Optimizing MURS Dakota Alert Sensors – Part 2, by Tunnel Rabbit

(Continued from Part 1. This installment concludes the article.)

MURS band Dakota Alert systems are very useful, but they often frustrate the user. Read up. It would be a huge loss if one could not operate their sensors correctly. And just like anything else, take one out of the Faraday cage and use it for awhile to gain experience with it. In a time of stress, getting a ‘false alarm’, could be nerve racking, when all hat it needs is batteries. In a pinch, but only in a pinch, would I connect directly to 12 VDC. With higher voltages they are more reliable in the rain, and cold. My first choice would be to add an ‘extra’ rechargeable AA battery, or two sets of 7-battery packs, wired in parallel to double the ‘run time’ when using rechargeable, or 6 regular alkalines, if the lithium type were not available. Just keep the voltage below 10 VDC, to be safe. The most stable source of power would be the 12 volt car battery with the universal voltage adapter set to 9 VDC. So as not to ‘waste’ a good car battery, use one with a bad cell that no longer can start a car. Once again, here is an inexpensive 10 watt PV panel that can be connected directly to that battery.

Especially if a PV panel is used, be sure to use a universal voltage adapter. And always confirm polarity with a volt meter before connecting.

Of course, placing these along public road may not appropriate during normal times, they might be stolen if not properly camouflaged. Yet they might be deployed on a temporary basis for testing. Find out now useful is this method. For instance if one has a dirt road 1 mile long and the maximum safe speed is say 35 mph, then the vehicle may need 6 minutes to arrive at your location. 6 minutes is a lot of time when you are in a hurry. If one can hear the sensor from 2 miles away, then the likely time of arrival could be 12 minutes. Set this up now if possible and learn to listen and interpret the traffic coming and going. It is surprising how effective this can be. If on a spur off the main dirt road, placing a sensor at the point of intersection also makes sense.

Stealthy Sensor Deployment

A stealthy way to deploy them on trail is to set them on the ground and bury them in debris.  An external antenna can assist, as the unit can then be placed into places that where it would be otherwise impossible to have an attached antenna.  The external antenna can also be mounted higher for better range.  “Height is might” as they say.  Don’t worry about cable loss if you do not have enough height.  Enough height to make reliable communications easily offsets the loss in the ‘excess’ cable used.  It might be nice to have a roll of LMR 400, or RG8, but quit dreaming. It is on UHF that the loss can be noticeable. Feeding a high gain yagi with lossy cable, and the loss is offset by the high gain of the antenna.   It is about the ERP.

For the best results, this roll up type of Slim Jim from N9TAX is easy to hang with a light weight made of a non metallic material, or use cordage to create light tension, so that it is strung to it’s design length. Attempt to space the antenna way from the tree or pole at least 19″, and on the side facing the receiving antenna. It is not difficult to do.

This antenna has a broad bandwidth of at least 8Mhz on the VHF side and should cover the Business Band, Public Service Band, and Marine Band as well. Ask the manufacturer. The UHF is good for GMRS, and has the narrow band with of only 4 MHz. Ask if it will cover the UHF business band. If not in use on a sensor, this antenna can also be used elsewhere.

Connector Confusion

Verify what type of connector is on your sensor. Older models use the BNC type, so select the BNC Male option. The recent production Dakota Alerts use SMA connectors. I cannot at the moment verify which, so talk to the vendor, or research it. These take either the SMA Male, or the SMA Female. These antennas also work well with standard radios, mobiles, or handhelds. Adapters are available on the site. The Baofeng UV5R takes a SMA Female. Mobiles typically use PL-259 cable ends. An SO-239 (aka. UHF) to SMA Female adapter for the Baofeng UV5R, allows this and other antennas to be attached to the Baofeng UV-5R. Transmitting on a Baofeng on a homemade copper Slim Jim on 70cm, I could hit the Blue Mountain repeater 80 miles away with ‘full quieting’ with only 4 watts. The Slim Jim is a good antenna for many applications, but not all.  And it is great for scanners.

For those wishing to mount an antenna on a roof top there is far better antenna. These are what I make and have tested over the years: A Slim Jim antenna suitable for the MURS band.

Cable into the house should have PL259 ends, that are sold separately. Use a UHF-to-SMA Female adapter for your Baofengs.

Of course the less expensive option is to make a dipole and hang it high as possible and at least 19 inches from any parallel surfaces that when wet can couple with the antenna, hence de-tuning it.

I almost forgot: To increase the range of the sensor, the first and least expensive thing to do is to install an external antenna on the receiver side. I would get the copper pipe version for this purpose. Of course a 1/4 wave antenna will work too, not as well, but it is cheap to make a receiving antenna that is not tuned and good for transmitting.  This can be done use common 75ohm cable television coaxial cable. Just separate the inner wire from the braided shield, and have 18″ of length for the inner wire, and leave 18″ of the braided wire hang and tie the inner wire up.  Connect the inner wire to the receiver in several ways.  The total length 36 inches. I would not transmit on this antenna because it is not tuned, or any antenna, even if tuned, because it would greatly increase the range at which I could heard, unless there was no other way to establish reliable communications.

Commo and Sensor Goals

We want to limit the range, by using the lowest power or ‘smallest’ antenna we have to avoid detection, yet effect solid comms. However, we want to hear as well as we possibly can, and that means using an external antenna. We could therefore hear each other better, and yet limit the range we broadcast, if we use an external antenna to ‘hear’, and the antennas on the Baofeng, to talk. This set up on all stations, improves reliable comms, and reduces the chance of detection. We can also better listen for threats that are using low powered radios, and any radio at distance.

Well to get back on topic, first install an external antenna to listen to Dakota Alert sensors. And if that does not provide the range needed, then install an external antenna on those sensors that have difficulty reaching your receiving antenna. This is the sensible way to get it done, rather than installing external antenna on all sensors. The one advantage of installing antennas on all sensors, is that receiving station that is a hand held, would have a better chance of hearing all the sensor should they beyond the reception range of a tiny Baofeng antenna. Test the reception of both the fixed receiving station, and the mobile hand-helds at all locations within the retreat, and install antennas as needed.

Other Uses

The techniques discussed herein can also be applied to a community radio network.  Listen to your neighbors low-powered radios with external antennas, yet transmit on your low powered radio to their external antenna.  And then we can get horizontally polarized antennas involved! The cost of making a good receiving antenna is next to nothing, and a lower RF (radio frequency) footprint will increase COMSEC, and greatly lower the chances of the being located with direction finding methods.

Using the Baofeng dual receiver function, means one can use split frequencies, where one talks on one frequency and receives on another, causing the eavesdropper to potentially miss one side of the conversation. But this topic is beyond the scope of this article. However note that if one can master this technique, the number of frequencies combinations that are used for TX/RX, compound and forces the intercept station to use lots of high speed scanners to monitor huge chunks of bandwidth to monitor both sides of the conversation.  For every high dollar, high tech threat, there is usually a 25 cent low-tech countermeasure. But more on this later…

Here is a video showing how to make a cheap and easy transmitting antenna if tuned: How To Make Coax Antennas (FM receiving) Folded Dipole. These can also be used as receiving antennas that can be mounted above your roofline using a plastic pipe  or pole, using RG 58 or better 50-ohm for transmit/receive, or using free-to-me 75 ohm, RG59 or RG6, cable television coaxial cable. This cable is good for all receiving antenna projects, and there are hundreds feet of it laying around.  I even use this stuff for transmitting antennas for VHF, and HF, even though that is against the rules.  It works just fine if you know how to cut to 1/2 wave lengths to avoid the impedance problem, or speed bump.  A bit tricky, but it works great. Standard F-Type cable television connectors can also be used.  As a radio guy, using this repurposed television cable, one can “live off the land”, so to speak. And with little or no cost I can afford to mount hidden stationary TX/RX antennas along patrol routes.  There is so much more that could be discussed on this topic.  The best cable to have around is RG8X for most applications.  Definitely use the heavy stuff for UHF if you need to run beyond 20 feet.


  1. We’re very satisfied with our MURS Dakota Alert system, we’ve had four sensors out for several years, and have a few suggestions.

    1) Tired of false alarms when a deer would walk by on our driveway, I put two sensors on the drive, zone 1 and zone 2 about 100 yards apart. If only one reports, it’s probably a deer, if both report it’s definitely someone in the drive.

    2) Install a short 1×4 on the back side of a tree, and attach the sensor to the board. It won’t be seen until a person is already past the unit and detected.

    3) The older units had a male voice, while the newer ones have a female voice. I suggested to Dakota Alert that they make voices optional to increase the flexibility of the system. Apparently they haven’t. I put our older units with the male voice in storage, replacing them with the female voice. In bad times we will have the ability to have eight units out – zone 1 female east, zone 1 male west.

    With the current placement of our sensors, if someone can get to our front door without us knowing it, they came by parachute.

    1. OzarksTom,

      It’s good to get testimony that confirms. Yes, I prefer to use them is pairs along a road way. It would seem like a waste, yet is proves to be useful. Many users find them invaluable as they have actually used them over time and learned. They can be made to be more reliable than others have concluded. Like anything done well, it requires practice.

      The use of external antenna seems like an extra thing to avoid, yet in snow country, this kind of antenna is less effected by snow that builds up on the top of the sensor.
      External antennas also allows one to further camouflage and protect the sensor from the weather. And while it may seem as if I can go to extremes (and yes, that is true), one learns how to maximize a valuable tool. We have undulating terrain and heavily forested forests, and even though ‘as the crow flies’ the distance might only be 1/4 mile, the small hills pose a problem for the standard antenna and Baofeng antenna on the receive side. Many have these sensors in storage, yet until they deploy them, they will not know how to used them, and solve the various ‘problems’ that can frustrate and eventually discourage the use of an other wise invaluable tool.

      I’ve spoken with several combat experienced and retired NCOs about these, and find that, if they had experience with them, they would find them necessary. I believe this would be the reaction of anyone who has not used them. It is like anything else, we don’t know, what we don’t know. The best tools and techniques are those that are unrecognized or underappreciated. Given that I have gone to extremes with these, and have my own army out there 24/7 that sees in the dark, I confidently believe these things are a serious force multiplier that should not be ignored. And few, including many of the best combat soldiers out there, will not know about these things, and how they are used.

      No kidding! My sensors are right at this moment be alerting on a grizzly at the chicken coup ….gotta go!

      1. Re: Grizzly Alert, false alarm.

        Found to be a herd of , guess what, tunnel rabbits. Yes, I have friends! Major disappointment. Looks like that sensor needs to be closer to the target, or put on a trip wire. I could also put a flash- bang on it, yet that might be too much for the chicken coop operator, and could result in lots of broken eggs….

  2. If you already have baofeng radios programmed to MURS do you need both the akota Alert MURS Alert Transmitter (MAT) and M538-BS Wireless MURS Base Station $179.99?

    Or can you get away with just the Dakota Alert MURS Alert Transmitter (MAT) $119.99?

    Thank you!

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