Do I need cables designed for machine vision?

Do I really need cables designed specifically for machine vision? As a distributor of machine vision cameras, lenses, camera systems, cables, and accessories, we hear this question many times a day. Why does your GigE or USB3 cable cost so much?  I can just buy a cable online from Amazon, Ebay, etc. for $5 when yours costs $25 or more!

The answer is: You can…  sometimes… but it depends upon many things, and how critical those things are to your application. 

Here are 5 key variables you need to consider in a camera cable selection

  1. Distance from camera to computer
  2. Data rate in which the camera is transmitting  
  3. Importance of reliability of application 
  4. Structural integrity of connection at camera and computer
  5. Total cost of your process and / or down time

From many years of diagnosing industrial imaging problems, especially after incorrect software setup, BAD CABLES ARE NEXT ON THE LIST FOR  “MY CAMERA DOESN’T WORK” problems!! (Inadequate lighting or sub-optimal lensing also come up, but those are topics for another day.)

Distance, the killing factor!  If you were to look at a “bode plot” of the signal transmitting from the camera to the computer you would see dramatic attenuation of the signal vs. distance, and also versus the data rate. In fact, at the distance limits, you might wonder if it actually works as the signal is so low! 

GigE is rated at 100 meters, however, the signal does degrade quite a bit, so cable quality and data rate will be the determining factors.  USB3 does not have a real specification and it is difficult to find consumer grade cables greater than 2 meters in length. In fact, we have experienced poor results with consumer cables greater than 1 meter in length!

Click here for all USB3 Industrial camera cables

Click here for all GigE Industrial camera cables

What are the differences between ‘Industrial’ and ‘’consumer’ cables?  

8 differences are listed below: 

Assorted machine vision cables
  1. Industrial cables are tested to a specification for each cable.  There are no batch to batch differences. 
  2. That specification usually meets organization requirements such as IEEE or Automated Imaging Association (AIA) standards
  3. Industrial cables give you consistency from a single manufacturer (when buying online, you are not always sure you are getting the same cable)
  4. Industrial cables have over-molded connectors
  5. Industrial cables have screw locks on the ends
  6. Industrial cables are usually made with larger gauge wire
  7. Industrial cables typically specify bend radius
  8. Industrial cables are made with flex requirements (bend cycles they can meet)

When should we consider using an “Industrial cable”?  Here are a few examples to consider:

Example 1: In a research lab, using a microscope 1 meter from the computer running low data rates, non automated.

Distance is small, data rate is low, chance of someone pulling on the cable is low, and if the data doesn’t get delivered, you can re-acquire the image. There is no big need for a special cable and can buy it off the internet.

Example 1a: Let’s change some of these parameters, now assuming you are not in lab, but the microscope is in an OEM instrument being shipped all over the world

If the system fails because you went with an unspecified cable, what is the cost of sending someone to fix this system 3000 miles away? In this situation, even though the distance is small, and the data rate is low, the consequences of a cable failure are very high!

Example 2: GigE cameras running at close to the full bandwidth. If you don’t need screw lock connectors, and the distance is not too great (< 10 or 20 meters), 

You can probably get by with ‘higher quality’ consumer cables. At distances greater than 20 meters, if you care about system reliability, you will definitely want industrial cables.  

Example 3. Two to Four GigE cameras running at close to full bandwidth in a system.

If you need system repeatability, or anything close to determinism, you will need industrial cables. On the other hand, if you your application is not sensitive to packet re-sends, a consumer cable should work at under 20 meters

Example 4. GigE cameras in an instrument.  Regular GigE cables are just locked into the RJ45 with a plastic tab. 

If your product is being shipped, you can’t rely on this not to break. You want an industrial cable with screw locks.

Example 5. GigE cameras in a lab. 

Save the money and use a consumer cable!

Key takeaways:

  • If you running USB3 cables at distances more than 2 meters, DO NOT use consumer cables.
  • If you are running multiple cameras at high speeds, DO NOT use consumer cables.  
  • Obviously, if you need to make sure your cables stay connected, and need lock downs on the connectors, you cannot use consumer cables. 
  • If you are running low speed , short distance, and you can afford to re-transmit your data, consumer cables might be just fine.
Contact us for a quote

Below are additional remarks provided by our cable manufacturing partner Components Express Inc., that help to support the above conclusions. It’s good reading for those who want to understand the value-added processes used to produce specialized cables.

  • Families of connectors for vision systems include right-angle options to address commonly found space constraints and/or avoid overstressing the cable strain relief. Generic cables are typically “straight on” only.
  • The test process for machine vision cables go beyond routing hi-pot testing to include the electrical testing that ensures conformance with the latest and most stringent machine vision performance standards. Machine vision configurators – using customer application parameters – prevent mis-applying a cable that won’t meet the performance requirements.
Screenshot for GigE cable configurator; also available for USB and other types
  • Machine vision cable families cater to de-facto standards. For example, pin-outs vary by ring lighting makers for the same 5-pin connector. So it’s more labor and cost-intensive to support the permutations of pin-outs across diverse camera and lighting manufacturers.
  • The IP67 versions of standard electrical interfaces can vary by camera body. Machine vision cameras have different part numbers for specific camera bodies. For example, a screw lock Ethernet cable might damage the camera body of another maker if the mold-to-connector nose distance varies.
  • Machine vision y-cables are a unique breed and typically bought in small quantities. Pin-outs are higher and the semi-standard interfaces are different.

1st Vision’s sales engineers have over 100 years of combined experience to assist in your camera and components selection.  With a large portfolio of lensescablesNIC card and industrial computers, we can provide a full vision solution!

SVS-Vistek HR + SHR cameras: high resolution and speed

SVS-Vistek HR and SHR camera series

Some applications demand high resolution from 16MP or up to 151MP. Thanks to dual and 10GigE interfaces, Camera Link, and CoaXPress, getting image data from the camera to the computer can be accomplished at speeds matched to application requirements, using camera series HR and SHR from SVS-Vistek.

What kind of applications require such resolution? Detail-demanding manufacturing inspection, geo mapping, life science, film industry and other applications require, or benefit from, a high resolution image delivered from the camera directly to the PC. Prior to the convergence of high-resolution sensors and high-speed interfaces, one might have needed multiple smaller-resolution cameras to capture the entire field of view – but with complex optical alignment and image-stitching (in software) to piece together the desired image.

The HR series offers resolutions from 16 – 120MP. The SHR series ranges from 47 – 151MP. While every machine vision camera offers various features designed to enhance ease-of-use or applications outcomes, here are some particular features we highlight from one or both of the HR or SHR series:

  • Minimal 128 MB internal image memory, burst mode – capture sequences rapidly on the camera and transfer them to the computer before the next event
  • LED controller for continuous & strobe built into camera – avoids the need to purchase and integrate a separate controller
  • Programmable logic functions , sequencers and timers – critical for certain applications where programmed capture sequences can be pre-loaded on the camera
  • RS-232 serial data to control exposure, lights or lenses
  • Long exposure times up to 60 seconds (camera model dependent) – useful for low-light applications such as those sometimes found in life sciences or astrophysics
  • Camera Link, CoaXPress and 10GigE interface options (varies by model)

For pricing on the HR / HSR Series, follow the family links below to the series table, then click on “Get quote” for a specific model of interest. Or just call us at 978-474-0044 to discuss your application and let us guide you to the best fit.

SVS-Vistek HR series

SVS-Vistek SHR series

The HR series uses a range of CCD and CMOS sensors from CANON, Sony and ON Semi. The SDR series use both CCDs from ON Semi and  CMOS sensors from Sony. The same sensor choices and feature sets are offered across several popular machine vision interfaces, permitting users to tailor their own need for speed to specific application requirements. SVS-VISTEK engineering and manufacturing precision mounts these high-resolution sensors, which allows users to have distortion free, high quality, high content images.

SVS-Vistek shr661 – 127 megapixel camera

At the time of writing, note the newest member of the SHR series, the shr661. At 127 megapixels this CMOS sensor camera has remarkably high resolution with a global shutter. With the IMX661 sensor from the Sony Pregius series, the backlight technology enables very high light sensitivity and above-average noise behavior. This enables an image quality with which even the finest structures can be resolved. The shr661 is one of the most powerful industrial cameras on the market. 

Those familiar with high-resolution sensors may know about dual and quad-tap sensors, whereby higher frame rates may be achieved with electronics permitting two or more sections of the sensor’s pixel values to be read out in parallel. A traditional challenge to that approach has been for camera manufacturers to match or balance the taps so that no discernable boundary line is visible in the composite stitched image. SVS-Vistek is an industry leader with their proprietary algorithm for multi-tap image stitching.

1st Vision’s sales engineers have over 100 years of combined experience to assist in your camera and components selection.  With a large portfolio of lensescablesNIC card and industrial computers, we can provide a full vision solution!

45 Megapixel Computar MPT lens series

Computar MPT series 45 MP lenses

The Computar MPT Series is a compact 45MP, 1.4″ C-Mount Lens Series engineered to optimize the capabilities of the latest industrial CMOS sensors. The 1.4″ Ultra-high resolution Machine Vision Lenses are ultra-low distortion in a compact design available in fixed focal lengths: 12mm, 16mm, 25mm, 35mm, and 50mm. C-Mount for large format sensor.

Computar MPT 45MP C-Mount series

Designed for up to 1.4″ sensors with densely-packed pixels, as compact C-Mount lenses one achieves a more compact overall design, and lower optics costs than with a large-format lens, at the same time getting high performance. High-level aberration correction and centering/alignment technology deliver an extraordinary performance from the image center to the corner with tiny pixels.

Since the lenses may also be used with popular 1.2″ sensors, one achieves impressive Modular Transfer Function (MTF) outcomes in such a configuration.

Screenshot from video below highlights MTF performance across working distances

Call us at 978-474-0044 for expert assistance. We can tell you more about these lenses, and help you determine if they are best for your application.

The Computar MPT series lenses deliver superior performance at any working distance, thanks to the floating design. This is ideal for industrial drones, sports analytics, wide-area surveillance, and other vertical markets.

Vision Systems Design awarded the Silver Honoree in their Innovator Awards for the Computar MPT lens series.

1st Vision’s sales engineers have over 100 years of combined experience to assist in your camera and components selection.  With a large portfolio of lensescablesNIC card and industrial computers, we can provide a full vision solution!

SONY IMX548 now in Alvium CSI-2, USB3, 5GigE cameras

AVT Alvium housed, board-level, and open options

Allied Vision has integrated the IMX548 into the Alvium family with the Alvium C/U/G5-511 camera models, where the prefix designator:

  • C is CSI-2, the Camera Serial Interface, popular for embedded systems
  • U is USB3, the widely available interface between computers and electronic devices
  • G5 is 5GigE, with up to 100 meter cable runs and 5x the throughput of GigE
AVT Alvium housed, board-level, and open options
AVT Alvium cameras are available in housed, board-level, and open versions

SONY’s IMX548 is a member of the 4th generation Pregius sensors, providing global shutter for active pixel CMOS sensors, with low-noise structure yielding high-quality images. See our illustrated blog for an overview of Pregius-S‘ back-illuminated sensor structure and its benefits.

So why the IMX548 in particular? Readers who follow the sensor market closely may note that the IMX547 looks the same in terms of pixel structure and resolution. Correct! SONY found they could adapt the sensor to a smaller and more affordable package, passing those savings along to the camera manufacturer, and in turn to the customer. As 5.1MP resolution is the sweet spot for many applications, Allied Vision picked up on SONY’s cues and integrated the IMX548 into the Alvium family.

There are nuanced timing differences between the IMX547 and IMX548. For new design-ins, this is of no consequence. If you previously used the IMX547, please check with our sales engineers to see if switching to the IMX548 requires any adjustments – or if it’s simply plug-and-play.

As shown in the photo above, Alvium cameras are very compact, and the same sensor and features are offered in housed, board-level, and open configurations. AVT Alvium is one of the most flexible, compact, and capable camera families in the current market.

Concurrent with the release of this new sensor in the Alvium camera family, Allied Vision has also released Alvium Camera Firmware V 11.00, notably adding the following features:

1st Vision’s sales engineers have over 100 years of combined experience to assist in your camera and components selection.  With a large portfolio of lensescablesNIC card and industrial computers, we can provide a full vision solution!