Laser_Selection_Guide雷驰选型手册

Contour XLR ic激光测距仪操作手册一、简介恭喜您拥有了一台高科技、功能强大的激光测量系统！在使用本仪器之前，我们建议您务必仔细阅读操作说明书。

这将有助于您正确操作该仪器，同时避免仪器的损伤和操作的失误。

和Contour 系列手持激光测量系统中的Contour XLRi比较起来，Contour XLR ic在内部又集成了一个高精度磁通量数字罗盘。

配合高精度磁通量数字罗盘，XLR ic在功能就比XLR和XLRi多了不少。

有了Contour XLRic，您就可以把它和您的GPS系统连接起来，去测量那些无法到达或不容易到达的地方的坐标信息，省时又省钱。

或者您也可以使用它内置的软件计算：树高，倾斜度，面积，周长，空间线段的长度，水平距离，高差等等数据。

由于Contour XLRic配置了数字罗盘和倾斜角度测量仪，所以它完全可以被看作是一个手持式全站仪，可以协助您进行测绘和测量工作。

一级人眼安全的激光测距仪精确地向您报告以下测量数据：距离，方位，倾斜角。

以下是一些必须注意的事项：－禁止在使用或运输过程中挤压或撞击仪器！－运输仪器时，一定要保证包装完好！－任何情况下，都不要私自拆解仪器！－长久不用时，请一定要把电池从仪器中拿出来！－当用户需要结合反射棱镜进行测量时，切忌要装上“滤光片”（可选附件，编号#: ASY-0055-00）才能进行测量，请联系您的当地经销商购买。

基本配置：Contour XLRic激光测量系统（主机）、英文操作说明光盘NiMH 充电电池、电池充电器、原厂保修卡、豪华仪器箱二、工作模式（详细功能）技术特点－测量距离到：1850米；－测量精度达到：10厘米；－倾斜角度测量；－方位角测量；－周长测量；－面积测量；－电力线高度和垂度测量；－3D空间尺寸测量；－连接GPS工作；－高度测量功能；－“点到点”斜距测量；－水平距离测量和垂直距离测量；－独特的坏天气模式：一般的测距仪在天气不好的情况下，测量的距离往往会大大缩短，甚至无法工作。

M i c r o s c o p y f r o m C a r l Z e i s sSteREO Discovery.V8A New View of ThingsBrilliant Entry into the Class ofSophisticated StereomicroscopesSteREO Discovery.V8: Enhanced ViewingNew high-performance optics – this is the outstanding performance feature that Carl Zeiss has focusedon with the development of its latest entry levelmodel in the sophisticated stereomicroscope class.The SteR EO Discovery.V8 impresses with enhanced resolution, increased contrast and, most notably, a perceptibly improved stereoscopic impression. As aresult, it offers a image brilliance that is without equalin this class of instrument. For a visible increase in information in all biomedical and industrial applica-tions, the time has come for a new view of things.SteREO Discovery.V8at a glance:• Supreme ease of operation and ergonomicviewing posture• Zoom range of 8 : 1• Optimized optics design for a visible increasein image information• Manual focusing drive with adjustable clickstops• Manual and motorized stands with high stability• Generous specimen space with high workingdistance• Illumination and contrast methods based oncold light and LEDPCBLaterally grazing reflected light Objective: Plan S 1.0x Magnification: 16x*Mouth parts of the common houseflyOblique illumination in brightfieldtransmitted lightObjective: PlanApo S 1.0xMagnification: 80x*Wafer structureDarkfield reflected lightObjective: PlanApo S 1.5xMagnification: 120x*SteREO Discovery.V8stereoscopic impression of the microscopic image.Even on our SteREO Discovery.V8 entry level model.Another area we focused on during practical realiza-tion was the systematic minimization of stray light for the entire optical system. For exceptionally brilliant contrast and a new image quality with greater infor-mation content.The innovative simultaneous design process during optical modeling has resulted in a standardized opti-cal concept for all SteREO microscopes. For signifi-cantly improved resolution and a perceptibly betterThe Optical System: More Thanthe Sum of its Individual ComponentsToday, anyone developing a stereomicroscope that sets new standards with its optical system has to work constructively at the very limits of physical feasibility,taking full advantage of every new possibility offered by state-of-the-art optical design. With experience and innovativeness, you don’t have to look any further than the optical systems from Carl Zeiss.3 ranges of high-quality objectivesAchromat S: high-contrast images with a pronounced stereoscopic impression Plan S: flat,distortion-free object fieldsPlanApo S: precisely detailed resolution with no color fringes Parfocally harmonized for needle-sharp images over the entire magnification range from 1x to 8x: the new zoom body of SteREO Discovery.V8a.b.c.The Illumination: Show Your Specimen in a New Cold LightDesigned for slimline, space-saving light guides, opti-mized for flicker-free live images on the monitor,providing constant light output even if the line volt-age fluctuates, and with ventilation as quiet as a whisper – the high-intensity CL 1500 ECO cold lightThe quality of the illumination – this is all-important for contrasting in stereomicroscopy. The new fiber-optic CL 1500 ECO cold light source with its wide range of light guides and accessories offers you a variety of opportunities for highlighting your struc-tures perfectly.The fiber-optic CL 1500 ECO cold light source illuminates the specimen precisely with intensive infrared-free light.Here with a twin-arm goose neck for oblique reflected light with a targeted shadow effect.SMD-Board with white solder resist Reflected light with different light guides a.Linear slit light for lateral grazing light b.Fiber-optic annular slit illuminator for shadow-free 360°reflected lightc.Annular slit illuminator with polarization filter device to minimize reflective glare Objective: Plan S 1.0x Magnification: 15xContrasts with variable optimization in brightfield,darkfield and oblique light: the transmitted light equipment Ssource outperforms conventional fiber-optic systems thanks to several practical advantages, and offers excellent performance at a superb price!Incidentally, lamps and filters can be changed quick-ly and conveniently. Even when stacked.a.b.c.Or in a Completely Different Light: With White LEDsEach of the annular VisiLED illuminators is made up of eight LED segments that can be switched variably.A further advantage of noise-free light sources: upProviding the ability to change rapidly from shadow-free annular illumination to lateral oblique light, con-trast optimization through turning of oblique light around the specimen, continuous rotation of the illumi-nation for a stereoscopic impression of the object in the live image – and all this at the push of a button! The list of new contrasting possibilities offered by the VisiLED illumination system with its white LEDs is endless!The VisiLED HCT contrast stage offers a wide range of contrasts.It contains separate LED illuminators for brightfield and darkfield,and sliders for finely adjusta-ble oblique light.The LEDs are controlled using the MC1500 multicontroller.Mouth parts of the common houseflyTransmitted light with VisiLED HCT contrast stage a.Brightfieldteral darkfieldc.Oblique brightfield illumination Objective: PlanApo S 1.0x Magnification: 80xQuiet,durable and offering the best in daylight quality: VisiLED LED illuminationto 4 illumination settings can be stored and repro-duced again at any time.The MC1500 multicontroller of the VisiLED system allows control of reflected, transmitted and blended light.1.2.3.4.1. Interface with digitalimage worlds: documentationSteREO Discovery.V8 creates a connection for a variety of digital photo and video cameras,via various phototubes,with interface 60N.For the simple documentation of stereomicro-scopic images,consumer cameras,with their good price/per-formance ratio,are often recommended.Anyone wishing to satisfy higher demands should use the high-resolution AxioCam microscope cameras and the AxioVision imaging software from Carl Zeiss.2. Brilliant fluorescence: PentaFluar S PentaFluar S is the name of the retrofittable fluorescence equip-ment for stereomicroscopes belonging to the SteREO Discovery family.With up to five different filter blocks in the magazine and special high-performance light sources,this is an outstand-ing addition for contemporary fluorescence applications in stereomicroscopy.3. Better in position: the binocular ergo-phototube S 5-45°Ergonomics is also about choosing a relaxed sitting position when operating a microscope.The viewing angle and height have to coincide.The ergotube allows a free choice of viewing angle between 5 and 45 degrees.Intermediate tubes and two working positions for the eyepiece clamps vary the viewing height.4. Vertical 2D impression:the objective slideA must for documentation with subsequent image analysis,e.g.digital object measurements: the S/doc objective slide for the SteREO Discovery family of microscopes.Positioned directly beneath the zoom body,it enables the objective to be shifted precisely under one of the stereoscopic beam path for a vertical view of your specimen.The Expandable Platform:Flexible For a Variety of ApplicationsA typical feature of stereomicroscopes is their mod-ular system design. Equipped with intelligent inter-faces and fully integrated into the Carl Zeiss systems,SteREO Discovery.V8, with its comprehensive range of accessories, offers you a great deal of freedom in terms of organizing your workplace to suit your own practical needs.System OverviewSteREO Discovery.V8:The Technical DataObjectivesEyepiecesCarl Zeiss Micro scopy GmbH 07745 Jena, Germany ********************www.zeiss.de/stereo-discoverye c t t o c h a n g e .e d o n e n v i r o n m e n t a l l y -f r i e n d l y r ,b l e a c h e d w i t h o u t t h e u s e o f r i n e .。

激光雷光的硬件筛选以及标定流程下载温馨提示：该文档是我店铺精心编制而成，希望大家下载以后，能够帮助大家解决实际的问题。

此文下载后可定制随意修改，请根据实际需要进行相应的调整和使用。

并且，本店铺为大家提供各种各样类型的实用资料，如教育随笔、日记赏析、句子摘抄、古诗大全、经典美文、话题作文、工作总结、词语解析、文案摘录、其他资料等等，如想了解不同资料格式和写法，敬请关注!Downloaded tips: This document is carefully compiled by the editor. I hope that after you download them, they can help you solve practical problems. The documents can be customized and modified after downloading, please adjust and use it according to actual needs, thank you!In addition, our shop provides you with various types of practical materials, such as educational essays, diary appreciation, sentence excerpts, ancient poems, classic articles, topic composition, work summary, word parsing, copy excerpts, other materials and so on, want to know different data formats and writing methods, please pay attention!激光雷光（LIDAR）是一种通过激光来测量目标距离的技术。

赫斯曼选型手册
赫斯曼选型手册（Hermann Hesseman Selection Guide）是一本商业工具书，用于帮助工程师和设计师选择合适的电气设备和元件。

该手册由德国公司赫斯曼（Hermann Hesseman）出版，涵盖了各种电气设备，包括电机、传感器、开关、电缆、电源等。

赫斯曼选型手册通常包括以下内容：
产品目录：手册中列出了赫斯曼公司提供的各种电气设备和元件的详细产品目录，包括型号、规格、技术参数等。

选型指南：为了帮助用户选择合适的产品，手册提供了选型指南。

这些指南可能包括各种应用场景和特定需求下的选型建议，例如功率要求、环境条件、安装要求等。

技术资料：手册中可能提供了有关电气设备和元件的技术资料，如特性曲线、电气连接方式、安装尺寸等。

这些资料有助于工程师和设计师更好地了解和评估产品。

参考资料：手册中可能包含有关标准、规范和相关技术文献的参考资料，以便用户进一步了解和研究相关领域的知识。

赫斯曼选型手册是一个重要的工具，在电气工程和设计领域被广泛使用。

通过使用手册中提供的信息和指南，用户可以更加方便地选择和应用合适的电气设备和元件，以满足特定的需求和要求。

RPLIDAR A1 2016-08-17 rev.1.0低成本360度激光扫描测距雷达开发套装使用手册型号：A1M8目录 (1)简介 (3)套件包含的组件 (3)RPLIDAR A1模组 (4)USB转接器 (4)设备连接 (5)模组连接与使用介绍 (5)USB适配器驱动程序安装 (5)使用评估软件 (7)故障排除 (9)开发参考与SDK使用 (10)RPLIDAR A1模块引脚规格与定义 (10)USB适配器引脚定义 (11)对RPLIDAR A1扫描频率进行控制 (12)使用SDK进行开发 (12)操作建议 (13)预热与最佳工作时间 (13)环境温度 (13)环境光照 (13)修订历史 (14)附录 (15)图表索引 (15)简介RPLIDAR A1开发套装包含了方便用户对RPLIDAR A1进行性能评估和早期开发所需的配套工具。

用户只需要将RPLIDAR A1模组与PC机连接，即可在配套的评估软件中观测RPLIDAR A1工作时采集得到的环境扫描点云画面或者使用SDK 进行开发。

套件包含的组件RPLIDAR A1开发套装包含了如下组件：o RPLIDAR A1模组（内置PWM电机驱动器）o USB适配器o RPLIDAR A1模组通讯排线注意：另需自备USB线缆用于连接。

USB适配器RPLIDAR模组适配器RPLIDAR 模组通讯排线模组通讯】LIDAR模组适图表 1-1 RPLIDAR A1开发套件实物图RPLIDAR A1模组图表 1-2 RPLIDAR A1模组实物图RPLIDAR A1开发套装中包含了标准版本的RPLIDAR模组(A1M1-R1)。

同时，模组内集成了可以使用逻辑电平（3.3v）驱动的电机控制器。

开发者可以使用该电机驱动器使用PWM信号对电机转速进行控制，从而控制RPLIDAR A1扫描的频率或者在必要时刻关闭电机节能。

关于模组的使用、接口信号定义等请参考后续介绍。

Availability36-RM-16U-07Issue 4Page 2 of 8Availability TABLE IISelection Without_ _ _ _ 0Standard: -400C (-400F)…+1500C (3020F), 40 bar (580 psi) max. / FKM/FPM_ _ _ _ 1Standard: -200C (-40F)…+1500C (3020F), 40 bar (580 psi) max. / Kalrez 6375 _ _ _ _ 2Dual: Metaglas / -300C (-220F)…+1500C (3020F), 40 bar (580 psi) / FKM/FPM_ _ _ _ 3Dual: Metaglas / -200C (-40F)…+1500C (3020F), 40 bar (580 psi) / Kalrez 6375_ _ _ _ 4Standard: -50°C...+150°C / EPDM_ _ _ _ 5Dual Metaglas: -30°C...+150°C / EPDM_ _ _ _ 60Standard/-20°C…+150°C / Without for Tri-Clamp, SMS, DIN 11851 _ _ _ _ A u 0Standard/-20°C…+150°C / EPDM for Bio Control_ _ _ _ B z Pa Standard/-20°C…+150°C / FKM/FPM for Bio Control_ _ _ _ C z Standard / -40°C...+200°C / FKM/FPM (distance piece included)_ _ _ _ F Standard / -20°C...+200°C / Kalrez 6375 (distance piece included)_ _ _ _ G Metaglas® / -30°C...+200°C / FKM/FPM (distance piece included)_ _ _ _ H Metaglas® / -20°C...+200°C / Kalrez 6375 (distance piece included)_ _ _ _ K TABLE IIIProcess Connection - None Without0 0 0 _G1 1/2" A ISO2293 0 0 _DN 40 PN 40 Form B1 EN10925 0 0 _DN 50 PN 40 Form B1 EN10926 0 0 _DN 80 PN 40 Form B1 EN10927 0 0 _DN 100 PN 16 Form B1 EN10928 0 0 _DN 100 PN 40 Form B1 EN1092A 0 0 _DN 150 PN 16 Form B1 EN1092B 0 0 _DN 150 PN 40 Form B1 EN1092C 0 0 _DN 50 PN 63 Form B1 EN1092D 0 0 _DN 80 PN 63 Form B1 EN1092E 0 0 _DN 100 PN 63 Form B1 EN1092F 0 0 _DN 40 PN 63 / PN 100 Form B1 EN1092L 0 0 _DN 50 PN 100 Form B1 EN1092M 0 0 _DN 80 PN 100 Form B1 EN1092N 0 0 _DN 100 PN 100 Form B1 EN1092 (distance piece included)P 0 0 _DN 150 PN 63 Form B1 EN1092 (distance piece included)R 0 0 _DN 150 PN 100 Form B1 EN1092 (distance piece included)S 0 0 _1 1/2" NPT0 3 0 _1 1/2" 150 lb RF ASME B16.50 5 0 _1 1/2" 300 lb RF ASME B16.50 6 0 _2" 150 lb RF ASME B16.50 7 0 _2" 300 lb RF ASME B16.50 8 0 _3" 150 lb RF ASME B16.50 A 0 _3" 300 lb RF ASME B16.50 B 0 _4" 150 lb RF ASME B16.50 C 0 _4" 300 lb RF ASME B16.50 D 0 _6" 150 lb RF ASME B16.50 E 0 _8" 150 lb RF ASME B16.50 F 0 _6" 300 lb RF ASME B16.5 (distance piece included)0 G 0 _1" 1/2 600 lb RF ASME B16.50 N 0 _2" 600 lb RF ASME B16.50 P 0 _3" 600 lb RF ASME B16.5 (distance piece included)0 R 0 _4" 600 lb RF ASME B16.5 (distance piece included)0 S 0 _1" 1/2 900 lb / 1500 lb RF ASME B16.5 (distance piece included)0 U 0 _2" 900 lb / 1500 lb RF ASME B16.5 (distance piece included)0 V 0 _3" 900 lb RF ASME B16.5 (distance piece included)0 W 0 _4" 900 lb RF ASME B16.5 (distance piece included)0 X 0 _10K 40A RF JIS B22200 0 5 _10K 50A RF JIS B22200 0 6 _10K 80A RF JIS B22200 0 7 _10K 100A RF JIS B22200 0 8 _Bio Control DN 500 0 C _Tri-Clamp 2"0 0 F _DIN 11851 DN 500 0 L _SMS 510 0 P _Without_ _ _ 0Terminal module (Non-Ex or Ex i) + screws _ _ _ 3i Backend (1 output) + High frequency module _ _ _ 4s HMI cover + cable (Aluminium)_ _ _ 5s Complete head with HMI (Aluminium)_ _ _ 6r Complete head with blind cover (Aluminium)_ _ _ 7q Complete housing with HMI + electronic module (Aluminium)_ _ _ A r Complete head with HMI (Stainless steel)_ _ _ B r Complete head with blind cover (Stainless steel)_ _ _ C q Complete housing with HMI + electronic module (Stainless steel)_ _ _ D r Terminal module (Ex d) + screws _ _ _ E o HMI cover + cable (Stainless steel)_ _ _ F sn° 14n° 2 + 3 + 4 + 7 + 8 + 9 + 10 + 15n° 1 + 6 thru 12 + 14 + 15n° 7 + 8 + 9 + 10 + 14 + 15n° 2 + 3 + 4 + 7 + 8 + 9 + 10 + 15 n° 1 + 6 + 7 + 8 + 9 + 10 + 14 + 15n° 7+8Process Connection EN Process Connection ASME Process Connection Other Electronic Module n° 7+8n° 1 + 6n° 14n° 7 + 8 + 9 + 10 + 11 + 12 + 14 + 15Feedthrough / Temperature / Sealing Gasket36-RM-16U-07Issue 4Page 3 of 8Availability TABLE IVSelection Without0 _ _ _1 Output 4…20mA (Hart)1 _ _ _2 Outputs 4…20mA (Hart) + 4…20mA2 _ _ _Foundation Fieldbus (4 wire + local HART)A _ _ _f Profibus PA (4 wire + local HART)D _ _ _Without - No Display_ 0 _ _English_ 1 _ _German_ 2 _ _French_ 3 _ _Italian_ 4 _ _Spanish_ 5 _ _Portugese_ 6 _ _Japanese_ 7 _ _Chinese (Mandarin)_ 8 _ _Russian_ A _ _Honeywell_ _ V _Without_ _ _ 0Stainless steel weather protection n°13_ _ _ 1Cable entry M20x1,5 (ALU) M25x1,5 (SS) / without gland_ _ _ 2Screws + gaskets (kit for 1 unit)n° 3 + 6 + 8 + 10_ _ _ 3Wiring compartment cover + gasket n° 9+10_ _ _ 4Cable entry 1/2" NPT / without gland_ _ _ 5Cable entry G 1/2" / without gland (not for Sst housing)_ _ _ 6Cable entry M20x1,5 (ALU) M25x1,5 (SS) / plastic gland (Std: black, Ex ia:blue) n°5_ _ _ 7Cable entry M20x1,5 (ALU) M25x1,5 (SS) / metal gland (Ex d devices only)n°5_ _ _ 8Beige plastic sun shade n° 11+12_ _ _ A Blind cover + gasket + screws n° 2 + 3 + 4_ _ _ B Converter VIATOR RS232 / HART_ _ _ C Converter USB / HART _ _ _ DOutput HMI (display & keys)Version Accessories36-RM-16U-07Issue 4Page 4 of 8 RESTRICTIONSTableIIIIIIIIIIIII IV0 _ _ _k 3 0 0 _, 8 0 0 _, A 0 0 _,B 0 0 _,C 0 0 _, F 0 0 _,R 0 0 _, S 0 0 _,0 B 0 _,0 3 0 _, 0 C 0 _, 0 D 0 _,0 E 0 _, 0 F 0 _, 0 G 0 _,0 S 0 _, 0 X 0 _, 0 0 8 _0 0 0 _II_ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,5 0 0 _, 0 5 0 _,0 6 0 _, 0 0 5 _,0 0 C _, 0 0 F _,0 0 L _, 0 0 P _h3 0 0 _, 7 0 0 _, 8 0 0 _,A 0 0 _,B 0 0 _,C 0 0 _,0 A 0 _, 0 3 0 _, 0 B 0 _,0 C 0 _, 0 D 0 _, 0 E 0 _,0 F 0 _, 0 G 0 _,0 0 7 _,0 0 8 _, 0 0 0 _II_ 3 _ _ _, _ 4 _ _ _,_ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,i II3 _ _ _ _, 7 _ _ _ _,K _ _ _ _f 0 _ _ _ _, 2 _ _ _ _, 3 _ _ _ _, A _ _ _ _g II_ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _, IIId IV _ _ _ _ 7e3 0 0 _, 7 0 0 _, 8 0 0 _,A 0 0 _,B 0 0 _,C 0 0 _,E 0 0 _,F 0 0 _, N 0 0 _,P 0 0 _, R 0 0 _, S 0 0 _,0 A 0 _, 0 3 0 _, 0 B 0 _,0 C 0 _, 0 D 0 _, 0 E 0 _,0 F 0 _, 0 G 0 _, 0 R 0 _,0 S 0 _, 0 W 0 _, 0 X 0 _,0 0 7 _, 0 0 8 _, 0 0 0 _II_ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,0 0 C _, 0 0 F _,0 0 L _, 0 0 P _,c II_ _ U _ _, _ _ V _ _,_ _ W _ _, _ _ X _ _, IV A _ _ _a IV_ _ _ 8b _ _ _ 0 _II_ _ H _ _, _ _ P _ _,_ _ S_ _, _ _ U _ _,_ _ V _ _, _ _ W _ _,_ _ X _ _, _ _ _ _ 3,_ _ _ _ 4, _ _ _ _ 6,_ _ _ _ H, _ _ _ _ K,IIIRestrictions Available only with Not Available with Letter Selection Table Selection36-RM-16U-07Issue 4Page 5 of 8II III II III III II III IIIIIIIIII III III III IIIIIz _ _ H _ _0 0 C _, 0 0 0 _x 3 0 0 _, 6 0 0 _, 7 0 0 _,8 0 0 _, A 0 0 _, B 0 0 _,C 0 0 _, 0 3 0 _, 0 7 0 _,0 8 0 _, 0 A 0 _, 0 B 0 _,0 C 0 _, 0 D 0 _, 0 E 0 _,0 F 0 _, 0 G 0 _, 0 0 6 _,0 0 7 _, 0 0 8 _, 0 0 0 _II _ 3 _ _ _, _ 4 _ _ _,_ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,y 3 0 0 _, 8 0 0 _, A 0 0 _,B 0 0 _,C 0 0 _, 0 3 0 _,0 A 0 _, 0 C 0 _, 0 D 0 _,0 E 0 _, 0 F 0 _, 0 G 0 _,0 0 8 _, 0 0 0 _II _ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,vII _ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,w 3 0 0 _, 5 0 0 _, 6 0 0 _,7 0 0 _, 8 0 0 _, A 0 0 _,B 0 0 _,C 0 0 _, 0 3 0 _0 5 0 _,0 6 0 _, 0 7 0 _,0 8 0 _, 0 A 0 _, 0 B 0 _,0 C 0 _, 0 D 0 _, 0 E 0 _,0 F 0 _, 0 G 0 _, 0 0 5 _,0 0 6 _, 0 0 7 _, 0 0 8 _,0 0 0 _II _ 3 _ _ _, _ 4 _ _ _,_ _ _ C _, _ _ _ D _,_ _ _ E _, _ _ _ F _,u _ _ H _ _0 0 F _, 0 0 L _,0 0 P _, 0 0 0 _t_ _ _ 0 A, _ _ _ 0 B, _ _ _ 0 C II_ 3 _ _ _, _ 4 _ _ _,0 0 C _, 0 0 F _, 0 0 L _, 0 0 P _, 0 0 0 _rIV 0 0 _ _s IV _ 0 _ _pB 0 0 _,C 0 0 _, 0 0 0 _0 E 0 _, 0 F 0 _, 0 G 0 _II _ _ _ _ F, _ _ _ _ G, _ _ _ _ H, _ _ _ _ K qIV 0 _ _ _n 7 0 0 _, 8 0 0 _, A 0 0 _,0 A 0 _, 0 B 0 _, 0 C 0 _,0 D 0 _, 0 0 7 _, 0 0 8 _,0 0 0 _II _ _ _ _ F, _ _ _ _ G, _ _ _ _ H, _ _ _ _ K o 3 _ _ _ _, 7 _ _ _ _,K _ _ _ _IV 0 _ _ _m _ _ _ 0 _, _ _ _ 1 _,_ _ _ 2 _, _ _ _ 3 _,_ _ _ 4 _, _ _ _ 5 _,_ _ _ P _, _ _ _ R _II _ _ _ _ F, _ _ _ _ G, _ _ _ _ H, _ _ _ _ K 3 0 0 _, 7 0 0 _, 8 0 0 _,A 0 0 _,B 0 0 _,C 0 0 _,0 A 0 _, 0 3 0 _, 0 B 0 _,0 C 0 _, 0 D 0 _, 0 E 0 _,0 F 0 _, 0 G 0 _,0 0 7 _, 0 0 8 _, 0 0 0 _II _ 3 _ _ _, _ 4 _ _ _l _ _ _ 0 _, _ _ _ 1 _,_ _ _ 2 _, _ _ _ 3 _,_ _ _ 4 _, _ _ _ 5 _,_ _ _ S _, _ _ _ T _II _ _ _ _ F, _ _ _ _ G, _ _ _ _ H, _ _ _ _ K 3 0 0 _, 7 0 0 _, 8 0 0 _,A 0 0 _,B 0 0 _,C 0 0 _,0 A 0 _, 0 3 0 _, 0 B 0 _,0 C 0 _, 0 D 0 _, 0 E 0 _,0 F 0 _, 0 G 0 _,0 0 7 _, 0 0 8 _, 0 0 0 _II _ 3 _ _ _, _ 4 _ _ _。

505Light Emitting Diode Drivers Selection GuidePages 506-523ITEM#WAVELENGTH POWER VIEWING HALF ANGLEPACKAGE PAGE LED341W 340nm 0.35mW 7.5°TO-39507LED370E 375nm 2.5mW 19°T-1 3/4507LED405E 405nm 6mW 5°T-1 3/4507LEDC2455nm 239.85mW -Leica DMI Microscope 508LEDC3455nm 323.94mW -Nikon Eclipse Microscope 508LEDC4455nm 339.19mW -Zeiss Axioskop Microscope 508LEDC1455nm 438mW -Olympus BX & IX Microscopes508MRMLED 455nm 730mW 75°SM1508LED470E 470nm 8.5mW 7.5°T-1 3/4509LEDC6470nm 205.35mW -Leica DMI Microscope 509LEDC7470nm 277.35mW -Nikon Eclipse Microscope 509LEDC8470nm 290.4mW -Zeiss Axioskop Microscope 509LEDC5470nm 375mW -Olympus BX & IX Microscopes509MBLED 470nm 625mW 75°SM1510LEDC10505nm 138mW -Leica DMI Microscope 510LEDC11505nm 186.38mW -Nikon Eclipse Microscope 510LEDC12505nm 195.15mW -Zeiss Axioskop Microscope 510LEDC9505nm 252mW -Olympus BX & IX Microscopes510MCLED 505nm 420mW -SM1511LED521M 525nm 2mW 55°TO-18512LED525E 525nm 2.6mW 7.5°T-1 3/4512LEDC14530nm 90.35mW -Leica DMI Microscope 512LEDC15530nm 122.03mW -Nikon Eclipse Microscope 512LEDC16530nm 127.78mW -Zeiss Axioskop Microscopex 512LEDC13530nm 165mW -Olympus BX & IX Microscopes512MGLED 530nm 275mW 75°SM1512LED528E 535nm 1.5mW 10°T-1 3/4513LEDRGBE 540nm 6.2mW 12.5°T-1 3/4513LEDC18540nm 164.28mW -Leica DMI Microscope 514LEDC19540nm 221.88mW -Nikon Eclipse Microscope 514LEDC20540nm 232.32mW -Zeiss Axioskop Microscope 514LEDC17540nm 300mW -Olympus BX & IX Microscopes514MWLED 540nm 500mW 75°SM1514LEDWE-15white 1mW 7.5°T-1 3/4515LEDWE-10white 2.6mW 10°T-1 3/4515LEDWE-50white 3.7mW 25°T-1 3/4515LED591E 590nm 2mW 10°T-1 3/4516LED631E 635nm 4mW 10°T-1 3/4516LED630E 639nm 7.2mW 7.5°T-1 3/4516LED661L 655nm 1.7mW 6°TO-18517LED661W 670nm 0.45mW 15°TO-18517LED781W 780nm 6mW 55°TO-18517LED780E 780nm 18mW 10°T-1 3/4518LED851W 850nm 8mW 10°TO-18518LED851L 850nm 18mW 10°TO-18518LED870E 870nm 22mW 10°T-1 3/4519LED940E 940nm 18mW 10°T-1 3/4519LED1050E 1050nm 2.5mW 15°T-1 3/4520LED1200E 1200nm 2.5mW 15°T-1 3/4520LED1300E 1300nm 2mW 15°T-1 3/4520LED1450E 1450nm 2mW 15°T-1 3/4520LED1550E 1550nm 2mW 15°T-1 3/4521LED1650P 1650nm 0.9mW <10°TO-18R 521LED2050P 2050nm 1.1mW <10°TO-18R 521LED3100P 3100nm 14µW <10°TO-18R 521LED4600P4500nm 6µW <10°TO-18R521LEDsLED Drivers LED Mounts and Accessories506Radiometric vs. Photometric UnitsLight Emitting Diode TechnologiesFor many applications, light emitting diodes (LEDs) provide a low cost, reliable alternative to traditional light sources such as the incandescent light bulb, halogen bulbs, or arc lamps. Applications involving these former light sources gave rise to photometric measures for power, brightness, etc. Since Thorlabs typically provides radiometric specifications for our laser diodes, this overview is to serve as the bridge between the two regimes.Depending on the LED, the specifications might be given using any of the following radiometric quantities: power (also called radiant flux and measured in watts (W)), irradiance (measured in W/m2), radiant intensity (measured in watts per steradian (W/sr)), and radiance (measured in W/m2·sr). The corresponding photometric quantities, which are listed in the table below, are based on the SI unit for luminous intensity, the candela (cd). Values reported in candelas are weighted by a spectral luminous efficiency function, which represents the human eye’s sensitivity to the light at a given wavelength. Hence, candelas are a photometric unit, thereby giving information about the perceived brightness of a source; in contrast, power, irradiance, radiant intensity, and radiance are radiometric units, thus providing information about the absolute brightness of a source.Based on the candela, three other photometric quantities are also commonly used to specify power measurements for LEDs: luminance (measured in cd/m2, which is also sometimes referred to as a Nit), luminous flux (whose SI unit is the lumen (lm)), and illuminance (whose SI unit is the lux (lx)). Therefore, each radiometric quantity has a photometric counterpart, which is weighted by the spectral response of the human eye.T o convert between radiometric and photometric units, one needs to know the photopic spectral luminous efficiency curve V(␭), which gives the spectral response of the human eye to various wavelengths of light. The original curve, which is shown below, was adopted by the Commission on Illumination (CIE) as the standard in 1924 and is still used today even though modifications have been suggested.Empirical data shows that the curvehas a maximum value of unity at555nm, which is the wavelength oflight at which the human eye is mostsensitive, and trails off to levels below10-5for wavelengths below 370nmand above 780nm.QUANTITY RADIOMETRIC PHOTOMETRICPower W Lumen (lm) = cd·srPower Per Unit Area W/m2Lux (lx) = cd·sr/m2= lm/m2Power Per Unit Solid Angle W/sr Candela (cd)Power Per Unit Area Per Unit Solid Angle W/m2·sr cd/m2= lm/m2·sr = nitPhotopic Spectral Luminous Efficiency Curve0.20.40.60.81300400500600700800Wavelength (nm)NormalizedEfficiencyA non-linear regression fit to the experimentaldata yields the approximation,where the wavelength is in micrometers.According to the definition for a candela, thereare 683 lumens per watt for 555nm light that ispropagating in a vacuum. Hence, for amonochromatic light source, it is fairly simple toconvert from watts to lumens; simply multiplythe power in watts by the appropriate V(␭) value,and use the conversion factor from the definitionfor a candela.For example, the photometric power of a 5mW red (␭= 650nm) laser pointer, which corresponds to V(␭) = 0.096, is 0.096 x 0.005W x 683lm/W = 0.33lm, whereas the value for a 5mW green (␭= 532nm) laser pointer is 0.828 x 0.005W x 683lm/W = 2.83lm. Thus, although both laser pointers have the exact same radiant flux, the green laser pointer will appear approximately 8.5 times brighter than the red one assuming both have the same beam diameter.Conversion from radiometric to photometric units becomes more complex if the light source is not monochromatic. In this case, the mathematical quantity of interest iswhere ⌽v is the luminous flux in lumens, Km is a scaling factor equal to 683 lumens per watt, ⌽E(␭) is the spectral power in watts per nanometer, and V(␭) is the photopic spectral luminous efficiency function. Note that the integration is only carried out over the wavelengths for which V(␭) is non-zero (i.e. ␭= 380 - 830nm). Since V(␭) is given by a table of empirical values, it is best to do the integration numerically.,e019.1)(V2)559.0(4.285−−=λλδλλλλλ)(V)(K830380Em∫==Φ=ΦVTypical Result TO-39 Can--50°C100°CRMB DESCRIPTION162,80¥1,671.30340nm, 0.35mW, TO-39 LED415nm100°CMeasured ResultsTypical ResultMeasured ResultsPin Description Characteristics (T CHARACTERISTIC ITEM#MICROSCOPE LEDC1Olympus BX/IX Measured ResultsLEDC2for Leica DMI Microscopes 16 Emitters16 EmittersLEDD1See Page 525For DetailsMRMLEDMeasured Results Description = 470nm, P >205mW Collimated LEDs=25°C, I=700mA)RMBDESCRIPTION¥86.00470nm, 8.5mW, T-1 3/4 LEDs (Qty. 5)TYP .MAX.Measured Results LED470E (Sold in Quantities ofLEDC8Shown16 EmittersSEE OUR ENTIRE POWER METER LINE ON PAGES 946-961■Interchangeable Sensors With NIST TMeasured ResultsMeasured ResultsCharacteristics (T =25°C, I=700mA)λ= 505nm, P >138mW Collimated LEDs■Closely Collimated Beam ■High Power Density ■High-Power (up to 252mW)■Average Lifetime: 100,000 Hours ITEM#LEDC916 Emitters16 EmittersLEDD1See Page 525For DetailsMBLEDLEDC12ShownMeasured Results Typical ResultRMBDESCRIPTION¥86.00525nm, 2.6mW, T-1 3/4 LEDs (Qty. 5)-100V -85°C95°CRMB DESCRIPTION74,40¥764.00525nm, 2mW , T o-18 LED With Built-In PhotodiodeRMB DESCRIPTIONTypical Result16 EmittersInternal 1.035"-40SM1 Lens T ube Compatible ThreadTO-18 canMCLEDMeasured Results16 Emitters16 emittersLEDD1See Page 525For DetailsLEDC16ShownMeasured ResultsMGLEDOperating T Storage T ITEM#MGLED LEDD1Measured ResultsLEDRGBEMeasured ResultsSold in Packages of 5ITEM#$£€LEDRGBE$7.75£ 4.90€7,20White Light Collimated LEDs, P>164mW■Closely Collimated Beam ■High Output Power up to 16 Emitters16 EmittersLEDD1See Page 525 for DetailsLEDC20ShownMeasured ResultsMeasured ResultsMWLEDOperating T 120°C Storage T 120°CWavelength (nm)N o r m a l i z e d P o w e rITEM#RMB DESCRIPTIONMWLED LEDD1Typical Result ITEM#$£€RMBLEDWE-10$10.00£6.30€9,30¥R 40000.20.1500Quantities of Five)(Sold in Quantities of Five)Sold in Packages of 5Typical ResultTypical ResultSee Page 946RSample MeasurementOptical-Electrical Characteristics (T a=25°C)CHARACTERISTIC SYMBOL MIN.TYP.MAX.I fw-- 50mAPulse Forward Current I fw-pls-- 140mALED631E■Package:T-1 3/4Sample Measurement$£€$ 3.00£ 1.90€2,80¥= 639nm, P = 7.2mW LEDof Five)Typical ResultsDESCRIPTION639nm, 7.2mW LEDs (Qty. 5)Typical ResultsTypical Results DESCRIPTION655nm, 1.7mW LED With Glass LensRMBDESCRIPTION¥35.80670nm, 0.45mW LED With Glass Window= 780nm, P = 6mW LED With Integrated PhotodiodeViewing Half Angle 6°LED781M Spectral Distribution■Output Power:0.45mWMeasured ResultsSee Page 737LED781M Spectral DistributionTypical Results Typical ResultTypical Result8mW CW$£€RMB$3.80£2.40€3,50¥= 850nm, P = 18mW LED$£€RMB$3.75£2.40€3,50¥Glass Lens,10°Viewing Half Angle 1LED780E - Spectral DistributionSample Measurement Sample MeasurementSample MeasurementT-1 3/40.81LED870E Spectral Distributiont yForward CurrentPulse Forward Current Reverse Voltage Forward Voltage Optical Power Peak Wavelength Spectral Half Width Viewing Half Angle Operating T Storage T Rise Time Fall Time- 1000mA5V1.2V 1.5V-1500nm--85°C100°C --Sample MeasurementSample Measurement Typical Results= 1550nm, P = 2.0mW LED■Sample Measurement = 1650nm, P = 0.9mW LED with Parabolic ReflectorTypical Spectra at Different T70λ= 2050nm, P = 1.1mW LED with Parabolic ReflectorOptical-Electrical Characteristics (TRMB 1,719.00TO-18 With Parabolic Reflector (T-18R)TO-18 With Parabolic Reflector (T-18R)SEE OUR ENTIRE POWER METER LINE ON PAGES 946-961Expanding the NEW PM300 Dual Channel Power MeterTypical Spectra at Different T emperaturesemperaturesMAXIMUM VOLTAGEAPPROXIMATE CENTRALLIU002 With AD38Mounting Ring Secured in a KS2 Mount on aTR Series PostUsed With LED AD38The AD38 double bored mounting ring holds an LIU series LED array in place with a single #8-32 setscrew. The outside of the ring is Ø2" so that it can hold any one of many optomechanical parts suitable for Ø2" components.LIU Light Sources Power Cord Not IncludedLIU-PS#8-32 UNC 4.03.5mm 6.0SpecificationsLEDD1Benchtop LED TPS008TPS001Power Supply for LEDD1 T-CubeThe LEDD1 is a variable intensity LED driver for the most recent generation of high power, low compliance voltage LEDs available on the market (such as those manufactured by Philips/Lumiled).Combined with the Thorlabs LED collimator assembly or Koehler 2"2"See Page 946MetersLD1255RMounted on an LD1255P(Power Supply Not Included)LD1255R Features■Compliance Voltage: 3.3V■Signal Bandwidth:PS-12DC-USITEM #$£LD1255R$119.00£75.00LD1255P$15.00£9.50(Power Supply NotIncluded)The IP250-BV is a medium power, board-level diode controlleroptimized for diodes with higher operating voltages. The driver2.5A, 7.7V Constant Current Driver The LD3000R is a higher-power version of our popular LD1255R ultraThe LD2000R is a low-noise, stable diode current source that can be LD2000R 2" x 1.3" x 1/2"Supports A & D Style Pin CodesSold SeparatelyThe EK1100 Series Evaluation Kits are ready-to-use, pre-assembled LD1100 Diode Drivers with anevaluation PCB (EB1100), cable with socket (S8060),EK1102LDS2Power Supply Sold SeparatelyN O W!Fiber GRIN Lens Plano-Convex IrisBi-ConcavePlano-Convex£24.00£15.10€Adapter Ring IncludedWith T1-3/4 LED Adapter Ring Included*Imperial and meteric versions are compatible.These slip rings are designed to mount preassembled optical lens tube systems by passing a lens tube through the mounting ring and securing it with a setscrew. Their slim body design and flat sides help to AD38KS2, LED,and Post NotIncludedAD38SM1RC LED and Post Not Included SEE OUR ENTIRE POWER METER LINE ON PAGES 946-961raceable Calibration Data Power Meters for Measurements from 35nW to 30W ■LinePOWER AND ENERGY METERSNEW PM300 Dual-Channel Power Meter DESCRIPTIONSM2 Series Slim Slip RingESD ANKLE STRAPESD WRIST STRAPTABLE MAT2' X 4'Expanding the LineVISIR1Shown With LMR1 Lens Tube and Post (Sold Separately)VISIR1VISIR05These IR alignment disks are ideally used as drop-in tools to simplify active alignment of IR and Visible setups.Available with either SM1 or RMS threading, or as Ø1/2" or Ø1" drop-in disks, these disks align beams to the optical axis of our mounts or lens tubes. The SM1A7 is a useful aid when aligning visible beams to the center ofoptical mounts. The SM1A8 is designed to simplify the alignment of infrared beams along the optic axis ourlens tubes. The RMSIR simplifies the alignment of infrared beams along the optical axis of an internally threaded RMS mount. The VISIR05 and VISIR1 are ideal alignment accessories for any of our Ø1/2" or Ø1" optical mounts. These drop-in disks are made of slow-fading phosphor that is active in the 800-1700nm range. The VDIR05 and VDIR1 are designed for wavelengths of 790-840nm, 870-1070nm, and 1550-1590nm. The central hole in the disks allows easy alignment of the beam or its retro-reflection along the mount's optical axis.Alignment Disks With SM1 and RMS The VC-1550 is designed for wavelengths of 790-840nm, 870-1070nm, and 1550-1590nm. It features a sensor area of 1.8" x 1.0". The VC-VIS/IR is enhanced for the IR absorption band of 800-1700nm, and the VC-UV covers the 250-525nm ultraviolet absorption UV CARD VIS/IR CARDFOR S, C, & L BANDSSM1A7 Alignment DiskITEM SIZE METRIC ITEM#。