说明书YG020A

(1)Features• Power supply 24 Vdc/Vac or 100-240 Vac • Trend indicator• “¼ turn” system mounting withwall-mount plate4-wire analogue output 0-5/10 V or 0/4-20 mA Configurable ranges from 0 to 5000 ppm and from 0 to 50 °C ABS V0 IP65 housing, with or without display2 relay outputsPart numberExample: COT212 – BNS – RTemperature and CO 2 transmitter, 24 Vac/Vdc power supply, without display, with ambient probe and relay outputs Important note:The model with power supply of 24 Vac/Vdc is available only without display.The model with power supply of 100-240 Vac is available only with display.Power supply / Output B : 24 Vac/Vdc H : 100-240 VacDisplayN : without display (only for models with power supply of 24 Vac/Vdc)O: with display (only for models with power supply of 100-240 Vac)Type of probe D : Remote S : AmbientProbe cable length (remote model only) ( ): cable lentgh 2 m 05M: cable length 5 m 10M: cable length 10 mRelay outputsWarning: risk of electric shock 2 x 4-20 mA or 2 x 0-20 mA or 2 x 0-5 V or 2 x 0-10 V (4 wires)DOUBLE ISOLATION or REINFORCED ISOLATIONFeatures of housingAll dimensions are in millimeters.Probes technical specifications• Ambient probeRemote modelAmbient modelDimensionsConnections50-60 Hz 8 VA 0/4...20 mA / 0...5/10 V1234576l t a j e i e r r a e n t el t a j ei e r r a e n t e24 Vdc NL Alimentation 100-240 Vacor1. DIP switch (d)2. LCC-S software connection3. Relays4. Analogue outputs (a)5. F3.20* fuse6. Power supply terminal block (c)7. Cable glandsOn 100-240 Vac models, if a fuse protection is used for the power line, it is imperative to use delayed-action fuses in order to • •• N L Alimentation 24 Vacclasse II norme EN61558-2-6Pe N L ou230 Vacor230 VacNL Alimentation 100-240 Vac-+0-5/10 V0/4-20 mAAf cheur régulateur ou automate type passifAf cheur régulateur ou automate type passifSortie 4-20 mASortie 0-10 VPLC/BMS de tipo pasivoConfiguration of the transmittersIt is possible on the class 210 to configure all the parameters of the transmitter : units, measuring ranges, outputs, channels, calculation func-tions, etc, via different methods:• Keypad for models with display: a code-locking system allows to secure the installation (See class 210 transmitters user manual). • Software (optional) on all models: Simple user-friendly configuration. See LCC-S user manual.Sorties analogiques configurables: Configurable analogue output:It is possible to configure your own intermediary ranges in CO 2 and in temperature.Caution: the minimum difference between the high range and the low range is 20.37500 ppm 0 V 4 mA 2500 ppm 5000 ppm10 V 20 mANew range0 ppm0 V 4 mA 25005000 ppm10 V 20 mA3750MountingTo mount the transmitter, mount the ABS plate on the wall (drilling: Ø 6 mm, screws and pins are supplied).Insert the transmitter on the fixing plate (see A on the drawing beside). Rotate the housing in clockwise direction until you hear a “click” which confirms that the transmitter is correc-tly installed.MaintenancePlease avoid any aggressive solvent. Please protect the transmitter and its probes from any cleaning product containing formalin, that may beused for cleaning rooms or ducts.CalibrationOutputs diagnostic: With this function, you can check with a multimeter (or on a regulator / display, or a PLC / BMS) if the transmitter out-puts work properly. The transmitter generates a voltage of 0 V , 5 V and 10 V or a current of 4 mA, 12 mA and 20 mA.Certificate: Class 210 transmitters are supplied with adjusting certificates. Calibration certificates are available as an option.Options and accessoriesPrecautions for usePlease always use the device in accordance with its intended use and within parameters described in the technical features in order not to compromise the protection ensured by the device.Only the accessories supplied with the device must be used.All dimensions are in millimeters.F T _E N – C O T 212-R – 02/08/2021 – N o n -c o n t r a c t u a l d o c u m e n t – W e r e s e r v e t h e r i g h t t o m o d i f y t h e c h a r a c t e r i s t i c s o f o u r p r o d u c t s w i t h o u t p r i o r n o t i c e .。

SMAJE400 W Transient voltage suppressorProduct features• Low profile SMA package • Excellent clamping capability•400 W peak pulse power capability at 10/1000 μs waveform• Typical I R less than 1 μA above 10 V•Fast response time: typically less than 1.0 ps from 0 V to V BR minimum•High temperature reflow soldering: +260 °C /40 s at terminal•Plastic package meets UL 94 V-0 flammability rating• Meets moisture sensitivity level (MSL) level 1•Terminal: Solder plated leads, solderable per J-STD-002•For surface mounted applications in order to optimize board space•UL 497B recognized.File No. : E198449 Guide QVGQ2Applications• Consumer electronics • Telecommunications • Computing and servers • Appliances• Industrial automation •Mobile and wearablesEnvironmental compliance and general specificationsSMAJE 5-0 C AFamily name V R voltage(“-” indicates decimal point) Bi-/Uni-Directional(Blank=Uni, C=Bi)Voltage toleranceOrdering part numberPIN configurationPb HALOGENHF FREE2Technical Data 11213Effective November 2020SMAJE400 W Transient voltage suppressor/electronicsParameterSymbolValueUnitStorage operating junction temperature range T STG / T J -55 to +150°C Steady state power dissipation at T L = +75 °C P M(AV) 3.3W Peak pulse power dissipation on 10/1000 μs waveformP PP 400W Maximum instantaneous forward voltage at 100 A for unidirectionalV F 5.0V Peak forward surge current, 8.3 ms single half sine wave 1I FSM 60A Typical thermal resistance junction to lead R JL 30°C/W Typical thermal resistance junction to ambientR JA120°C/WAbsolute maximum ratings(+25 °C, RH=45%-75%, unless otherwise noted)1. Measured on 8.3 ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle = 4 per minute maximumPackaging information (mm)Drawing not to scale.Supplied in tape and reel packaging, 5,000 parts per 13” diameter reel (EIA-481 compliant)Mechanical parameters, pad layout- mmMillimetersInches Dimension MinimumMaximumMinimumMaximumA 2.60 3.000.1020.118B 4.15 4.650.1630.183C 1.25 1.650.0490.065D 0.95 1.520.0370.060E 4.90 5.300.1930.209F 0.0510.2030.0020.008G 0.150.310.0060.012H 2.00 2.440.0790.096J 2.000.079K 2.300.091L1.800.071Part markingDimension Millimeters InchesA0 2.79 ± 0.30.110 ± 0.012B0 5.33 ± 0.30.210 ± 0.012C 330.013.0 D0 1.55 ± 0.10.061 ± 0.004E 1.75 ± 0.20.069 ± 0.008E113.3 ± 0.30.524 ± 0.012F 5.50 ± 0.20.217 ± 0.008P0 4.00 ± 0.20.157 ± 0.008P1 4.00 ± 0.20.157 ± 0.008P2 2.00 ± 0.2 0.079 ± 0.008W 12.0 ± 0.20.472 ± 0.008W115.7 ± 2.00.618 ± 0.079Cathode band (Uni-polar only)Part marking: xxxx = Date codeyy- Refer to marking designator listed in Electrical Characteristics table3Technical Data 11213Effective November 2020SMAJE400 W Transient voltage suppressor /electronics Part number Marking V RI R @ V R V BR @ I T I TV C @ I PP I PP Uni-polarBi-polarUni Bi(V)(μA)min (V)max (V)(mA)max (V)(A)SMAJE5-0A SMAJE5-0CA HE TE 5120 6.47109.243.5SMAJE6-0A SMAJE6-0CA HG TG 6120 6.677.371010.338.8SMAJE6-5A SMAJE6-5CA HK TK 6.5807.227.981011.235.7SMAJE7-0A SMAJE7-0CA HM TM 7507.788.6101233.3SMAJE7-5A SMAJE7-5CA HP TP 7.5508.339.21112.931SMAJE8-0A SMAJE8-0CA HR TR 8208.899.83113.629.4SMAJE8-5A SMAJE8-5CA HT TT 8.5109.4410.4114.427.8SMAJE9-0A SMAJE9-0CA HV TV 951011.1115.426SMAJE10A SMAJE10CA HX TX 10211.112.311723.5SMAJE11A SMAJE11CA HZ TZ 11112.213.5118.222SMAJE12A SMAJE12CA IE UE 12113.314.7119.920.1SMAJE13A SMAJE13CA IG UG 13114.415.9121.518.6SMAJE14A SMAJE14CA IK UK 14115.617.2123.217.3SMAJE15A SMAJE15CA IM UM 15116.718.5124.416.4SMAJE16A SMAJE16CA IP UP 16117.819.712615.4SMAJE17A SMAJE17CA IR UR 17118.920.9127.614.5SMAJE18A SMAJE18CA IT UT 1812022.1129.213.7SMAJE20A SMAJE20CA IV UV 20122.224.5132.412.4SMAJE22A SMAJE22CA IX UX 22124.426.9135.511.3SMAJE24A SMAJE24CA IZ UZ 24126.729.5138.910.3SMAJE26A SMAJE26CA JE VE 26128.931.9142.19.5SMAJE28A SMAJE28CA JG VG 28131.134.4145.48.8SMAJE30A SMAJE30CA JK VK 30133.336.8148.48.3SMAJE33A SMAJE33CA JM VM 33136.740.6153.37.5SMAJE36A SMAJE36CA JP VP 3614044.2158.1 6.9SMAJE40A SMAJE40CA JR VR 40144.449.1164.5 6.2SMAJE43A SMAJE43CA JT VT 43147.852.8169.4 5.8SMAJE45A SMAJE45CA JV VV 4515055.3172.7 5.5SMAJE48A SMAJE48CA JX VX 48153.358.9177.4 5.2SMAJE51A SMAJE51CA JZ VZ 51156.762.7182.4 4.9SMAJE54A SMAJE54CA RE WE 5416066.3187.1 4.6SMAJE58A SMAJE58CA RG WG 58164.471.2193.6 4.3SMAJE60A SMAJE60CA RK WK 60166.773.7196.8 4.1SMAJE64A SMAJE64CA RM WM 64171.178.61103 3.9SMAJE70A SMAJE70CA RP WP 70177.8861113 3.6SMAJE75A SMAJE75CA RR WR 75183.392.11121 3.3SMAJE78A SMAJE78CA RT WT 78186.795.81126 3.2SMAJE85A SMAJE85CA RV WV 85194.41041137 2.9SMAJE90A SMAJE90CA RX WX 9011001111146 2.8SMAJE100A SMAJE100CA RZ WZ 10011111231162 2.5SMAJE110A SMAJE110CA SE XE 11011221351177 2.3SMAJE120A SMAJE120CA SG XG 12011331471193 2.1SMAJE130A SMAJE130CA SK XK 13011441591209 1.9SMAJE150A SMAJE150CA SM XM 15011671851243 1.7SMAJE160A SMAJE160CA SP XP 16011781971259 1.6SMAJE170A SMAJE170CA SR XR 17011892091275 1.5SMAJE180A SMAJE180CA ST XT 18012012221292 1.4SMAJE200A SMAJE200CA SX XX 20012242471324 1.3SMAJE220A SMAJE220CA ZE YE 22012462721356 1.1SMAJE250A SMAJE250CA ZG YG 250127930914051SMAJE300A SMAJE300CA ZK YK 300133537114860.8SMAJE350A SMAJE350CA ZM YM 350139143215670.7SMAJE400A SMAJE400CA ZP YP 400144749416480.6SMAJE440ASMAJE440CAZRYR440149254317130.6Electrical characteristics (+25 °C)4Technical Data 11213Effective November 2020SMAJE400 W Transient voltage suppressor/electronicsI P P M (% I R S M )t (ms)200 25 50 75 100125 150 175P P P d e r a t i n g i n p e r c e n t a g e (%)100406080T J -Initial junction temperature (°C)V- I curve characteristics (Uni-directional)V- I curve characteristics (Bi-directional)Pulse waveformPulse derating curveSurge waveform: 10/1000 μsV R : Stand-off voltage -- Maximum voltage that can be applied V BR : Breakdown voltageV C : Clamping voltage -- Peak voltage measured across the suppressor at a specified I PP I R : Reverse leakage current I T : Test currentV F : Forward voltage drop for Uni-directional TVS diode0.0010.01 0.11.0 100.11001.010400 W at 10/1000 μs +25 °CP p p (k W )t d -Pulse width (ms)Peak pulse power dissipation vs. pulse widthRatings and V-I characteristic curves (+25 °C unless otherwise noted)EatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/electronics© 2020 EatonAll Rights Reserved Printed in USAPublication No. 11213 BU-MC20191November 2020Technical Data 11213Effective November 2020SMAJE400 W Transient voltage suppressor Life Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express writtenapproval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin.Solder reflow profileT e m p e r a t u r eT LT PEaton is a registered trademark.All other trademarks are property of their respective owners.Follow us on social media to get the latest product and support information.Reference J-STD-020Profile featureStandard SnPb solderLead (Pb) free solderPreheat and soak • Temperature min. (T smin )100 °C 150 °C • Temperature max. (T smax )150 °C 200 °C • Time (T smin to T smax ) (t s )60-120 seconds 60-180 seconds Ramp up rate T L to T p 3 °C/ second max. 3 °C/ second max.Liquidous temperature (T l ) Time (t L ) maintained above T L183 °C60-150 seconds 217 °C60-150 seconds Peak package body temperature (T P )*Table 1Table 2Time (t p )* within 5 °C of the specified classification temperature (T c )20 seconds*40 seconds*Ramp-down rate (T p to T L ) 6 °C/ second max. 6 °C/ second max.Time 25 °C to peak temperature6 minutes max.8 minutes max.* Tolerance for peak profile temperature (T p ) is defined as a supplier minimum and a user maximum.Table 1 - Standard SnPb solder (T c )Package thicknessVolume mm3 <350Volume mm3 ≥350<2.5 mm 235 °C 220 °C ≥2.5 mm220 °C220 °CTable 2 - Lead (Pb) free solder (T c )Package thicknessVolume mm 3 <350Volume mm 3350 - 2000Volume mm 3 >2000<1.6 mm 260 °C 260 °C 260 °C 1.6 – 2.5 mm 260 °C 250 °C 245 °C >2.5 mm250 °C245 °C245 °C。

双色变换段彩纱成纱原理及其共混段长度与强度的影响因素郭明瑞; 李沛赢; 孙丰鑫; 高卫东【期刊名称】《《纺织学报》》【年(卷),期】2019(040)005【总页数】6页(P30-35)【关键词】双色变换段彩纱; 共混段; 牵伸分配; 粗纱喂入提前量【作者】郭明瑞; 李沛赢; 孙丰鑫; 高卫东【作者单位】生态纺织教育部重点实验室(江南大学) 江苏无锡214122【正文语种】中文【中图分类】TS104.1花式纱线以其独特的结构、外观特点，被广泛应用于服装、装饰领域。

传统花式纱线主要依靠花式捻线机等专用设备生产，随着纺纱方法的创新、纺纱机的智能化，基于环锭纺的花式纱开发取得显著成果。

其中，段彩纱是比较成功的案例之一，文献[1-2]对段彩纱的工艺流程和纱线风格进行了总结。

目前，生产段彩纱的主要方法是在传统细纱机上加装一些配件，同时改变后罗拉的驱动方式，在中罗拉连续喂入基纱，后罗拉间歇喂入色纱，纺制段彩竹节纱，生产此类段彩纱的装置以CCZ 系列花式纱装置为代表[3]。

针对此类段彩纱性能的研究已经比较全面，改善纯棉段彩纱条干的方法[4]，涤棉段彩纱的工艺优化[5]，棉粘段彩纱的配棉要求，以及控制段彩纱质量的关键技术[6-7]。

此外，采用伺服电动机分别驱动中、后罗拉，在中罗拉连续喂入基纱，后罗拉间歇喂入色纱，但基纱的牵伸倍数跟随色纱的喂入进行相应的变化，来生产线密度恒定的段彩纱[7-8]。

不同于上述2种方法，一种采用同轴双后罗拉的纺纱方法被用来纺制段彩纱，此方法通过改变2根喂入粗纱的牵伸比来调整不同片段纱线的混纺比，进而形成不同色彩效果的纱线片段[9]。

目前，基于环锭纺具有3个独立牵伸通道的数码纺纱技术将段彩纱的色纱数量进一步拓展，可以纺制三色段彩纱[10]。

前2种方法从原理上就不能纺制纯色变换段彩纱，后2种方法只是从基本原理上提出了纺制此类段彩纱的方法，并没有对纯色变换段彩纱的纺纱机理进行深入分析。

本文基于双通道环锭纺技术，对纺制双色变换段彩纱的纺纱装置及工艺进行研究，分析了双色变换段彩纱共混段成纱原理，研究了后区牵伸倍数与粗纱喂入提前量对共混段长度和强度的影响。

商业照明电源手册LIFUD COMMERCIAL LIGHTING LED DRIVER01公司简介 | COMPANY PROFILE公司简介COMPANY PROFILE深圳莱福德科技股份有限公司，立志成长为全球“领先的LED驱动与智能系统服务商”。

公司自2007年成立以来，秉承并践行“踏踏实实做人、踏踏实实做事、踏踏实实做产品”的价值理念，致力于技术创新，通过节能、健康、环保的产品输出，实现改善人类生存环境、提升人们生活品质的企业使命，不断迈进，达成使能源更高效、更清洁的长远愿景。

总部位于中国深圳，是深圳高新技术企业及国家高新技术企业。

公司技术研究和产品开发人员编制180位，并与福州大学、西南交通大学保持产学研合作与交流；自建UL、DALI认证实验室、100亩产业园，为企业自身产品开发和客户配套提供超值服务。

创业15年来，全体莱福德人锐意进取、艰苦奋斗，通过引领的技术、优质的产品和贴近的服务，为全球近10000+合作伙伴持续创造价值，已通过最新版“IS09001:2015”质量管理体系认证，获得“ISO14001:2015”环境管理体系以及知识产权管理体系证书。

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02公司简介 | COMPANY PROFILE愿 景： 使能源更高效、更清洁使 命： 致力于技术创新、改善人类生存环境、提升生活品质核心价值观： 踏踏实实做人，踏踏实实做事，踏踏实实做产品质量方针： 以卓越的品质、持续的创新、完善的服务，为客户创造价值合作理念： 己所不欲，勿施与人企业文化LIFUD PHILOSOPHY03公司简介 | COMPANY PROFILE坚持技术创新、实现产品竞争力领先Technology: adhere to technological innovation for developing competitive product与福州大学合作，共同研究电子技术前沿科研项目自主设计二合一主控芯片、DDM01调光芯片等在成都成立第二研发中心，专研智能系统技术理论研究+应用创新+供应链整合，构建技术持续创新能力圈数百万新设备投入，建立环境/安规/EMC/智能系统检测实验室磁集成技术⸺革命性创新专利引领全球，开发产品荣获欧洲LED专业研讨会（LpS Digital）最佳产品奖第三名入选国家级专精特新小巨人企业技术04公司简介 | COMPANY PROFILEQuality：Meticulous design + rigorous test + strict management +sophisticated equipment，target of 500PPMService: customized service to achieve 100% satisfaction缜密的设计+严苛的试验+严谨的管控+精密的设备导入IPD管理体系BCA+PD+EVT+DVT+PVT各阶段设计评审与测试验证：100+检测项目双加速寿命试验-高温80度2000H老化 & 双85核心器件全部由品牌大厂供应生产过程SMT、AI、灌胶、老化等自动化，保证产品质量一致性AOI及ATE自动检测系统全面应用，防止人工检验测试的漏失产品100%老化，保障产品可靠性品质践行一客一策，实现 “服务100·满意100”为VIP大客户提供“优+专属服务”体验设立海外服务网点，现场解决售后问题配合客户商务公关，协助客户获取订单各区域常驻完善的直销服务及FAE技术团队，24小时响应需求丰富的产品选型，常备成品库存，现货销售接受客户产品定制化服务05公司简介 | COMPANY PROFILE发展历程LIFUD HISTORY 产品沿革PRODUCT HISTORY成立深圳市莱福德光电有限公司2007迁址龙华1400㎡工厂，实现研发、 生产、 销售全环节管控2008首创引领行业日光灯的非隔离灯管电源，销售额突破1200万2009工厂通过ISO9001质量管理体系认证；再次迁址光明5600㎡工业园2010取得8项专利；设立华东办事处；销售额破1亿2011四川购地100亩，用于自建工业园区； 获深圳高新技术企业认定2012四川莱福德科技园开始投入生产； 华东、中山办事处相继成立 2013生产线全面向四川转移；销售额突破2.1亿20142008行业首创非隔离日光灯管电源2009行业首款UL/TUV认证面板灯电源2010首款原边反馈隔离日光灯电源首款小功率内置电源爆款2012首款面板灯外置爆款电源2013首款双极无频闪0-10V电源2014首款DALI电源进军智能照明领域LF-G416LF-F301LF-G227LF-G308LF-GDExxxYBLF-GIRxxxYELF-GDExxxYF （S）06公司简介 | COMPANY PROFILE签署公司第一家海外分销商； 首创美规方形铁壳面板灯电源2015深圳莱福德迁址到花园式办公园区泰华梧桐岛；获UL/WTDP授权实验室2016荣获四川省、广东省著名商标，四川名牌等称号，获四川眉山市政府质量奖； 授权为西安交通大学研究生基地之一， 首创非隔离UFO电源2017莱福德股份制改革， 更名深圳莱福德科技股份有限公司； 成立德国分公司20182019全品类扩张、产品线包括： 商照、大功率、智能、恒压、显示屏电源2019荣获国际LpS “最佳产品奖”确立智能、大功率、通用三大事业部，全面助力客户项目工程竞标2020入选国家级专精特新“小巨人”企业名单，入选广东省工程技术中心20212015行业小筒灯经典爆品,7年持续畅销2016行业首创美规同步调光一体化电源2017行业首创非隔离UFO电源2018行业首创五合一调光非隔离大功率电源2019首款LED显示屏电源产品2020行业首创“智适应·恒功率”路灯电源2021教室照明专用产品，10万+教室安装经验LF-GMDxxxYBLF-FHBxxxYF/GLF-GOExxxYJ/KLF-GIRxxxYSLF-FHBxxxYALF-GVCxxxAxVxALF-GIFxxxYAII公司简介 | COMPANY PROFILE 部分案例LIGHTING PROJECT人民大会堂泰国皇宫英国皇家办公室加州洛杉矶大使馆花旗银行大厦纽约证券交易所海宁市教育局中小学改造项目东莞中学松山湖中学赣州市文清外国语学校剧院山东省齐河县第五实验小学河南平顶山汝州市中小学教室照明上海市闵行区七宝第三中学温州7所教育局直属学校杭州绿城育华学校苏州吴县中学杭州高级中学启正中学深圳福田新沙小学无锡第一中学天津静海第四中学南宁市云锦路小学安徽定远实验小学南京拉萨路小学云南曲靖民族中学南京金陵中学07公司简介 | COMPANY PROFILE厦门金砖五国会议会场德国杜塞机场花园大楼阿里巴巴杭州飞天大厦深圳腾讯大厦上海华润大厦武汉烽火通信研发中心千岛湖喜来登度假酒店福州泰禾铂尔曼酒店杭州开元名都酒店海南三亚五星级酒店深圳Jirock酒店北京友谊宾馆成都地铁5号线上海地铁15号线长春城轨1号线青岛地铁11号线无锡地铁1号线福州地铁2号线西班牙、贵阳、遵义宝马4S店周大福、周生生珠宝店美国德州TacoCabana连锁英国黑潭BlackpoolTower拉脱维亚里加商场马来西亚吉隆坡花园购物中心0809公司简介 | COMPANY PROFILE资质证书QUALIFICATION CERTIFICATE发明专利： 一种LED驱动控制电路、控制装置及方法发明专利： 一种用于LED驱动电源调光信号处理系统发明专利： 高频变压器CN201610995019.3发明专利： 高频变压器CN201610994480.7发明专利： 高频变压器CN201610995018.9发明专利： 数字电源控制方法及装置发明专利： 多功能调光电路及装置实用新型： 一种LED电源实用新型： LED电源测试系统实用新型： 智能LED照明控制系统实用新型： LED驱动电源外壳实用新型： LED驱动电源金属外壳实用新型： LED电源智能控制器实用新型： 可自动控制的LED散热装 置驱动电路实用新型： 一种无频闪的电路实用新型： 一种恒流小功率电源实用新型： 一种LED电源外壳、LED电源及照明装置实用新型： 一种双管反激的单级PFC的LED电路实用新型： 一种超极结MOS应用的保护电路实用新型： 一种LED电源外壳、LED电源及照明装置....................等114项专利技术公司简介 | COMPANY PROFILE国家级专精特新小巨人企业 国家级高新技术企业深圳市高新技术企业广东著名商标 四川省著名商标眉山市政府质量奖改革开放40年影响力企业广东省工程技术中心四川省企业技术中心四川名牌产品四川省技术创新与知识产品保护优秀企业年度十大创新产品（大功率高光效工业照明电源）中国LED电源企业国际竞争力 TOP10智能照明优秀跨界企业十大配件品牌 知识产权20强企业LPS Digital最佳产品奖ISO14001:2015 ISO9001知识产权管理体系认证高工LED金球奖 高工年度技术创新奖 高工年度最佳雇主奖第六届LED首创金奖产品系列选型图 | PRODUCT OVERVIEW欧规面板/教室护眼灯电源（220Vac）欧规筒射/导轨/壁灯电源（220Vac）欧规线条/三防灯电源（220Vac）LF-GIR003YSⅡxxxxH 3W(300-700mA)29PLF-GIR003YSⅡxxxxH(D)3W(300mA)29PLF-GIR007YSⅡxxxxH7W(70-180mA)29PLF-GIR007YSⅡxxxxH(D)7W(350-700mA)29PLF-GIR013YS0600H13W(600mA)27PLF-GIR013YSxxxxH 13W(500\550mA)27PLF-GIR018YSxxxxH 18W(350\400\450mA)27PLF-GIR024YSxxxxH 24W(500\550mA)27PLF-GIR009YS0250H9W(250mA)27PLF-GIR009YSxxxxH 9W(300\350mA)27PLF-GIR009YSxxxxH 9W(135\160\180\200mA)27PLF-GIR009YSxxxxH 9W(300/350/400/500/600/700mA)27PLF-GIR013YSxxxxH 13W(250\300mA)27PLF-GIR013YS0350H13W(350mA)27PLF-GIR024YS0600H24W(600mA)27PLF-GIC040YSⅡ40W(800-950mA)30PLF-GIC030YSⅡ30W(600-750mA)30PLF-GIC013YSⅡ13W(200-350mA)30PLF-GIC020YSⅡ20W(400-550mA)30PLF-GIF036YFII 36W(800-900mA)28PLF-GIF040YFII 40W(950-1050mA)28PLF-GIF020YFII 20W(350-500mA)28PLF-GIF030YFII 30W(550-750mA)28PLF-GLD025YE 25W(250-550mA)33PLF-GMR020YS II （G3）20W(200-550mA)32PLF-GMR030YS II （G3）30W(600-750mA)32PLF-GMR080YS II （G2）80W(1600-2000mA)32PLF-GMR060YS II （G2）60W(1100-1550mA)32PLF-GMR040YS II （G3）40W(800-1050mA)32PLF-GIF015YA15W(100-350mA)26PLF-GIF022YA 22W(400-500mA)26PLF-GIF050YS 50W(1100-1300mA)24PLF-GIF060YS 60W(1350-1550mA)24PLF-GIF050YAⅡ50W(1100-1300mA)22PLF-GIF060YAⅡ60W(1350-1550mA)22PLF-GIF030YS 30W(550-750mA)24PLF-GIF040PB 40W(900-1050mA)23PLF-GIF040YS 40W(800-1050mA)24PLF-GIF040YAⅡ(D)40W(1050mA)22P21PLF-GIF030YApro30W(550-800mA)LF-GIF040YApro 40W(850-1050mA)21PLF-GIF040YAⅡ40W(1050mA)22PLF-GIF030YAⅡ30W(550-800mA)22PLF-GIF040YAⅡ40W(850-1000mA)22PLF-GIF040YAⅡ(H)40W(900-1000mA)22P产品系列选型图 | PRODUCT OVERVIEW美规面板/格栅灯电源（120/277Vac）美规线条灯电源（120/277Vac）LF-GLD035YS 35W(600-800mA)43PLF-GLD045YS 45W(800-1100mA)43PLF-GLD055YS 55W(1100-1300mA)43PLF-GLD025YS25W(250-550mA)43PLF-GLD065YS 65W(1300-1550mA)43PLF-GMD025YM 25W(250-500mA)44PLF-GLD035YE 35W(600-800mA)33P LF-GLD045YE 45W(850-1050mA)33P LF-GLD055YE 55W(1100-1300mA)33P LF-GLD065YE 65W(1300-1500mA)33P LF-GLD080YE 80W(1550-2000mA)33P LF-FMR020YS （G2）20W(200-350mA)34PLF-GMD065YS V 65W(1100-1650mA)37PLF-GMD035YS V35W(500-800mA)37PLF-GMD045YS V 45W(800-1100mA)37PLF-GMD055YS V 55W(1100-1300mA)37PLF-GMD045YB V 45W(800-1100mA)38PLF-GMD035YB V 35W(300-800mA)38PLF-GMD055YB V 55W(1100-1300mA)38PLF-GMD065YB V 65W(1100-1650mA)38PLF-GLD055YI 55W(900-1300mA)39PLF-GLD055YI 55W(650-1050mA)39PLF-GLD045YI 45W(600-1100mA)39PLF-GLD045YI 45W(500-1000mA)39PLF-GLD035YI 35W(400-750mA)39PLF-GLD035YI 35W(350-750mA)39PLF-GIR050YK 50W(1100-1300mA)41PLF-GIR040YK 40W(800-1000mA)41PLF-GIR020YK 20W(350-500mA)41PLF-GIR030YK 30W(600-750mA)41PLF-GIF030YC 30W(550-750mA)40PLF-GIF040YC 40W(800-1050mA)40PLF-GMD035YM 35W(300-750mA)44PLF-GMD045YM 45W(450-1050mA)44PLF-GMD065YM 65W(700-1550mA)44PLF-FMR040YS （G2）40W(200-350mA)34PLF-FMR080YS 80W(200-350mA)34PLF-FMR060YS （G2）60W(200-350mA)34PLF-FMR080YS 80W(375-550mA)34PLF-FSD060YA 60W(120-550mA)35PLF-FSD037YA 37W(75-400mA)35PLF-FSD090YA 90W(250-1050mA)35P产品系列选型图 | PRODUCT OVERVIEWDALI DT6恒压调光系列DALI DT8恒流调光调色系列LF-GSD075YVxxxB75W 24V 56P56PLF-GSD120YVxxxB120W 12V LF-GSD150YVxxxB150W 24V 56PLF-GSD012YK 12W（100-350mA）48PLF-GSD020YK20W （350-700mA）48PLF-GSD030Yk30W （400-750mA)48PLF-GSD040YG40W (550-1050mA )48PLF-GSD050YG 50W(900-1200mA)48PDALI系列LF-BBD02525W(250-600mA)53PDALI DT8恒压调光调色系列LF-GSD075YVxxxA75W 24V 58PLF-GSD120YVxxxA120W 12V 58PLF-GSD150YVxxxA150W 24V58PDALI DT6恒流调光系列LF-AAD04040W(550-1050mA)50PLF-GSD040PF 40W(550-1050mA)49PLF-GSD012PF 12W(150-400mA)49PLF-AAD01212W(150-400mA)50PLF-GSD020PF20W(250-500mA)49PLF-AAD02020W(250-500mA)50PLF-GSD030PF 30W(400-750mA)49PLF-AAD03030W(400-750mA)50PLF-AAD008-0700-128W(350-700mA)50PLF-AAD008-0350-428W(100-350mA)50PLF-GSD050YH 50W(1100-1300mA)54PLF-GSD020YC 20W(250-500mA)51PLF-GSD060YC 60W(1100-1500mA)51P51PLF-GSD040YC 40W(550-1050mA)LF-GSD010YH 10W(100-300mA)54PLF-GSD015YH 15W(250-450mA)54PLF-GSD022YH 54PLF-GSD030YH 30W(550-750mA)54PLF-GSD040YH 40W(800-1050mA)54PLF-GSD040YE 40W(800-1050mA)52PLF-GSD015YE 15W(100-350mA)52PLF-GSD020YE 20W(250-500mA)52PLF-GSD030YE 30W(550-750mA)52PLF-GSD060YE 60W(1100-1500mA)52PLF-GSD080YE 80W(1550-2000mA)52PLF-BBD04040W(650-1000mA)53PLF-BBD06060W(1050-1400mA)53PLF-BBD08080W(1450-1800mA)53P产品系列选型图 | PRODUCT OVERVIEWLF-AAT008-0350-428W(100-350mA)68PLF-AAT01010W(100-450mA)68PLF-AAT01212W(150-400mA)68PLF-AAT01515W(150-500mA)68PLF-AAT02020W(250-500mA)68PLF-AAT04040W(700-1050mA)68PLF-GDE003YG3W(150-350mA)69PLF-GDE008YG(H)8W(135-200mA)69PLF-GDE008YG(L)8W(300-350mA)69PLF-GDE014YG14W(200-350mA)69PLF-GDE030YG30W(550-700mA)69PLF-GDE012YD12W(200-300mA)LF-GDE024YD24W(350-600mA)LF-GDE030YD30W(650-750mA)LF-BAT012 LF-BAT030LF-BAT040恒流可控硅调光系列TRIAC系列LF-AAT008-0700-128W(350-700mA)68PLF-AAT03030W(400-750mA)68PLF-GDE020YG20W(400-550mA)69PLF-BAT020DALI DT6恒压五合一调光系列LF-GAD04040W 24V57P57PLF-GAD240240W 24V LF-KAD150150W 12/24V LF-KAD24055PDALI转换器LF-SCD010A59PDALI总线电源LF-GSD005YD60PDALI光感LF-SCD050A61PDALI干接点模块LF-SAD00162PDALI调光旋钮LF-SCD020B63PDALI继电器LF-SAD00262P64PDALI调光面板LF-SAD003/004/005/006DALI网关63PLF-SAD007产品系列选型图 | PRODUCT OVERVIEWTRIAC系列LF-GLD025YE 25W(250-550mA)80PLF-GLD035YE 35W(700-800mA)80PLF-GLD045YE 45W(850-1050mA)80PLF-GLD055YE 55W1100-1300mA)80PLF-GLD065YE 65W(1300-1550mA)80PLF-GLD080YE 80W(1550-2000mA)80PLF-AAA030B 30W(400-750mA)78PLF-AAA040B 40W(550-1050mA)78PLF-ABA01212W(150-300mA)79PLF-ABA02020W(350-500mA)79PLF-ABA03030W(500-750mA)79PLF-ABA04040W(800-1050mA)79P调光触摸面板调光旋钮面板0-10V系列恒流调光系列LF-AAA008-0700-128W (350-700mA)78PLF-AAA008-0350-428W(100-350mA)78PLF-AAA01010W(100-350mA)78PLF-AAA012B 12W(150-400mA)78PLF-AAA01515W(350-500mA)78PLF-AAA020B 20W(250-500mA)78P恒压可控硅调光系列LF-GAT04040W 24 72PLF-GAT07575W 24V 72P72PLF-GAT150150W 24V 72PLF-GAT240240W 24V调光触摸面板调光旋钮面板可控硅补偿器功率放大器LF-SAT00273PLF-SAT00373PLF-SAT00174PLF-SAA003-1/2/3/4/574P恒压调光系列LF-GDE075YV 75W 24V 81PLF-GDE120YV 120W 12V 81PLF-GDE150YV 150W 24V 81PLF-GAD040YV 40W 24V 81PLF-GAD240YV 120W 24V81PLF-SAA00182PLF-SAA00282P产品系列选型图 | PRODUCT OVERVIEW Zigbee系列蓝牙系列蓝牙恒流调光系列LF-AAB0088W(350-700mA)96PLF-AAB0088W(100-350mA)96PLF-AAB01212W(150-400mA)96PLF-AAB02020W(250-500mA)96PLF-AAB03030W(400-750mA)96PLF-AAB04040W(750-1050mA)96P Zigbee恒压调光调色Zigbee恒压调光LF-GAZ150B150W 24V89PLF-GAZ150A150W 24V89PZigbee恒流调光系列LF-AAZ0088W(100-350mA)86PLF-AAZ01212W(150-400mA)86PLF-AAZ0088W(350-700mA)86PLF-AAZ02020W(250-500mA)86PLF-AAZ03030W(400-750mA)86PLF-AAZ04040W(750-1050mA)86PLF-GSZ040PC40W(800-1050mA)88PZIGBEE网关LF-SAZ00190P6键机械面板LF-SAZ00290PZIGBEE液晶面板LF-SAZ00391PI²C光感LF-SAZ00491P窗帘电机LF-SAZ00592PZigbee继电器继电器92P Zigbee恒流调光调色系列LF-ABZ01212W(100-350mA)87PLF-ABZ02020W(350-700mA)87P87PLF-ABZ05050W(900-1200mA)LF-ABZ04040W(550-1050mA)87PLF-ABZ03030W(600-750mA)87P产品系列选型图 | PRODUCT OVERVIEW说明 ： 所有高兼容电源都与以下调光模块兼容：路创、邦奇、快思聪、河东、爱瑟菲、世讯、摩根、尊宝、罗格朗、大景、西门子、施耐德、ABB、永诺、飞利浦、欧华、智轩、世创、赛万特、立林、科立屋、视声、Control 4蓝牙系列应急系列恒功率应急（电池独立）LF-GSP012YH5/7/10/12W 103P恒功率应急（电池一体化）LF-GSP007YG5/7W 104PLF-GSP012YG 10/12W104PDALI DT8ZIGBEE常规LF-BAZ01616W(100-400mA)101PLF-BAZ02828W(350-700mA)101PLF-BAN01616W(100-400mA)101PLF-BAN02828W(350-700mA)101PLF-BAD01616W(100-400mA)101PLF-BAA02828W(350-700mA)101P磁吸电源系列0-10V/PWM/Rx可控硅DALI DT6LF-BAA01616W(100-400mA)101PLF-BAA02828W(350-700mA)101PLF-BAT01616W(100-400mA)101PLF-BAT02828W(350-700mA)101PLF-BAD01616W(100-400mA)101PLF-BAD02828W(350-700mA)101P蓝牙恒流调光调色系列LF-ABB01212W(100-350mA)97PLF-ABB02020W(350-700mA)97PLF-ABB03020W(600-750mA)97P蓝牙恒压调光调色蓝牙恒压调光LF-GAB150A 150W 24V 98PLF-GAB150B 150W 24V98PLF-ABB04040W(550-1050mA)97PLF-ABB05050W(900-1200mA)97P欧规面板/教室护眼灯电源（220Vac）超级能效系列（21-40W）LF-GIFxxxYA Pro.........................................................高级能效系列（44-60W）LF-GIFxxxYAII.............................................................十年质保系列（34-40W）LF-GIFxxxPB...............................................................经济爆品系列（22-40W）LF-GIFxxxYS................................................................欧规筒射/导轨/壁灯电源（220Vac）高P畅销系列（4-22W）LF-GIFxxxYA...................................................................小功率畅销系列（4-24W）LF-GIRxxxYS.............................................................方形内置导轨灯电源（14-40W）LF-GIFxxxYF II..................................................麻将盒系列（1-7W）LF-GIRxxxYS II....................................................................圆形内置耐高温系列（8-40W）LF-GICxxxYS II...................................................欧规线条/三防灯电源（220Vac）隔离条形系列（8-80W）LF-GMRxxxYS II（G2/G3）..............................................隔离调光系列（11-84W）LF-GLDxxxYE..............................................................非隔离条形系列（11-80W）LF-FMRxxxYS（G2）..................................................非隔离DALI调光系列（18-90W）LF-FSDxxxYA.................................................. 美规面板/格栅灯电源（120/277Vac）面板灯侧发光系列（21-65W）LF-GMDxxxYS V...................................................常规面板灯侧发光系列（21-65W）LF-GMDxxxYB V...........................................面板灯直发光系列（15-55W）LF-GLDxxxYI........................................................塑壳系列（22-40W）LF-GIFxxxYC......................................................................常规塑壳系列（15-40W）LF-GIRxxxYK...............................................................美规线条灯电源（120/277Vac）三合一调光系列（11-65W）LF-GLDxxxYS..........................................................常规条形系列（15-45W）LF-GMDxxxYM............................................................21 22 23 2426 27 28 29 3032 33 34 35 37 38 39 40 4143 44产品目录CONTENTS产品目录 | CONTENTSDALILF-GSDxxxYK/YG*12-50W (DALI-2恒流调光调色系列)................... LF-GSDxxxPF*6-40W (DALI-2恒流全程调光无频闪系列)................ LF-AADxxx*4-40W (DALI-2恒流0.1%深度调光系列)....................... LF-GSDxxxYC*11-63W (DALI-2恒流五合一调光系列)..................... LF-GSDxxxYE*4-84W (DALI-2恒流条形智能调光系列).................... LF-BBDxxx*13-80W (DALI-2恒流条形调光调色系列)...................... LF-GSDxxxYH*10-50W (DALI-2恒流调光防水系列)......................... LF-KADxxx12/24*100-240W (DALI-2恒压调光防水系列)................ LF-GSDxxxYVxxB*75-150W (DALI-2恒压调光系列)........................ LF-GADxxx*40-240W (DALI-2恒压五合一调光系列) ....................... LF-GSDxxxYVxxA*75-150W (DALI-2恒压调光调色系列) ................. LF-SCD010A (DALI转换器) ............................................................. LF-GSD005YD (总线电源).............................................................. LF-SCD050A (DALI光感)................................................................ LF-SAD001 (干接点模块)............................................................... LF-SAD002 (DALI继电器)................................................................ LF-SAD007 (DALI网关)................................................................... LF-SCD020B (DALI调光旋钮)......................................................... LF-SAD003/004/005/006 (DALI调光触屏面板) ............................... TriacLF-AATxxx*8-40W (高兼容恒流可控硅调光系列).......................... LF-GDExxxYG*3-30W (恒流可控硅调光系列 ) ............................... LF-GDExxxYD*12-30W (美规恒流可控硅调光系列)....................... LF-BATxxx*12-30W (高兼容圆形恒流可控硅调光系列)................. LF-GATxxx*75-150W (高兼容恒压可控硅调光系列) ....................... LF-SAT002/003 (可控硅触摸/旋钮调光面板) ................................. LF-SAT001 (可控硅补偿器) ............................................................ LF- SAA003-1/2/3/4/5 (功率放大器) .............................................. 0-10VLF-AAAxxx*8-40W (恒流方形塑壳调光系列) (48)4950515253545556575859606162626363646869707172737374787980818286878889909091919292969798101103104ZigbeeLF-AAZxxx*12-40W (Zigbee恒流调光系列)..................................LF-ABZxxx*12-50W (Zigbee恒流调光调色系列)...........................LF-GSZ040PC*40W (Zigbee恒流调光电源)..................................LF-GAZ150A/B*150W (Zigbee恒压系列)........................................LF-SAZ001 (Zigbee网关).............................................................LF-SAZ002 (6键机械面板)............................................................LF-SAZ003 (Zigbee液晶面板) ......................................................LF-SAZ004 (I²C光感)....................................................................LF-SAZ005 (窗帘电机) ..................................................................Zigbee继电器...............................................................................蓝牙LF-AABxxx*8-40W (蓝牙恒流调光系列)........................................LF-ABBxxx*12-50W (蓝牙恒流调光调色系列)...............................LF-GAB150A/B*150W (蓝牙恒压系列)..........................................磁吸电源LF-BAXxxx*16-28W (磁吸电源系列)..............................................应急LF-GSP012YH*5/7/10/12W (恒功率应急系列,电池独立)...............LF-GSPxxxYG*5/7/10/12W (恒功率应急系列,电池一体化)............LF-ABAxxx*12-40W (恒流方形ABA经济型系列)............................LF-GLDxxxYE*25-80W (恒流条形铁壳调光系列) ..........................LF-GDExxxYV*40-240W (恒压条形塑壳调光系列)........................LF-SAA001/002 (0-10V调光面板).................................................项目参数产品尺寸规格工作电压范围极限电压范围THDTaTc防护等级保护耐压≤15%-30℃ ~ +50℃90℃IP20开路、短路220-240Vac200-264VacI/P-O/P: 3.75KVac <5mA 60S超级能效系列LF-GIFxxxYA Pro （21-40W）LF-GIF030YApro LF-GIF040YApro 输出功率（Max）30W40W输出电压（V）33-3833-38输出电流（mA）550-800850-1050转换效率（满载）93.8%（230Vac）93.8%（230Vac）PF值0.95（230Vac）0.95（230Vac）特点转换效率高达93.8%THD≤15%符合最新ERP及谐波标准开路、短路保护无频闪LF-GIF030/040YApro4128115欧规面板/教室护眼灯电源2122L I F UD高级能效系列LF-GIFxxxYAII（22-60W）项目参数产品尺寸规格工作电压范围极限电压范围THD Ta Tc防护等级保护耐压≤15%-30℃ ~ +45℃90℃IP20开路、短路220-240Vac 200-264VacI/P-O/P: 3.75KVac <5mA 60S特点转换效率高达92%光波动深度≈0LF-GIF030/040YA II可配合定制IP40性能THD≤15%符合最新ERP及谐波标准开路、短路保护无频闪LF-GIF050/060YA II4329139.5LF-GIF030/040YA II3726.5113欧规面板/教室护眼灯电源型号名称LF-GIF050YAⅡLF-GIF060YAⅡLF-GIF030YAⅡLF-GIF040YAⅡLF-GIF040YAⅡLF-GIF040YAⅡ(H)LF-GIF040YAⅡ(D)输出功率（Max）50W 60W30W 40W 40W 40W 40W输出电压（V）33-4033-4033-4033-4033-3835-4233-40输出电流（mA）1100-13001350-1550550-800850-10001050900-10001050转换效率（满载）92%（230Vac）92%（230Vac）91%（230Vac）92%（230Vac）92%（230Vac）92%（230Vac）92%（230Vac）PF值0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）23项目参数十年质保系列LF-GIFxxxPB （34-40W）产品尺寸规格工作电压范围极限电压范围THD Ta Tc防护等级保护耐压≤9%-30℃ ~ +50℃90℃IP20开路、短路220-240Vac 198-264VacI/P-O/P: 3.75KVac <5mA 60SLF-GIF040PB输出功率（Max）40W输出电压（V）34-38输出电流（mA）900-1050转换效率（满载）92%（220Vac）PF值0.95（220Vac）LF-GIF040PB4128115特点转换效率高达92%十年质保（TC≤84℃）输出纹波电流＜10% 波动深度0.5%（专业设备实测值）THD≤9%符合最新ERP及谐波标准开路、短路保护无频闪欧规面板/教室护眼灯电源24L I F UD型号名称LF-GIF040YS LF-GIF030YS LF-GIF060YSLF-GIF050YS 输出功率（Max）40W 30W 60W50W 输出电压（V）33-4033-4033-4033-40输出电流（mA）800-1050550-7501350-15501100-1300转换效率（满载）88%（230Vac）87%（230Vac）89%（230Vac）89%（230Vac）PF值0.95（230Vac）0.90（230Vac）0.95（230Vac）0.95（230Vac）畅销系列LF-GIFxxxYS （22-60W）特点THD≤20%符合最新ERP及谐波标准开路、短路保护无频闪项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc防护等级保护耐压-30℃ ~ +45℃90℃IP20开路、短路220-240Vac 198-264Vac I/P-O/P: 3.75KVac <5mA 60SLF-GIF030/040YSLF-GIF050/060YS41281154329140欧规面板/教室护眼灯电源26L I 项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc防护等级保护耐压-30℃ ~ +50℃80℃IP20开路、短路220-240Vac 180-264Vac I/P-O/P:3.75KVac <5mA 60SLF-GIF015YALF-GIF022YA高P畅销系列LF-GIFxxxYA （4-22W）LF-GIF022YALF-GIF015YA 输出功率（Max）22W15W 输出电压（V）25-4025-40输出电流（mA）400-500100-350转换效率（满载）85%（230Vac）83%（230Vac）PF值0.90（230Vac）0.90（230Vac）4128115特点转换效率85% 结构简单，高性价比THD＜20%符合最新ERP及谐波标准开路、短路保护无频闪欧规筒射/导轨/壁灯电源小功率畅销系列LF-GIRxxxYS*（4-24W）LF-GIR009YS0250H LF-GIR009YSxxxxHLF-GIR009YSxxxxH LF-GIR009YSxxxxHLF-GIR013YS0350H LF-GIR013YSxxxxH LF-GIR013YS0600H LF-GIR013YSxxxxHLF-GIR024YSxxxxH LF-GIR018YSxxxxH LF-GIR024YS0600H 输出功率（Max）9W9W9W9W13W13W13W13W24W18W24W输出电压（V）25-3625-4210-1314-2425-3825-4214-2214-2425-4225-4225-39输出电流（mA）250135\160\180\200300/350/400/500/600/700300\350350250\300600500\550500\550350\400\450600转换效率（满载）81%（230Vac）80%（230Vac）79%（230Vac）80%（230Vac）83%（230Vac）80%（230Vac）87%（230Vac）86%（230Vac）89%（230Vac）88%（230Vac）89%（230Vac）PF值0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）0.50（230Vac）项目参数产品尺寸规格工作电压范围极限电压范围Ta防护等级保护耐压-30℃ ~ +50℃IP20开路、短路220-240Vac 198-264VacI/P-O/P: 3.75KVac <5mA 60SLF-GIR009/013/018/024YS特点省工时：两端锁盖免螺丝，接线便捷，极大节省人工成本功率型号，电流输出系列齐全，备货方便符合最新ERP及谐波标准开路、短路保护无频闪TUV欧规筒射/导轨/壁灯电源2728L I F UDLF-GIF020/030/036/040YFII方形内置导轨灯电源LF-GIFxxxYF II （14-40W）特点Ta55℃： 首创格栅开孔及底壳固定结构，加强散热满足多种安装： 螺丝锁壳或直接粘合可选两种出货方式：带外壳或仅底壳符合最新ERP及谐波标准开路、短路保护无频闪型号名称LF-GIF030YFII LF-GIF020YFII LF-GIF040YFIILF-GIF036YFII 输出功率（Max）30W 20W 40W36W 输出电压（V）30-4030-4030-4030-40输出电流（mA） 550-750350-500950-1050800-900转换效率（满载）87%（230Vac）86%（230Vac）88%（230Vac）87.5%（230Vac）PF值0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc防护等级保护耐压-30℃ ~ +55℃90℃IP20开路、短路220-240Vac 198-264VacI/P-O/P: 3.75KVac <5mA 60S欧规筒射/导轨/壁灯电源29特点小体积（最短斜径2.5cm）两边端盖，接线更方便1-7W，70-700mA输出，参数齐全开路、短路保护符合最新ERP及谐波标准无频闪麻将盒系列LF-GIRxxxYS II* 1-7WLF-GIR003YSⅡxxxxH(D)LF-GIR003YSⅡxxxxHLF-GIR007YSⅡxxxxH(D)LF-GIR007YSⅡxxxxH输出功率（Max）3W 3W 7W7W 输出电压（V）5-102-45-1030-40输出电流（mA）300300-700350-70070-180转换效率（满载）70%（230Vac）65%（230Vac）75%（230Vac）81%（230Vac）PF值0.43（230Vac）0.4（230Vac）0.45（230Vac）0.45（230Vac）项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc防护等级保护耐压-20℃ ~ +50℃74℃IP20开路、短路220-240Vac 新品上市， 具体参数请参考规格书198-264VacI/P-O/P: 3.75KVac <5mA 60SLF-GIR003/007YSII欧规筒射/导轨/壁灯电源L I F UD项目参数产品尺寸规格工作电压范围极限电压范围THD Ta Tc防护等级保护耐压≤20%-30℃ ~ +70℃100℃IP40开路、短路220-240Vac 200-264VacI/P-O/P: 3.75KVac <5mA 60S特点Ta70℃，耐高温更可靠小体积，灯具设计更方便开路、短路保护符合最新ERP及谐波标准无频闪圆形内置耐高温系列LF-GICxxxYS II （8-40W）型号名称LF-GIC013YSⅡLF-GIC020YSⅡLF-GIC030YSⅡLF-GIC040YSⅡ输出功率（Max）13W 20W 30W 40W输出电压（V）27-4033-4033-4033-40输出电流（mA）200-350400-550600-750800-950转换效率（满载）86%（230Vac）86%（230Vac）88%（230Vac）89%（230Vac）PF值0.90（230Vac）0.90（230Vac）0.90（230Vac）0.90（230Vac）2444LF-GIC013YS IILF-GIC020YS IILF-GIC030YS II 26502657LF-GIC040YS II2565欧规筒射/导轨/壁灯电源特点隔离电源，高PF值，适用于I类灯具转换效率89%爆款系列，功率齐全，应用成熟符合最新ERP及谐波标准开路、短路保护无频闪FLICKERFREE项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc 保护耐压-30℃ ~ +50℃90℃开路、短路220-240Vac200-264VacI/P-O/P: 3.75kV <5mA 60S I/P-FG: 1.6KVac <5mA 60S O/P-FG: 0.5KVac <5mA 60STHD≤20%LF-GMR020YS II（G3）LF-GMR030/040YS II（G3）LF-GMR060/080YS II（G2）21245隔离条形系列LF-GMRxxxYSII（G2/G3）（8-80W）欧规线条/三防灯电源I/P-O/P: 3.75kV <5mA 60SI/P-FG: 1.6KVac <5mA 60S O/P-FG: 0.5KVac <5mA 60S项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc防护等级保护耐压-30℃ ~ +50℃90℃IP20开路、短路220-240Vac 200-264Vac THD ≤20%隔离调光系列LF-GLDxxxYE （11-84W）型号名称LF-GLD035YE LF-GLD025YE LF-GLD055YE LF-GLD045YE LF-GLD080YELF-GLD065YE 输出功率（Max）35W 25W 55W 45W 80W65W 输出电压（V）25-4225-4225-4225-4225-4025-42输出电流（mA）600-800250-5501100-1300850-10501550-20001300-1500转换效率（满载）87%（230Vac）87%（230Vac）88%（230Vac）88%（230Vac）89%（230Vac）89%（230Vac）PF值0.90（230Vac）0.90（230Vac）0.90（230Vac）0.90（230Vac）0.90（230Vac）0.90（230Vac）LF-GLD080YELF-GLD025/035/045YELF-GLD055/065YE特点三合一（0-10V/PWM/Rx）调光输入双L、N端子，方便接线符合最新ERP及谐波标准开路、短路保护无频闪欧规线条/三防灯电源0-10VL I F U D项目参数产品尺寸规格工作电压范围极限电压范围Ta Tc防护等级保护耐压-20℃ ~ +50℃90℃IP20开路、短路220-240Vac; 180-264Vdc 180-264Vac I/P-O/P:3.75KVac <5mA 60STHD ≤20%非隔离条形系列LF-FMRxxxYS （G2）（11-80W）特点转换效率高达92%输出电流拨码可调（可选）拥有EL应急供电认证符合最新ERP及谐波标准开路、短路保护无频闪型号名称LF-FMR040YS （G2）LF-FMR020YS （G2）LF-FMR060YS （G2）LF-FMR080YS LF-FMR080YS输出功率（Max）40W 20W 60W 80W 80W输出电压（V）58-11425-57115-172170-23090-200输出电流（mA）200-350200-350200-350200-350375-550转换效率（满载）92%（230Vac）88%（230Vac）92%（230Vac）92%（230Vac）92%（230Vac）PF值0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）0.95（230Vac）ELLF-FMR020YS （G2）LF-FMR040/060（G2）/080YS21欧规线条/三防灯电源LF-FSD037YALF-FSD060/090YA项目参数产品尺寸规格工作电压范围极限电压范围Ta 防护等级保护耐压-30℃-+50℃/60℃IP20开路、短路、过温保护220-240Vac 198-264Vac I/P-FG：1.6KV 5mA 60STHD≤10%特点转换效率高达92%PUSH调光功能可接入软件，编辑缓启动等调光参数带外接电阻接口，实现自定义电流设定（Rset）1%-100%调光深度开路、短路保护符合最新ERP及谐波标准无频闪型号名称LF-FSD060YA LF-FSD037YA LF-FSD090YA输出功率（Max）60W 37W 90W输出电压（V）54-24054-24054-240输出电流（mA）120-55075-400250-1050转换效率（满载）91%（230Vac）91%（230Vac）92%（230Vac）PF值0.95（230Vac）0.95（230Vac）0.95（230Vac）EL195。

纯棉筒子纱活性染料原位矿化染色发布时间：2021-08-16T09:27:44.459Z 来源：《科技新时代》2021年5期作者：龙顺德[导读] 目前，传统的棉纤维活性染料染色加工面临着耗水量以及排污量加大的问题。

佛山市三水山龙纺织印染厂有限公司摘要：本文主要是通过使用原位矿化染色新技术展开关于纯棉筒子纱活性染料染色试验，试验结果表明，该项新技术的应用可将用水量以及蒸汽量降低至40.56%、30.24%；染色废水CODCr、染色废水BOD5低至69.99%、79.18%；染色废水氨氮总量呈现增加趋势，增至468.93%；且降低49.89%左右的染色废水色度及36.55%的染色废水总磷含量，节省电能、蒸汽量消耗。

关键词：筒子染色；原位矿化；纯棉筒子纱引言：目前，传统的棉纤维活性染料染色加工面临着耗水量以及排污量加大的问题。

为改善此类问题，开始使用原位矿化染色加工技术。

该项技术不仅可以大幅度缩减用水量，同时也能够达到深度节能降耗的作用。

在相同的染浴温度下循环15-30分钟，添加矿化剂XBC和矿化剂XYS，转化废弃染料以及有机污染物为二氧化碳和水，消解附着在被染纤维上的废弃染料，降低染色残浴的污染负荷，后续不需要耗费大量的水进行清洗，本文主要是以某原位矿化染色生产为例，对比传统染色工艺以及原位矿化染色工艺。

一、试验部分（一）材料、试剂及仪器第一，文章所使用的材料包含14.76 tex纯棉筒子纱；第二，试剂包含七种为安诺素活性橙YQ-B、安诺素活性红YQ- B 、丽源深黑EXFH/C、代碱剂M- 231P、矿化剂XGA、矿化剂XBC、矿化剂XYS等；第三，设备包括设备COS-166节水型筒子纱染色机、DY型耐洗色牢度测试仪、Y571B型摩擦色牢度测试仪、YG020A型电子强力机、LXLGR-100E 水流量表、LFX-25分流旋翼式蒸汽流量计[1]。

（二）染色工艺在染色设备中放入700千克纯棉筒子纱，维持30℃染浴温度，并加入软水展开纯棉筒子纱的传统染色与原位矿化染色工艺。

显微镜观察纤维形态结构一、实验目的：1、了解显微镜的结构原理，并正确使用显微镜2、应用显微镜观察和认识各种纤维表面及断面形态二、使用主要仪器和材料显微镜、Y172型纤维切片器、载玻片、盖玻片、各种纤维三、基本知识介绍1、介绍纤维的纵向形态特征，棉天然卷曲扁平带状，羊毛表面有鳞片，桑蚕丝平滑透明，宽度不匀，苎麻有横节竖纹粘胶纵向有沟槽等；截面形态特征棉腰圆形有中腔，桑蚕丝不规则三角形，羊毛为圆形或接近圆形、有毛髓，苎麻腰圆形、有中腔及裂缝等。

合成纤维截面形态依喷丝孔的形状而定。

2、显微镜结构显微镜结构可分为光学系统和机械系统两部分，光学系统：通常有反光镜、旋转光圈、物镜、目镜，机械装置包括镜脚载物台、镜臂、镜筒、物镜转换装置、粗动调焦装置、微动调焦装置等。

各种显微镜光学系统基本相同，但机械装置可能有差异。

四、实验方法和步骤1、试样准备（1）观察纤维纵向特征A 取一小束试样，手整理平直，用右手姆指和食指夹取约10根左右纤维，将夹取的纤维放在载玻片上，盖上盖玻片。

B 在盖玻片的两对角线上各滴一滴蒸馏水，使盖玻片和载玻片粘着以增加视野的清晰度。

（2）观察纤维截面特征（制作纤维切片）A 取Y172型纤维切片器，松开螺丝，取出销子，将螺座转到与座板城垂直（或取下），将底板分开。

B 将整理平直的纤维束嵌入切片器底板的狭缝内，合上底板，在用刀片切去露在底板正反面外的纤维，将螺座恢复到原来底板位置，先用销子将螺座固定，然后旋紧螺丝。

C 顺时针旋转螺丝上的刻度二格，用刀片切去被顶出的纤维，然后正式旋转一格半，用玻璃棒将火棉胶涂在漏出纤维上，待其干固。

D 用刀片把切片器上已被火棉胶包固的纤维切下，将切下的试样放到载玻片上，盖上盖玻片。

2、观察纤维（1）将准备好的试样，放在载物台上，使试样对准物镜。

（2）选用低倍物镜，转动粗调装置，将物镜下移至最低位置，不要使物镜触及盖玻片。

（3）用一目自目镜下视，转动粗调装置缓缓升起镜筒至见到物像时停止，再用微调装置调节选用低倍物镜，使物像清晰。

三种弹性纤维的结构与性能研究魏艳红;苏旭中;刘新金;谢春萍;吉宜军【摘要】为了更好地了解不同弹性纤维的性能,为后续产品开发提供参考,文章选取了新型国产聚烯烃弹性纤维(XLA)、莱卡、国产千禧氨纶三种弹性纤维.分别通过扫描电镜、红外光谱、X射线衍射对纤维形态、化学结构及聚集态结构进行了对比分析,利用差示扫描量热法、热重、沸水收缩研究了纤维的热学性能,使用XQ-2型纤维强伸度仪分析了纤维的拉伸弹性回复性能.结果表明:XLA在较小的应力下可以产生较大的伸长,初始模量比氨纶高,热稳定性好;莱卡具有较好的拉伸性和弹性回复性,但沸水收缩性及热稳定性不及XLA和千禧氨纶;千禧氨纶在力学性能方面可以与莱卡相媲美.【期刊名称】《丝绸》【年(卷),期】2019(056)005【总页数】7页(P44-50)【关键词】弹性纤维;结构;弹性回复;伸长;热稳定【作者】魏艳红;苏旭中;刘新金;谢春萍;吉宜军【作者单位】江南大学生态纺织教育部重点实验室,江苏无锡214122;江南大学生态纺织教育部重点实验室,江苏无锡214122;江南大学生态纺织教育部重点实验室,江苏无锡214122;江南大学生态纺织教育部重点实验室,江苏无锡214122;南通双弘纺织有限公司,江苏南通226600【正文语种】中文【中图分类】TS101.921随着人们对舒适性要求的提高，弹性纤维因其低模量、高回弹性、高断裂伸长率，被广泛应用于织物中，应用领域从传统的织袜、内衣、运动装拓展到休闲装、高档成衣，并向医学领域、汽车领域渗入，如Domenico M.Romeo等[1]提出莱卡弹性套装可改善脑瘫患儿的运动功能和静态平衡。

目前弹性纤维有聚氨酯、聚醚酯、聚烯烃、PTT 及双组分复合卷曲聚酯纤维等[2]。

氨纶为开发最早，应用最为广泛的高弹性纤维，它是聚氨基甲酸酯纤维的简称，1962年由美国杜邦公司实现大规模工业化生产，并命名为Lycra(莱卡)。

中国氨纶生产起步于20世纪80年代末，虽起步晚但发展较快，代表公司为烟台氨纶股份有限公司、浙江华峰氨纶股份有限公司等。

APRIL 2013Quick-Refere nce GuideLAPTOP, DESKTO P AND VIDEO STORAGE DRIVESSeagate Partner Program MembersVisit the Sales Tools section to access the latestproduct roadmap, end-of-life schedule and product information. DistributorsEMEA SPP Support00-800-6890-8282US Sales Support1-800-SEAGATE or 1-405-324-4700Visit for more information or call 1-800-SEAGATE (1-800-732-4283) © 2013 Seagate Technology LLC. All rights reserved. Printed in USA. Seagate, Seagate Technology and the Wave logo are registered trademarks of Seagate Technology LLC in the United States and/or other countries. Barracuda, G-Force Protection, Momentus, Pipeline HD, SmartAlign and SV35 Series are either trademarks or registered trademarks of Seagate Technology LLC or one of its affiliated companies in the United States and/or other countries. The FIPS logo is a certification mark of NIST, which does not imply product endorsement by NIST, the U.S., or Canadian governments. All other trademarks or registered trademarks are the property of their respective owners. When referring to drive capacity, one gigabyte, or GB, equals one billion bytes and one terabyte, or TB, equals one trillion bytes. Your computer’s operating system may use a different standard of measurement and report a lower capacity. In addition, some of the listed capacity is used for formatting and other functions, and thus will not be available for data storage. Actual data rates may vary depending on operating environment and other factors. The export or re-export of hardware or software containing encryption may be regulated by the US Department of Commerce, Bureau of Industry and Security (for more information go to ). Seagate reserves the right to change, without notice, product offerings or specifications. QR502.15-1304GB, April 2013APRIL 2013Quick-Reference GuideLAPTOP, DESKTOP AND VIDEO STORAGE DRIVESNew Seagate Model Number KeyDesktop, laptop and video storageST 500 DX 001BRANdCAPACiTySegMeNTATTRiBuTeS2 letters ST= Seagate MX= Maxtor2 to 4 digits 80 = 80GB 500 = 500GB 1500 = 1,500GB Capacities>9,999GB: 10 = 10TB 15 = 15TB2 lettersDX = Desktop Premium DM = Mainstream DL = Entry LevelLX = Laptop Premium LM = Laptop Mainstream LT = Laptop Thin VX = Surveillance VM = DVR VT = DVR Thin3 digits, non-intelligent Varies for:Z-height Form Factor RPM Cache Interface SED, FIPS Drop Sensor Interface SpeedView a brief training presentation on how our model numbering format has changed at /seagate/ModelNumber 1 One gigabyte, or GB, equals one billion bytes; and one terabyte, or TB, equals one trillion bytes when referring to drive capacity.2See FIPS 140-2 Level 2 Certificate at /groups/STM/cmvp/documents/140-1/1401vend.htm.37mm z-height expanded to 9.5mm enables compatibility with standard laptop chassis.4Advanced Format 4K sector drive with SmartAlign ™ technology resolves misalignment conditions.5Seagate makes this drive in both 4K and 512-byte sectors. SmartAlign technology is included on 4K sector drives. Both drives are functionally and physically equivalent.6Formerly Barracuda ®drive。

多通道转杯纺双色渐变纱及其面料特征李季晗;梁鑫花;张婵;张怡;赵玉春;杨瑞华【摘要】三通道转杯纺成纱方法用三组分异步喂入,通过分梳辊的梳理、混合和牵伸,在转杯中的离心力作用下再次混合并凝聚成须条,经加捻后成纱,由引纱罗拉导出形成纱线.将蓝白2色羊绒粗纱喂入HPX-03-3B数码纱线机后可以得到细纱,通过反复试验得到了混纺纱线最优方案,使得纱线双色渐变过程清晰.再使用HC2K系列染色试验编织机将蓝白渐变纱线织成样品布,织得的布样手感柔软.选用色纺纱工艺,较普通坯布染色污染少.【期刊名称】《纺织科技进展》【年(卷),期】2018(000)009【总页数】4页(P12-14,22)【关键词】三通道转杯纺;双色渐变纱;色纺纱织物【作者】李季晗;梁鑫花;张婵;张怡;赵玉春;杨瑞华【作者单位】江南大学纺织服装学院,江苏无锡 214122;江南大学纺织服装学院,江苏无锡 214122;江南大学纺织服装学院,江苏无锡 214122;江南大学纺织服装学院,江苏无锡 214122;江南大学纺织服装学院,江苏无锡 214122;江南大学纺织服装学院,江苏无锡 214122【正文语种】中文【中图分类】TS104.71 三通道转杯纺转杯纺纺纱原理为生条或熟条经喇叭口,通过喂给罗拉和喂给板的握持输送至高速回转的分梳辊;表面包有锯齿的高速回转分梳辊将喂给板和喂给罗拉之间握持的条子分解成单纤维;纤维离开分梳辊后,喂入到纤维输送通道内;纤维在某一点依靠离心力和转杯内负压气流吸力的作用脱离分梳辊表面,并通过纤维输送通道被送到转杯内壁斜面;纤维在高速回转的转杯离心力作用下,从转杯内壁斜面滑向凝聚槽内,并凝聚成纤维环;当引纱纱尾经假捻盘引入凝聚槽时,受到了假捻盘外转杯回转的加捻作用,并且加捻作用继续延伸到转杯内的纱条上;纱尾围绕自身轴线转动并不断将转杯凝聚槽内积聚的纤维捻入;转杯内形成的纱线通过假捻盘和引纱管由引纱罗拉不断引出,并交叉卷绕成筒子。

三原组织织物拉伸力学性能有限元仿真李瑛慧;谢春萍;刘新金【摘要】为使织物在设计前就可预估其拉伸性能,对织物拉伸过程进行了有限元模拟和试验验证.通过超景深数码显微镜对织物试样的细观照片进行尺寸测量,得到纱线的几何结构参数,借助AutoCAD绘图软件建立了三原织物单胞物理模型;基于纱线拉伸试验和织物周期边界条件理论,利用有限元分析软件ANSYS研究了三原织物的拉伸性能;并将有限元仿真结果与拉伸试验结果进行对比.结果表明:织物经向拉伸时,经向平均应力、经向平均应变、纬向平均应变和泊松比的有限元模拟结果与试验结果的差异均在5%左右;经向弹性模量的有限元模拟结果与试验结果的差异也在10%以内;证明有限元仿真的可行性.%In order to predict the tensile properties of fabrics, numerical simulations of fabric tensile process were studied by using finite element method, and corresponding experiment verification was presented. The geometry parameters of the fabrics were obtained by observing the morphology of the fabrics by means of super depth of field digital microscope VHX-5000 . The mechanical unit-cell models of the three-elementary weave were built by AutoCAD. Then, based on the experiment of yarn tensile and the periodic boundary conditions, the tensile properties of the three-elementary weave were studied using ANSYS software. Results of numerical simulations and experiments were compared. The results indicate that when fabrics are stretched along the warp direction, the error of warp average stress, warp average strain, weft average strain and poisson ratio between the simulated and the experimental results are all about 5%. Moreover, theerror of warp elasticity modulus between the simulated and the experimental results is about 10%, verifying that numerical simulation using the finite element method is effective.【期刊名称】《纺织学报》【年(卷),期】2017(038)011【总页数】7页(P41-47)【关键词】三原组织;拉伸力学性能;周期边界条件;有限元仿真;试验验证【作者】李瑛慧;谢春萍;刘新金【作者单位】生态纺织教育部重点实验室(江南大学),江苏无锡 214122;生态纺织教育部重点实验室(江南大学),江苏无锡 214122;生态纺织教育部重点实验室(江南大学),江苏无锡 214122;江苏苏丝丝绸股份有限公司,江苏宿迁 223700【正文语种】中文【中图分类】TB332三原组织是织物组织中的基本组织，包括平纹、斜纹和缎纹[1]，其他织物组织都是在三原组织的基础上发展变化而来的[2]。

1210YG106Z12065G104Z-MR12065G474Z-MRY5V DielectricGeneral SpecificationsY5V formulations are for general-purpose use in a limited temperature range. They have a wide temperature character-istic of +22% –82% capacitance change over the operating temperature range of –30°C to +85°C.Y5V’s high dielectric constant allows the manufacture of the highest capacitance value in a given case size.These characteristics make Y5V ideal for decoupling applica-tions within limited temperature range.Capacitance Range2200 pF to 22 µF Capacitance Tolerances+80 –20%Operating Temperature Range –30°C to +85°CTemperature Characteristic +22% to –82% max. within operating temperature Voltage Ratings 10, 16, 25 and 50 VDC (+85°C)Dissipation FactorFor 50 volts: 5.0% max.For 16 and 25 volts: 7% max.For 10 volts: 10% max.Insulation Resistance (+25°C, RVDC)10,000 megohms min. or 1000 M Ω- µF min., whichever is less Dielectric Strength 250% of rated voltage for 5 seconds at 50 mamp max. current Test Voltage 1.0 Vrms ±0.2 Vrms Test Frequency1 KHzPERFORMANCE CHARACTERISTICS0805Size (L" x W")3Voltage 10V = Z 16V = Y 25V = 350V = 5GDielectric Y5V = G104CapacitanceCodeZCapacitance Tolerance Z = +80 –20%AFailure Rate A = Not ApplicableTTerminations T = Plated Ni and Solder2Packaging 2 = 7" Reel 4 = 13" ReelASpecial Code A = Std.ProductPART NUMBER (see page 3 for complete part number explanation)Y5V DielectricTypical Characteristic Curves**Y5V Dielectric Capacitance RangeHow to OrderPart Number ExplanationEXAMPLE: 08055A101JAT2A250V = V 500V =7600V =C 1000V =A 1500V =S 2000V =G 2500V =W 3000V =H 4000V =J 5000V =K100 pF =1011,000 pF =10222,000 pF =223220,000 pF =2241 µF =105Others:7=Bulk Cassette 9=Bulk*C&D tolerances for Յ10 pF values.**Standard Tape and Reel material depends upon chip size and thickness.See individual part tables for tape material type for each capacitance value.Note: Unmarked product is standard. Marked product is available on special request, please contact AVX.Standard packaging is shown in the individual tables.Non-standard packaging is available on special request, please contact AVX.For values below 10 pF,use “R” in place ofdecimal point, e.g., 9.1pfd = 9R1.Recommended:2=7" Reel 4=13" ReelSurface Mounting Guide MLC Chip CapacitorsComponent Pad DesignComponent pads should be designed to achieve good sol-der filets and minimize component movement during reflow soldering. Pad designs are given below for the most com-mon sizes of multilayer ceramic capacitors for both waveand reflow soldering. The basis of these designs is:• Pad width equal to component width. It is permissible to decrease this to as low as 85% of component width but itis not advisable to go below this.• Pad overlap 0.5mm beneath component.• Pad extension 0.5mm beyond components for reflow and1.0mm for wave soldering.REFLOW SOLDERINGWAVE SOLDERINGComponent SpacingFor wave soldering components, must be spaced sufficiently far apart to avoid bridging or shadowing (inability of solder to penetrate properly into small spaces). This is less impor-tant for reflow soldering but sufficient space must be allowed to enable rework should it be required.Preheat & SolderingThe rate of preheat should not exceed 4°C/second to prevent thermal shock. A better maximum figure is about 2°C/second.For capacitors size 1206 and below, with a maximum thickness of 1.25mm, it is generally permissible to allow a temperature differential from preheat to soldering of 150°C. In all other cases this differential should not exceed 100°C. For further specific application or process advice, please consult AVX.CleaningCare should be taken to ensure that the capacitors are thoroughly cleaned of flux residues especially the space beneath the capacitor. Such residues may otherwise become conductive and effectively offer a low resistance bypass to the capacitor.Ultrasonic cleaning is permissible, the recommended conditions being 8 Watts/litre at 20-45 kHz, with a process cycle of 2 minutes vapor rinse, 2 minutes immersion in the ultrasonic solvent bath and finally 2 minutes vapor rinse.Surface Mounting Guide MLC Chip CapacitorsSurface Mounting GuideMLC Chip CapacitorsAPPLICATION NOTESStorageGood solderability is maintained for at least twelve months,provided the components are stored in their “as received”packaging at less than 40°C and 70% RH.SolderabilityTerminations to be well soldered after immersion in a 60/40tin/lead solder bath at 235 ±5°C for 2±1 seconds.LeachingTerminations will resist leaching for at least the immersion times and conditions shown below.Recommended Soldering ProfilesGeneralSurface mounting chip multilayer ceramic capacitors are designed for soldering to printed circuit boards or other substrates. The construction of the components is such that they will withstand the time/temperature profiles used in both wave and reflow soldering methods.HandlingChip multilayer ceramic capacitors should be handled with care to avoid damage or contamination from perspiration and skin oils. The use of tweezers or vacuum pick ups is strongly recommended for individual components. Bulk handling should ensure that abrasion and mechanical shock are minimized. Taped and reeled components provides the ideal medium for direct presentation to the placement machine. Any mechanical shock should be minimized during handling chip multilayer ceramic capacitors.PreheatIt is important to avoid the possibility of thermal shock during soldering and carefully controlled preheat is therefore required. The rate of preheat should not exceed 4°C/second and a target figure 2°C/second is recommended. Although an 80°C to 120°C temperature differential is preferred,recent developments allow a temperature differential between the component surface and the soldering temper-ature of 150°C (Maximum) for capacitors of 1210 size and below with a maximum thickness of 1.25mm. The user is cautioned that the risk of thermal shock increases as chip size or temperature differential increases.SolderingMildly activated rosin fluxes are preferred. The minimum amount of solder to give a good joint should be used.Excessive solder can lead to damage from the stresses caused by the difference in coefficients of expansion between solder, chip and substrate. AVX terminations are suitable for all wave and reflow soldering systems. If hand soldering cannot be avoided, the preferred technique is the utilization of hot air soldering tools.CoolingNatural cooling in air is preferred, as this minimizes stresses within the soldered joint. When forced air cooling is used,cooling rate should not exceed 4°C/second. Quenching is not recommended but if used, maximum temperature differentials should be observed according to the preheat conditions above.CleaningFlux residues may be hygroscopic or acidic and must be removed. AVX MLC capacitors are acceptable for use with all of the solvents described in the specifications MIL-STD-202 and EIA-RS-198. Alcohol based solvents are acceptable and properly controlled water cleaning systems are also acceptable. Many other solvents have been proven successful,and most solvents that are acceptable to other components on circuit assemblies are equally acceptable for use with ceramic capacitors.Termination Type Solder Solder Immersion TimeTin/Lead/Silver Temp. °C Seconds Nickel Barrier60/40/0260±530±1ReflowS o l d e r T e m p .10 sec. max1min 1min (Minimize soldering time)WaveS o l d e r T e m p .(Preheat chips before soldering)T/maximum 150°C3 sec. max1 to2 minPackaging of Chip Components Automatic Insertion PackagingTAPE &REEL QUANTITIESAll tape and reel specifications are in compliance with RS481.Dependent on chip thickness. Low profile chips shown on page 27 are 5,000 per reel for 7" reel. 0402 size chips are 10,000 per 7" reels and are not available on 13" reels. For 3640 size chip contact factory for quantity per reel.REEL DIMENSIONSMetric dimensions will govern.English measurements rounded and for reference only.(1) For tape sizes 16mm and 24mm (used with chip size 3640) consult EIA RS-481 latest revision.Embossed Carrier Configuration8 & 12mm Tape Only8 & 12mm Embossed T apeMetric Dimensions Will GovernCONSTANT DIMENSIONSNOTES:1. A0, B0, and K0are determined by the max. dimensions to the ends of the terminals extending from the component body and/or the body dimensions of the component. Theclearance between the end of the terminals or body of the component to the sides and depth of the cavity (A0, B0, and K0) must be within 0.05 mm (.002) min. and 0.50 mm (.020) max. The clearance allowed must also prevent rotation of the component within the cavity of not more than 20 degrees (see sketches C &D).2. Tape with components shall pass around radius “R” without damage. The minimum trailer length (Note 2 Fig. 3) may require additional length to provide R min. for 12 mmembossed tape for reels with hub diameters approaching N min. (Table 4).3. G1dimension is the flat area from the edge of the sprocket hole to either the outward deformation of the carrier tape between the embossed cavities or to the edge of the cavity whichever is less.4. G2dimension is the flat area from the edge of the carrier tape opposite the sprocket holes to either the outward deformation of the carrier tape between the embossed cavity or to the edge of the cavity whichever is less.5. The embossment hole location shall be measured from the sprocket hole controlling the location of the embossment.Dimensions of embossment location and hole location shall be applied independent of each other.6. B1dimension is a reference dimension for tape feeder clearance only.34Paper Carrier Configuration8 & 12mm Tape Only8 & 12mm Paper T apeMetric Dimensions Will GovernNOTES:1. A0, B0, and T are determined by the max. dimensions to the ends of the terminals extending from the component body and/or the body dimensions of the component. Theclearance between the ends of the terminals or body of the component to the sides and depth of the cavity (A0, B0, and T) must be within 0.05 mm (.002) min. and 0.50 mm (.020) max. The clearance allowed must also prevent rotation of the component within the cavity of not more than 20 degrees (see sketches A &B).2. Tape with components shall pass around radius “R” without damage.3. 1.1 mm (.043) Base Tape and 1.6 mm (.063) Max. for Non-Paper Base Compositions.Bar Code Labeling StandardAVX bar code labeling is available and follows latest version of EIA-556-A.35Bulk Case PackagingCASE QUANTITIESBENEFITSBULK FEEDER• Easier handling• Smaller packaging volume(1/20 of T/R packaging)• Easier inventory control • Flexibility • RecyclableCASE DIMENSIONS1210YG106Z12065G104Z-MR12065G474Z-MR。

2012-12版本YG020D 型电子单纱强力仪简体中文版开卷有益：各位用户您好！谢谢您使用本公司产品，为了让您快速掌握本仪器特点、性能、指标、安装及其使用，让其更好的为您服务，建议您在开箱即读本手册。

本手册系统地从安装调试开始，告诉您如何掌握本机性能和操作，以便获得最佳效果。

本系列仪器广普适应性很好：功能完善、可靠性好、物美价廉、质量上乘、大屏显示、逐步提示、易学易懂、操作简单、使用方便。

本仪器有无打印机、是否联接电脑均可工作，根据配置看说明是本手册的宗旨。

如果您在阅读本说明书的时候发现错误，请及时通知我们，非常感谢！目录p11 检查仪器p21.1打开包装p21.2文件配置p21.3基本配置p21.4有偿配置打印机p22 安装仪器p22.1检查验收p22.2选择放置地方p32.3放置仪器p32.4安装仪器p33 调试仪器p33.1调试概述p33.2检查电源供给p43.3检查驱动系统试验程序p43.4检查力值准确性p44 简介与标准p54.1仪器简介p54.2适用标准p55 主要技术指标及设置范围p56 使用说明p66.1原理结构p6 6.2显示及操作键盘概述p76.3键盘功能、使用及显示p76.4参数设置p87 隔距转换与力值标定p10 7.1隔距的转换p107.2隔距校准p117.3力值标定p117.4验证力值准确性p128 试验举例说明p128.1试验举例概述p128.2定速拉伸试验p128.3其他拉伸试验p148.4关于报表打印p148.5实验中突然断电问题处理p148.6关于删除数据p149 仪器的维护维修p159.1常见问题解决方案p159.2传动系统维护保养p159.3夹持器的维护保养p169.4打印机的维护保养p17作业指导书p20浏览本手册说明：有2种格式版本浏览阅读文件。

1.纸质版本：按照目录、章节依次以传统方式阅读，返回目录无效。

2.电子版本：点击目录提示章节，直接到达目录提示内容，浏览完毕点击返回目录选择新章节。

一、概述电子单纱强力机用于测定棉、毛、麻等单纱断裂强力和断裂伸长率，可作等速拉伸试验。

测试结果由中文液晶显示器显示，或打印出拉伸试验报告。

适用标准GB/T3916-1997，GB/T14344-1993。

二、技术指标（参照温州际高检测仪器有限公司YG020型）1、型式：等速伸长（CRE）2、试样长度：250～500mm内任意设定，误差为±1mm3、拉伸速度：50～500mm/min，空载速度误差不超过±2%4、力值测量范围：0-5000cN，精度为±%5、伸长示值误差：不超过±1mm6、断裂时间示值误差不超过±7、测试数据输出方式：中文液晶数码输出：试验次数、断裂伸长、断裂强力等测试数据打印机输出：拉伸试验报告8、打印机配置：EPSON，LQ系列9、电源电压：AC220V±10%，功率60W10、外形尺寸：主机：550×350×1050mm三、结构与原理电子单纱强力机整机结构如下图所示：按键板键功能说明：[↑][↓]液晶显示上下翻屏[打印]可重复打印统计报表[←][→]液晶显示左右翻屏[复位]故障时重新启动本仪器[拉伸]在工作状态下开始拉伸试验[设置]进入下一目录[返回]中途停止试验 [确认]保存当前设置并返回上一目录[删除]删除本次试验[数字]在设置状态下输入数字YG020B型电子单纱强力仪电气原理如下图所示：单纱拉伸时，拉伸强力由力传感器测量，将强力转换成微弱的电压信号，经放大器放大，输入A/D转换器，转换成数字量，进入单片机，由LCD显示器显示强力大小，操作人员通过键盘，将操作信号输入单片机，控制步进电机作单纱拉伸试验，测定断裂伸长和强力，由打印机打印出单纱试验报告。

四、操作方法4．1将仪器放在稳固的工作台上，主机底盘四只底脚螺丝上垫上防震橡胶圈，并校正水平，控制箱、打印机接好电源线，控制箱与主机之间连好电缆。

YG020型电子单纱强力机强力校验方法首先，要先打开仪器的后盖，就可以看到里面有一块线路板了一，按住面板上的“标定”键，开电源（注意：在开了电源后，“标定”键不要松，待5秒钟后松开）二，然后进入如下界面方式：测量管数：01 每管次数：03夹距：0500mm 定伸长率：800%拉力：05000CN 速度：500mm/min密度：001.0tex 打印：全部数据**************************0000************************* 管数：01 次数：03 强力：0000CN长度：0000.0mm 时间：000.00S强度：000.0CN/tex 伸长：000.0%可以看一下以上界面中间的****处的数字部位是不是60左右，五十几或六十几都可以的，如果数字显示的差不多，就可以不用调了。

如果没有数字显示，而只是显示：0000，则可以用小的一字螺丝刀调节以下“线路板示图”中的顺时针或逆时针都可以调节的，直到调出以上相应的数值即可（五，六十都可以的），************************0060*************************然后再按一下“标定“键，“去皮键”，关电源。

三，以上是调节重量采样值，接下来就是标定强力了四，重新开电源后，归位正常后，出现以下界面：方式：测量管数：01 每管次数：03夹距：0500mm 定伸长率：800% 拉力：05000CN 速度：500mm/min 密度：001.0tex 打印：全部数据*********************实时测量*********************** 管数：01 次数：03 强力：0000CN 长度：0000.0mm 时间：000.00S 强度：000.0CN/tex 伸长：000.0%1，按一下“初始化”键，再按一下“去皮”键。

2，放一个200g的砝码（附件），看一下液晶屏幕上“强力”的位置上是显示多少，正常情况下应该显示196CN左右，稍有偏差是允许的，如果没有达到这个值，则可以调节“线路板示图”中的□2号电位器，调节的方法和以上调节□1号电位器是一样的，调到到相应的数字就可以了。

错位纺纱在减少环锭纱毛羽上的应用实践余雪满;李清政【摘要】为减少环锭纺成纱毛羽,采用错位纺纱技术在HFX-A4小样细纱机上纺制32 tex Z捻纯棉纱,通过纱线性能测试,探讨错位纺纱对Z捻纱毛羽和强力的影响.结果表明:错位纺纱改变了加捻三角形的形状和尺寸,因而改变了成纱结构和性质,右错位纺纱对Z捻毛羽有显著改善,而成纱强力和断裂伸长率有所降低.【期刊名称】《纺织科技进展》【年(卷),期】2017(000)008【总页数】3页(P30-32)【关键词】环锭纺纱;错位纺纱;捻向;毛羽;断裂强度【作者】余雪满;李清政【作者单位】浙江工业职业技术学院纺织工程学院,浙江绍兴 312000;杭州明纺纺织检测服务有限公司,浙江杭州 312000【正文语种】中文【中图分类】TS104.7环锭纺依然是目前最主要的纺纱方法，其原料适应性强，所纺纱支范围广，成纱性能相对稳定。

环锭纺加捻三角区的存在使边缘纤维未能整根卷入纱体，从而形成了很多伸出纱体的自由端，即毛羽，同时也形成了强力不匀、条干不匀和大量毛羽等不良特性[1]。

针对环锭纺毛羽多的问题，学者们[2-4]已做了大量研究，目前解决毛羽的主要途径就是减小加捻三角区的加捻宽度或取消加捻三角区，从而加强对三角区边缘纤维的控制，紧密纺就是利用这一基本原理，在传统环锭纺的基础上增加集束装置，使加捻三角区大大减少，从而减少了纱线毛羽，但是改装成本较高，对纺织企业是个不小的负担，故不易普及。

本文旨在研究一种在不增加设备成本的条件下，能有效减少成纱毛羽，提高成纱质量并且操作性强的新型纺纱方法——错位纺纱法。

传统环锭纺纱前罗拉输出的须条刚好在其正下方对应的锭子位置纺纱——正常位置。

当在环锭纺细纱机上纺Z捻纱时，采用正常位置纺纱，则加捻三角区左右基本对称，两边长度基本相等[5]，处于右边的纤维由于受到预加捻作用会被很好地约束，而处在左边的纤维因不受预加捻作用而相对自由，从而使得加捻三角区左边的纤维更容易形成毛羽。