Andor科研级CCD,ICCD,EMCCD,CMOS,X-RAY相机

科研级CCD相机

iKon-L 大靶面影像CCD相机

iKon-L 936系列大靶面CCD相机，内置一块2048*2048规格的芯片，像素大小为13.5um*13.5um，最大量子效率达95%，是兼顾空间分辨率和动态范围两项重要指标的影像应用优化相机。该相机采用5级半导体制冷器，最低致冷温度可达-100°C，暗噪声被压制在最低的水平，因此在曝光时间较长的应用中，具有独特的技术优势。

iKon-M 深度致冷CCD相机

Clara Interline CCD相机

基于Sony ICX285芯片，是同类相机中灵敏度最高的型号。制冷温度低至-45°C, 读出噪声亦低至3e-@1MHz，其优异性能已经可以比肩于更高级别的相机。

科研级ICCD相机

iStar系列增强型ICCD相机-带有快速时间开关

iStar系列ICCD是目前高端科研市场上应用最为广泛的带有快速时间开关的增强型影像CCD。该系列产品主要用于燃烧过程、生物发光机制、化学反应过程等研究领域，利用其信号增强功能和时间开关控制特点，实现极弱信号采集、时间分辨影像捕捉等实验功能。

高灵敏度EMCCD相机

iXon+ DU860高速背照式EMCCD相机
--高灵敏度高速电子倍增式CCD(EMCCD)相机

iXon+ DU860 EMCCD是一款兼顾灵敏度与图象采集速度的相机，采用了一块128*128 Frame Transfer芯片，图象速度可高达515fs/s，特别适用于信号较弱，但又要求有一定的时间分辨能力，而不能进行长时间曝光的实验场合。

iXon+ DU885大靶面高速EMCCD相机
--非极弱信号条件下的大靶面高速电子倍增式CCD(EMCCD)相机

iXon+ DU885是一款富有特色的电子倍增式(EM)CCD相机。它配用了一片1000*1000的大靶面Frame Transfer CCD芯片，最高读出速度为35MHz，保证了该款相机同时提供高分辨率和快速图象读出两大重要功能。尽管其量子效率(QE)的峰值为65%，低于背感光芯片的90%(或更高)，但对于大部分实验的技术要求而言，已足够。

iXon+ DU888大靶面EMCCD相机
--提供高灵敏度、大靶面电子倍增式CCD(EMCCD)相机

iXon+ DU888系列EMCCD的核心是一枚1024*1024 Frame Transfer的芯片，完美地结合了大靶面(大成像面积)、高读出速度、高灵敏度等诸多优点于一身，是全球市场上综合性能最高端的电子倍增式CCD(EMCCD)，在生物医学、天文观测、新型光电材料研究等领域提供了最优的微弱图象信号采集方案。
该系列的EMCCD相机可以搭配各个主流型号的显微镜和专业软件，具有高度的灵活性和方便性。

iXon+ DU897单光子探测EMCCD相机
--全球销量最大的主流电子倍增式CCD(EMCCD)相机
iXon+ DU897系列EMCCD是目前全球市场上销售量最大的一款EMCCD，其核心是一枚512*512 Frame Transfer背感光芯片，在生物医学、天文观测、新型光电材料研究等领域提供了最优的微弱图象信号采集方案。
该系列的EMCCD相机可以搭配各个主流型号的显微镜和专业软件，具有高度的灵活性和方便性。

Luca超高性价比高速EMCCD相机--具有超高性能价格比的通用型电子倍增式CCD(EMCCD)相机系列
市场上性价比最高的EMCCD，单光子探测灵敏度及较高的量子效率，最低致冷温度：-20度，最大1000倍增益，非常适合400nm-1100nm范围内的弱光检测。Luca(R)的单个像素尺寸：8um*8um，总像素1004*1002,每秒钟12.4帧; Luca(S)的单个像素尺寸：10um*10um，总像素658*496,高帧速，每秒钟37.2帧，做到实时检测。

科学级CMOS(sCMOS)相机

Neo sCMOS Camera--高灵敏度、高分辨率、高速sCOMS相机
集高分辨率、高帧速、高量子效率、高灵敏度、高动态范围、宽视场于一身的科学级影像sCOMS相机----真正的科学级CMOS相机。与常规CCD相比具有分辨率高、帧速高、读出噪声低等特点。

主要应用：单分子探测，天文影像研究，高分辨显微成像，自适应光学，生物/化学发光，生物芯片读取，荧光光谱，超光谱成像，粒子图像测速（PIV）

X-ray EMCCD相机

X-ray CCD是Andor公司重要的产品系列之一，配置了多种规格的芯片。根据待测的X-ray能量不同，分为直接探测和非直接探测两类产品。X-ray CCD可以按照实验装置的不同，安装在真空腔外面或内置于真空腔内部。在X-ray CCD的系统结构层面，可以基于常规的CCD芯片，也可以基于目前应用越来越广泛的EMCCD芯片，从而结合更多的技术优势于一身。

DO Cameras -- 真空腔外使用的X-ray CCD相机

Andor's "Open-Front End" or DO systems are designed to be coupled to the outside of a vacuum chamber and hence have no input window. There are two kinds of DO systems available: one makes a seal with a vacuum chamber using "knife-edge" sealing while the other utilizes O-ring seals.Most DO cameras come with a removable filter holder to enable ambient light to be blocked out, with an integrated pumping channel to allow vacuum access to the CCD enclosure during pumping.This camera utilizes both air and optional water cooling. A minimum temperature of down to -80°C is possible depending on the vacuum of the chamber achieved, the method of cooling (water or air) and whether an external power supply unit is used. Other types of flanges, including rotatable Conflat flanges, can be offered on request for selected models.Andor's DO cameras may be used, for example, with Grazing Incidence spectrographs that produce a flat field at the output plane, or for low incoming flux energy resolution applications

DX Cameras -- 真空腔内使用的X-ray CCD相机

Andor's "In Vacuum" or DX systems again have no input window and are designed to be positioned inside a vacuum chamber. The entire CCD, including the casing and electronics, are completely vacuum compatible.
The DX camera is connected to your PC via a cable inside the chamber that is attached to one end of a sealed vacuum feed-through (optional) in the wall of the chamber. Attached to the outside end of the feed-through is the standard 3m cable, which is connected to the Andor Controller Card in your PC as usual.DX cameras may be passively cooled inside the vacuum chamber. To facilitate this, a copper block on the side of the camera head can be coupled to other objects within the vacuum chamber. The cooling performance of the camera will depend on both the vacuum achieved in the chamber and the heat dissipation via the copper block. As with the DO cameras, the DX option has a removable filter holder with an integrated pumping channel. Andor's DX cameras may be used when it is necessary to position the sensor close to the sample under investigation.

DY Cameras -- 独立使用的X-ray CCD相机

Andor's DY cameras are "Stand Alone" systems, incorporate a beryllium input window to shield from visible photons, and are available both as direct and indirect models. A phosphor coated fiber optic is positioned over the CCD sensor in the indirect variant. This camera utilizes both air and optional water-cooling, and are either back-filled with dry gas or are pumpable. DY systems are available in standard or large area sensor formats.

DV Cameras -- VUV波段范围内使用的X-ray CCD相机，适用于120nm以上波段，Mg2F窗口

Andor's DV cameras are "stand-alone" Thermoelectric (TE) cooled vacuum CCDs, incorporating a Mg2F window, for direct detection across the VUV and XUV wavelength range to 120nm.

DH Cameras -- 带有光纤接口的常规X-ray CCD相机

Andor's DH fiber optic cameras are ideally suited to X-ray detection, and other applications requiring a fiber optic interface. While the –FO version is built around a front-illuminated interface, the –FB utilizes a back-illuminated sensor with broadband AR coating optimized for the visible region. Sensors are optimized to provide high sensitivity and high dynamic range, and are equally effective for both low and intense light conditions. A range of phosphor options are also available.

DF Cameras -- 带有光纤接口的X-ray EMCCD相机

Andor's DF fiber optic cameras have been designed primarily for scientific imaging at multi-MHz readout rates, and are available in large area sensor formats and as EMCCD format. They are ideally suited to X-ray imaging and other applications requiring a fibre optic interface, with de-magnifying tapers enabling large area detection.For example, Andor's DF836F-FO and DF836F-FB fiber optic cameras are designed primarily for scientific imaging with multi-MHz readout rates (up to 5 MHz). While the -FO version is built around a front-illuminated sensor, the -FB utilizes a back-illuminated sensor with broadband AR coating optimized for the visible region. The 2048 x 2048 array provides high resolution and dynamic range and is equally effective for both low and more intense light imaging. It is ideally suited to rapid X-Ray imaging (such as tomography) and other applications requiring a fiber optic interface. Thermoelectric cooling allows for operation below -35°C, minimizing dark current. A range of phosphor options are also available.

EMCCD Fiber-optic Camera - iXonEM+ DF897E-FB
-- 单光子探测的X-ray EMCCD相机

Andor's new iXonEM+ DF897E-FB camera uses Andor's pioneering and award-winning Electron Multiplying CCD (EMCCD) technology, offering single photon sensitivity and high sensor QE (> 90%) at 35 full frames/sec (faster with binning or sub-array), coupled to a phosphor coated fiber optic. EMCCD renders this camera ideal for coupling to large area de-magnifying fiber tapers, the raw sensor sensitivity compensating for extensive photon loss through the taper.