QSI RS 6.1
QSI RS 6.1 6.1mp Cooled CCD Camera
The QSI RS 6.1 model camera employs an 6.1mp Sony CCD image sensor. This new generation of Sony sensor offers remarkable sensitivity with peak QE of over 75%. The high sensitivity, wide dynamic range, dual read rates, low noise performance and internal 5 or 8-position color filter wheels make the QSI RS 6.1 ideally suited to a broad range of demanding scientific, medical, astronomical, and industrial imaging applications.
The RS 6.1 can be configured for applications from the visual band into the NIR from 350nm up to 1100nm. Electronic input and output triggers with latency as low as 5µsec allow precise exposure timing and triggering of external events such as strobes. The RS 6.1 also supports Particle Image Velocimetry (PIV) exposure mode for flow visualization with two exposures as close together as 100µsec.
Cooling on the RS Series is achieved with a custom 2-stage TEC supporting regulated cooling to >40C below ambient, or greater than 45C with the optional Liquid Heat Exchanger.
The RS 6.1 camera system is supported by industry leading astronomy and microscopy image acquisition software plus a full camera control API is available for creating custom Windows or Linux applications.
- High Performance CCD Image Sensor
- Leading Edge Technical Performance
- Refined Design
- CCD Cooler Subsystem
- Two Shutters and a Filter Wheel
- Connectivity and Notification
- Extensive Software Support
The 2758×2208 sensor in the QSI RS 6.1, provides extremely high resolution with its 4.54µm pixel.
The compact design and internal color filter wheel of the QSI RS 6.1ws allows unvignetted, filtered images even with very fast optical systems.
The QSI RS 6.1 camera employs a Sony ICX694 6.1 megapixel interline transfer CCD image sensor with microlens technology. The
Sony ExView sensor has exceptional sensitivity across the visual band with peak quantum efficiency of 77% along with remarkably low dark current. The sensor has antiblooming protection and a fast electronic shutter. Micro lenses cover the surface of the CCD to focus the light into each 4.54µm pixel to increase optical response. See the Specifications tab below for additional details.
High Performance Design
Two separate analog processing chains, providing dual read rates, allow the QSI RS Series to meet two seemingly incompatible imaging goals. The QSI RS Series High Quality mode provides the highest possible Signal to Noise Ratio (SNR) for applications that require the lowest noise and widest possible dynamic range. High Speed mode has a read rate of 8MHz providing high speed reads at multiple frames per second. The read mode is easily changed under program control providing exceptional flexibility it tuning the camera’s performance to the desired imaging goals.
- All significant performance characteristics, including Linearity,Read Noise, and Photon Transfer (Gain), are tested and confirmed during manufacture. Each camera’s timing and voltages are carefully set during manufacture to ensure maximum Charge Transfer Efficiency, and to minimize charge injection and other secondary noise sources. QSI’s exclusiveResearchSpec® profiling ensures optimal performance in every camera.
- Sophisticated mixed-signal design practices are utilized throughout the camera. This permits a very compact design while eliminating interference from conducted and radiated noise. ROHS compliant multi-layer circuit boards and surface-mount components are used exclusively. A unique circuit board stacking methodology eliminates interconnecting wires that could reduce reliability.
- A carefully designed and isolated switching power supply generates all of the voltages needed to operate the camera from a single 12VDC power source. Low noise design practices and advanced filtering techniques completely eliminate any measurable impact on camera noise performance.
- Arguably, the most important aspect of a CCD camera design is the video processing subsystem. This is where almost all of the camera’s performance characteristics are established. The RS Series video processing begins with a very low noise, precision preamp to accurately amplify the microvolt level pixel signal from the CCD image sensor. This signal is then processed through a Correlated Double Sampler (CDS) to reduce temporal read noise in the pixel signal. Subsequent signal conditioning then feeds the pixel level to a high-speed, precision 16 bit Analog to Digital Converter (ADC) where it is converted to a digital value between 0 and 65535.The Read Noise contributed by this entire subsystem is exceedingly small. So small in fact, that it is virtually undetectable, contributing less than 1/30 of the combined read noise of a typical image sensor. The low read noise and carefully chosen camera gain yield excellent Dynamic Range. Linearityis also outstanding, limited only by the CCD image sensor itself.
|Small enough to practically hide behind a CD-ROM, the medium format QSI RS Series family sets new standards for full-featured, high performance scientific CCD cameras. The striking appearance, refined design and superior fit and finish only hint at the advanced technical performance lurking inside. Some have described it as a work of art.|
|A defining feature of the RS Series is the flexible design that permits three progressively configured body styles with a minimal impact on overall size. The relative sizes of the three body configurations, Slim, Medium, and Full, can be seen in the image to the right. A camera’s body size depends on the internal features installed. The Slim body is the thinnest version and can be used with CCDs incorporating an electronic shutter. The Medium body provides addition space for an internal mechanical shutter. The Full body allows the installation of both the shutter and a five position filter wheel with interchangeable filters.Engineered with extensive use of sophisticated CAD-CAM design tools, the QSI RS Series is CNC machined from aircraft grade aluminum alloy. The finely finished anodized body components are assembled with corrosion resistant stainless steel hardware throughout.|
Small, Light-Weight and Thin
|The RS Series is designed to support image sensors with a maximum diagonal measurement of 22.5mm. For this class of camera they are surprisingly compact. At just 4.45″ square, the Slim body camera is just 1.68″ deep, occupying less than 30 cubic inches and weighing in at under 26 ounces. Even a Full body camera with shutter and color filter wheel is only 2.5″ deep and a mere 40 ounces. In fact, the small footprint is the practical limit for a camera with a 5 position filter wheel using standard 1.25″ threaded or 31mm unmounted filters.|
|Keeping the depth of the camera to a minimum was an early design goal. Not only is backfocus minimized, but the camera moment-arm is reduced resulting in greater stability. The shutter and filter wheel were placed inside the body, very close to the image sensor reducing backfocus and overall depth. The motion control electronics are actually buried in the 0.12″ thick shutter/filter mounting plate to reduce depth further. Pulling the cooling fans and heatsinks into the body resulted in another significant reduction in depth. Finally, having all electrical cables and the optional liquid heat exchanger recirculation hoses exit the body in the same direction and perpendicular to the optical axis insured an interference-free fit in tight spaces.|
Key in the compact design of the RS Series cameras is a very efficient custom 2-stage thermoelectric cooler (TEC) subsystem. Intelligent, programmable cooling fans are integrated into the rear of the camera body to remove the heat generated by the cooler. Typically, forced air cooling lowers the regulated CCD temperature by up to 40°C below ambient utilizing 85% power. Tight +/- 0.1°C temperature regulation is maintained at temperature settings of 10°C below ambient and lower. A slim liquid heat exchanger (shown at right) can be attached to the rear of the camera body to increase the cooling further, up to 45°C below the temperature of the circulating fluid.
The cooled CCD image sensor is positioned in a hermetically sealed environmental chamber covered with an anti-reflection coated precision optical window. The chamber is purged with an ultra dry noble gas to increase heat conduction and eliminate the possibility of frost forming inside the chamber. To extend the useful period before re-purging is required, a user-rechargeable microsieve desiccant is employed to scavenge water molecules that enter the chamber. It is located behind a sub-micron, gas-permeable membrane to prevent particulate contamination of the CCD chamber.
Cooling and Dark Current
Effective cooling of the CCD image sensor is essential for long exposure imaging, especially in astronomy. Thermally generated electrons accumulate in the pixels over time and compete with the photo-electrons that make up the image. This accumulation of thermal electrons is known as ‘dark current’. It lowers the dynamic range of the sensor and reduces the signal to noise ratio. Eventually the thermally generated electrons will swamp the image.
Fortunately, dark current can be reduced dramatically by cooling the CCD. Sony ExView CCD sensors accumulate thermal electrons at a rate of roughly 0.002 electrons per second per pixel at -10°C. Where a 10 minute exposure might generate 2000 thermal electrons at 25°C, it will produce only about 1 at -25°C, making noise from thermal current insignificant even on very long exposures.
The QSI RS 6.1 utilizes the electronic shutter built into the Sony ICX694 CCD image sensor to control exposures. Shutter timing is very precise and can range from as short as 100 microseconds up to 240 minutes. The very fast acting shutter is possible due to two key features of the interline transfer architecture.
- Any existing electrons can be removed from the pixels instantly with a single electronic pulse, beginning the exposure.
- After the specified exposure duration, the entire image field can be instantaneously moved into a light-shielded holding area on the CCD. The image is then read out at the normal rate without being contaminated by any light still illuminating the CCD surface.
The Model RS 6.1s model incorporates the optional internal, even-illumination mechanical shutter in the ‘mid-size’ camera body configuration. When operating with an interline transfer CCD, the mechanical shutter is not used to actually make the exposure. This is still the responsibility of the electronic shutter. The mechanical shutter is employed to cover the CCD and simplify the creation of Dark and Bias frames for subsequent image processing.
The Model RS 6.1ws adds an internal five position filter wheel to the camera in a ‘full-size’ camera body. The RS 6.1ws-8 incorporates a larger 8-position filter wheel. Even with the large 4mp sensor, the short backfocus and close spacing provided by the internal color filter wheel allows the RS 6.1ws or ws-8 to work even with optics faster than f/2.8 with no vignetting. The filter wheel accepts any standard threaded 1.25″ or unmounted 31mm filters.
The filter wheel can be easily removed and replaced to change or clean the glass filters. Additional filter wheels can be purchased allowing quick interchange of different filter set configurations.
The connector panel, shown above, is thoughtfully recessed into the body of the camera for protection and provides access for all external connections. The two threaded holes on the back of the body are used to attach an optional cable restraint system to support the electrical connections as well as the recirculation hoses if the liquid heat exchanger is employed.
All QSI RS Series cameras utilize High Speed USB 2.0 port (USB 1.1 compatible) for connection to the host computer and imaging application software.
A four channel optically isolated control port is accessible through a standard 6 pin modular connector. Two of the signals are used to control the input and output shutter triggers. Utilizing the hardware input trigger through the control port, exposures can be fired within 10μs.
For telescope guiding the signal pin-out is compatible with most modern telescope mount drive correctors. The outputs can also be used for other control purposes when developing your own applications with the RS Series ActiveX software development toolkit. The outputs are common emitter, open-collector and can sink up to 50ma. The maximum voltage should not exceed 50v.
One of the defining features of the RS Series cameras is power efficiency. A fully configured 640ws camera operates from a single 12v DC supply and consumes less than 24 watts at full cooling, with both fans at maximum and the filter wheel moving. Other camera model configurations have power consumption as low as 5 watts. Included with each camera is an approved 12 volt DC power supply with an input voltage range of 90-240V, 50-60HZ.
Both visual and audible notification is built into all RS Series cameras. A multi-color LED status display provides visual indication of the various states of camera operation. The behavior of the indicator is configurable and can be disabled by user command. A unique internal beeper provides audible feedback of camera operation and status. Like the visual display, the beeper can be configured and disabled by the user.
Comprehensive Software Support
Every RS Series camera is accompanied by a collection of software drivers and applications plug-ins that allow you to begin imaging immediately with third party applications or develop custom camera control applications to precisely match your requirements.
QSI provides plug-ins for 32 and 64-bit versions of Micro-Manager. µManager is software for control of microscopes. It works with almost all microscopes, and peripherals on the market, and provides an easy to use interface that lets you run your microscopy-based experiments. Together with ImageJ, μManager provides a comprehensive, widely supported, open source, freely available image acquistion and processing solution.
μManager has a simple and clean user interface which allows you to execute common microscope image acquisition strategies such as time-lapses, multi-channel imaging, z-stacks, and combinations thereof. μManager works with microscopes from all four major manufacturers (Leica, Nikon, Olympus and Zeiss), a wide range of scientific cameras and many peripherals used in microscope imaging, such as stages, filter wheels, shutters, etc.
Using the Windows COM API with LabVIEW, MATLAB and other applications
The QSI camera control Windows API is an automation component that communicates with the camera device driver and exports a COM automation interface. The COM automation interface allows custom camera control applications to be developed for use with National Instruments LabVIEW, MathWorks MATLAB and any other application that adhere to the Windows COM interface. The API is distributed on the QSI Installation CD and is included with the QSI USB Drivers and Software installer above. The API Reference Manual can be downloaded from the documentation page. QSI has sample VI’s for LabVIEW that can be used as a starting point to develop custom LabVIEW applications. Please contact QSI Supportfor details.
View complete details on the Software page>
Windows Custom Application Development
QSI provides an ASCOM-compatible API (Application Programming Interface) enabling customers to write their own custom camera control applications. The camera control API is an automation component that communicates with the camera device driver and exports a COM automation interface. COM automation provides an interface which Microsoft Office, VB, VBA, C++, and other Windows applications can use to control the camera. The API is available as part of the QSI Software Development Kit (SDK), available for download from the QSI website.
Linux Custom Application Development
QSI provides a camera control C++ API for Linux users on Intel x86-compatible platforms. The API provides full camera control and image capture capabilities via the USB interface. The API is implemented as a shared library providing an easy to use camera object that exposes all of the features and capabilities of the camera. It is well suited for both simple scripting, and more sophisticated imaging application development.
MaxIm LE and MaxIm DL
MaxIm LE is based on the award winning MaxIm DL version 4.5 from Diffraction Limited providing the fastest and easiest way to image the night sky. All QSI RS Series cameras are supported for imaging and auto-guiding, plus most popular guider cameras are supported as well. MaxIm LE is available with any RS Series camera. You can upgrade to MaxIm DL/CCD for an attractive price at the time of purchase.
Field Upgradeable Firmware
All RS Series cameras can be upgraded to the latest firmware in the field. The latest firmware is always available for download from the QSI Software page. QSI supplies a simple fail-safe Updater application that handles all the details.
|Model RS 6.1 CCD Image Sensor Specifications
|CCD Manufacturer & Model||Sony ICX694|
|CCD Architecture||Interline Transfer|
|Anti-blooming||Yes – 800x suppression|
|Imager Size: (WxH)||12.48mm x 9.98mm|
|Pixel Array (WxH):||2758 x 2208 active (6.1 megapixels)|
|Pixel Size:||4.54µm x 4.54µm|
|Pixel Full Well Depth||19,000 e-|
|Absolute Quantum Efficiency||Peak: 77% at 560nm|
|Pixel Dark Current||<0.002 electrons per second at -10°C|
|Intrinsic Read Noise||3.1 electrons RMS|
Model RS 6.1 Camera Specifications (See additional 640wsg(-8) specifications below)
|Feature||Model RS 6.1i||Model RS 6.1s||Model RS 6.1ws(-8)|
|CCD Image Sensor||Sony ICX694|
|Electronic Shutter||100µsec to 240 minutes||100µsec to 240 minutes||100µsec to 240 minutes|
|Internal Color Filter Wheel||No||No||ws – 5-Position CFW
ws-8 – 8-position CFW
Holds 1.25″ or opt. 31mm filters
|Camera Body Configuration||Slim
|Dimensions||W4.45” x H4.45” x D1.68”
(add 0.225″ for T-Mount)
|W4.45” x H4.45” x D2.00”
(add 0.225″ for T-Mount)
|5-pos, W4.45” x H4.45” x D2.50”
8-pos, W5.86” x H5.56” x D2.50”
(add 0.225″ for T-Mount)
|Weight, without Nosepiece||26 oz. / 740g||34 oz. / 950g||5-pos, 40 oz. / 1130g
8-pos, 51 oz. / 1450g
|Optical Back Focus
(w/o Filters in path)
|0.58″ w/ T-mount adapter
0.68″ w/ C-mount adapter
0.35″ w/ no adapter
|0.90″ w/ T-mount adapter
0.68″ w/ C-mount adapter
0.68″ w/ no adapter
|1.40″ w/ T-mount adapter
1.18″ w/ C-mount adapter
1.18″ w/ no adapter
|Thermoelectric CCD Cooling||Temperature regulation +/- 0.1°C, @ 0°C to -40°C CCD temperature|
|In free air,
Fans @ Full Speed
|Typically 40°C below ambient air with 85% cooling power|
|With Opt Liquid Cooling – Fans Off||Typically 45°C below circulating liquid with 85% cooling power
(adds 0.75″ to camera depth)
|Cooling Fan Control||Intelligent, user configurable|
|Read Rate||User Selectable High Quality mode at 800KHz, High Speed mode at 8MHz|
|Camera Gain||User Selectable High Gain 0.17 e-/ADU (default), Low Gain 0.40 e-/ADU|
|Digital Resolution||16 bits (both High Quality and High Speed mode)|
|Total System Read Noise||3 electrons RMS typical in High Quality mode
7 electrons RMS typical in High Speed mode
|Pixel Dark Current||<0.002 electrons per second at -10°C|
|Full Image Read and Download Time||Typically <9 second (host computer dependent) in High Quality Mode (800KHz)
Typically ~1 second (host computer dependent) in High Speed Mode (8MHz)
Image download times will be reduced with binning and/or subframe (ROI)
|Binning Modes||Symmetrical and Asymmetrical binning up to 9 pixels horizonally or vertically|
|Status and Notification||User configurable multi-color LED status indicator and multifunction
audible beeper. Over-temperature and high/low voltage alarms.
|Power Consumption||12v, 2A (24 watts) at max cooling, max fans and filter moving
(25 AC watts max with included 90-240V AC power supply)
|Operating Environment||Temperature: -20°C to 30°C, Humidity: 10% to 90% non-condensing|
|Computer Connectivity||USB 2.0 High Speed (USB 1.1 compatible)|
|Other Ports||Optically isolated 4 channel control port with low latency input and output shutter triggers (See API Reference Manual for details)|
|T Mounting Adapter||Standard – T-Thread, 42mm x .75mm pitch|
|C Mounting Adapter
(1″ x 32TPI)
(Not recommeded for 540i)
|Optional, C-Mount (Type I) lens focus compatible
|Optional, C-Mount (Type II) lens focus compatible
|Optional, for non-lens adapters and accessories
(standard C-Mount lens does not reach focus at infinity)
|Nosepiece||Standard, T-Adapter to 2″ nosepiece
Optional, T-Adapter to 1.25″ nosepiece