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maxwell software for rfid

时间:03-31 整理:3721RD 点击:
Hi,

I was wondering if anyone can suggest a good EM simulator that is suitable for RFID tags (planar spiral antenna). I'm looking at 13.56MHz for the chosen frequency.

Can anyone point me in the right direction because there are so many packages out there, I don't know where to begin :(


Thanks for your time

Cat

Hi, Catalyst: You can try the free eval of IE3D from www.zeland.com. I am from Zeland Software, Inc. There are quite some IE3D users in RFID. Thanks!

are there any guides or tutorials that are RFID tag related?

Infact, will IE3D accurately simulate a 13.56Mhz structure as all the options i've seen upto now are only defined in GHz.

Hi, Catalyst: It is accurate for that frequency range. Please give it a try.

OK, I'm looking into the program more, theres a lot to take in.

Could you please explain to me how to simulate and measure the inductance of a structure at a specific frequency?


Kind Regards :)

Cat

Attached are three files. 13.56MHzRFID.pdf illustrates how to use Sonnet to analyze RFID. RFID_tutorial.pdf is a tutorial I got from the Microchip web site. It explains the entire 13.56 MHz RFID technology in detail. The third file is a zipped directory of all the Sonnet circuits in 13.56MHzRFID.pdf. About half of them can be analyzed using the free SonnetLite (www.sonnetsoftware.com).

I just returned from a two week trip to Asia. I spent one Saturday in Tokyo as a tourist (visinting postage stamp museums, they have some really good ones!). I took quite a few trains. The JR trains all now have an RFID option. You carry a credit card sized RFID card (13.56 MHz, 8 turn coil, a friend took one apart to see what was inside). You place the card on the reader spot and then just walk through. It is OK to leave the card inside your wallet and place your wallet on the reader spot. Works really well and is very fast. You can even make purchases at stores with it. Cool stuff!

Thanks rautio for those files.


Could HFSS or MWS also be used to simulate structure at 13.56MHz? I've always come across alot of problems in the past.

Hi, Catalyst: After simulation, MODUA is invoked to display the s-parameters. You can select PROCESS->FIND 1-PORT EQ CKT and MODUA will find the parameters for the equivalent circuit for you at all frequency points.

Thanks for your reply jian, that worked fine. Cheers, I am going to have a more in-depth look into IE3D


However, I would also like to know whether HFSS and CSW could be used to simulate a planar structure at 13.56MHz as well?

Has anyone in this forum had any experience in this area?



Regards

Cat :)

Yes, certainly HFSS and CST can be used. They differ from planar tools by being volume meshing tools. I would recommend the following procedure:

1) Do as much as you can using planar tools (properly used, they are more accurate and faster for planar circuits).

2) If possible, do analysis with both a shielded and an unshielded planar EM tool. This is especially easy using ADS and Momentum and Sonnet because both Momentum and Sonnet have very good interfaces into ADS. Just a couple clicks does the trick. The degree of difference between the results is an indication of how accurately the results have been calculated. If there is a large difference, you should check to make sure you have set the problem correctly for both tools.

2) Do at least one case in both planar and volume mesh. Make sure you get the same result (to within your requirements).

3) Now, using the volume meshing tools, you can test things like deforming the RFID tag, the effect of objects being near the RFID tag, the effect of the finite area of the RFID tag and reader, and the effect of odd orientations between the tag and the reader.

This is all in line with a presentation I just gave at the Microwave Exhibition in Japan (Yokohama) last week, "Which EM Analysis Should I Use". I also gave this presentation in Taiwan on Monday. In this presentation I recommend a "dream team" of four tools: HFSS, CST, Agilent Momentum, and Sonnet (even though Sonnet is the only tool we sell in Asia). I detail both advantages and disadvantages of each tool (it is espeically important to know disadvantages in order to do good engineering). Then I show how having all four tools allows extremely powerful EM analysis capability, much better than having just one tool. With the usual number of people, 60 to 70, the Sonnet seminar is usually the best attended of all the commercial seminars at this conference. This time we had 130 attendees. It was very gratifying to see.

Nice response rautio :)

One of the problems I have is to decide which type of port I need to use to setup an accurate analysis.

In HFSS, there are Wave ports, lumped ports, voltage/currnet excitations. There are also numerous options in Sonnet.

For an RFID tag setup, which ports should be utilised in each of these programs?


Regards

Cat

Hi Cat -- In Sonnet, there is only one kind of port. It is an infinitesimal gap with a voltage impressed across it. This port can be put in different locations. For example, on the edge (so that the sidewall provides a perfect ground reference), it is called a sidewall port. On the interior, it is called an interior port. However, it now no longer has the same ground reference as the sidewall ports. So, you can click an option (by double clicking on the port) to make it an auto-grounded port. In this case vias are added to ground to make the ground refernce. If the port is a via, then we call it a via port. For RFID, just build on the circuits I attached above, and you should do just fine.

As for HFSS, I just know the high level trade-offs. I think it is likely that port choice will be important, but I can not advise you on which port to use. If you are on support, by all means talk to their support on this matter.

As for CST, if you are on support or considering purchase and in North America, we (at Sonnet) will be glad to help. I do not have the knowledge to help you on CST, however, we do have several support employees who are extremely knowledgeable on the matter. Otherwise contact CST directly.

And of course, I am sure there are others who can provide the needed information right here on this forum.

thnx ur discussion was very useful to me
thnk u again

hi every body
peace abon you all
i would like to ask about the quality factor of RFID antenna
all my results give alarge Q >100
and i need Q<40 what can i do
thanx

you can increase R, and just resistance

Hello Catalyst,

For low frequencies you should not use Ansoft HFSS but rather Ansoft Maxwell 3D.

Abstract: RFID area of applications is currently undergoing constant change in regard of standardization. As any other frequency allocation issue, RFID applications are generally governed by government legislation and as such it may differ in some countries. Standardization activities are seeking to create a more uniform environment in this respect. The most significant carrier frequencies for RFID applications that have been identified to cover low, medium and high ranges are 125 KHz, 13.56 MHz and 2.45 GHz. This paper deals with low and medium RFID applications which appear to enjoy a considerable degree of uniformity of standards and acceptance worldwide.

<a href = "http://www.ansoft.com/news/articles/RFID_Systems_with_Maxwell_Software.pdf">A Study of RFID Devices and Efficient Ways of Simulating RFID Systems with Maxwell Software.</a>

This was performed with Maxwell v10. Maxwell version 11 has the modern "HFSS-like" user interface.

Regards,
Itai

I design an RFID coil tag antenna and I am having problems with impedance matching . How to matching coil antenna with an integrate circuit?

Hi,

The RFID guys I know design the antenna directly in a ways that it fits to the output impedance of the RFID chip. They do not use any extra matching network because this would make the RFID more expensive.

If you know the complex output impedance of the RFID chip you will use, you can optimise the antenna geometry to match this impedance. Many simulation tools (I know for CST but I guess other tools can do the same) allow you to optimise the geometry directly to match a specific impedance. Does this help?

F.

Hi all,

I have some question about the read range, the read range is proportation to the tag antenna's gain, I want to know that----------- The antenna gain is simulated in ie3d is correct?

Because my tag's antenna is directly match the RFID chips (16-j380) but in the ie3d the default input impedance is 50 ohm, hence when I get the antenna's gain simulation result, I don't know it is correct or not

thank all.

Hi, Badlok:

The gain calculated in IE3D does consider the mis-match to the normalization impedance. However, you should try to use the conjugate matched gain which will consider the antenna to be conjugately matched. It should be the value you want.

Best regards,

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