产品规格PLUTO-2-VIS-016HOLOEYE
PLUTO-2-VIS-016德国HOLOEYE PLUTO-2-VIS-016德国HOLOEYE PLUTO-2-VIS-016德国HOLOEYE深圳诸夏科技有限公司
产品负责人:盛经理
德国HOLOEYE的空间光调制器(SLM)系统基于半透明或反射式液晶微显示器。HOLOEYE为振幅和相位调制提供了广泛的空间光调制器。
液晶空间光调制器的光子应用Holoeye Photonics AG与Fraunhofer IZM合作开展一个由欧洲区域发展(ERDF)共同资助的项目。“空间光调制器(PALM)的光子应用”项目的目标是开发用于紫外和SWIR波段的LCOS(硅上液晶)电池。在促进研究、和技术(利润)方案下计划的联合项目是以主要在弗劳恩霍夫工业区(包开发)开展的以研究为导向的工作包以及过程和结果分析的可能性为基础。Holoeye Photonics AG将您的系统知识集成到自己的工作包中,专注于以市场为导向实现所获得的知识。衍射光学元件标准DOE(塑料)DOE Item # Specs Description Design Wavel. a b c d α β γ δ Optimum Wavelength Range ImageDE-R 213 11 Lines, Square 635 nm* 76.7 mm 54.4 mm 5.4 mm 54.4 mm 42.0° 30.4° 3.0° 30.4° 530 – 670 nm DE-R 233 7 Lines, Square 635 nm* 54.0 mm 38.2 mm 6.4 mm 38.2 mm 30.2° 21.6° 3.6° 21.6° 530 – 670 nm DE-R 250 5 Lines (Rectangular) 660 nm* 55.0 mm 10.9 mm 2.7 mm 53.9 mm 30.8° 6.2° 1.6° 30.2° 590 – 670 nm DE-R 251 7 Lines (Rectangular) 650 nm 15.5 mm 9.0 mm 1.5 mm 12.6 mm 8.9° 5.2° 0.8° 7.2° 590 – 730 nm DE-R 252 5 Lines (Square) 635 nm* 42.7 mm 30.2 mm 7.5 mm 30.2 mm 24.1° 17.2° 4.3° 17.2° 530 – 670 nm DE-R 253 11 Lines (Square,Thin Lines) 635 nm* 76.4 mm 54.0 mm 5.4 mm 54.0 mm 41.8° 30.2° 3.0° 30.2° 530 – 670 nm DE-R 254 25 Lines (Square) 660 nm* 68.4 mm 48.3 mm 2.0 mm 48.3 mm 37.7° 27.2° 1.1° 27.2° 530 – 670 nm DE-R 255 65 Lines (Square,Central Line Thicker) 660 nm* 45.6 mm 32.2 mm 0.5 mm 32.2 mm 25.7° 18.3° 0.3° 18.3° 530 – 670 nm DE-R 284 41 Lines (Rectangular) 660 nm* 133.4 mm 104.0 mm 2.6 mm 78.0 mm 67.4° 54.9° 1.4° 42.6° 600 – 700 nm DE-R 348 10 Lines (Rectangular) 650 nm* 125.5 mm 90.0 mm 10.0 mm 87.5 mm 64.2° 48.5° 5.4° 47.3° 600 – 700 nm DE-R 350 15 Lines (Rectangular) 520 nm* 65.5 mm 42.1 mm 3.0 mm 50.2 mm 36.3° 23.8° 1.7° 28.2° 480 – 550 nm DE-R 381 11 Lines (Rectangular) 850 nm* 155.6 mm 41.5 mm 4.15 mm 150 mm 75.8° 23.5° 2.3° 74.0° 830 – 880 nm DE-R 3863 Lines (Rectangular) 520 nm* 50.7 mm 8.0 mm 4.0 mm 50.0 mm 28.4° 4.6° 2.3° 28.1° 490 – 550 nm DE-R 3875 Lines (Rectangular) 520 nm* 50.7 mm 8.0 mm 2.0 mm 50.0 mm 28.4° 1.15° 3.1° 28.1° 480 – 560 nm DE-R 391 81 Lines (Rectangular) 650 nm* 156.0 mm 128.8 mm 1.6 mm 93.6 mm 75.9° 63.9° 0.8° 50.2° 600 – 700 nm DE-R 392 3 Lines (Rectangular) 660 nm* 54.7 mm 10.8 mm 5.4 mm 53.6 mm 30.6° 6.2° 3.1° 30.0° 600 – 700 nm *Large-angle pattern that due to its symmetry properties is subject to geometrical distortion, if the DOE is used at laser wavelengths significantly different (Δλ > 50nm) from the design wavelength.Lines & Dot LinesPattern Size @ 100 mm Distance (@ Design Wavelength) Pattern Angles (@ Design Wavelength) DOE Item # Specs Description Design Wavelength a b α β Optimum Wavelength Range ImageDE-R 263 1:5 Dot Line 635 nm 10.5 mm 2.6 mm 6° 1.5° 450 – 700 nm DE-R 264 1:9 Dot Line 670 nm 1.6 mm 0.2 mm 0.9° 0.1° 630 – 780 nm DE-R 265 1:19 Dot Line 650 nm 24 mm 1.3 mm 13.7° 0.8° 500-540 nm; 630-690 nm DE-R 266 QC-Line – 5@633 633 nm 8.7 mm — 5° — 630 – 690 nm DE-R 267 QC-Line – 30@532 532 nm 53.8 mm — 30.1° — 470 – 560 nm DE-R 281 1:11 Dot Line 650 nm 28.9 mm 2.9 mm 16.5° 1.6° 440-490 nm; 600-730 nm DE-R 282 1:99 Dot Line 660 nm 33.7 mm 0.3 mm 19.1° 0.2° 600 – 700 nm DE-R 283 QC-Line – 20@633 633 nm 35.2 mm — 20° — 630 – 670 nm DE-R 286 QC-Line – 30@660 660 nm 54.6 mm — 30.5° — 600 – 700 nm DE-R 287 QC-Line – 45@660 660 nm 83.9 mm — 45.5° — 600 – 700 nm DE-R 337 1:99 Dot Line 635 nm 49.3 mm 0.5 27.7° 0.3° 600 – 700 nm DE-R 364 QC-Line – 45@940 940 nm 83.0 mm — 45.0° — 890 – 980 nm DE-R 369 QC-Line – 36@640 639 nm 65.0 mm — 36.0° — 600 – 700 nm DE-R 383 QC-Line – 51@840 840 nm 95.0 mm — 50.6° — 790 – 880 nm
Recovib Tiny,Recovib Feel
MicroMega-DynamicSA公司成立于1999年,由两名专门从事以下工作的工程师组成。机械工程与机器人。公司目前有15多名员工,工程师和技术人员随时准备满足您的需要。我们是设计和实现用于主动振动控制的机电一体化系统的*。我们开发了三种活动:
对于这些活动中的每一个,我们的首要任务是提供一个服务首先深入分析客户的需求和需求,然后进行设计和原型设计,从而为客户提供和制造出佳的解决方案。一旦解决方案由我们的技术团队开发和安装,我们将继续为我们的客户提供协助和支持。我们的客户可以要求我们提供完整的服务或具体的操作。
MICROMEGA产品系列;
MICROMEGA主动阻尼器MICROMEGA无源阻尼器MICROMEGA手臂式人体振动计MICROMEGA全身人体振动计MICROMEGARECOVIB工业加速度计MICROMEGARECOVIBDAQ-01多通道智能采集系统MICROMEGARECOVIB微型无线振动记录器
Due to its extensive experience in vibration control, Micromega is able to carry out analyses on the types of structural vibration and their causes, the implications on performance/reliability and how they can be reduced. With that in mind, Micromega is able to develop active and passive devices to address excessive vibration issues, even in “troubleshooting mode” where only minor modifications to the target structure are necessary.
Whenever structural vibrations are related to resonance frequencies, the structural damping should be increased. With that in mind, Micromega proposes:
Passive solutions: usually Tuned Mass Dampers (TMD) which are passive vibration reduction devices consisting of a mass, a spring, and a damper that is attached to a structure in order to reduce its dynamic response. The frequency of the damper is tuned to a particular structural frequency so that when that frequency is excited, the damper will resonate out of phase with the structural motion. Energy is dissipated by the damper inertia force acting on the structure. Adequately tuned, TMDs will replace the high peak at the structure resonance frequency by two 2 much smaller peaks. Micromega has successfully implemented TMDs in piping systems, wind turbines, semiconductor machines etc.
Active Solutions: usually Active Damping Devices (ADD) which are based on an inertial actuator and perform the same job as TMDs (e.g. increased structural damping, reduced dynamic amplification etc.) but offer enhanced performance! An ADD is also based on a spring-mass system but in this case the system is equipped with an electromagnetic force generator (i.e. voice Coil, electromagnet, motor etc.) between the static and moving part of the actuator. While, with a TMD, the spring mass frequency is tuned to the targeted resonance, in an ADD, the spring mass frequency can be chosen arbitrarily as long as it is below the first resonance frequency. In fact, an inertial actuator can be considered as a pure force generator for frequencies above its internal suspension frequency.
PJ M构建了加速度传感器,以实现我们测量的所有高要求。我们的传感器在轨道车辆的测量范围内能够抵抗端的工作条件,它们提供了高温稳定性,并具有足够的精度用于以下分析。传感器不会显示临时观察到的高频激励的过度调制,特别适合在传动装置试验和测量使用强度时使用。
单轴加速度传感器
在许多技术领域,加速度是一个基本的机械尺寸。我们提供可变测量范围的加速度传感器。
可测量的静态加速度(如重力)
适用于端工况
暂时观察到的高频激励没有过调制
物所值
多轴加速度计
PJM 3D传感器是PJM LN系列单轴加速度计的改进。多轴加速计为多三个加速度计提供了一个具有共同撞击中心的正交基准,这些加速度计可安装不同测量范围的传感器元件。这使得传感器特别适用于标准测量点(例如轴箱)。其节省空间的设计使放置方便、多功能,并大大缩短了安装时间。
可测量的静态加速度(如重力)
适用于端工况
暂时观察到的高频激励没有过调制
适用于传动装置和疲劳强度试验
自由侧向加速度的直接测量
美国艾科特里尔 Extrel 质谱公司
美国 Extrel 质谱公司 ——世界上一**按照客户的生产和设计要求进行客户化仪器生产公司
美国Extrel公司以其良好的四质谱仪**。其产品主要涵盖三大领域,工业,科研,及客户化质谱及质谱组件。
Gas Analysis Systems
VeraSpec Molecular Beam and Plasma Analysis Systems
VeraSpec Trace APIMS
VeraSpec HRQ
MAX300-LG High-Performance Laboratory Gas Analyzer
MAX300-EGA Evolved Gas Analyzer
MAX300-AIR Environmental Mass Spectrometer
MAX300-BIO Bioreactor Gas Analyzer
Lamp Analyzer
Ultra Trace Detection Membrane Inlet
MAX300-CAT Laboratory Gas Analyzer
MAX300-RTG Industrial Process Gas Analyzer
MAX100-BTU Real-Time Heating Value Gas Analyzer
Custom Systems and Components
Ionizers and Ion Optics
Ion Guides and Collision Cells
Quadrupole Mass Filters
Electronics
Controller and Software
Core Quadrupole Power Supply (QPS)
Quadrupole Mass Spectrometers and Residual Gas Analyzers
MAX-QMS flange mounted system
MAX-LT flange mounted RGA MS
MS/MS Systems
Extrel RGA
Certifications
Quality Assurance Notification ATEX RS
ISO 9001: 2008 Dated 2015 Through 2018
IECEx Quality Assessment Report
OEM Equipment and Hardware
OEM Equipment
Extrel工业在线质谱仪广泛应用于石油化工,煤化工,制药,钢铁,环保等领域,其客户包括美国壳牌,美国钢铁,闽台塑料,中石化,神化煤业等*企业。
科研用Extrel在线质谱仪,大量地用于**的大学及科研机构。其中,包括李远哲教授在内的多个诺贝尔奖金获得者曾经使用Extrel在线质谱仪,并对其科研工作作出了积的贡献。
客户化质谱产品及组件,能够提供各种类型的四杆,电源,振荡器,检测器,及相关组件的任何组合。并能根据客户的具体需求,提供各类产品的设计和客户化方案。
简单历史
• 1964 以Extranuclear实验室的名字创建
• 1967 推出台带有离子化器,质量过,检测器,电源和控制装置的嵌法兰盘的完整的质谱仪
• 1968 推出QPS系列质谱器件和系统
• 1976 推出ProMass,世界上台工业过程分析系统
• 1983 推出大获成功的Questor系列工业工程分析系统
• 1984 推出台研究级的带三个四联杆质谱/质谱系统
• 1985 推出为环境和生物材料分析用的ELQ-400分析型质谱和质谱/质谱系统
• 1988 开发出Benchmark系统,世界上台便携式气相及液相质谱和质谱/质谱系统
• 1991 推出Attospec,为高纯气体中万亿分之一杂质分析的APIMS系列仪器中的台
• 1995 卖出台四联杆带偏转器的离子化器,一**的研究用质谱/质谱系统部件系列的台
• 2005 推出MAX300系列研究及工业用气体分析系统
应用领域:
Ammonia Process Control (氨生产过程控制)
Methanol Process Control (甲醇生产过程控制)
Ethylene Cracker Effluent (乙烯裂解排放监测)
Ethylene Oxide Reactor (乙烯氧化反应监测)
PE/PP Reactor ( PE/PP 反应器监测)
Dehydrogenator
Hydrogen Production
Natural Gas Analysis (BTU) (天然气分析)
Synthesis Gas (合成气体分析)
Ambient Air (环境气体监测)
Hydrocarbon Processing (碳氢过程监测)
Environmental (环境)
Metals Production (冶金钢铁生产)
Fermentation Process (发酵过程)
Semi-Conductor and associated materials (半导体及相关产品)
Fizoptika fiber optic gyroscopes (FOGs) are fabricated using a specialized in-line technology. The basis of the technology
is an exclusive 40-micron PM fiber with a number of distinctive optical and mechanical characteristics.
fabrication of various fiber optic components directly on a fiber length by shaping it at high temperatures when quartz
The spliceless fabrication of the ring interferometer components (couplers, SLD module) makes them naturally
connected without optical losses.
Sentesh Maita FP Ltd. was certified to UNI EN ISO 9001:2015
Fizoptika光纤陀螺仪(雾)是使用专门的在线技术制作的。下午的基础技术是家40-micron纤维的特的光学和机械特性。
高弹性下的纤维保持光学引导能力,甚至塑料变形。这使得可以制造各种光纤组件直接在高温纤维长度通过塑造当石英玻璃变得柔软。
环形干涉仪的spliceless制造组件(耦合器,光偏振镜,SLD模块)让他们自然地连接没有光学损失。
主要型号有:
SMALLEST GYROSCOPES VG091(小型光纤陀螺仪VG091):
VG091A ,VG091A-4LN,VG191A,VG191A DIGITAL
SUPER RELIABLE GYROSCOPES VG910(级可靠陀螺仪VG910):
VG910D1,VG910F1,VG910H1,VG910H125C
ROBUST GYROSCOPES VG103S:
VG103S , VG103SE, VG103SD ,VG103S-2LND,VG103S-4LND
\ GYROSCOPES VG1703(小型陀螺仪VG1703)
VG1703,VG1703S ,VG1703SP ,VG1703SPE,
FULLY GYROSCOPES VG103(塑性陀螺仪VG103)
VG103PT, VG103E , VG103LN,VG103D,VG103LND
FIBER OPTIC GYROSCOPE VG035LND(光纤陀螺仪VG035LND)
VG035LND,VG035P,VG035PD,
产品名称:VG091A光纤陀螺仪
折叠
产品简介:
VG091A光纤陀螺仪是目前世界上新的体积和重量小的光纤陀螺仪,陀螺仪直接测量物体的转动角速度,输出一个和角速度成
正比的模拟电压信号,使用简单方便。
技术参数
重量 30 gram
尺寸 dia24 x 50mm
功耗 0.5 Watt
零偏稳定性 0.01 deg/s
比例系数 7 mV/deg/s
比例系数稳定性 0.1 %
随机游走 0.1deg/ sqrt h
测量范围 300 deg/s
带宽 0...1000 Hz
工作温度 -30°C ... +70°C
存储温度 - 55°C … +85°C
振动 6 g (RMS), 20Hz...2000Hz
冲击 90 g, 1 ms
Model:VG091A / VG091A-4LN
Input range (deg/s) :300 / 60
Bias stability (deg/h) :3 / 1
ARW (deg/√h) :0.04 / 0.01
Bandwidth (kHz) :1
Dimensions (mm) :24 x 52
Weight (gram) :30 / 50
Output :differential
陀螺仪被广泛用于航空、航海领域。这是由于它的两个基本特性:一为定轴性(inertia or rigidity),另一是进动性(precession),
这两种特性都是建立在角动量守恒的原则下。
光纤陀螺仪是以光导纤维线圈为基础的元件, 由激光二管发射出的光线朝两个方向沿光导纤维传播。光传播路径的变化,
决定了元件的角位移。光纤陀螺仪与传统的机械陀螺仪相比,优点是全固态,没有旋转部件和摩擦部件,寿命长,范围大,
瞬时启动,结构简单,尺寸小,重量轻。与激光陀螺仪相比,光纤陀螺仪没有闭锁问题,也不用在石英块精密加工出光路,成本低。
http://octsensor.cn.b2b168.com