BSP62T1中文资料

<62>非无菌产品的微生物学检查：指定微生物检查导言以下描述的这些检测将使确定特定微生物不存在或数量在限度内的测定得以进行，这些微生物可以在描述的条件下进行检测。

这些测试主要设计用于测定某种物质或制备品是否符合已确立的微生物质量标准。

当用于此目的时，遵循以下所给的说明，包括待取样品的数量，并按照以下所述来解释结果。

可以使用替代的微生物规程，包括自动化方法，只要它们与药典方法的同等性得到论证。

通用规程按照在非无菌产品微生物学检查：微生物计数检查法<61>中的描述进行样品制备。

如果供试品具有抗菌活性，则按照非无菌产品微生物学检查：微生物计数检查法<61>中的描述尽可能将其去除或中和。

如果表面活性物质被用于样品制备，则必须按照在非无菌产品微生物学检查：微生物计数检查法<61>中的描述来论证其对微生物不具毒性以及其与所使用的任何灭活剂的兼容性，。

培养基的生长促进和抑菌性能以及测试的适用性在存在供试品的情况下，此项测试检测微生物的能力必须得到确立。

如果在测试性能或产品中作了变更且这些变更可能影响测试的结果，则其适用性必须得到确认。

供试菌株的制备按下面所述，使用标准化的稳定供试菌株悬浮液。

使用菌种保存技术（种子批系统），以便用于接种的可萌发微生物从最初的主种子批开始不超过5代。

好氧微生物将每个供试细菌菌株单独置于装有大豆酪蛋白消化物肉汤培养基或者大豆酪蛋白消化物琼脂培养基中容器内，在温度30o至35 o之间培养18至24小时。

将白色念珠菌的供试菌株单独置于（沙氏）葡萄糖琼脂培养基或者（沙氏）葡萄糖肉汤中，在温度20o至25 o之间培养2至3天。

金黄色葡萄球菌如ATCC 6538, NCIMB 9518, CIP 4.83,或 NBRC 13276绿脓杆菌如ATCC 9027, NCIMB 8626, CIP82.118, 或NBRC 13275Esherichia coli 大肠杆菌如ATCC 8739, NCIMB 8545, CIP53.126, 或NBRC 3972沙门氏肠道菌，肠道血清型为鼠伤寒沙门氏菌，作为替代品如ATCC 14028沙门氏肠道菌，肠道血清型为阿邦尼沙门氏菌如NBRC 100797, NCTC 6017, 或 CIP 80.39白色念珠菌如ATCC 10231, NCPF 3197, IP 48.72,或NBRC 1594使用pH值7.0的缓冲氯化钠—蛋白胨溶液或pH值7.2的磷酸盐缓冲液来制备检测供试悬浮液。

polypeptides. The precise method of calculation gets a bit abstruse, but an illustration may demystify some aspects.The procedure for calculating a BLOSUM matrix is based on a likelihood method estimating the occurrence of each possible pairwise substitution. A very simple illustration of such a calculation for a very short segment is given below to illustrate the process. The polypeptides were initially aligned using an identity scoring matrix. Only aligned blocks are used to calculate the BLOSUMs.Assume that the following 5 proteins were aligned as follows:AVAAAAVAAAAVAAAAVLAAVVAALFirst, we have to decide whether each sequence should count equally in this process. If this database were a global representation, they should. However, databases of today typically over-represent certain classes of proteins. Therefore, the first step is to reduce this over-representation and make the dataset more representative. One method of doing this is to count all the identical blocks as if they were a single block, reducing the aligned database to:AVAAAAVLAAVVAALNext, at each position, we must calculate the observed and expected pairwise substitutions. At position 1, we have:AA A-A, A-V, A-V are the observed substitutions. Without specifying the necessary calculations, one V can see that the substitution of A for A or A for V are quite likely and that A-X is not!Why is BLOSUM62 called BLOSUM62? Basically, this is because all blocks whose members shared at least 62% identity with ANY other member of that block were averaged and represented as 1 sequence. How would this work with our example?AVAAAAVAAAAVAAAAVLAAVVAAL1-4 are all 80% identical to each other. Sequence 5 is less than 62% (it is 60% identical to 1-3 and t0 #4). This means that the BLOCK used to make a BLOSUM62 would be: (note the averaging!)AVA(3/4)AAL(1/4)VVA*****ALHow does the matrix relate to structural similarity? Most biochemists group the amino acids as follows: G,A,V,L,I, M aliphatic (though some would not include G)S,T,C hydroxyl, sulfhydryl, polarN,Q amide side chainsF,W,Y aromaticH,K,R basicD,E acidicSome rather anomalous substitutions relative to these groupings are highlighted below. For example, it seems VERY surprising to me that K-E substitution is not unusual. That changes charge! This suggests that what evolution thinks is “similar” is not necessarily similar to the molecular biologist.(Of cou rse, it is also possible that K-E substitu tion in one position is also often correlated with a E-K substitution elsewhere, and that what one retains is the electrostatic interaction between charged residues. Much like G-C or C-G compensating mu tations in stem-。

TOSHIBA Photocoupler GaA ℓAs Ired & Photo −ICTLP2601Isolated Line ReceiverSimplex / Multiplex Data Transmission Computer −Peripheral Interface Microprocessor System InterfaceDigital Isolation For A/D, D/A Conversion Direct Replacement For HCPL −2601The TOSHIBA TLP2601 a photocoupler which combines a GaA ℓAs IRed as the emitter and an integrated high gain, high speed photodetector. The output of the detector circuit is an open collector, Schottky clamped transistor.A Faraday shield integrated on the photodetector chip reduces the effects of capacitive coupling between the input LED emitter and the high gain stages of the detector. This provides an effective common mode transient immunity of 1000V/µs.· Input current thresholds: I F = 5mA max. · Isolation voltage: 2500Vrms min. · Switching speed: 10MBd· Common mode transient immunity: 1000V/µs min. · Guaranteed performance over temp.: 0°C~70°C · UL Recognized: UL1577, file No. E67349Truth Table(positive logic)Input Enable Output H H L L H HH L H L L HA 0.01 to 0.1µF bypass capacitor must be connected between pins 8 and 5 (see Note 1).Pin Configuration (top view)SchematicV F23V CC V OV EGNDTOSHIBA 11−10C4 Weight: 0.54gUnit in mmRecommended Operating ConditionsCharacteristic Symbol Min. Typ. Max. UnitInput current, low level I FL 0 ¾ 250 µA Input current, high level I FH 6.3 (*)¾ 20 mA Supply voltage, output V CC 4.5 ¾ 5.5 V High level enable voltage V EH 2.0 ¾V CC VLow level enable voltage V EL 0 ¾ 0.8 V Fan out (TTL load) N¾¾ 8 ¾Operating temperatureT opr 0 ¾ 70 °C(*) 6.3mA is a guard banded value which allows for at least 20% CTR degradation. Initial input current threshold value is 5.0mA or less.Maximum Ratings (no derating required)Characteristic Symbol Rating UnitForward current I F20 mAL E DReverse voltage V R 5 V Output current I O 25 mA Output voltage V O-0.5~7 VSupply voltage (1 minute maximum) V CC 7 VEnable input voltage(not to exceed V CC by more than 500mV) V E 5.5 V D e t e c t o rOutput collector power dissipation P o 40 mW Operating temperature range T opr -40~85 °C Storage temperature range T stg-55~125°CLead solder temperature (10s) (**)T sol 260 °C 2500VrmsIsolation voltage (R.H.≤ 60%,AC 1min.,(Note 10)BV S3540 V dc(**) 1.6mm below seating plane.Electrical Characteristics (Ta = 0°C ~70°C unless otherwise noted)Characteristic Symbol TestCondition Min.Typ.Max.UnitHigh level output current I OH V CC = 5.5V, V O = 5.5VI F = 250m A, V E = 2.0V¾ 1 250m ALow level output voltage V OL V CC = 5.5V, I F = 5mAV E = 2.0V, I OL(sinking) = 13mA¾ 0.4 0.6 VHigh level supply current I CCH V CC = 5.5V, I F = 0, V E = 0.5V ¾ 7 15mALow level supply current I CCL V CC = 5.5V, I F = 10mAV E = 0.5V¾ 12 19mALow level enable current I EL V CC = 5.5V, V E = 0.5V ¾-1.6 -2.0 mA High level enable current I EH V CC = 5.5V, V E = 2.0V ¾-1 ¾mAHigh level enable voltage V EH(Note11) 2.0 ¾¾Low level enable voltage V EL¾¾¾ 0.8VInput forward voltage V F I F = 10mA, Ta = 25℃¾ 1.65 1.75 VInput reverse breakdown voltage BV R I R = 10m A, Ta = 25℃ 5¾¾ VInput capacitance C IN V F = 0, f = 1MHz ¾ 45 ¾ pF Input diode temperaturecoefficient∆V F/∆T A I F = 10mA ¾-2.0 ¾mV / °CInput-output insulation leakage current I I-ORelative humidity = 45%Ta=25℃, t = 5 secondV I-O = 3000Vdc, (Note 10)¾¾ 1 m AResistance (input-output) R I-O V I-O = 500V, R.H.≤ 60%(Note10)5×10101014¾WCapacitance (input-output) C I-O f = 1MHz, (Note 10)¾ 0.6 ¾ pF (**)All typ.values are at V CC = 5V, Ta = 25°C.Switching Characteristics (Ta = 25℃, V CC = 5 V)Characteristic SymbolTestCircuitTest ConditionMin.Typ.Max.UnitPropagation delay time to high output levelt pLH― 60 75 nsPropagation delay time to low output levelt pHL― 60 75 ns Output rise time(10-90%) t r ― 30 ― ns Output fall time(90-10%) t f 1R L = 350Ω, C L = 15pFI F = 7.5mA (Note 2), (Note 3),(Note 4)&(Note 5)― 30 ― nsPropagation delay time of enable from V EH to V EL t ELH― 25 ― nsPropagation delay time of enable from V EL to V EHt EHL2R L = 350Ω, C L = 15pF I F = 7.5mA V EH = 3.0V V EL = 0.5V(Note 6)&(Note 7)― 25 ― nsCommon mode transient immunity at high output levelCM HV CM = 400VR L = 350Ω V O(min.) = 2V I F = 0mA, (Note 9)1000 10000 ― V/µsCommon mode transient immunity at low output levelCM L 3V CM = 400V R L = 350Ω V O(max.) = 0.8V I F = 7.5mA,(Note 8)-1000 -10000― V/µsTest Circuit 1.Test Circuit 2.Test Circuit 3.V OH V OLOutput V OInput I Ft pHL and t pLH (*) C L is approximately 15pF which includes probe and straywiring capacitance.V OHV OLOutput V OInput V Et ELH and t EHL(*) C L is approximately 15pF which includes probe and stray wiring capacitance.V O5V V CM V OV OSwitch at B : I F = 5mAD V F / D Ta – I FForward current I F (mA)F o r w a r d v o l t a g e t e m p e r a t u r e c o e f f i c i e n t D V F /D T a (m V /°C )-1.40.10.3 1 3 10 30-1.6-1.8-2.0-2.2-2.4-2.6I F – V FForward voltage V F (V)f o r w a r d c u r r e n t I F (m A )1.01.2 1.4 1.61.8V O – I FForward current I F (mA)O u t p u t v o l t a g e V O (V )123456I OH – TaAmbient temperature Ta (°C)H i g h l e v e l o u t p u t c u r r e nt I O H (m A )3456V O – I FForward current I F (mA)O u t p u t v o l t a g e V O (V )V OL – T aL o w l e v e l o u t p u t v o l t a g e V O L (V )Ambient temperature Ta (°C)0 20 40 60t pHL, t pLH – I FForward current I F(mA)P r o p a g a t i o n d e l a y t i m e t p H L , t p L H (n s )79 11 13 15 17t pHL, t pLH – TaAmbient temperature Ta (°C)P r o p a g a t i o n d e l a y t i m e t p H L , t p L H (ns )0 7010 20 30 40 50 60t r, t f – TaR i s e , f a l l t i m e t r , t f (n s )Ambient temperature Ta (°C)7010 20 30 40 50 60t EHL, t ELH – TaAmbient temperature Ta (°C)E n a b l e p r o p a g a t i o n d e l a y t i m e t E H L , t E L H (n s )0 7030 40 50 60Notes1. The V CC supply voltage to each TLP2601 isolator must be bypassed by a 0.1µF capacitor of larger.This can beeither a ceramic or solid tantalum capacitor with good high frequency characteristic and should be connected as close aspossible to the package V CC and GND pins of each device.2. t pHL ･ Propagation delay is measured from the3.75mA level on the low to high transition of the inputcurrent pulse to the 1.5V level on the high to low transition of the output voltage pulse.3. t pLH ･ Propagation delay is measured from the 3.75mA level on the high to low transition of the inputcurrent pulse to the 1.5V level on the low to high transition of the output voltage pulse.4. t f ･ Fall time is measured from the 10% to the 90% levels of the high to low transition on the outputpulse.5. t r ･ Rise time is measured from the 90% to 10% levels of the low to high transition on the outputpulse.6. t EHL ･ Enable input propagation delay is measured from the 1.5V level on the low to high transition ofthe input voltage pulse to the 1.5V level on the high to low transition of the output voltage pulse.7. t ELH ･ Enable input propagation delay is measured from the 1.5V level on the high to low transition ofthe input voltage pulse to the 1.5V level on the low to high transition of the output voltage pulse.8. CM L ･ The maximum tolerable rate of fall of the common mode voltage to ensure the output will remainin the low output state (i.e., V OUT < 0.8V).Measured in volts per microsecond (V / µs).9. CM H ･ The maximum tolerable rate of fall of the common mode voltage to ensure the output will remainin the high state (i.e., V OUT > 2.0V).Measured in volts per microsecond(V / µs). Volts/microsecond can be translated to sinusoidal voltages:V / µs = Max.dt )CM (dv = f CM V CM (p.p.)Example: V CM = 318V pp when f CM = 1MHz using CM L and CM H = 1000V / µs data sheet specifiedminimum.10. ･ Device considered a two -terminal device: Pins 1, 2, 3 and 4 shorted together, and Pins 5, 6, 7 and8 shorted together.11. Enable ･ No pull up resistor required as the device has an internal pull up resistor. input· 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 this document shall be made at the customer’s own risk. · Gallium arsenide (GaAs) is a substance used in the products described in this document. GaAs dust and fumes are toxic. Do not break, cut or pulverize the product, or use chemicals to dissolve them. When disposing of the products, follow the appropriate regulations. Do not dispose of the products with other industrial waste or with domestic garbage. · The products described in this document are subject to the foreign exchange and foreign trade laws.· The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any intellectual property or other rights of TOSHIBA CORPORATION or others. · The information contained herein is subject to change without notice.000707EBCRESTRICTIONS ON PRODUCT USE。

GeneCopoeia TMExpressway to DiscoveryGeneCopoeia Inc.19520Amaranth DriveGermantown,Maryland20874USATel(China):4006-020-200Web: E.coli Competent Cells2T1产品套装编号：CC007产品内容产品编号包装规格Competent Cells2T1CC007-01100μl×10 Control DNA（pUC19，10pg/µl）CC003-0250μl×1储存条件：-80℃保存保存时间：12月■产品概述：大肠杆菌2-T1菌株是克隆实验中理想的菌株，具有许多优点；这些优点包括：1.自身具有四环素抗性基因（Tet R）。

2.高的转化效率（大于1x109cfu/ug DNA）。

3.去除了mcr A,mrr,mcr BC,和hsd RMS等限制性系统，适合构建高质量的基因组文库。

4.ton A基因型能够阻止噬菌体T1和T5的感染。

5.形成菌落时间较其他菌株快（12小时）。

■Genotype：F′{pro AB+lac Iq lac Z∆M15Tn10(Tet R)∆(ccd AB)}mcr A∆(mrr-hsd RMS-mcr BC)φ80(lac Z)∆M15∆(lac ZYA-argF)U169end A1rec A1sup E44thi-1gyr A96rel A1ton A pan D.■细胞种类：大肠杆菌2T1可以使用IPTG诱导lac启动子表达目的基因。

■转化效率：我们提供的感受态的转化效率>1X109transformants/1µg PUC19Plasmid.也就是，当您以100µl Competent Cells2T1/10pg pUC19Plasmid进行转化,产生的菌落数＞1000transformants■使用步骤：1.把感受态细胞置于冰中解冻。

SG62211Description• H igh-quality miniature circuit breakers for commercial and residential applications • Contact position indicator red - green• Guide for secure terminal connection• 3-position DIN rail clip, permits removal from existing busbar system• C omprehensive range of accessories can be mounted subsequently• Rated currents up to 63 A• Tripping characteristics B, C, D• R ated breaking capacity 6 kA according to IEC/EN 60898-1Rated current I n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic BSG454111PL6-B1/116474012/1201.5PL6-B1,5/116473612/1201.6PL6-B1,6/116473712/1202PL6-B2/128651612/1202.5PL6-B2,5/116474112/1203PL6-B3/116474312/1203.5PL6-B3,5/116474212/1204PL6-B4/128651712/1205PL6-B5/116474412/1206PL6-B6/128651812/1208PL6-B8/116474512/12010PL6-B10/128651912/12012PL6-B12/116473812/12013PL6-B13/128652012/12015PL6-B15/116473912/12016PL6-B16/128652112/12020PL6-B20/128652212/12025PL6-B25/128652312/12032PL6-B32/128652412/12040PL6-B40/128652512/12050PL6-B50/128652612/12063PL6-B63/128652712/1201-poleSG514111PL6-B1/1N1649038/801.5PL6-B1,5/1N1649018/801.6PL6-B1,6/1N1649028/802PL6-B2/1N1649078/802.5PL6-B2,5/1N1649068/803PL6-B3/1N1649118/803.5PL6-B3,5/1N1649108/804PL6-B4/1N1649138/805PL6-B5/1N1649148/806PL6-B6/1N1060258/808PL6-B8/1N1649158/8010PL6-B10/1N1060268/8012PL6-B12/1N1649048/8013PL6-B13/1N1060278/8015PL6-B15/1N1649058/8016PL6-B16/1N1060288/8020PL6-B20/1N1649088/8025PL6-B25/1N1649098/8032PL6-B32/1N1649128/801+N-poleRated current I n (A)TypeDesignationArticle No.Units perpackage SG515111PL6-B1/21648036/601.5PL6-B1,5/21648016/601.6PL6-B1,6/21648026/602PL6-B2/22865506/602.5PL6-B2,5/21648066/603PL6-B3/21648086/603.5PL6-B3,5/21648076/604PL6-B4/22865516/605PL6-B5/21648096/606PL6-B6/22865526/608PL6-B8/21648106/6010PL6-B10/22865536/6012PL6-B12/21648046/6013PL6-B13/22865546/6015PL6-B15/21648056/6016PL6-B16/22865556/6020PL6-B20/22865566/6025PL6-B25/22865576/6032PL6-B32/22865586/6040PL6-B40/22865596/6050PL6-B50/22865606/6063PL6-B63/22865616/602-poleSG622111PL6-B1/31648684/401.5PL6-B1,5/31648664/401.6PL6-B1,6/31648674/402PL6-B2/32865844/402.5PL6-B2,5/31648714/403PL6-B3/31648734/403.5PL6-B3,5/31648724/404PL6-B4/32865854/405PL6-B5/31648744/406PL6-B6/32865864/408PL6-B8/31648754/4010PL6-B10/32865874/4012PL6-B12/31648694/4013PL6-B13/32865884/4015PL6-B15/31648704/4016PL6-B16/32865894/4020PL6-B20/32865904/4025PL6-B25/32865914/4032PL6-B32/32865924/4040PL6-B40/32865934/4050PL6-B50/32865944/4063PL6-B63/32865954/403-poleRated current I n (A)TypeDesignationArticle No.Units perpackage SG647111PL6-B1/3N1650023/301.5PL6-B1,5/3N1650003/301.6PL6-B1,6/3N1650013/302PL6-B2/3N1650073/302.5PL6-B2,5/3N1650063/303PL6-B3/3N1650093/303.5PL6-B3,5/3N1650083/304PL6-B4/3N1650103/305PL6-B5/3N1650113/306PL6-B6/3N1060353/308PL6-B8/3N1650123/3010PL6-B10/3N1060363/3012PL6-B12/3N1650033/3013PL6-B13/3N1650043/3015PL6-B15/3N1650053/3016PL6-B16/3N1060373/3020PL6-B20/3N1060383/3025PL6-B25/3N1060393/3032PL6-B32/3N1060403/3040PL6-B40/3N1060413/3050PL6-B50/3N1069033/3063PL6-B63/3N1069043/303+N-poleSG266121PL6-B1/41664893/301.5PL6-B1,5/41664873/301.6PL6-B1,6/41664883/302PL6-B2/41664963/302.5PL6-B2,5/41664953/303PL6-B3/41664993/304PL6-B4/41665013/305PL6-B5/41665033/306PL6-B6/41665053/308PL6-B8/41665073/3010PL6-B10/41664903/3012PL6-B12/41664913/3013PL6-B13/41664923/3015PL6-B15/41664933/3016PL6-B16/41664943/3020PL6-B20/41664973/3025PL6-B25/41664983/3032PL6-B32/41665003/3040PL6-B40/41665023/3050PL6-B50/41665043/3063PL6-B63/41665063/304-poleRated current I n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic CSG454110.16PL6-C0.16/116474612/1200.25PL6-C0,25/116474712/1200.5PL6-C0,5/116474812/1200.75PL6-C0,75/116474912/1201PL6-C1/116475412/1201.5PL6-C1,5/116475012/1201.6PL6-C1,6/116475112/1202PL6-C2/128652812/1202.5PL6-C2,5/116475512/1203PL6-C3/116475712/1203.5PL6-C3,5/116475612/1204PL6-C4/128652912/1205PL6-C5/116475812/1206PL6-C6/128653012/1208PL6-C8/116475912/12010PL6-C10/128653112/12012PL6-C12/116475212/12013PL6-C13/128653212/12015PL6-C15/116475312/12016PL6-C16/128653312/12020PL6-C20/128653412/12025PL6-C25/128653512/12032PL6-C32/128653612/12040PL6-C40/128653712/12050PL6-C50/128653812/12063PL6-C63/128653912/1201-poleSG514110.16PL6-C0.16/1N1649168/800.25PL6-C0,25/1N1649178/800.5PL6-C0,5/1N1649188/800.75PL6-C0,75/1N1649198/801PL6-C1/1N1649228/801.5PL6-C1,5/1N1649208/801.6PL6-C1,6/1N1649218/802PL6-C2/1N1060298/802.5PL6-C2,5/1N1649258/803PL6-C3/1N1649298/803.5PL6-C3,5/1N1649288/804PL6-C4/1N1060308/805PL6-C5/1N1649318/806PL6-C6/1N1060318/808PL6-C8/1N1649328/8010PL6-C10/1N1060328/8012PL6-C12/1N1649238/8013PL6-C13/1N1060338/8015PL6-C15/1N1649248/8016PL6-C16/1N1060348/8020PL6-C20/1N1649268/8025PL6-C25/1N1649278/8032PL6-C32/1N1649308/801+N-poleRated current I n (A)TypeDesignationArticle No.Units perpackage SG515110.16PL6-C0.16/21648116/600.25PL6-C0,25/21648126/600.5PL6-C0,5/21648136/600.75PL6-C0,75/21648146/601PL6-C1/21648176/601.5PL6-C1,5/21648156/601.6PL6-C1,6/21648166/602PL6-C2/22865626/602.5PL6-C2,5/21648206/603PL6-C3/21648226/603.5PL6-C3,5/21648216/604PL6-C4/22865636/605PL6-C5/21648236/606PL6-C6/22865646/608PL6-C8/21648246/6010PL6-C10/22865656/6012PL6-C12/21648186/6013PL6-C13/22865666/6015PL6-C15/21648196/6016PL6-C16/22865676/6020PL6-C20/22865686/6025PL6-C25/22865696/6032PL6-C32/22865706/6040PL6-C40/22865716/6050PL6-C50/22865726/6063PL6-C63/22865736/602-poleSG622110.16PL6-C0.16/31648764/400.25PL6-C0,25/31648774/400.5PL6-C0,5/31648784/400.75PL6-C0,75/31648794/401PL6-C1/31648824/401.5PL6-C1,5/31648804/401.6PL6-C1,6/31648814/402PL6-C2/32865964/402.5PL6-C2,5/31648854/403PL6-C3/31648874/403.5PL6-C3,5/31648864/404PL6-C4/32865974/405PL6-C5/31648884/406PL6-C6/32865984/408PL6-C8/31648894/4010PL6-C10/32865994/4012PL6-C12/31648834/4013PL6-C13/32866004/4015PL6-C15/31648844/4016PL6-C16/32866014/4020PL6-C20/32866024/4025PL6-C25/32866034/4032PL6-C32/32866044/4040PL6-C40/32866054/4050PL6-C50/32866064/4063PL6-C63/32866074/403-poleRated current I n (A)TypeDesignationArticle No.Units perpackage SG647110.16PL6-C0.16/3N1650133/300.25PL6-C0,25/3N1650143/300.5PL6-C0,5/3N1650153/300.75PL6-C0,75/3N1650163/301PL6-C1/3N1650193/301.5PL6-C1,5/3N1650173/301.6PL6-C1,6/3N1650183/302PL6-C2/3N1069053/302.5PL6-C2,5/3N1650223/303PL6-C3/3N1650243/303.5PL6-C3,5/3N1650233/304PL6-C4/3N1069063/305PL6-C5/3N1650253/306PL6-C6/3N1069073/308PL6-C8/3N1650263/3010PL6-C10/3N1069083/3012PL6-C12/3N1650203/3013PL6-C13/3N1069093/3015PL6-C15/3N1650213/3016PL6-C16/3N1069103/3020PL6-C20/3N1069113/3025PL6-C25/3N1069123/3032PL6-C32/3N1069133/3040PL6-C40/3N1069143/3050PL6-C50/3N1069153/3063PL6-C63/3N1069163/303+N-poleSG266120.16PL6-C0.16/41665083/300.25PL6-C0,25/41665093/300.5PL6-C0,5/41665103/300.75PL6-C0,75/41665113/301PL6-C1/41665143/301.5PL6-C1,5/41665123/301.6PL6-C1,6/41665133/302PL6-C2/41665213/302.5PL6-C2,5/41665203/303PL6-C3/41665253/303.5PL6-C3,5/41665243/304PL6-C4/41665273/305PL6-C5/41665293/306PL6-C6/41665313/308PL6-C8/41665333/3010PL6-C10/41665153/3012PL6-C12/41665163/3013PL6-C13/41665173/3015PL6-C15/41665183/3016PL6-C16/41665193/3020PL6-C20/41665223/3025PL6-C25/41665233/3032PL6-C32/41665263/3040PL6-C40/41665283/3050PL6-C50/41665303/3063PL6-C63/41665323/304-poleRated current I n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic DSG454110.5PL6-D0,5/116476012/1201PL6-D1/116476512/1201.5PL6-D1,5/116476112/1201.6PL6-D1,6/116476212/1202PL6-D2/128654012/1202.5PL6-D2,5/116476612/1203PL6-D3/116476812/1203.5PL6-D3,5/116476712/1204PL6-D4/128654112/1205PL6-D5/116476912/1206PL6-D6/128654212/1208PL6-D8/116477012/12010PL6-D10/128654312/12012PL6-D12/116476312/12013PL6-D13/128654412/12015PL6-D15/116476412/12016PL6-D16/128654512/12020PL6-D20/128654612/12025PL6-D25/128654712/12032PL6-D32/128654812/12040PL6-D40/128654912/1201-poleSG514110.5PL6-D0,5/1N1649338/801PL6-D1/1N1649368/801.5PL6-D1,5/1N1649348/801.6PL6-D1,6/1N1649358/802PL6-D2/1N1649438/802.5PL6-D2,5/1N1649428/803PL6-D3/1N1649478/803.5PL6-D3,5/1N1649468/804PL6-D4/1N1649488/805PL6-D5/1N1649498/806PL6-D6/1N1649508/808PL6-D8/1N1649518/8010PL6-D10/1N1649378/8012PL6-D12/1N1649388/8013PL6-D13/1N1649398/8015PL6-D15/1N1649408/8016PL6-D16/1N1649418/8020PL6-D20/1N1649448/8025PL6-D25/1N1649458/801+N-poleRated current I n (A)TypeDesignationArticle No.Units perpackage SG515110.5PL6-D0,5/21648256/601PL6-D1/21648286/601.5PL6-D1,5/21648266/601.6PL6-D1,6/21648276/602PL6-D2/22865746/602.5PL6-D2,5/21648316/603PL6-D3/21648336/603.5PL6-D3,5/21648326/604PL6-D4/22865756/605PL6-D5/21648346/606PL6-D6/22865766/608PL6-D8/21648356/6010PL6-D10/22865776/6012PL6-D12/21648296/6013PL6-D13/22865786/6015PL6-D15/21648306/6016PL6-D16/22865796/6020PL6-D20/22865806/6025PL6-D25/22865816/6032PL6-D32/22865826/6040PL6-D40/22865836/602-poleSG622110.5PL6-D0,5/31648904/401PL6-D1/31648934/401.5PL6-D1,5/31648914/401.6PL6-D1,6/31648924/402PL6-D2/32866084/402.5PL6-D2,5/31648964/403PL6-D3/31648984/403.5PL6-D3,5/31648974/404PL6-D4/32866094/405PL6-D5/31648994/406PL6-D6/32866104/408PL6-D8/31649004/4010PL6-D10/32866114/4012PL6-D12/31648944/4013PL6-D13/32866124/4015PL6-D15/31648954/4016PL6-D16/32866134/4020PL6-D20/32866144/4025PL6-D25/32866154/4032PL6-D32/32866164/4040PL6-D40/32866174/403-poleRated current I n (A)TypeDesignationArticle No.Units perpackage SG647110.5PL6-D0,5/3N1650273/301PL6-D1/3N1650303/301.5PL6-D1,5/3N1650283/301.6PL6-D1,6/3N1650293/302PL6-D2/3N1650373/302.5PL6-D2,5/3N1650363/303PL6-D3/3N1650413/303.5PL6-D3,5/3N1650403/304PL6-D4/3N1650433/305PL6-D5/3N1650453/306PL6-D6/3N1650463/308PL6-D8/3N1650473/3010PL6-D10/3N1650313/3012PL6-D12/3N1650323/3013PL6-D13/3N1650333/3015PL6-D15/3N1650343/3016PL6-D16/3N1650353/3020PL6-D20/3N1650383/3025PL6-D25/3N1650393/3032PL6-D32/3N1650423/3040PL6-D40/3N1650443/303+N-poleSG266120.5PL6-D0,5/41665343/301PL6-D1/41665373/301.5PL6-D1,5/41665353/301.6PL6-D1,6/41665363/302PL6-D2/41665443/302.5PL6-D2,5/41665433/303PL6-D3/41665483/303.5PL6-D3,5/41665473/304PL6-D4/41665503/305PL6-D5/41665523/306PL6-D6/41665533/308PL6-D8/41665543/3010PL6-D10/41665383/3012PL6-D12/41665393/3013PL6-D13/41665403/3015PL6-D15/41665413/3016PL6-D16/41665423/3020PL6-D20/41665453/3025PL6-D25/41665463/3032PL6-D32/41665493/3040PL6-D40/41665513/304-poleSpecifi cations | Miniature Circuit Breakers PL6Description• High selectivity between MCB and back-up fuse due to low let-throughenergy• Compatible with standard busbar• T win-purpose terminal (lift/open-mouthed) above and below• B usbar positioning optionally above or below• M eets the requirements of insulation co-ordination, distance between con-tacts ≥ 4 mm, for secure isolation• S uitable for applications up to 48 V DCAccessories:Auxiliary switch for subsequent installation ZP-IHK286052ZP-WHK286053 Tripping signal switch for subsequent installation ZP-NHK248437 Remote control and automatic switching device Z-FW/LP248296Shunt trip release ZP-ASA/..248438, 248439 Undervoltage release Z-USA/..248288-248291 Compact enclosure KLV-TC-2276240KLV-TC-4276241 Additional terminal 35 mm2Z-HA-EK/35263960 Switching interlock Z-IS/SPE-1TE274418Technical DataPL6ElectricalIEC/EN 60898-1Design according toCurrent test marks as printed onto the deviceRated voltage U n AC: 230/400 VDC: 48 V (per pole, max. 2 poles)Rated frequency50/60 HzRated breaking capacity according to IEC/EN 60898-1I cn 6 kACharacteristic B, C, DBack-up fuse max. 100 A gLSelectivity class3Rated impulse withstand voltage U imp 4 kV (1.2/50 μs)Enduranceelectrical components≥ 10,000 switching operationsmechanical components≥ 20,000 switching operationsLine voltage connection at will (above/below)Minimal voltage12 V AC/DCMechanicalFrame size45 mmDevice height80 mmDevice width17.5 mm per pole (1MU)Mounting quick fastening with 3 lock-in positions on DIN rail IEC/EN 60715 Degree of protection IP20Upper and lower terminals open mouthed/lift terminalsTerminal protection fi nger and hand touch safe, DGUV VS3, EN 50274Terminal capacity1-25 mm2Terminal torque2-2.4 NmBusbar thickness 0.8 - 2 mmMounting independent of positionConnection diagramsDimensions (mm)Tripping Characteristics (IEC/EN 60898-1)Quick-acting (B), slow (C), very slow (D)Tripping characteristic BTripping characteristic CTripping characteristic DTRIPPING CURRENTTRIPPING CURRENTTRIPPING CURRENT1-pole1+N-pole2-pole3-pole3+N-pole4-pole1P2P3P+N4P1P+N3PEffect of the Ambient Temperature on Thermal Tripping Behaviour Effect of Power FrequencyEffect of power frequency on the tripping behaviour I MA of the quick releaseLoad Capacity of Series Connected Miniature Circuit BreakersPower frequency f [Hz]162/35060100200300400I MA (f)/I MA (50 Hz) [%]91100101106115134141Adjusted rated current values according to the ambient temperatureNumber of devices (n) 1-poleLet-through Energy PL6Let-through Energy PL6, Characteristic B, 1-pole Let-through Energy PL6, Characteristic C, 1-poleLet-through Energy PL6, Characteristic D, 1-poleProspective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Prospective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Prospective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Short Circuit Selectivity PL6 towards DII-DIV fuse linkIn case of short circuit, there is selectivity between the miniature circuit breakers PL6 and the upstream fuses up to the specifi ed values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort circuit selectivity Characteristic B towards fuse link DII-DIV *)Short circuit selectivity Characteristic C towards fuse link DII-DIV *)Short circuit selectivity Characteristic D towards fuse link DII-DIV *)1) Selectivity limit current I s under 0.5 kA 2) S electivity limit current I s = rated breaking capacity I cn of the MCBDarker areas: no selectivityPL6DII-DIV gL/gG I n [A]10162025355063801002<0.51)<0.51)0.8 1.6 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.6 1.0 3.6 6.02) 6.02) 6.02) 6.02)1)1)2)2)2)PL6DII-DIV gL/gG I n [A]10162025355063801002<0.51)<0.51)0.8 1.6 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.60.8 1.8 3.6 6.02) 6.02) 6.02)1)1)2)2)2)PL6DII-DIV gL/gG I n [A]10162025355063801001)<0.51)0.6 1.0 2.8 5.8 6.02) 6.02) 6.02)Short Circuit Selectivity PL6 towards D01-D03 fuse linkIn case of short circuit, there is selectivity between the miniature circuit breakers PL6 and the upstream fuses up to the specifi ed values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort circuit selectivity Characteristic B towards fuse link D01-D03*)Short circuit selectivity Characteristic C towards fuse link D01-D03*)Short circuit selectivity Characteristic D towards fuse link D01-D03*)1) Selectivity limit current I s under 0.5 kA 2) S electivity limit current I s = rated breaking capacity I cn of the MCBDarker areas: no selectivityPL6D01-D03 gL/gG I n [A]10162025355063801002<0.51)<0.51)0.6 1.0 6.02) 6.02) 6.02) 6.02) 6.02)1)1)2)2)2)2)PL6D01-D03 gL/gG I n [A]10162025355063801002<0.51)<0.51)0.50.7 6.02) 6.02) 6.02) 6.02) 6.02)1)1)1)2)2)2)PL6D01-D03 gL/gG I n [A]10162025355063801001)<0.51)0.60.8 2.2 6.02) 6.02) 6.02) 6.02)Short Circuit Selectivity PL6 towards NH-00 fuse linkIn case of short circuit, there is selectivity between the miniature circuit breakers PL6 and the upstream fuses up to the specifi ed values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort circuit selectivity Characteristic B towards fuse link NH-00*)Short circuit selectivity Characteristic C towards fuse link NH-00*)Short circuit selectivity Characteristic D towards fuse link NH-00*)1) Selectivity limit current I s under 0.5 kA 2) S electivity limit current I s = rated breaking capacity I cn of the MCBDarker areas: no selectivityPL6NH-00 gL/gG I n [A]1620253235405063801001251602<0.51)0.5 1.0 2.5 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.8 1.3 2.3 4.3 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)5<0.51)<0.51)0.7 1.1 1.6 2.2 3.6 4.8 6.02) 6.02) 6.02) 6.02)6<0.51)<0.51)0.7 1.1 1.5 2.0 3.3 4.3 6.02) 6.02) 6.02) 6.02)1)1)2)2)2)PL6NH-00 gL/gG I n [A]1620253235405063801001251602<0.51)0.6 1.0 2.5 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.7 1.0 1.5 2.1 3.6 5.0 6.02) 6.02) 6.02) 6.02)5<0.51)<0.51)0.60.8 1.2 1.7 2.8 3.8 6.02) 6.02) 6.02) 6.02)6<0.51)<0.51)0.50.8 1.2 1.5 2.5 3.3 5.7 6.02) 6.02) 6.02)1)1)2)2)2)PL6NH-00 gL/gG I n [A]1620253235405063801001251602<0.51)<0.51)0.8 1.3 2.1 3.1 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)1)<0.51)0.71.0 1.62.23.8 5.2 6.02) 6.02) 6.02) 6.02)。

BS62LV1600FI55中⽂资料Very Low Power CMOS SRAM 2M X 8 bitBS62LV1600Pb-Free and Green package materials are compliant to RoHSn FEATURESWide V CC operation voltage : 2.4V ~ 5.5V Very low power consumption : V CC = 3.0V Operation current : 46mA (Max.) a t 55ns 2mA (Max.) at 1MHz Standby current : 1.5uA (Typ.) at 25 O C V CC = 5.0V Operation current : 115mA (Max.) a t 55ns 10mA (Max.) a t 1MHz Standby current : 6.0uA (Typ.) at 25O C ? High speed access time : -55 55ns (Max.) at V CC :3.0~5.5V -70 70ns (Max.) at V CC : 2.7~5.5V ? Automatic power down when chip is deselected ? Easy expansion with CE1, CE2 and OE options ? Three state outputs and TTL compatible ? Fully static operation ? Data retention supply voltage as low as 1.5V n DESCRIPTIONThe BS62LV1600 is a high performance, very low power CMOS Static Random Access Memory organized as 2048K by 8 bits and operates form a wide range of 2.4V to 5.5V supply voltage.Advanced CMOS technology and circuit techniques provide both high speed and low power features with typical CMOS standby current of 1.5uA at 3.0V/25O C and maximum access time of 55ns at 3.0V/85O C.Easy memory expansion is provided by an active LOW chip enable (CE1), an active HIGH chip enable (CE2), and active LOW output enable (OE) and three-state output drivers.The BS62LV1600 has an automatic power down feature, reducing the power consumption significantly when chip is deselected. The BS62LV1600 is available in JEDEC standard 44-pin TSOP II and 48-ball BGA package.n POWER CONSUMPTIONPOWER DISSIPATIONSTANDBY(I CCSB1, Max)Operating(I CC , Max)V CC =5.0V V CC =3.0V PRODUCT FAMILYOPERATING TEMPERATUREV CC =5.0V V CC =3.0V1MHz10MHzf Max. 1MHz10MHzf Max.PKG TYPEBS62LV1600EC TSOP II-44 BS62LV1600FC Commercial +0O C to +70O C 50uA 8.0uA 9mA 48mA 113mA 1.5mA 19mA 45mABGA-48-0912 BS62LV1600EITSOP II-44 BS62LV1600FIIndustrial -40O C to +85O C100uA 16uA 10mA 50mA 115mA 2mA 20mA 46mABGA-48-0912n PIN CONFIGURATIONSn BLOCK DIAGRAMBrilliance Semiconductor, Inc. reserves the right to change products and specifications without notice.G H F E D C B A 1 2 3 4 5 6 A9 A11 A10 A19A12 A14 A13 A15 WE NC NC NC DQ7 A17 A16 A7 VSS VCC DQ2 DQ1 DQ6 DQ5 NC A5 OE A3 A0 A6 A4 A1A2CE2 NC NC NCCE1 DQ4 NC 48-ball BGA top view NC NC DQ0 VSS VCC DQ3 NC A18 A20 A8n TRUTH TABLEn ABSOLUTE MAXIMUM RATINGS (1)SYMBOL PARAMETER RATING UNITSV TERM Terminal Voltage withRespect to GND-0.5(2) to 7.0 VT BIAS Temperature UnderBias-40 to +125 O CT STG Storage Temperature -60 to +150 O CP T Power Dissipation 1.0 WI OUT DC Output Current 20 mA1. Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.2. –2.0V in case of AC pulse width less than 30 ns. n OPERATING RANGERANGAMBIENTTEMPERATUREV CC Commercial 0O C to + 70O C 2.4V ~ 5.5VIndustrial -40O C to + 85O C 2.4V ~ 5.5Vn CAPACITANCE (1) (T A = 25O C, f = 1.0MHz) SYMBOL PAMAMETER CONDITIONS MAX. UNITS C INInputCapacitanceV IN = 0V 10 pFC IOInput/OutputCapacitanceV I/O = 0V 12 pF1. This parameter is guaranteed and not 100% tested.n DC ELECTRICAL CHARACTERISTICS (T A =-40O C to +85OC)1. Typical characteristics are at T A =25O C and not 100% tested.2. Undershoot: -1.0V in case of pulse width less than 20 ns.3. Overshoot: V CC +1.0V in case of pulse width less than 20 ns.4. F MAX =1/t RC.5. I CC(MAX.) is 45mA/113mA at V CC =3.0V/5.0V and T A =70O C.6. I CCSB1(MAX.) is 8.0uA/50uA at V CC =3.0V/5.0V and T A =70O C.n DATA RETENTION CHARACTERISTICS (T A = -40O C to +85OC)1. V CC =1.5V, T A =25O C and not 100% tested.2. t RC = Read Cycle Time.3. I CCRD(Max.) is4.0uA at T A =70O C.n LOW V CC DATA RETENTION WAVEFORM (1) (CE1 Controlled)Data Retention Mode V CCt CDRV CC t RV IHV IHCE1≧V CC - 0.2V V DR ≧1.5V CE1V CCn LOW V CC DATA RETENTION WAVEFORM (2) (CE2 Controlled)n AC TEST CONDITIONS (Test Load and Input/Output Reference)Input Pulse Levels Vcc / 0V Input Rise and Fall Times 1V/ns Input and Output Timing Reference Level 0.5Vcc t CLZ , t OLZ , t CHZ , t OHZ , t WHZ C L = 5pF+1TTL Output LoadOthersC L = 30pF+1TTL1. Including jig and scope capacitance.n KEY TO SWITCHING WAVEFORMSn AC ELECTRICAL CHARACTERISTICS (T A = -40O C to +85OC)READ CYCLECE2 Data Retention Mode V CC t CDR V CC t R V ILV IL V CCV DR ≧1.5V CE2≦0.2V 1 TTL ALL INPUT PULSES→← 90%V CC GND Rise Time : 1V/ns Fall Time : 1V/ns90%→← 10%10%n SWITCHING WAVEFORMS (READ CYCLE)READ CYCLE 1 (1,2,4)READ CYCLE 2 (1,3,4)READ CYCLE 3 (1, 4)NOTES:1. WE is high in read Cycle.2. Device is continuously selected when CE1 = V IL and CE2= V IH .3. Address valid prior to or coincident with CE1 transition low and/or CE2 transition high.4. OE = V IL .5. Transition is measured ± 500mV from steady state with C L = 5pF. The parameter is guaranteed but not 100% tested. t RC t OHt AA D OUT ADDRESS t OHD OUTCE2 CE1D OUTCE2 CE1 OE ADDRESSn AC ELECTRICAL CHARACTERISTICS (T A = -40OC to +85OC)WRITE CYCLEn SWITCHING WAVEFORMS (WRITE CYCLE)WRITE CYCLE 1 (1)t WCt WR1(3)t CW(11)t CW(11)t WP(2)t AWt OHZ(4,10)t AS t WR2(3)t DHt DWD IND OUTWECE2CE1OEADDRESS(5)(5)WRITE CYCLE 2 (1,6)NOTES:1. WE must be high during address transitions.2. The internal write time of the memory is defined by the overlap of CE1 and CE2 active and WE low. All signals must be active to initiate a write and any one signal can terminate a write by going inactive. The data input setup and hold timing should be referenced to the second transition edge of the signal that terminates the write.3. t WR is measured from the earlier of CE1 or WE going high or CE2 going low at the end of write cycle.4. During this period, DQ pins are in the output state so that the input signals of opposite phase to the outputs must not be applied.5. If the CE1 low transition or the CE2 high transition occurs simultaneously with the WE low transitions or after the WE transition, output remain in a high impedance state.6. OE is continuously low (OE = V IL ).7. D OUT is the same phase of write data of this write cycle. 8. D OUT is the read data of next address.9. If CE1 is low and CE2 is high during this period, DQ pins are in the output state. Then the data input signals of opposite phase to the outputs must not be applied to them. 10. T ransition is measured ± 500mV from steady state with C L = 5pF. The parameter is guaranteed but not 100% tested. 11. t CW is measured from the later of CE1 going low or CE2 going high to the end of write.D IND OUTWE CE2 CE1ADDRESSn ORDERING INFORMATIONBSI (Brilliance Semiconductor Inc.) assumes no responsibility for the application or use of any product or circuit described herein. BSI does not authorize its products for use as critical components in any application in which the failure of the BSI product may be expected to result in significant injury or death, including life-support systems and critical medical instruments.n PACKAGE DIMENSIONSTSOP II-44n PACKAGE DIMENSIONS (continued)3: SYMBOL "N" IS THE NUMBER OF SOLDER BALLS.1: CONTROLLING DIMENSIONS ARE IN MILLIMETERS. 2: PIN#1 DOT MARKING BY LASER OR PAD PRINT.N EDNOTES:4812.09.0E1D1e3.755.250.75 48 mini-BGA (9mm x 12mm)n Revision HistoryRevision No. History Draft Date Remark2.2 Add Icc1 characteristic parameter Jan. 13, 2006Improve Iccsb1 spec.I-grade from 220uA to 100uA at 5.0V20uA to 16uA at 3.0VC-grade from 110uA to 50uA at 5.0V10uA to 8.0uA at 3.0V2.3 Change I-grade operation temperature range May. 25, 2006 - from –25O C to –40O C。

1、BSP是英制管螺纹。

不过，有BSP.Tr., BSP.PI., BSP.F.之分。

BSP.Tr.是锥管螺纹，用于密封接合。

BSP.PI.是平行管螺纹，用于密封接合，只有内螺纹，与BSP.Tr.的外螺纹嵌合。

BSP.F.为平行管螺纹，用于一般的接合。

光知道BSP，可不能乱加工。

最好再做详细确认。

要不然漏了油或者煤气什么的，麻烦大了。

2、螺紋G與螺紋BSPP一样，均为英制圆柱管螺纹代号牙型角55度3、英制螺纹有几种？BSP螺纹的特点及表示法？两种，BSPP（管螺纹）和BSPT（55度角锥管螺纹，与美制60度角锥管螺纹NPT相对，互不兼容）4、G螺纹与Rp螺纹对比，哪些地方相同，哪些地方不同，两者在用途上有区别吗，能否通用。

G螺纹不带密封，RP带；螺纹密封G螺纹与Rp螺纹都是55°圆柱管螺纹。

只是国别(组织)不同而产生了不同的代号而已。

G是中国、法国、前苏联、日本的代号；PF是日本的代号；BSP、BSPP是英国的代号；R、K是德国的代号(R是内螺纹、K是外螺纹)；TPYБ是前苏联的代号；Rp是ISO的代号。

5、1/8 与NPT1/8螺纹有什么区别？应该现在都是国标，不过NPT老标中叫Z，是60度用螺纹密封圆锥管螺纹，国标号GB/T12716-2002M，G是55度非螺纹密封圆柱管螺纹，国标号GB/T3707-20016、问英国标准管螺纹的英文代号是BSP吗？它有没有锥度的？代号应该是Ｇ，圆柱管螺纹，没有锥度8、Rp 螺纹与G螺纹均表示圆柱管螺纹，两者有何不同，能否相互代替使用。

另：Rp与Rb有何不同，能相互代替使用。

管螺纹非螺纹密封的内外管螺纹,特征代号为G。

G1/2表示圆柱内管螺纹；G1/2A表示圆柱外管螺纹。

用于螺纹密封的管螺纹。

Rp－－表示圆柱内管螺纹；Rc－－表示圆锥内管螺纹；R －－表示圆锥外管螺纹。

螺纹代号示例:G1/2-LH表示非螺纹密封的左旋内螺纹，尺寸代号为1/2英寸。

史陶比尔集团（英文名：Staubli ）创立于1892年（总部位于瑞士），创立于1892年，史陶比尔集团有着100多年的发展历史，是一家在纺织机械，工业快速接头和工业机器人三大领域顶尖地位的世界知名企业。

联系人：王凯文手机：135*52*86*5878Q Q：2*8*5*0*5*9*0*5*8*6座机：010-5243*0161邮箱：2850590586@中国市场常用型号：STAUBLI SENSORDISTRIBUTOR|B27595534STAUBLI union|RCS06??N01143299Staubli 85559752/10 B-30/854502staubli RMP49.06.7102/JVstaubli RBE11.1102/IA/JV/W/ODStaubli 18.564Staubli 18.565Staubli PH08.5103/IA/MA/JVSTAUBLI SPH08.2103/IA/MA/JVSTAUBLI SPH06.2102/IA/MA/JVSTAUBLI SPH06.5102/IA/MA/JVstaubli RMI 209-12-6000-LStaubli RMI 209-12-1000-0-2-03staubli RMI 09 5102 0001 3/8"STAUBLI SBA08.1103STAUBLI SBA08.7103Staubli RBE03.7150.ODStaubli RBE03.1150.ODStaubli SPH06.1103/VB/JV/SPStaubli n00618597Staubli N00618697Staubli RPL08.1252/KRStaubli RPL08.6812/RE/KRStaubli PL08.6812/KRSTAUBLI RBE06.1151 ??IA/HPGSTAUBLI RBE06.1908 ??IA/HPGSTAUBLI RBE06.1101 ??IA/HPGStaubli RBE08.6151Staubli RCS08.1810Staubli RBE06Staubli RCS06Staubli RBE08.6151Staubli RCS08.1810Staubli RMI206.20/ASStaubli AF153.13/ICStaubli ABA15/24Staubli AIRFLEX-S13;125mStaubli ABA15/24Staubli AF153.13/ICStaubli ??AIRFLEX-S13??;75mStaubli ABA15/24Staubli RCS11.8813Staubli HJP09M006/RBE116/ERS081Staubli RBE 08.6151Staubli RBE 08.6251Staubli RBE 08.6252Staubli RBE 11.6813Staubli HJP09M006/RBE116/ERS081STAUBLI QUICKCONNECTOR|CBI09.1102/IA/JVStaubli G1/2" part no.:HPX08.1103/JV/BMB/SP X6CrNiMoTi17-12-2 Staubli G1" part no.:N01221100 type:HPX20.1105/JV/BMR/SPX6CrNiMoTi17-12-2Staubli G3/8 part no.:RBE08.1102/IA/JV/OD/3/FBX6CrNiMoTi17-12-2/Staubli G3/8 partno.:RBE08.1102/IA/JV/OD/3/FB ??X6CrNiMoTi17-12-2/staubli 13184G046Pstaubli 13149G014Pstaubli 13150G014SStaubli RBE11.1153/IC/JE/ODStaubli STA06.1101/SILStaubli SCB04.7201/IC/JK/SPStaubli SCB04.1201/IC/JK/SPSTAUBLI G1/4 RCS08.1101/VDSTAUBLI G1/4 RBE08.6151STAUBLI G1/4 RCS06.1101/VDSTAUBLI G1/4 RBE06.6101Staubli SPC12.2000/IASTAUBLI STAUBLI RMI 200.30Staubli spt 10.7657/L/CGStaubli NYLFLEX12Staubli 108099 SPT10.7103/L/CGStaubli 173150 SPT 10.1657/L/CGStaubli 173156 CGO 05.2416/L/MD/JEStaubli 173157 CGO 05.5416/L/JEStaubli 173245 CGD 05.2416/L/JEStaubli 173247 CGD 05.5416/L/JESTAUBLI CT-E1-15/B;33.4022STAUBLI CT-E1-1.5;33.4023STAUBLI CT-BP1ET;33.0541STAUBLI CT-BP1ET/0.25-0.75AU;33.0143STAUBLI 33.4005STAUBLI CT-BEG;33.4057STAUBLI CS-BT;33.5606-64STAUBLI L1-BL;33.5623STAUBLI CT-AG5;33.1065STAUBLI 33.1021staubli RBE 03.1151/OD/JVstaubli RBE 03.7151/IA/JVstaubli RBE 03.6904staubli RBE 06 1152/OD/JVstaubli RMI 16.7104/JVstaubli RMI 16.1104/JVstaubli RMI 09.7102/JVstaubli RMI 09.1102/JVSTAUBLI B27586150STAUBLI B27586148STAUBLI B27586152STAUBLI B27586151STAUBLI B27586154Staubli PML06.11001/COTStaubli RBE 03.6150staubli R600000005 G4staubli RBE11.7102/45/JEstaubli RBE11.7102/3./JEStaubli CBI06.1101/IAStaubli RMI212.20.1103/JV(with 20st G1/2 connect) Staubli RMI09.512/JVStaubli RMI20049727Staubli RMI20049700Staubli RMF 152.102Staubli RMI 200.30Staubli RMI 09.5102/JVSTAUBLI RBE11.1103/IA/JV/HPLStaubli ADS11.1105/IAStaubli HPX33.7107/JVStaubli SPX08.7103/JVStaubli SPX/PP06.7102/JVStaubli HQ-A2-316??Staubli G1-1/2 STAUBLI?? 87?? Staubli G1/2 STAUBLI?? 89?? Staubli G3/8 STAUBLI?? 90?? Staubli 30.0020 EG-TS-PG36/150 Staubli SPC08.5000/IA/JVStaubli SPC08.2000/IA/JVStaubli SPC08.2000.IA.CDJV Staubli HEL030300STAUBLI HPX 08.1103+HPX 08.7103 STAUBLI HPX 12.1104 +HPX 12.7104 STAUBLI HPX 20.1105 +HPX 20.7105 Staubli K4N002181Staubli K4N001722Staubli K4N001726Staubli K4N001724Staubli K4N00450Staubli RCS08.1816Staubli RBE11.2103Staubli RBE11.1153/IH/JNStaubli N00624312Staubli R60000226Staubli R60111313staubli NGV1 NO01021995Staubli 30.0020 EG-TS-PG36/150 Staubli RMI209.12.1104/JVStaubli RMI09.5102/JVStaubli SPC08.2000.IA.CDJV STAUBLI B27595114STAUBLI B14826136STAUBLI K81556267STAUBLI B23585429STAUBLI B23585432STAUBLI B23586459STAUBLI B23587018STAUBLI B23587078STAUBLI B24582511STAUBLI B27585266STAUBLI B27585714STAUBLI B27595113STAUBLI K81450234STAUBLI K81450235STAUBLI K81556268STAUBLI K81615043STAUBLI K85535599STAUBLI K85536099STAUBLI K86300098STAUBLI 6MTW03-001STAUBLI 6MRW03-001Staubli 103586282staubli 358 0202 ABSTAUBLI RSI 08-1152STAUBLI tuyau HEL 03.03.00 + 2 raccords HEL 03.1150 STAUBLI RBE06.1151/IC/3/FB/VD/JC/ODSTAUBLI RBE06.1151/IC/45/FB/VD/JC/ODSTAUBLI RBE06.1151/IC/6/FB/VD/JC/ODSTAUBLI RBE06.7151/IC/3/JCSTAUBLI RBE06.7151/IC/45/JCSTAUBLI RBE06.7151/IC/6/JCSTAUBLI RSI 08-1152STAUBLI REA081600001STAUBLI SBA 08.1103STAUBLI SBA 08.7103STAUBLI RBE11.6103/45STAUBLI RBE11.6103/6STAUBLI RBE11.1103/ia/6/WSTAUBLI RBE11.1103/ia/45/WSTAUBLI RBE11.7103/IASTAUBLI RBE08.7102/IA/WSTAUBLI RBE08.1102/IA/0D/WSTAUBLI RBE11.1103/IA/0DSTAUBLI RBE11.7103/IA/JESTAUBLI RBE11.1103/IA/JE/0DSTAUBLI RCS-08.1153(G1/2")STAUBLI RCS-08.8103(G1/2")STAUBLI RBE08.6153(G1/2")STAUBLI RBE08.6103(G1/2")staubli SPC05.2000/IA/JVstaubli SPC08.2000/IA/JVstaubli SPC05.5000/IA/JVStaubli B27583359,REA03.2302STAUBLI dashuai2204STAUBLI NO11.198.03Staubli RM1061JVSTAUBLI tuyau HEL 03.03.00 + 2 raccords HEL 03.1150 Staubli RMI 12.1103/JVSTAUBLI S0*******STAUBLI S0*******STAUBLI S0*******STAUBLI RBE03.1100/IA/VD/HPG/JE/OSStaubli KTDEK11 STABU-1008;connector RBE 0.6101/IC Staubli RBE03.7150/IC/JEStaubli RBE03.1904/IC/JEStaubli RBE 11.1103staubli N00628610STAUBLI RBE03.2100/IA/15/HPG/JV/ODSTAUBLI RBE03.2100/IA/75/HPG/JV/ODSTAUBLI RBE03.7100/IA/75/HPG/JVSTAUBLI RBE03.6150/HPGStaubli RBE 03Staubli CBX 09.1102/JV/BF with plugStaubli CBX 09.7102/JV/BF with plugStaubli RMI 09.1102/JV with plugStaubli RMI 09.7102/JV with plugStaubli RBE 03.1251/HPLStaubli RBE 03.6200/HPLSTAUBLI K4N000299STAUBLI K4N000301STAUBLI N00237511STAUBLI N00418810STAUBLI N00428711STAUBLI N00634412STAUBLI N00719710STAUBLI N00728607STAUBLI N00816710STAUBLI N00833607STAUBLI N00919410STAUBLI N00920509Staubli N00642408Staubli N00642308Staubli AIRFLEX08 200MStaubli REE03.1100??JV/0DStaubli REE03.7151Staubli 18.9004 plug-SP1.5/0.5-1.5AGStaubli 18.8004 socket-BP1.5/0.5-1.5Staubli 18.4604 pin carrier-E3-24PE/SStaubli 18.4704 SOCKET CARRIER-E3-24PE/BStaubli 18.0308 socket housing-MGK3VB10-14+MGK3R-M32 Staubli 18.0310 PIN HOUSING-MGK3VS10-14+MGK3R-M32Staubli 18.5618 DST-RG GR.3/14 BUstaubli N00512808staubli N00260306Staubli SPH G1/4 04.5101/MA/IA/JVSTAUBLI NO1210411STAUBLI NO0624312STAUBLI RBE-03-M10X1-S9*******Staubli HPX12.1104 G3/4Staubli HPX20.1105 G1Staubli HPX25.1106 G1 1/4Staubli RBE06.6151/IC/HPISTAUBLI RCS06.1163Staubli AIRFLEX 08 200MStaubli RBE 06.2102/0/ICJTVD SF;QUICK CHANGE BUSHING\G3/8"i DN6 STAUBLI RMI12.1153/JVSTAUBLI RMI12.7152/JVStaubli unvalved plugs rbe03 6904 (no color)Staubli unvalved plugs rbe03 6904 (blue)Staubli plug type:CBI06.7151/IA/JV/REStaubli socket type:CBI06.1810/IA/CNStaubli pipe type:CALOREL-EC10/KBStaubli MCS/MA N-FIXED PLATEStaubli MCS/MA N-MOBILE PLATE。

ViralSEQ™ Lentivirus Physical Titer KitCatalog Numbers A52597 and A52598Pub. No. MAN0026127 Rev. A.0Note: For safety and biohazard guidelines, see the “Safety” appendix in the ViralSEQ™ Lentivirus Titer Kits User Guide(Pub. No. MAN0026126). Read the Safety Data Sheets (SDSs) and follow the handling instructions. Wear appropriate protective eyewear, clothing, and gloves.Product descriptionThe Applied Biosystems™ ViralSEQ™ Lentivirus Physical Titer Kit is a TaqMan™-based RT-qPCR kit. The kit measures viral count based on highly sensitive viral RNA quantitation from the supernatants of cell-based, bioproduction systems. Viral titers of 104 to 1011 viral particles (VP) per mL can be quantitated using a standard curve generated from the synthetic RNA control included with the kit. Lentivirus quantitation by RT-qPCR is accurate, sensitive, and reproducible.The ViralSEQ™ Lentivirus Physical Titer Kit is compatible with the PrepSEQ™ Nucleic Acid Sample Preparation Kit (Cat. A50485), which offers both a manual and automated sample preparation workflow. For real‑time PCR, the ViralSEQ™ Lentivirus Physical Titer Kit has been validated on the Applied Biosystems™ 7500 Fast Real-Time PCR System and the Applied Biosystems™ QuantStudio™ 5 Real‑Time PCR System. Data analysis is streamlined using AccuSEQ™ Real‑Time PCR Software that provides accurate quantitation and security, audit, and e-signature capabilities to help enable 21 CFR Pt 11 compliance.For more information about reagent use, see the ViralSEQ™ Lentivirus Titer Kits User Guide (Pub. No. MAN0026126).Treat samples with DNase I, RNase‑free (1 U/µL)DNase I, RNase‑free (1 U/µL) treatment is used to digest double-stranded DNA.Thaw all reagents on ice. Invert the DNase I, RNase‑free (1 U/µL) several times to mix, then centrifuge briefly. All other reagents should be vortexed, then centrifuged briefly before use.1.Set up the DNase I, RNase‑free (1 U/µL) reactions in a MicroAmp™ Optical 96-Well Reaction Plate (0.2 mL).[1]Mix gently by pipetting 3-5 times when adding.2.Mix the reactions by gently pipetting up and down 5 times, then seal the reaction plate with MicroAmp™ Clear Adhesive Film.3.Centrifuge the plate at 1,000 x g for 2 minutes.4.Load the reactions onto the VeritiPro™ 96-well Thermal Cycler, then start the DNase I treatment.Set cover temperature: 105℃Set reaction volume: 18 µL[1]Do not hold for more than 5 minutes. Proceed immediately to DNase I inactivation.5.Centrifuge the plate at 1,000 x g for 2 minutes.CAUTION! The plate is in contact with the heated lid. Remove carefully.6.Gently remove the MicroAmp™ Clear Adhesive Film, then discard.IMPORTANT! Do not touch wells when removing the MicroAmp™ Clear Adhesive Film. Contamination can lead to inaccurate results.7.Add 2 µL of 50mM EDTA to each reaction well. Mix by gently pipetting 5 times with a P10/P20 pipettor set to 10 µL.8.Seal the reaction plate with MicroAmp™ Clear Adhesive Film, then centrifuge the plate at 1,000 x g for 2 minutes.9.Load the reactions onto the VeritiPro™ 96-well Thermal Cycler, then start the DNase I inactivation.Set cover temperature: 105℃Set reaction volume: 20 µL[1]Do not hold for more than 5 minutes.10.Centrifuge the plate at 1,000 x g for 2 minutes.CAUTION! The plate is in contact with the heated lid. Remove carefully.IMPORTANT! Do not vortex.Place the plate on ice until use.Prepare the serial dilutionsThaw the Physical Titer RNA Control (2 ✕1010 copies/µL) on ice. Vortex at medium speed for 5 seconds, briefly centrifuge, then place on ice until use.bel nonstick 1.5‑mL microfuge tubes: NTC, SD1, SD2, SD3, SD4, SD5, and SD6 [used for limit of detection (LOD)].2.Add 35 µL of RNA Dilution Buffer (RDB) to the NTC (no template control) tube. Place the tube on ice.3.Perform the serial dilutions.When dispensing RNA, pipette up and down gently. After each transfer, vortex for 7 seconds, then centrifuge briefly.Table 1 Standard curve dilutions (ViralSEQ™ Lentivirus Physical Titer Kit)Store the standard curve dilution tubes at 4°C or on ice. Use the dilutions within 6 hours for RT-qPCR.Prepare the kit reagents and premix solutionThaw all kit reagents on ice. Vortex the reagents for 5 seconds, briefly centrifuge, then place the reagents on ice until use.bel a microcentrifuge tube for the Premix Solution.2.Prepare the Premix Solution according to the following tables.IMPORTANT! Use a separate pipette tip for each component.Table 2 Premix Solution[1]Includes 10% excess to compensate for pipetting loss.3.Vortex the Premix Solution for 10 seconds to mix, then briefly centrifuge.Store the Premix Solution at 4°C or on ice until use.Prepare the PCR reactionsPlace the plate containing DNase I-treated samples on a MicroAmp™ 96-Well Base, then gently remove the MicroAmp™ Clear Adhesive Film. Gently pipette up and down 3 times to mix the samples.1.Dispense the following into the appropriate wells of a MicroAmp™ Fast Optical 96-Well Reaction Plate, 0.1 mL, gently pipetting at thebottom of the well.Figure 1 Recommended plate layout2.Seal the plate with MicroAmp ™Optical Adhesive Film.3.Vortex the reaction plate for 10 seconds, then centrifuge at 1,000 x g for 2 minutes.Note: Ensure there are no bubbles in the reaction wells. If present, tap the well gently to remove bubbles, then re-centrifuge.Proceed immediately to “Start the run (QuantStudio ™ 5 Real ‑Time PCR Instrument)”.Create a ViralSEQ ™ templateCreate a new template in the (Home) screen of the AccuSEQ ™Real ‑Time PCR Software v3.1.1.ClickCreate New on the home screen.Create New ExperimentpaneFactory default/Admin Defined Templates —List of existing default or Admin Defined templates. These templates can beused as templates for new experiments.My Templates —List of templates available to the user that is signed in. These templates can be used as templates for newexperiments.Create New —Used to create an experiment or template with nopre-existing settings.Create My Template —Used to create a new template (stored locally in My Templates).Create Admin Defined Template —Used to create a new template (Administrator only).2.Select Create My Template or Create Admin Defined Template .3.Edit the Experiment Properties as required.a.In the Template Name field, modify the template name. For example, LV Titer template.b.(Optional ) Enter information in the Comments field.c.In the Setup tab, select:•Experiment Type —Quantitation-Standard Curve •Chemistry —TaqMan ® Reagents•Ramp Speed —Standard-2hrs •Block Type —96-Well 0.1mL Blockd.(Optional ) Select Is Locked to lock the template. If locked, users are unable to edit the template.4.ClickAnalysis settings to change the default C t Settings and Flag Settings.a.In the C t Settings tab, click Edit Default Settings .b.Deselect Automatic Threshold , then enter 0.200.c.Ensure that Automatic Baseline is selected.d.Click Save Changes .e.Deselect Default Settings , then click Applyto save any changes before closing the window.2C tSettingsFlag SettingsEdit Default SettingsbuttonDefault Settingscheckbox Apply buttonf.In the Flag Settings tab, deselect the following flags.•CQCONF —Low Cq confidence •EXPFAIL —Exponential algorithm failed •NOAMP —No amplification •NOSIGNAL —No signal in wellNote: Use the scrollbar on the right to scroll down the list of flags.g.Click Apply to save any changes before closing the window.5.Click Next .Template name cannot be changed after this step.The qPCR Method screen is displayed.Edit the run method and optical filter selectionThis section provides general procedures to edit the run method and optical filter selection in the qPCR Method. To edit the default run method, see the AccuSEQ™ Real‑Time PCR Software v3.1 User Guide (Pub. No. 100094287).1.Set the reaction volume to 25 µL.2.Edit Step 1 of the Hold Stage to 45℃ for 30 minutes.3.Set Step 2 of the Hold Stage to 95℃ for 10 minutes.4.Set Step 1 of the PCR Stage to 95℃ for 15 seconds.5.Edit Step 2 of the PCR Stage to 60℃ for 45 seconds.6.Set the cycle number to 40.7.Ensure that Data Collection occurs after Step 2.123Figure 2 Lentivirus Physical Titer Run MethodReaction volume- set to 25µLStageCycle number- set to 40 cycles8.(Optional) Click (Optical Filter Settings) to view the default filter settings.•The default optical filter selection is suitable for the ViralSEQ™ Lentivirus Physical Titer Kit.•The ViralSEQ™ Lentivirus Physical Titer Kit requires the QuantStudio™ 5 System to be calibrated for FAM™, VIC™, and ROX™.•For more information about system dyes and their calibration and optical filter selection, see QuantStudio™ 3 and 5 Real‑Time PCR Systems Installation, Use, and Maintenance Guide (Pub. No. MAN0010407).9.Click Next.Assign plate and well attributesNote: This section provides general procedures to set up the plate.For specific instructions for each assay type, see the corresponding chapter in this guide. Do not change Targets for default assay templates.TargetsSamplesPlate setup toolbarSelect Item to highlight (Sample, Target, or Task).Select Item. For example, Sample 1. Sample 1 replicates arehighlighted.Define& setup Standard(View Legend)(Print Preview)View (Grid View or Table View)1.In Plate Setup screen, click or click‑drag to select plate wells in the (Grid View) of the plate.2.Assign the well attributes for the selected wells. Each well should have a Sample Name under Samples, as well as the appropriateTargets under Targets. Reporters should be FAM™ dye for Lentivirus Physical Titer, and VIC™ dye for internal positive control (IPC).a.To add new Samples or Targets, click Add in the appropriate column on the left of the screen, then edit the new Name andother properties as required. The new sample or target is then selectable within the wells of the plate.b.For each sample (e.g. DNase-treated lentivirus sample, standard curve dilution, or NTC), two targets should be included.•Select the FAM™ dye reporter for Lentivirus Physical Titer detection.•Select the VIC™ dye for IPC detection.c.Select NFQ-MGB as the quencher for both targets.d.For standard curve dilution samples (SD1 to SD5), the Task for Lentivirus Physical Titer target should be indicated as “S” forStandard, with the appropriate copy number written under Quantity. For instance, the quantity for SD1 is 1E9 copies. Change the Task by clicking on the field and using the drop-down menu. Copy numbers can be indicated using scientific notation (e.g.“1E9”) and the program will convert it to numerical format.e.For DNase-treated samples and SD6, set the Task for Lentivirus Physical Titer target to U for Unknown.f.For NTC wells, set the Task for Lentivirus Physical Titer target to N for NTC.g.For IPC wells, set the Task for Lentivirus Physical Titer target to U for Unknown.h.To change sample names, click the name in the Name column, then type the new name. To change Reporters and Quenchers,click the dye, then select from the dropdown list.When a Sample or Targetname are edited, two entries are added to the Audit trail (one for Delete, and another for Create).23AddbuttonCheckbox—Select Targets and Samples to go in the selectedwell.Textbox—Click the name to edit.Scrollbar—Use to scroll to additional properties.•Use the plate setup toolbar (above the plate) to make edits to the plate.–Click View to show/hide the Sample Name, Sample Color, or Target from the view.•To add consecutive samples (with the same Target ), select a well, then click ‑drag the dark blue box to the right.3.(Optional ) Double ‑click a well to enter comments for the selected well.4.Select ROX ™dye from the Passive Reference drop-down list (bottom left of screen).5.Click Save to save the template.This template can then be used to create experiments.Start the run (QuantStudio ™ 5 Real ‑Time PCR Instrument)Ensure that the plate is loaded in the QuantStudio ™5 Real ‑Time PCR Instrument.™A message stating Run has been started successfully is displayed when the run has started.Review the resultsAfter the qPCR run is finished, use the following general procedure to analyze the results. For more detailed instructions see theAccuSEQ ™Real ‑Time PCR Software v3.1 User Guide (Pub. No. 100094287).1.In the AccuSEQ ™Real ‑Time PCR Software, open your experiment, then navigate to the Result tab.ResulttabAnalysis SettingsPlot horizontal scrollbar Analyze button2.In the Result Analysis tab, select individual targets, then review the Amplification Curve plots for amplification profiles in thecontrols, samples, and the standard curve. Ensure that threshold is set to 0.200 with an automatic baseline.3.In the Result Analysis tab, review the QC Summary for any flags in wells.4.In the Result Analysis tab, review the Standard Curve plot. Verify the values for the Slope, Y ‑intercept, R 2, and Efficiency are withinacceptable limits.Note: The Standard Curve efficiency should be between 90-110% and the R 2>0.99. If these criteria are not met, up to two points,not in the same triplicate, can be removed from the standard curve data, and the analysis repeated.5.In Table View, ensure that C t values are within the standard curve range.•Samples with C t values that exceed the upper limit of quantitation (109 copies) of the standard curve should be diluted and re-run.•Samples with C t values that exceed the lower limit of detection (LoD of 10 copies) and IPC shows no signs of PCR inhibition,suggests the absence of lentivirus.6.(Optional ) Outliers can be excluded from the results. To exclude, select the well, then click Omit/Include , then reanalyze by clickingAnalyze .7.(Optional ) Select File 4Print Report to generate a hard copy of the experiment, or click Print Preview to view and save the report asa PDF or HTML file.8.Export the results.a.Navigate to the Report tab.b.Check all boxes under Contents .c.Select Export Data in One File .d.Select the XLS format, then click Export .Calculate the titer (VP/mL)1.Download the Physical Titer Calculation Tool .a.Go to .b.Search for the ViralSEQ ™Lentivirus Physical Titer Kit.c.Download the tool from the Documents section.2.Open the tool, then follow the instructions in the tool to calculate the titer.Calculate lentivirus titers from qPCR dataTo determine the number of lentivirus RNA copies per mL in the original sample, the copy numbers obtained from the qPCR must be multiplied by the dilution factor of the sample during extraction and DNase I treatment. Since there are 2 copies of RNA/target per lentivirus particle, the number of viral particles per mL (VP/mL) is 0.5x the number of lentivirus RNA copies.Viral particles per mL =qPCR copies x sample dilution factor x 0.5Volume of sample used (mL)For help in determining the qPCR copy numbers, see the QuantStudio ™Design and Analysis Desktop Software User Guide (Pub. No. MAN0010408).For example, if the following parameters were used,•10 µL of lentivirus culture was extracted with the KingFisher ™Flex Purification System with 96 Deep-Well Head and eluted in 200 µL •10 µL of this eluate (20x dilution) was treated with DNase I, RNase ‑free (1 U/µL) in a total volume of 20 µL.• 5 µL of the DNase-treated sample (4x dilution) was used for the qPCR reaction.Lentivirus sample10 μL Sample Extraction Elute: 200 μL DNaseI Treat Total: 20 μL reaction RT-qPCRTotal: 25 μL reactionUse 10 μL (1:20 dilution)Use 5 μL (1:4 dilution)then, the calculation would be:Viral particles per mL =qPCR copies x (20x4) x 0.50.01 (mL)Note: qPCR can only determine the number of physical particles in a virus culture. To determine the numbers of infectious units,cell-based transduction experiments must be carried out. The titers of physical particles are often higher than infectious titers by 10-1000fold, depending on the purity of the lentivirus preparation and the levels of infectious particles within the culture.Limited product warrantyLife Technologies Corporation and/or its affiliate(s) warrant their products as set forth in the Life Technologies' General Terms and Conditions of Sale at /us/en/home/global/terms-and-conditions.html . If you have any questions, please contact Life Technologies at /support .Life Technologies Ltd | 7 Kingsland Grange | Woolston, Warrington WA1 4SR | United KingdomThe information in this guide is subject to change without notice.DISCLAIMER : TO THE EXTENT ALLOWED BY LAW, THERMO FISHER SCIENTIFIC INC. AND/OR ITS AFFILIATE(S) WILL NOT BE LIABLE FOR SPECIAL, INCIDENTAL, INDIRECT,PUNITIVE, MULTIPLE, OR CONSEQUENTIAL DAMAGES IN CONNECTION WITH OR ARISING FROM THIS DOCUMENT, INCLUDING YOUR USE OF IT.Important Licensing Information : These products may be covered by one or more Limited Use Label Licenses. By use of these products, you accept the terms and conditions of all applicable Limited Use Label Licenses.©2022 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific and its subsidiaries unless otherwise specified. Vortex-Genie is a trademark of Scientific Industries. Windows and Excel are trademarks of Microsoft Corporation. TaqMan is a registered trademark of Roche Molecular Systems, Inc., used under permission and license./support | /askaquestion 23 August 2022。

BL21-CodonPlus-RP Competent Cells, Part Number 230250*************(24小时)化学品安全技术说明书GHS product identifier 应急咨询电话（带值班时间）::供应商/ 制造商:安捷伦科技贸易（上海）有限公司中国（上海）外高桥自由贸易试验区英伦路412号（邮编:200131)电话号码： 800-820-3278传真号码: 0086 (21) 5048 2818BL21-CodonPlus-RP Competent Cells, Part Number 230250化学品的推荐用途和限制用途BL21-CodonPlus-RP competent cells 230250-41pUC 18 DNA Control Plasmid 200231-42XL10-Gold 2-Mercaptoethanol 200314-43部件号:物质用途:分析试剂。

230250-41BL21-CodonPlus-RP competent cells1 ml（毫升） (10 x 100 µl)200231-42pUC 18 DNA ControlPlasmid0.01 ml（毫升） (0.1 ng/µl)200314-43XL10-Gold2-Mercaptoethanol0.05 ml（毫升）部件号（化学品试剂盒）:230250安全技术说明书根据 GB/ T 16483-2008 和 GB/ T 17519-2013GHS化学品标识:BL21-CodonPlus-RP 感受态细胞，部件号 230250物质或混合物的分类根据 GB13690-2009 和 GB30000-2013紧急情况概述BL21-CodonPlus-RP competent cells液体。

pUC 18 DNA Control Plasmid 液体。

vita62标准中文VITA 62标准中文是一种电子行业标准，主要用于规范可拆卸式电源模块（DPM）的设计和连接。

下面我将从多个角度全面回答这个问题。

首先，VITA 62标准中文是由VITA（VMEbus国际贸易协会）制定的一项标准，该协会是一个非营利性的行业组织，致力于推动电子设备的互操作性和标准化。

VITA 62标准中文是该组织制定的其中一个标准，用于规范电源模块的设计和连接。

其次，VITA 62标准中文主要关注可拆卸式电源模块（DPM），这些模块通常用于嵌入式系统和军事应用中。

该标准定义了DPM的外形尺寸、电气连接和机械特性等方面的要求，以确保不同厂家生产的DPM能够互相兼容和互换。

从电气连接的角度来看，VITA 62标准中文规定了DPM的输入和输出电源连接器的类型、引脚分配和电气特性等要求。

这样可以确保DPM能够与其他设备正确连接，并提供稳定可靠的电源供应。

从机械特性的角度来看，VITA 62标准中文定义了DPM的外形尺寸、安装方式和散热要求等方面的要求。

这些要求旨在确保DPM能够与其他设备机械上相容，并能够有效地散热，以保持稳定的工作温度。

此外，VITA 62标准中文还规定了DPM的功能要求，包括输入电压范围、输出电压和电流、过载保护等方面的要求。

这些要求旨在确保DPM能够满足特定应用的电源需求，并提供可靠的电源供应。

总结起来，VITA 62标准中文是一项电子行业标准，用于规范可拆卸式电源模块（DPM）的设计和连接。

该标准从电气连接、机械特性和功能要求等多个角度，全面规定了DPM的设计和性能要求。

通过遵循VITA 62标准中文，可以确保不同厂家生产的DPM能够互相兼容和互换，提高系统的可靠性和互操作性。

Eaton PDG62N1600P2DNEaton Power Defense molded case circuit breaker, Globally Rated, Frame 6, Two Pole, 1600A, 85kA/480V, PXR25 LSI w/ Modbus RTU, CAM Link and Relays, No TerminalsEaton Power Defense molded case circuit breakerPDG62N1600P2DN 786679349953247.7 mm 406.4 mm 393.7 mm 43.091 kg Eaton Selling Policy 25-000, one (1) year from the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.RoHS Compliant IEC 60947-2CSAUL 489CCC MarkedProduct NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertifications1600 AComplete breaker 6Two-polePD6 Global Class A PXR 25 LSIModbus RTU and CAM Link600 Vac600 VNo Terminals85 kAIC at 480 Vac 70 kAIC Icu/ 50 kAIC Ics/ 154 kAIC Icm @440V (IEC) 20 kAIC Icu/ 13 kAIC Ics/ 42 kAIC Icm @690V (IEC) 35 kAIC Icu/ 25 kAIC Ics/ 73.5 kAIC Icm @525V South Africa (IEC)65 kAIC Icu/ 40 kAIC Ics/ 143 kAIC Icm @480V Brazil (IEC) 50 kAIC @600/347V (UL) 150 kAIC @240V (UL)150 kAIC Icu/ 100 kAIC Ics/ 330 kAIC Icm @240V (IEC) 70 kAIC Icu/ 50 kAIC Ics/ 154 kAIC Icm @380-415V (IEC) 85 kAIC @480/277V (UL)Eaton Power Defense PDG62N1600P2DN 3D drawing Power Xpert Protection Manager x64Amperage Rating Circuit breaker frame type Frame Number of poles Circuit breaker type Class Trip Type CommunicationVoltage rating Voltage rating - max Terminals Interrupt rating Interrupt rating range3D CAD drawing packageApplication notesPower Xpert Protection Manager x32Consulting application guide - molded case circuit breakersBrochuresPower Defense molded case circuit breaker selection posterPower Defense brochurePower Defense technical selling bookletCatalogsPower Defense molded case circuit breakers - Frame 6 product aid Molded case circuit breakers catalogPower Xpert Release trip units for Power Defense molded case circuit breakersCertification reportsPower Defense Declaration concerning California’s Proposition 65PDG6 UL AuthorizationPDG6 CB reportPDG6 CSA certificationPDG5 CCC certificationEU Declaration of Conformity - Power Defense molded case circuit breakersPDG6 CCC certificateInstallation instructionsPower Defense Frame 6 bar rear connectors (copper), 2000A - 5000A instructions - IL012256EN H01Power Defense Frame 6 key interlock installation instructions -IL012282ENPower Defense Frame 6 modbus and relay board installation -IL012306ENPower Defense Frame 6 flex shaft handle mech assembly instructions - IL012285ENPower Defense Frame 2/3/4/5/6 voltage neutral sensor module wiring instructions – IL012316ENPower Defense Frame 6 handle lock hasp installation instructions -IL012292ENPower Defense Frame 6 aux, alarm, shunt trip and uvr instructions -IL012202ENPower Defense Frame 6 walking beam interlock installation instructions - IL012286ENInstallation videosPower Defense Frame 6 Shunt Trip How-To VideoPower Defense Frame 6 Trip Unit Replacement Animated InstructionsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaPower Defense Frame 6 Aux, Alarm, ST and UVR Animated Instructions.rh Power Defense Frame 6 UVR Trip How-To VideoPower Defense Frame 6 Aux and Alarm Trip How-To Video Power Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoEaton Power Defense for superior arc flash safety Power Defense Frame 5 Trip Unit How-To Video Power Defense Frame 6 Trip Unit How-To Video Power Defense molded case circuit breakersPower Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To Video Power Defense Breakers Eaton Specification Sheet - PDG62N1600P2DN Power Defense time current curve Frame 6 - PD6Single and double break MCCB performance revisited Intelligent circuit protection yields space savingsMolded case and low-voltage power circuit breaker healthImplementation of arc flash mitigating solutions at industrial manufacturing facilitiesMaking a better machineIntelligent power starts with accurate, actionable data Safer by design: arc energy reduction techniques Molded case and low-voltage breaker healthMultimediaSpecifications and datasheetsTime/current curvesWhite papers。

DataOrdering dataProduct type descriptionBNS 260-11Z-ST-L Article number (order number)101184379EAN (European Article Number)4030661321776eCl@ss number, Version 9.027-27-24-02CertificationsCertificates DGUVTÜVcULus EACGeneral dataProduct nameBNS 260StandardsIEC 60947-5-3 BG-GS-ET-14 Installation conditions(mechanical)quasi-flush Enclosure materialGlass-fibre, reinforced thermoplastic Gross weight 18 g General data - FeaturesCodingYes Number of openers 1BNS260-11Z-ST-LLong lifeSmall bodyno mechanical wear26 mm x 36 mm x 13 mmInsensitive to soilingThermoplastic enclosureConnector M8 x 1, 4-pole Concealed mounting possible Insensitive to transverse misalignmentNumber of shutters1Number of safety contacts2Safety appraisalStandards ISO 13849-1Mission Time20 Year(s)Safety appraisal - Safety outputsB10d- Value Normally-closed25,000,000 Operationscontact/Normally open contact(NC/NO)Mechanical dataActuating element MagnetDoor hinge LeftEnsured switch distance "ON" S5 mmaoEnsured switch distance "OFF" S15 mmarAxial misalignment, a horizontal and vertical misalignment of the safetysensor and the actuator are tolerated. The possible misalignment dependson the distance of the active surfaces of the sensor and the actuator. Thesensor remains active within the tolerance range.Direction of motion Head-on to the active surfaceMechanical data - Connection techniqueTerminal Connector Connector M8Mechanical data - DimensionsHeight of sensor36 mmLength of sensor13 mmWidth of sensor26 mmAmbient conditionsProtection class IP67Ambient temperature, minimum-25 °CAmbient temperature, maximum+70 °CStorage and transport-25 °Ctemperature, minimumStorage and transport+70 °Ctemperature, maximumResistance to vibrations to EN10 … 55 Hz, amplitude 1 mm60068-2-6Restistance to shock30 g / 11 msElectrical dataVoltage type DC (direct current)Switching voltage, maximum75 VDCSwitching current, maximum0.4 ASwitching capacity, maximum10 VASwitching frequency, maximum 5 HzScope of deliveryIncluded in delivery Actuators must be ordered separately.AccessoryRecommendation (actuator)BPS 260SRB-E-301STSRB-E-201LCNotesNote (General)The number in brackets indicate the PIN number of the connector. Circuit exampleNote (Wiring diagram)Contact S21-S22; S13-S14 must be integrated in the safety circuit. Ordering codeProduct type description:BNS 260-(1)(2)Z(3)-(4)-(5)(1)11 1 NO contacts/1 NC contact02 2 NC contact(2)without with diagnostic output/01 1 NC contact(3)without without LED switching conditions displayG with LED switching conditions display(4)without Pre-wired cableST with connector(5)L Door hinge on left-hand sideR Door hinge on right-hand sidePicturesProduct picture (catalogue individual photo)ID: kbns2f04| 42,3 kB | .png | 74.083 x 60.325 mm - 210 x 171Pixel - 72 dpi| 63,6 kB | .jpg | 27.093 x 22.013 mm - 320 x 260 Pixel- 300 dpi| 540,4 kB | .jpg | 352.778 x 287.161 mm - 1000 x 814Pixel - 72 dpiDimensional drawing basic componentID: 1bns2g06| 65,1 kB | .jpg | 352.778 x 245.181 mm - 1000 x 695Pixel - 72 dpi| 18,6 kB | .jpg | 112.889 x 78.317 mm - 320 x 222Pixel - 72 dpi| 3,1 kB | .png | 74.083 x 51.506 mm - 210 x 146 Pixel- 72 dpi| 25,6 kB | .cdr |DiagramID: kbns2k27| 60,3 kB | .jpg | 352.778 x 70.203 mm - 1000 x 199Pixel - 72 dpiCharacteristic curveID: kbns2d03| 36,8 kB | .cdr || 40,4 kB | .jpg | 112.889 x 74.789 mm - 320 x 212Pixel - 72 dpi| 18,5 kB | .png | 74.083 x 49.036 mm - 210 x 139Pixel - 72 dpiCharacteristic curveID: kbns2d02| 19,2 kB | .png | 74.083 x 49.389 mm - 210 x 140Pixel - 72 dpi| 40,8 kB | .jpg | 112.889 x 75.142 mm - 320 x 213Pixel - 72 dpi| 36,3 kB | .cdr |ClipartID: kbns2c02| 1,8 kB | .png | 74.083 x 52.211 mm - 210 x 148 Pixel- 72 dpi| 19,6 kB | .cdr |Contact arrangementID: km8--k4b| 17,0 kB | .cdr |K.A. Schmersal GmbH & Co. KG, Möddinghofe 3, D-42279 WuppertalThe details and data referred to have been carefully checked. Images may diverge from original. Further technical data can be found in the manual. Technical amendments and errors possible.Generated on 08.07.2020 19:19:40。

pEASY®-T1 Cloning Kit目录号：CT101试剂盒组成1.pEASY- T1 Cloning Vector (10 ng/μl)2.Control Template (5ng/μl), Control Primers (10 μM),3.M13F (10 μM)，M13R (10 μM)4.Trans1-T1 Phage Resistant Chemically Competent Cell.保存Trans1-T1 Phage Resistant Chemically Competent cell 可于–70℃保存至少六个月, 其他组分-20℃保存至少六个月。

产品说明pEASY- T1 Cloning Kits适用于TA克隆.-快速克隆基因，仅需要5分钟反应时间。

-提供氨苄青霉素和卡那霉素两种筛选标记。

-对照插入片段克隆效率可达95% 以上。

-包含LacZ 基因，在含有IPTG，X-gal 的平板培养基上，可进行蓝白斑筛选。

工作原理pEASY- T1 Cloning Kits 以线性的形式提供:-3′端悬垂胸腺嘧啶(T)可用于TA克隆-拓扑异构酶与载体相互偶联（活化载体）Taq DNA聚合酶具有类似脱氧核糖核酸末端转移酶(TdT)的功能，可在新合成双链产物的3’端加上一个碱基。

尽管4种碱基均可被聚合到3’端，但Taq酶对dATP的聚合能力远高于其他3种dNTP.所以，在标准PCR条件下，PCR产物3’端这一非模板依赖的聚合碱基几乎总是A。

pEASY- T1 Cloning Kits在3’端提供一个悬垂的T碱基，这样的结构使PCR片段可以高效的和载体进行连接。

牛痘拓扑异构酶I型可以与DNA 双链的特定位置结合并切割特异位点5’-(C/T)CCTT-3’, 与3‘T的磷酸基团性成共价键，并切断其中一条DNA链，使DNA解链。

磷酸二酯键断裂释放的能量储存于3’磷酸与拓扑异构酶氨基酸残基（Tyr-274）形成的共价键中。

史陶比尔是世界上快速连接系统的主要制造商之一。

Staubli产品用于各类流体、气体和电能的连接。

这些标准或特制产品（单路和多路接头，工具更换，快速换模系统）性能高、品质优良、安全、可靠并经久耐用。

Staubli史陶比尔的接头都为模块式设计，适用于各种流体、压力，温度，真空和恶劣的工作条件。

典型的应用有压缩空气，呼吸空气，液压，再生能源，流体和气体。

隶属Staubli史陶比尔集团的Multi-Contact公司研制和制造众多种类的用于电力、数据传送、光纤、同轴应用和光伏方面的电接头。

Staubli史陶比尔工业机器人既高效又精确，它们为各行业提供制造一系列品质和性能无与伦比的产品的手段。

产品系列包括4轴SCARA机器人，负载大于250 kg的高负荷机器人，控制器，软件和高品质和性能的专业应用。

Staubli史陶比尔产品分类：STAUBLI单接头，STAUBLI组合接头、STAUBLI换枪盘、STAUBLI快速换模系统、STAUBLI惰性气体用快速接头 Staubli快速接头、Staubli组合接头、Staubli快速换模系统、Staubli机器微型接头、MCR 02 小型接头MRA 04 KUPPLUNG CBI06.1101/IA CBI 06 .1101/1A主要型号：MCR, RBE. MRA, RCS, RSI, ERS, ADS, RVS, HJP、吹扫组件, 吹尘枪STA, CBI. RPL,SPT-防污染, RME-DOUBLE SHUT-OFF, RMI, SCB, BPX 37. GPL,NCI-分水器, RBE, HCB, 大口径HCB， SCB, BPX37, GPL, CBX-洁净断开, HPX, SPX, SBA, MPX, RMI,RMI 组合版, RMP 组合版, SPC组合版, combitax.。