Our partner Oxford Instruments Andor

sCMOS cameras

Balor, Marana, Sona and ZL41 from Oxford Instruments Andor

The Balor, Marana, Sona, and ZL41 sCMOS cameras are an advancement of the well-known CMOS technology for scientific applications. Due to their special characteristics, they are suitable for many quantitative measurement problems in physics, astronomy and biology. As all Andor sCMOS cameras have extremely low noise and high sensitivity, they can often yield a better image than EMCCD cameras - even in low light conditions. Due to its vacuum enclosure, the sensors of the Marana, Sona and Balor can be cooled to industry-leading -40 °C and -30 °C, respectively, opening up possibilities for very demanding applications. Besides the typical use for imaging, the Marana and ZL41 sCMOS cameras are very suitable for high-speed spectroscopy, especially for multi-track and hyperspectral imaging.

Features
  • Extremely low read noise of 0.9 electrons (lower detection limit than any CCD camera)
  • Quantum efficiency up to 95%
  • Resolution 2.0, 4.2 and 5.5 megapixels with 6.5 µm and 11 µm pixels, respectively
  • Rapid frame rates of up to 101 frames/s sustained at full resolution
  • High Dynamic range up to 53,000 : 1

Further information

The Balor Marana, Sona and ZL41 sCMOS cameras offer high speed, high sensitivity, and high resolution imaging performance – all at once. They can be integrated easily into research applications.

In a vacuum cooled platform, loaded with FPGA intelligence, the Balor, Marana and Sona sCMOS cameras are designed to drive highest possible sensitivity from this exciting and innovative technology development. Unlike any CMOS or CCD technology to come before it, Balor, Marana, Sona and ZL41 simultaneously deliver highest specifications in sensitivity, resolution, speed, dynamic range and field-of-view: true scientific imaging without compromise.

Based on a new and unique 16.9 megapixel sensor, Balor is a revolutionary sCMOS camera especially for astronomy with a very large field of view and exceptionally fast 18.5 ms readout. Balor is capable of acquiring up to 54 frames per second at full resolution whilst maintaining a very low <3 electrons read noise. The 12 µm pixels offer large well depth and an on-chip multi-amplifier design means the whole photometric range, from the noise floor up to the saturation limit, can be captured with one image, ideal for quantifying across a range of intensities. The 16.9-megapixel sensor of the Balor with a size of 49.5 mm x 49.2 mm offers one of the largest field of view of any sCMOS cameras on the market.

Marana and Sona employ Back Illuminated sCMOS sensors with 4.2 or 2.0 megapixels and highest available quantum efficiency of 95 %. A UV-optimized sensor delivers best sensitivity from 250 nm to 400 nm.

The ZL41 is ideally suited for many experiments that push the boundaries of speed and sensitivity, offering sustained performance of up to 101 frames per second with CameraLink interface - even faster with sub-images - and read noise down to 0.9 electrons. The ZL41’s unique dark noise suppression technology ensures the low noise advantage is maintained over a wide range of exposure conditions. The 'plug and play' interface option offers industry leading USB 3.0 frame rate performance of up to 53 frames/s at 4.2-megapixel resolution. The unprecedented value and flexibility of the ZL41 means it is also re-defining the concept of a 'workhorse' camera, rapidly displacing interline CCD cameras.

Choice of Rolling and Global (snapshot) exposure mechanisms ensure maximum application flexibility for the ZL41 sCMOS cameras with the 5.5 megapixel sensor; the latter providing a 'freeze frame' capture capability that emulates that of an interline transfer CCD camera.

Specifications

Overview of key specifications:

 

Balor

Marana 4.2B-11

Marana 4.2B-6

Sona 4.2B-11

Sona 2.0B-11

Sona 4.2B-6

ZL41 Cell 5.5  

ZL41 Cell 4.2

Resolution

4128 x 4104 x 12 µm

2048 x 2048 x 11 µm

2048 x 2048 x 6.5 µm

2048 x 2048 x 11 µm

1400 x 1400 x 11 µm

2048 x 2048 x 6.5 µm

2560 x 2160 x 6.5 µm

2048 x 2048 x 6.5 µm

Sensor Diagonal 70 mm 31.9. mm

18.8 mm

31.9 mm 21.8 mm 18.8 mm

21.8 mm

18.8 mm

Quantum Efficiency

61 %

95%

94 %

95%

95%

94 %

64%

82%

Read Noise

2.9 e-

1.6 e-

1.1 e-

1.6 e-

1.6 e-

1.2 e-

0.9 e-

0.9 e-

Sensor Temperature

-30 °C

-45 °C

-45 °C

-45 °C

-45 °C

-45 °C

0° C or -10 °C

-10 °C / 0° C

Dark Current

0.065 e-/pixel/s

0.3 e-/pixel/s

0.1 e-/pixel/s

0.3 e-/pixel/s

0.3 e-/pixel/s

0.1 e-/pixel/s

0.1 or 0.019 e-/pixel/s

0.1 or 0.019 e-/pixel/s

Cooling

air and water or water only

air and water

air and water

air and water

air and water

air and water

air or water

air or water

Dynamic Range

27,586 : 1

53,000 : 1

36,667 : 1

53,000 : 1

53,000 : 1

34,000 : 1

33,000 : 1

33,000 : 1

Linearity

>99.7 %

>99.7 %

>99.7 %

>99.7 %

>99.7 %

>99.7 %

>99.8 %

>99.8 %

PRNU (Photon Response Non-Uniformity)

<0.5 %

<0.5 %

<0.5 %

<0.5 %

<0.5 %

<0.5 %

<0.01 %

<0.01 %

Shutter

Rolling and Global

Rolling

Rolling

Rolling

Rolling

Rolling

Rolling and Global

Rolling

Interface

CoaXPress (4 lane CXP-6)

USB 3.0

USB 3.0 / CoaXPress

USB 3.0

USB 3.0

USB 3.0 / CoaXPress

USB 3.0 or 10-tap CameraLink

USB 3.0 or 10-tap CameraLink

Full Frame Rate

54

48

43 / 74

48

70

43 / 74

40 or 100

53 or 101

Videos about key specifications and typical applications.

pdf
ZL41_Cell_sCMOS.pdf
6.02 MB
ZL41 Cell for biological science
pdf
ZL41_Wave_sCMOS.pdf
1.60 MB
ZL41 Wave for physical science
pdf
Marana_sCMOS.pdf
7.20 MB
Marana for physical sciences
pdf
Sona.pdf
7.09 MB
Sona for biological sciences

Applications

Fluorescence microscopy
Imaging with scintillation screens
Plasma- and fusion research
Astronomy
Quantum physics
Particle image velocimetry (PIV) and particle tracking velocimetry (PTV)
Spectroscopy

Downloads

UltraVac permanent vacuum head and performance longevitiy
Software for cameras and spectropgraphs
Camera windows
Optical etaloning
Binning and frame rates
Cameras for astronomy
Scientific CMOS
Liquid cooling system EXT-440
Remote camera server

Videos

Balor: key specifications and typical applications
Marana: key specifications and typical applications
Sona: key specifications and typical applications
Remote Camera Server Online Seminar
Webinar Scientific Cameras Part 1
Webinar Scientific Cameras Part 2
Andors Cameras for Observational Astronomy Technical Aspects and Applications
Webinar sCMOS Cameras
sCMOS Observations at SwissOGS

Reference customers

Title Author(s) Institute Year Spectrograph/
Detector
Microsopy
Microscopy of LEDs and phosphors in practical exercises for students S. Bock,
D. Berben
Department of Electrical Engineering and Information Technology,
South Westphalia University of Applied Sciences, Hagen, Germany
2017 Neo-5.5-CL3
Fluorescence microscopy of semiconductor nanowire arrays S. Rahimzadeh-Kalaleh Rodriguez1,
D. van Dam2,
J. Gomez Rivas1,2
1Surface Photonics, AMOLF, c/o Philips Research Laboratories, Eindhoven, The Netherlands
2COBRA Research Institute, Eindhoven University of Technology, The Netherlands
2014

Neo DC152 QC-FI1

Detection of electrochemically generated peroxide and superoxide by fluorescence microscopy C. Dosche,
S. Dongmo
Institute of Chemistry, University of Oldenburg, Germany 2013

Neo DC152 QC-FI1

Imaging with scintillation screens
Phase transitions in 1T-TaS2 mapped by ultrafast LEED S. Vogelgesang, G. Storeck,
S. Schäfer,
C. Ropers
IV. Physical Institute, Georg-August-University, Göttingen, Germany 2017 Zyla-5.5-CL10
Application of the sCMOS camera Andor Neo for X-ray and neutron imaging N. Kardjilov1,
S. Williams1,2,
F. Wieder1,
A. Hilger1,
I. Manke1
1Helmholtz-Zentrum-Berlin, Berlin, Germany
2Johns Hopkins University, Baltimore, USA
2014

Neo DC152-QF-FI3

Polarization dependent photoelectron emission with high lateral resolution T. Wagner Institute of Experimental Physics, University of Linz, Austria 2012

Neo DC152-QC-FI1

Plasma- and fusion research
Evaluation of the Zyla sCMOS imaging camera for IMSE diagnostic O. P. Ford,
C. Biedermann
Wendelstein 7-X, Max Planck Institute for Plasma Physics, Greifswald, Germany 2014

Zyla-5.5-CL10

Measuring ion temperatures and helium densities in the hot core of a nuclear fusion reactor using sCMOS and EMCCD cameras R. J. E. Jaspers Department of Applied Physics, Eindhoven University of Technology, The Netherlands 2014

Neo DC152 QC-FI1
iXon DU888 DC-EX

Real-time characterization of plasma evolution by diffraction imaging N. K. Rothe,
A. V. Svanidze,
C. Schuster,
M. Lütgens,
S. Lochbrunner
Institute of Physics, University of Rostock, Germany 2013

Neo DC152 QC-FI1

Astronomy
High-speed imaging and its applications:
Beating down the scintillation noise
P. Ioannidis, J.H.M.M. Schmitt Hamburg Observatory, Physics Department,
University of Hamburg, Germany
2017 Zyla-4.2-CL10
Neo-5.5-CL3
Active optical debris detection: Highly accurate position determination of space debris orbits W. Riede,
D. Hampf,
P. Wagner,
L. Humbert,
F. Sproll,
A. Giesen,
Institute of Technical Physics, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Stuttgart, Germany 2016

Zyla-5.5-CL10
 

Quantum physics
Real- and momentum-space imaging of plasmonic waveguide arrays F. Bleckmann, S. Linden Physikalisches Institut,
Rheinische Friedrich-Wilhelms-Universität Bonn, Germany
2016 Zyla-5.5-USB3
Particle image velocimetry (PIV) and particle tracking velocimetry (PTV)
Redesign of a 3D PTV system with ANDOR’s Neo sCMOS P. Steinhoff,
M. Schmidt,
D. Müller
E.ON Energy Research Center, Institute for Energy Efficient Buildings and Indoor Climate (EBC), RWTH Aachen University, Germany 2013

Neo DC152 QFR-FI2

Spectroscopy
Photoluminescence spectroscopy of metal nanoantennas
coupled to the atomically thin semiconductor WS2
J. Kern, R. Bratschitsch Institute of Physics and Center for Nanotechnology, University of Münster, Germany 2015

Neo-5.5-CL3
Shamrock SR-303i-B-SIL

Using a surface-forces-apparatus to measure force-distance profiles across confined ionic liquids T. Utzig,
H.-W. Cheng,
M. Valtiner
Department of Interface Chemistry and Surface Engineering, Max-Planck-Institut für Eisenforschung, Düsseldorf, Germany 2014

Zyla-5.5-CL3
Shamrock SR-500i-B2-SIL

Remarks:
1New part number of DC152 QC-FI: Neo-5.5-CL3
2Neo DC152 QFR-FI replaced by Neo-5.5-CL3-F
3New part number of DC152 QF-Fi: Neo-5.5-CL3-F

Contact

Julien Dumouchel
Julien Dumouchel

Contact

Quantum Design AG

Route du Roule 41
CH-1723 Marly
Switzerland

Phone:+41 21 8699-033
E-Mail:suisse@qd-europe.com
Julien DumouchelSales Manager
+41 21 8699033
Write e-mail