不相容。

三极管5401参数
摘要：
I.简介
- 介绍三极管5401 参数
II.5401 三极管参数详解
- 类型：PNP 型小功率管
- 封装：TO-92
- 电流放大系数：β=100
- 极性：N-C-E
- 工作温度范围：-40°C to +100°C
- 静态电容：Cc=2.5 pF
III.5401 三极管的替换
- 可以使用9012、9013 二极管代替
- 若要使用大功率管代替，可以考虑使用2N3904、2N3906 等
IV.总结
- 5401 三极管参数及其应用概述
正文：
三极管是一种常用的半导体元器件，广泛应用于放大、开关、调制、稳压等电路中。

今天，我们来详细了解一下三极管5401 的参数。

首先，我们来了解一下三极管5401 的基本参数。

三极管5401 是一种PNP 型小功率管，采用TO-92 封装。

它的电流放大系数β=100，极性为N-
C-E，工作温度范围为-40°C to +100°C。

此外，它的静态电容Cc 为2.5 pF。

接下来，我们来看一下如何替换三极管5401。

如果手头没有5401 三极管，可以使用9012、9013 二极管来代替。

这两种二极管的参数与5401 较为接近，可以满足一般应用需求。

当然，如果需要更高功率的器件，可以考虑使用2N3904、2N3906 等大功率三极管来替代。

综上所述，三极管5401 参数包括类型、封装、电流放大系数、极性、工作温度范围和静态电容等方面，可以根据具体需求选择合适的器件进行替换。