ClassroomIn the microwave backhaul industry, many of us throw around terms and acronyms with the expectation that the person we are talking to knows exactly to what we’re referring. Recently Jim Syme told you that we are going “back to basics” by explaining some of the widely used phrases and parameters in the microwave antenna world. All of this information is contained in the Microwave Radio Antenna Link Fundamentals online course, available through the CommScope Infrastructure Academy.

In this blog post, I’d like to talk about polarization.

The radiowave is an electromagnetic waveform composed of both electric and magnetic fields. In free space, the fields are mutually perpendicular and are also perpendicular to the direction of propagation.

The term polarization commonly refers to the electric field component of the radiowave. In terrestrial microwave antennas, the polarization of the radio waves will be either horizontal or vertical. That is, the electric field will be either horizontal or vertically orientated.

The transmission characteristics of both polarizations are very similar at microwave frequencies. However, the effects of obstacles and reflections within the microwave link are more likely to degrade system performance in horizontal polarization than in vertical polarization and thus vertical polarization tends to be the first polarization of choice.

Microwave antennas will generally be either single polarized or dual polarized.

A single polarized antenna is one that responds only to one orientation of polarization – either horizontal or vertical. Thus radiowaves that are received or transmitted by a single polarized antenna will be either horizontal or vertical polarized.

A dual polarized antenna, however, can respond to both horizontally and vertically polarized radio waves simultaneously. The use of both polarizations in this way increases the traffic handling capacity of the system. For example, one transmitter/receiver combination can be set on vertical polarization, while a second independent transmitter/receiver combination can be set on horizontal polarization.

With our single polarized antennas there will be a single waveguide connection point, or port, at the customer interface. The polarization (vertical or horizontal) is sometimes denoted by an arrow placed adjacent to the port. The orientation of the waveguide cable will determine the polarization; if the broad wall of the guide is in the horizontal plane, the antenna is vertically polarized, and if the broad wall is in the vertical plane, the antenna is horizontally polarized.

The option to orientate the polarization in the desired direction is often facilitated by rotation either of the complete waveguide system or by a component of the waveguide system. The mechanisms for achieving this are explained in the microwave antenna installation bulletins.

For dual polarized antennas the customer interface will usually comprise two waveguide ports. Again, the polarization associated with each port will be explained in the antenna installation bulletin. Some antennas will also include polarization arrows to further assist identification.

That is a basic explanation of polarization. Any questions regarding this topic? Leave a comment if so, and I’ll be happy to reply.

About the Author

Derren Oliver

Derren Oliver is Product Line Director for the Microwave Systems unit at CommScope. He has nearly 20 years of experience in the telecoms industry, beginning in test and measurement for both wireless and wireline networking products at Hewlett Packard, Agilent Technologies and Ixia before joining CommScope in 2010. He holds a bachelor degree with first class honors in electrical and electronic engineering from the United Kingdom’s Heriot-Watt University and an MBA from Edinburgh Business School.

See all posts by this author


37 comments for "Back to Basics in Microwave Systems: Polarization"
Prajna Monday, March 07, 2016 2:12 AM

Sir, What do u mean by Dual circularly Polarization?

Derren Oliver Thursday, July 07, 2016 5:15 PM

Dear Prajna, I don't believe I mentioned Circular polarisation in the article. however we do use circular polarisation in our antenna feeds before converting them to linear polarisation for transmitting or receiving from the radio. There are many references on the web which discuss the physics involved. Wikipedia has some good references here:

I hope this helps.

BELL Tuesday, November 01, 2016 9:01 AM

Hi. How do you cutover/deinstallation a microwave link

Derren Oliver Tuesday, November 01, 2016 2:54 PM

Hello Bell, I'm not quite clear what your question means but I assume you are asking about the best way to install a new microwave link after de-installing another? For more details on microwave antennas, how to choose them and install them I recommend you register for the Microwave Radio Antenna Link Fundamentals [SP6105] course linked to in the above article. It should give you the information you require. Thanks for your interest.

bell Friday, January 13, 2017 9:42 AM

Thanks Derren for responding my question is how do you upgrade a microwave link?

Donald Gardner Tuesday, January 17, 2017 3:38 PM

Hi Bell, there are many ways of upgrading a microwave link. One of the easiest is to change to the antenna from a single polarized unit to dual polarized. This means that the link operates in both horizontal and vertical polarisations rather than just one. Depending on the antenna, this may be as simple as upgrading the antenna feed system. Of course, you will still require an additional radio to provide the traffic over the new polarization. For more information on the dual polarized antenna options please refer to CommScope’s electronic catalogue. Many thanks for your continued interest.

Rakesh grewal Friday, February 03, 2017 2:20 AM

Hllo sir i am confused about polarization of RFS's OMT NMT 820-01

Donald Gardner Friday, February 03, 2017 4:38 PM

Hi Rakesh, I'm sorry but I can’t comment on other manufacturers products, however the OMTs that we use on our dual polarized ValuLine and Sentinel antennas are clearly labelled with the polarization orientation of each port. In addition, full installation instructions are supplied with the product.

Yaseen Khalid Friday, March 03, 2017 6:49 PM

Hi Darren Sir, can you please explain why & when to use vertical & when horizontal polarizations ...? Does it depend on the terrestrial characteristics or what ?

Donald Gardner Tuesday, March 07, 2017 12:21 PM

Hi Yaseen, In the first instance, the choice of whether to use vertical or horizontal polarization is down to what is available from the regulators in the country in which you wish to deploy the network – over a particular link one polarization may already have been used hence there may be alternative. At the lower frequencies there is little to choose, however at higher frequencies (say 30GHz and above), there is a general preference for vertical polarization since it is less susceptible to rain fade. For more information please refer to “Microwave Communication Basics eBook” -

Samaj Poudel Thursday, March 30, 2017 12:17 PM

Hi Sir. We have MW Link with 1+1 ODU configuration(single antenna). One ODU in Vertical and other ODU in horizontal polarization directly mounted with antenna using coupler. So the receive signal level will be different or same in two ODUs(theoritically and practically)?If waveguide is also used will the RSL degrade?

Donald Gardner Monday, April 03, 2017 7:37 AM

Hi Samej. In calm dry conditions there should be no difference in RSL between the horizontal and vertical polarizations. However, at higher frequencies, under rain fade conditions, there may well be a lower RSL in the horizontal polarization. Where there are additional waveguide runs (elliptical, flex-twists, or rigid waveguide) in the RF path, the RSL level will be reduced by the additional losses within the waveguide. For more information on waveguide performance please refer to “Microwave Communication Basics eBook” -

Michael Tuesday, August 15, 2017 8:59 PM

Hi Darren,
while looking up your antenna RPE documentation I noticed the lack of cross-polarization discrimination sensitivity diagrams for rotational misalignment. So if our crew installs the antenna at let's say 2 degrees out of true vertical alignment(rotation not path alignment), what hit do we take to the discrimination between channels. Thank you for your help.

Donald Gardner Friday, August 18, 2017 2:53 PM

Hi Michael
I’m guessing what you refer to a situation where one antenna is slightly misaligned rotationally to the other antenna across the link. In a correct installation, this should not happen – in addition to the antenna being aligned in elevation and azimuth, it should also be aligned rotationally to ensure optimum performance. Please refer to CommScope publication TP-108827; Path alignment and cross polarization procedure for parabolic microwave antennas for more details.

Naga Prakash.K Monday, August 28, 2017 11:59 AM

Hi Mr.Micheal,
I am working with 1.2 Diameter antennas for Vodafone network in India ,I am regularly facing High tension lines passing through LOS path ,what will be the impact on RSL.Second point we are using 5-8 year old antennas and radios for implementing transmission paths how ageing of this equipment will impact on planned RSL.Kindly help me.

Derren Oliver Monday, September 04, 2017 2:55 PM

Dear Prakash,
Thanks for your comment. With regard to your first point - this is something your network planners should account based on information from the initial site survey. Typically power lines are at very low frequency so you wouldn't expect them to interfere with a microwave frequency link. However it is possible that if there are a lot of power lines or they are supported by large structures (eg Pylons) then reflections could occur which may impact RSL. Best to avoid if possible or have your network planners ensure the link is operable with such an obstruction. For point 2. I cannot comment on the Radio equipment as the manufacturers each have their own specification. For a CommScope antenna 5-8 years old should not cause problems if the antenna has been regularly maintained and has not been damaged by poor installation or vandalism. We have seen instances of antennas from other manufacturers starting to deteriorate after only a short time due to improper or inferior build processes, design or materials so please make sure you are buying your antennas from a reputable supplier

F. Eric Tuesday, November 14, 2017 5:35 AM

Dear Darren,
Thank you for sharing your knowledge with us. I have a dilemma and I don't know if you can help. I have two horn antennas with each two SMA ports ( one V and one H). I am using these two to interrogate a sensor wirelessly. One of the horn antennas is acting as a transmitter while the other is acting as a receiver. These two constitute my interrogation mechanism. They are both communicating with a sensor package that comprises of a UWB antenna and patch antenna sensor fabricated on a commercial substrate and linked by a microstrip line. So when an interrogation signal comes from my transmitting horn antenna, it is received by the UWB and travels along the microstrip line to the sensor that encodes the measurand of interest and the signal travels back to the UWB antenna that broadcast this signal back. This signal is then received by my receiving interrogation horn. The problem is that the received signal only contains one frequency of the sensor and not both. The sensor has a resonant frequency along its length and another along its width dimension (it is a rectangular patch antenna). Do you think the reason why I only measure one frequency of the sensor and not both is because of polarization since I am only connecting the cable to the H port of the two horn antennas? Thanks in advance for your prompt response

Derren Oliver Monday, November 27, 2017 1:27 PM

Dear F. Eric,
Thanks for your question and interest in our back to basics blog. This topic is covering our parabolic Microwave antenna polarisation characteristics so your question is a little off the topic which is why we had a slight delay to answering. Without really understanding the detail of the antenna setup (we'd need to see pictures, and understand the setup diagram) it's difficult to really give a concise answer to your question. However I did chat to one of our RF Engineers and from what we can tell it does sound like your Rx Horn is set up to pick up on the HPol. only. This we mean you would not receive the signal (or receive a very weak signal)on the VPol. My engineer has suggested that if your RX horn was circular and connected to an OMT then you would be able to measure V and H on the two ports of the OMT. I hope you have good success . Let us know how you get on.

Anshita Wednesday, September 19, 2018 12:14 PM

Can dual polarization be obtained from a single waveguide input port? Or are two ports mandatory?

Derren Oliver Wednesday, September 19, 2018 3:01 PM

Dear Anshita,
Thanks for your question. The answer is yes for rectangular waveguide ports you would need two input/outputs. One for Vertical and one for horizontal.

Adrian Wednesday, October 03, 2018 12:44 AM

can a dual polarization antenna should use a waveguide to connect to odu or it can be directly mounted?

Charles Sullivan Thursday, December 06, 2018 10:40 PM

Can I tell the polarization by the orientation of the rectangular "slot"? if the long axis of the slot is going up and down the in it is vertically polarized, and if the long axis goes right left then it is horizontally polarized?

Derren Oliver Friday, December 07, 2018 3:35 PM

HI Adrian, you can use either waveguide to the ODUs or connect the two ODUs directly. Both require an OMT. Either a non-integrated one or an integrated one which includes a frame to direct connect the ODUs.

Derren Oliver Friday, December 07, 2018 3:36 PM

Hi Charles, in the article above I describe this: "The orientation of the waveguide cable will determine the polarization; if the broad wall of the guide is in the horizontal plane, the antenna is vertically polarized, and if the broad wall is in the vertical plane, the antenna is horizontally polarized." So it's the opposite to what you have said. Long axis going up and down means horizontal and long axis left to right means vertical.

Jason Tuesday, December 11, 2018 11:11 PM

Dear Derren,
Thanks for your post on polarization. To expand on this, some people talk about crosspolarized or slant polarized antennas. I was wondering what are the differences between a slant-polarized system and a dual-polarized system or if it is different? In this case, I read somewhere +45/-45 configuration is suggested to give better rejection of interference. Thanks for your help!

Nigel Wednesday, December 12, 2018 2:26 PM

Derren, can the frequency pair deployed on both the H pol and V pol of a dual-pol antenna be identical?. Assume a 30MHz FCC channel bandwidth.

Joseph P Depa III Wednesday, December 12, 2018 3:06 PM

Hi Jason and Nigel, Derren is traveling on business. He will return to the office on Monday. When he does, he will answer your questions.

Derren Oliver Thursday, December 13, 2018 3:41 AM

Hi Jason, Slant polarized is just a linear polarized antennas where the e field is not in vertical or horizontal polarization. Typically it could be set up in +-45 deg but it can be an arbitrary rotated angle. Any advantage from that is purely based on the pattern of the antenna in question.

To expand a little - as we know - antennas working in the same frequency band and polarization interfere with each other.

Polarisation orientation also impacts the interference - orthogonal polarisations typically offer the best inherent rejection, coincident polarization has no pol rejection and a rotated linear pol lies somewhere in between dependent on the rotated angle. +-45 degrees can be a good choice for certain antenna types (eg Array antennas) given the angular separation from V and H.

Derren Oliver Thursday, December 13, 2018 4:02 AM

Hi Nigel, the short answer is yes - Dual Polarisation is used is to allow re-use of channels at orthogonal polarisations. Doubling capacity of the link without using extra spectrum or where frequencies are limited.

electrical design Monday, December 31, 2018 7:30 AM

Hey thanks for describing the polar microwave system polarization. I was waiting for this topic..

Enas sobh Friday, January 18, 2019 10:18 PM

Hi sir,if we have an electric field wirh 2components ,how can I get the orthogonally polarized field

Derren Oliver Monday, January 21, 2019 1:47 PM

Dear Enas - see the article above - the two components we are referring to are the electrical and magnetic fields. When we refer to polarisation we only refer to one of those components - for MW Antennas we mean the Electric field which is perpendicular to the magnetic field. Whether that Electric field is horizontal or vertical depends on the configuration of the transmitter. That is usually determined by the physical orientation of the transmitting device/antenna.

Enas sobh Monday, January 28, 2019 12:54 AM

Thanks sir,but if we have dual polarized antenna ,there are two branches .I need to exploit the polarization state of each subcarrier in ofdm system .how can I do and what's data to be transmitted including polarization state

Derren Oliver Monday, January 28, 2019 3:45 PM

Dear Enas, Thanks again for your interest in this blog. OFDM is a popular method to encode data but beyond the scope of this blog on basic polarisation in microwave antennas. Unfortunately there are many details missing in terms of your application here for me to discuss exactly what you would need. I would suggest you get in touch with an Radio expert to discuss the various signalling and modulation techniques to which you refer. There are also good articles on the internet which may help. eg. Thanks again for your interest.

Cedric BOMEN Sunday, February 24, 2019 10:19 AM

Good morning Sir, thank you very much for this topic.
If I may ask Sir, pls what is the best waveguide for dual polarization (vertical and horizontal)? And secondly, one feed antenna and two ports (1 for vertical and 1 for horizontal ) is this a suitable configuration to realise dual polarization?
Thanks in advance.

Eduardo Garcia Thursday, September 12, 2019 9:31 PM

Hi Oliver,

Thanks for your information, is it possible to change the feeder from dual antenna to single antenna? The idea is reuse the single antenna and convert to dual.


Derren Oliver Friday, September 13, 2019 2:48 PM

Hello Eduardo,
It really depends on the antenna and the antenna manufacturer so please always check with your supplier. For CommScope Microwave Valuline antennas in general, yes you can convert a single pol. antenna to a dual pol antenna but you don't need to replace the feed. You would normally remove the single pol. transition kit at the back of the feed and add a Commscope approved OMT. (note it is very important the OMT matches the feed or you could create a lot of issues and cause signal degradation - we only recommend you use an antenna manufacturers approved OMTs). There may be some variations, and some older antennas or frequency/size combinations where will not be upgradeable depending on the age and type of antenna so always worth checking with your local CommScope technical support team if you are unsure. Hope that helps. Thanks Derren.

Add Your Comment

Please submit your comment using the form below


Powered By OneLink