Beware of EMVA 1288 data!

EMVA 1288 dont be scaredMany camera manufacturers are now putting up EMVA 1288 data. This is test suite created by the European Machine Vision Association (EMVA) that give you the characteristics and performance of cameras, e.g. S/N ratio, noise, etc. , and there are specifications on how to run the tests.

Please note that there is a significant amount of variance allowed within the tests.  Each manufacturer has their own test setup, so comparing sensors or product lines from a specific manufacturer is very appropriate.

Comparing results between different manufacturers, especially looking at small details is NOT appropriate.  For instance, if Manufacturer A’s test has a 5% variance on what Manufacturer B’s test is on the same sensor, but the difference between the two manufacturers is 5%, there is no valid conclusion! The result is within the variance.  Do NOT get sucked into this comparison war.

The EMVA test produces a 30 page report for each specific camera test, testing is across multiple wavelengths, etc.  Results that are given in tabular format with one number for each camera are not really a good picture of the test results to compare across manufacturers.

If you want further details, please contact 1stVision.  We have conducted many comparison tests and can provide practical advice and discuss it in context of your application.

Contact us to talk to an expert!

Related Posts

What are the attributes to consider when selecting a camera and its performance

Teledyne Dalsa TurboDrive 2.0 breaks past GigE limits now with 6 levels of compression

Teledyne Dalsa Turbodrive

Teledyne Dalsa introduces TurboDrive 2.0 for their Genie Nanos

Dalsa Innovator awardWith the introduction of the Genie Nano came Turbodrive which allowed ‘faster GigE than GigE’ speeds. Turbodrive is a lossless hardware encoding scheme that potentially reduces the amount of data to be transmitted from the camera to the computer.  Dalsa’s Nanos, which are priced identical to the competition, offers the users the ability to go faster at no extra cost.  Note that the user can turn on or off the encoding.

However, the encoding scheme is data content dependent, and therefore if your data varies a lot within an image the compression is minimal.  If your data varies a lot from image to image, then using the encoding means that only certain frames will get a speedup resulting in an inconsistent data transfer rate.

Teledyne Dalsa Nano camera

Teledyne Dalsa has just recently introduced TurboDrive 2.0, a firmware upgrade for all Nanos. The major enhancement is that now TurboDrive offers multiple levels of encoding.  Level 0 is lossless, and each successive level has some potential lossy amount.

The table below indicates quality level,  image compression ratio (absolute worst case scenario)  and effective bandwidth gain

As you can see, at level 6, you have a worst case compression of 0.33, yet a speed up of 3.  Note, this is a worst case situation so you might get a speed up of 3x, yet be at 0.8.  The algorithm is data dependent!  (more about this in the tech primer)

Depending on the application, various compression levels provide minimal degradation.  The following images are shown for comparisons using the varying quality levels.

As you can see, even at level 4, there is very little degradation in the image.  It is easy to imagine that with this image, you can still do your image processing yet get a speed up of 68%!

Dalsa Nano Raw Image
Raw Image

Level 0 “Lossless” to Level 6 indicate the quality level in the images.

Dalsa Nano Turbodrive quality level comparisons
Quality level comparisons

Learn more by clicking the icon below for the comprehensive application note!

Teledyne Dalsa Turbodrive application note
To learn more about Teledyne Dalsa TurboDrive 2.0, please download the application note for full details.

1stVision has a ton of resources to learn about TurboDrive technology in general.  Please visit our dedicated Teledyne Dalsa Turbo Drive resource page HERE  

Contact 1st Vision

Related Blog posts:

How do you get the most pixels for your money? Check out the new Dalsa Nano C4900 camera!

Teledyne Dalsa Nano XL-M4090 cameras – 16MP cameras are now faster, cheaper and smaller!

Teledyne Dalsa Nano XL-M5100 cameras providing 25MP resolution for < $6K!

Allied Vision’s high-resolution Prosilica GT now with 12, 16 and 25MP ON Semi PYTHON sensors

Allied Vision GT camera

Allied Vision Cameras

Allied Vision extends its Prosilica GT Large Format camera platform with three high-resolution ON Semi PYTHON image sensors (Python 12K, Python 16K & Python 25K)

Combined with robust thermal housing designed to operate in extended temperature ranges and fluctuating lighting conditions, the new Prosilica GT Large Format cameras are ideal for high-definition imaging applications with demanding requirements of robustness and design-in flexibility. They provide a great option for high-quality imaging for anyone looking to switch over from existing CCD cameras to CMOS cameras with similar resolutions and optical formats.

Features include:

  • Extended temperature range (-20 deg. C to + 50 deg. C)
  • NIR sensitivity up to 1100nm
  • Modular concept providing various lens mounts (M58, M42, and EF-mount)
  • Fixed Pattern noise correction,  Defect Pixel Correction, and Trigger over Ethernet.

Prosilica GT5120, Prosilica GT4096, and Prosilica GT4090 at a glance

AVT GT specifications

See full specification for the series below:  

Prosilica GT5120,  5120 x 5120, 25MP

Prosilica GT4096, 4096 x 4096, 16MP
This is a great replacement for the KAI-16000 CCD sensors!

Prosilica GT4090, 4096 x 3092, 12MP

Now that you have a great high resolution camera, what lens works best?Kowa F-mount lens

High resolution cameras with the ON Semi Python sensors are great, but only as good as the lenses you use!  It is imperative to have the sensor sizes matched with the lens formats.  Additionally, we need to make sure the lens resolution is adequate for the image sensor pixel size.

To aid in the lens selection, we have the following recommendation on lens series.  Recommendations as follows

Prosilica GT5120,  5120 x 5120, 25MP:  This camera has a  32.58mm diagonal image sensor, so a F-mount lens is required.  Two options are Kowa and Schneider
KOWA – F mount series
Schneider – F mount series

Prosilica GT4096, 4096 x 4096, 16MP:  This camera has a 26.06mm diagonal image sensor, also requiring a F-mount lens.
 KOWA – F mount series
Schneider – F mount series

Prosilica GT4090, 4096 x 3092, 12MP :  This camera has a 23.09mm diagonal image sensor which falls into a 4/3″ format.
KOWA 4/3″ lens series

As a note, as the pixel size is 4.5um, this is not as demanding on the lens resolution and will only require 111 line pairs/mm (lp/mm) making these adequate selections. 

Need more help in understanding lens terminology and format sizes?  Here are some related links

1stVision has experienced engineers to help you develop and further understand the best camera and lens combination for your application.

Contact us to talk to an expert!

Sony has a great new 1.1” Image Sensor, but what kind of lens can I use with this format? Computar MPY Series!

Computar MPY Series Lenses
Computar MPY lens series

If you have been around industrial camera lenses for a while, you know that there are many ½” and 2/3” lenses, not as many 1” lenses, but what do you do when you have a 1.1” sensor?!   The solution?  Use the Computar MPY  12 Megapixel lenses!Contact us

If you have been following Sony’s new IMX image sensor product line, their newest sensors are based on a 3.65um pixel pitch.  However, when you scale this up to their new 12MP sensor (Sony Pregius IMX253, IMX304), the sensor size becomes 1.1” (17.6mm diagonal) format.  A 1” lens format will not cover this image circle and in turn has vignetting in your image  (Read our blog post on sensor size vs. lens size ) .

One possible solution is to use a 1” lens and vignette 5% on each side, or use a 1” lens and stop it down where the vignetting goes away.  However this is not an optimal solution.  A second solution is to use a F Mount lens, but if the camera is a C mount, you will need a C to F adapter, again less than ideal.

Fortunately there are some C mount lenses that are greater than a 1” image format.  Kowa and Schneider both have been shipping 4/3” format lenses, although these are quite expensive.  Recently, Computar has come out with a line of 1.1” format lenses SPECIFICALLY  for this sensor!

Key Features of the 1.1″ format, Computar MPY 12MP C-mount lenses

Computar 12MP MPY Series

Click here for full series specifications

1.1" Megapixel lenses - Computar MPY SeriesIndividual Specifications can be found via this link for the models below: 

8mm – V0828-MPY
12mm – 
V1228-MPY
16mm – 
V1628-MPY
25mm – 
V2528-MPY
35mm – 
V3528-MPY
50mm – V5028-MPY

1st Vision’s sales engineers specialize in industrial imaging and can help you in the lens selection.  Additionally, they can help ensure you have the best lens mated to the newer sensors to ensure the highest contrast.

Contact us to talk to an expert!