RFID Reader Deployment FAQs Volume 1

In this first post of frequently asked questions regarding deployment of passive UHF RFID in challenging scenarios, I will answer two questions:
Q1. What are the current countermeasures to combat reader to reader and reader to tags interferences for UHF RFID?

Q2: What would be your advice for best practices while installing UHF RFID system in the environment full of metal objects?

A1. As many of us experienced in actual deployments of RFID systems are aware, there is a difference between how one reader performs in an environment with all variables being controlled (movement of forklifts, location of tagged items, etc.) and the “real world environment” where none of these are controlled.

For UHF readers which are EPC GEN 2 compliant, there is a Dense Mode of operation which should allow for numerous readers in an environment. However, what has had to happen in the past is that the installer or integrator has to configure for worst case and give up a lot of potential performance. In a reader, configuring for worst case means selecting one of the over 256 available configurations (reader modulation, pulse width, tag to reader link frequency, Pulse Interval Encoding ratio, etc.) or, more typically, just going with the reader’s default (static) settings which are, again, usually configured for worst case.

The flip side is to optimize configurations for highest throughput based on the given conditions (usually controlled) in a pilot test (usually a single or a few readers) which works great, amazing throughput/tag read rate – the installer collects their check and moves on. Now, the environment changes – metallic shelves are installed or moved, forklifts are moving in and out of read zone, overhead lights are turned off and on throughout the day, more readers are installed…you get the picture.

Enter the Impinj Speedway Revolution reader with the Autoset feature – the ability to monitor the environment as well as connected antennas and tag reads to optimize configuration of all these variables in real time.
You can see an example here:
http://www.screencast.com/t/ZqzlPjIIQu

Q2: What would be your advice for best practices while installing UHF RFID system in the environment full of metal objects and very high humidity?

A2: I shiver at UHF RFID installs which are full of metal objects because it leads to a highly changing RF environment (those RF signals bouncing everywhere!); sometimes it works in the favor of reading desired tags and sometimes not. What usually happens is that an installer configures for worst case reading at a portal or chokepoint which usually means higher power and sensitivity which leads to stray reads due to reflective nature of metal in the environment.

The answer here is a combination of the AutoSet feature so that the reader can adjust reader and tag communication settings according to the environment but also zone control – defining a read zone and eliminating strays. UHF RFID has gotten really good at reading tags, often 99.x % performance, what happening now is reading too many tags! That is, reading tags outside the desired read zone.

Of course there are the usual ‘knobs’ on the reader to adjust (transmit power and receive sensitivity) but the often-overlooked additional factor is reader antennas with narrow beamwidth to create constrained read zones.
If only a limited range is required (i.e. < 50cm), you can use UHF near field tags and reader antennas like the Impinj Brickyard or Mini-Guardrail:
http://www.impinj.com/products/rfid-reader-antennas.aspx

For longer range, like in a dock door application, a typical circular-polarized patch antenna has a 6dB beamwidth of 90 degrees – this means that is a tag is located at a 45 degree angle on either side of it, it will be read at around half the maximum distance.
For example, if you have a highly sensitive tag (say, one using Impinj Monza 4 IC) and are using maximum allowed transmit power with highest reader sensitivity setting on the Impinj Speedway Revolution reader, and you find that the maximum read range directly in front of the antenna is 16 meters, then when tags are off at a 45 degree angle, the read range will be 8 meters, not a very constrained read zone!

So, you might want to consider something like the Impinj xPortal which uses Dual Linear Phased Array (DLPA) technology and has a horizontal read zone of only 60 degrees (3dB).
http://www.impinj.com/Speedway_xPortal_Reader.aspx
If you require an even tighter beamwidth antenna, there is the MT-263020 from MTI Wireless which has only 30 degrees beamwidth.

Lastly is the option to use some shielding material such as RF absorbing foam or cloaks and adjusting antenna angles – the problems with these two approaches to constraining a read zone are that, especially in an industrial or warehouse environment, the shielding may get damaged or destroyed and antennas get knocked or bumped out of alignment (or the retaining clamp simply comes loose); so, as much as possible, use hardware and configurations that are not too dependant, if at all, on these.

As always, any feedback from readers is encouraged.

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2 Responses to RFID Reader Deployment FAQs Volume 1

  1. Jacek says:

    In the second scenario (stationary and mobile metal objects) and the portal (docks) application.
    a/ How many antennas would it need to install to have that 99…% readout?
    b/ Adding to “the injury” , tags are mounted on metal objects and/or liquid bottles what would be the best options to have the best coverage from UHF readers? There are very good tags on metal but if the tags are in “population” you might have signal screens by metal if you deploy just one or two antennas
    c/ assuming the worst case scenario where portals are close to each other (receiving gates in the warehouse for example) and you have condition b/ with 2 or even 4 antennas on each portal (reader) I assume there must be “collisions” – RTI and RRI.

  2. Chris Hook says:

    Take a look at http://www.rf-controls.com for a uniquely differentiated approach to achieving accurate location of passive UHF RFID tags, in highly challenging, real-world production environments.

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