note: over the next several days I will be posting a number of articles on handheld radios…specifically Baofeng…and which is the best to buy. Hold off buying any radio until you’ve read all the articles. You will be glad you waited.

OK…more radio stuff…hope you are ready for it.

So what about this radio? It is the latest version of its incredible grandfather…the Baofeng UV-5R. With an additional feature or two…and more power. I am not going to make this review painful or long…so here goes…

The primary difference, the only one worth going into detail about is the increase in power.

The original Baofeng work off of high/low power setting (4w/1w). This version has three power settings high/medium/low (8W, 4W, 1W). However, if you rad my review of the Baofeng UV-5RMHP radio that appeared first in 2016 and resurrected yesterday, you see where the antenna makes a huge difference the actual power you get when transmitting. And remember also, “power” doesn’t make a whole lot of difference when receiving…power when transmitting it the key.

Ease of Use –

As I have written about before…the entire Baofeng UV5 family is very easy to use. Well, easy to use if:

• You have it programmed correctly
• You use software to program it
• You use the manual(s) that I have produced
• You actually take the time to train yourself on the radio
• You keep familiar with the radio’s operational capability be using it as often as practical.

Bottom line…the radio is easy to use.

Accessory Compatibility –

Well, officially all the accessories that are compatible with the UV5 family are compatible with this radio as well. And just as predictably…some are, some aren’t. As I’ve written about before, sometimes accessories don’t fit exactly right…mostly batteries. Buy the accessory you want, try it, if it doesn’t fit right send it back. That’s why I love doing business at Amazon.

Battery Life –

If you run on high power all the time you will get less life out of this radio’s batteries than previous, lower power, versions of this radio. Batteries are fairly inexpensive so just buy more batteries if you need, and will be operating on, the high power setting.

Summary –

If you don’t currently own a handheld radio this is a radio to seriously consider. It has a great pedigree and plenty of accessories to make it very useful. But, at $63 for the radio…it is well more than double the price of the Baofeng UV-5R radio. For me…if there were four members of my family and I was somewhat limited on funds…I would buy 4 Baofeng UV-5R radios rather than 1-1/2 Baofeng BF-F8HP radios.

That being said, if I $250 available to buy radios for my family of four, I would…Oh, wait…I would still buy the Baofeng UV-5R radio (4 of them) and and use the other $155 for much needed accessories.

All that being said…If I had the money and the NEED for 8wats of transmitting power then I would buy the Baofeng BF-F8HP Radio…but only if there was the need for the higher power capability.

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No reproduction or other use of this content 
without expressed written permission from AHTrimble.com
See Content Use Policy for more information.

2019 note #1: article first appeared in April 2016

2019 note $2: the radio is not available from what I can find.

2019 note #3: the radio has been replaced by the BaoFeng BF-F8HP which I will be doing a review on very shortly.

2019 note #4: this article still contains useful information that you may find interesting.

2019 note #5: over the next several days I will be posting a number of articles on handheld radios…specifically Baofeng…and which is the best to buy. Hold off buying any radio until you’ve read all the articles. You will be glad you waited.

Power –

We all want power! If we have some power, we want more power!

No, I am not talking about government, the police state, or our former Dictator-In-Chief Barry, or anything along those lines. I am simply talking about a way cooler subject…radios!

Over and over again I have told you how much I like the Baofeng UV-5RA radio…I think it is simply the best price/performance handheld radio on the market today. Yes, there are better quality radios such as the Yaesu FT-60r but the Yaesu also costs about 6 times as much at the Baofeng. True, if I could only have one handheld radio and the money wasn’t a real factor I would choose the Yaesu. But for many of us mere mortals money is a factor. And, I would rather each family member and all of my close friends have a radio rather than just one or two having a radio. Hence, the Baofeng UV-5RA handhelds are an amazing combination of price and performance.

But, there was always that talk swirling around by other Baofeng users claiming that their radio was a 5watt or an 8 watt, etc.  I began to suffer from “watt envy”!

I have already shown where the UV-5RA radio outperformed both the UV-6 and UV-8 version of the radio in previous reviews. But, the venerable UV-5RA radio has finally met its match. Well actually, the radio that outperformed the UV-5RA is just its bigger brother…the UV-5RMHP.

I acquired an evaluation version of this radio a few months back. I started testing it and really couldn’t find anything wrong with it. Well, that isn’t 100% true. When I tried to program it with my RT Systems software…it failed. I looked to see if CHIRP had a version and NOPE, they didn’t.

I called RT Systems about the programming problem and within two days they had their UV-5 programming software humming along just fine with the new UV-5RMHP radio. Now that is why I like RT Systems software…they respond and they are professional programmers maintaining critical software.

So, I programmed up the UV-5RMHP with my standard channel plan and began the testing for performance. Wow!

I was very pleasantly surprised with the radio. First, it operates exactly like the UV-5RA so that eliminated any learning curve. It also programmed exactly the same with one exception, in the “Tx Power” column there were three choices vs. only two with the UV-5RA. The UV-5RMHP has three settings “L, M, H.” Which translates into 1w, 4w, 7w of power programmable for each channel. SWEET!

Back, to the testing…I looked over the radios to find any differences and couldn’t find a single operational difference other than the key that first locks/unlocks the radio, then is used to switch between “high” and “low” power on the UV-5RA radio. On the UV-5RMHP that key still locks/unlocks the radio, but it now switches the power; “high” “low” “medium.” Which corresponds to the new wattage capability while transmitting.

So naturally I had to test the new wattage with various antennas…

If you look that chart over and you are a tech geek you will see that there is vastly improved power being delivered to the antenna. For all of us non-tech geeks the chart shows 50 – 100% more power to the antenna in some frequency ranges. Not only that but the SWR readings are terrific with only a couple of exceptions. And even then the SWR readings are still well within operational parameters.

Some Technical Specs –

• FirmWare: 2015
• Frequency Range: 136-174 / 400-520MHz
• Dual-Band Display
• Dual Frequency Display
• Dual-Standby
• 7 / 4 / 1 watts of Output Power
• 128 Memory Channels
• 50 CTCSS and 104 DCS
• Built-in VOX Function
• Burst Tone 1750Hz
• FM Radio (65MHz-108MHz)
• LED Flashlight
• Large LCD Display
• High/Medium/Low Power Switchable
• 25KHz/12.5KHz Switchable
• Emergency Alert
• Low Battery Alert
• Battery Saver
• Time-out Timer
• Keypad Lock
• Monitor Channel
• Channel Steps: 2.5/5/6.25/10/12.5/25KHz

More Info –

Field testing was amazing! But, since my field testing environment is different than your environment I am not going to say I was able to get X more distance with the UV-5RMHP over the UV-5RA. I will just say that I clearly got more distance with the UV-5RMHP.

And now one of the greatest aspects to this new model of the UV-5R radio…the UV-5RMHP uses all of the same accessories as the UV-5RA radio! Every single accessory works on either radio just fine.

And another great feature…the RT system programming software of the UV-5R works on both models as well! I just have three options now on the “Tx Power” column when programming a UV-5RMHP vs. two when programming a UV-5RA.

So where are we on the price/performance benchmark? Not bad, not bad at all.

• The UV-5RA retails right now for about $25. That is $6.25 per watt of output.
• The UV-5RMHP retails for $40. That is $5.72 per watt of output. (note: radio is not available as of 2019)

But when you consider there are times you can 11watts going out the antenna, then that makes it $3.64 per watt of output. Although, I would stick with the more realistic and consistent $5.72 per output watt performance. That makes the UV-5RMHP a better performance for the price while being only about $15 overall more expensive than the UV-5RA.

So which radio do you buy?

• If $15 is no big deal, buy the UV-5RMHP !
• If you need to buy 5 radios for your family the $15 difference comes to $200 vs. $125. With the $75 difference can buy three additional UV-5RA radios. So you might be better off with the UV-5RA radios.
• If you are not going to be using the radio over longer distances the UV-5RA is just fine.

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without expressed written permission from AHTrimble.com
See Content Use Policy for more information.

While I was beefing up my communications capability I was trying how to maximize my Baofeng UV-5 and Yaesu FT60 handheld Ham radios. Both are great radios for different reasons. Read more about each radio rfom the articesl that posted earlier this morning…Yaesu FT-60 and Baofeng UV-5

The radios are called “handhelds” or “handi-talkies” for a reason. They are meant to be lightweight, portable, and carried on your person. However, there are times when transmitting or receiving over greater distances would be preferable, or even needed. So I was trying to figure out how to make them more useful. I had already purchased the mag-mount vehicle antennas with handheld microphones and antenna adapters. Then I decided to go back and write a mission for what I was trying to do.

Mission –

An antenna system to provide longer transmitting/receiving ranges for handheld radios and to create a mini-communications center that is highly portable.

Yup, while I was writing the “mission” for this application I realized that if I did this right I could really use the ability of the handhelds to dual scan the UHF & VHF bands. And if I had a second radio then I could talk on two primary use freqs as well. Then it hit me that I was talking a mini-communications center using two handheld radios if I had the right antenna set-up.

Here is the result:

I took a 1-1/2″ x 36″ angle aluminum.  then decided I could mount an antenna on either end. I already had a couple of new Tram 1600 1/2 wave marine antennas sitting in the shed for UHF/VFH radios that I wasn’t using.

I drilled out the center hole for mounting on a camera tripod just like had already done for the FT-8900 radio. Then I drilled the holes for the Tram marine antennas and mounted them.

I attached the bracket to the camera tripod using a wingnut purchased at Lowes.

Nest came the big test, hooking up my Baofeng UV-5R handhelds and putting the SWR meter to it.

BINGO!!  My SWR meter readings were well within acceptable limits and no tuning of the antennas were necessary. So now I have a mini-communications center with low-cost handhelds. Or I can hook up my more expensive Yaesu FT-60Rs. My mini-communications center gives me the ability to scan lots of frequencies at one time by a single person. The remote microphones is added comfort. Using headsets can add privacy and security if it is needed as well.

Be creative with what you have! There are solutions out there is you just think through what your need is and correctly defining the mission.

Have fun – create !

Note: The camera tripod has a hook located in the center of the legs that is designed for something, I am not sure what. But for my use it is a perfect place to attach a rope, bungee cord, or some 550 paracrod to hold the tripod to the ground.

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UV-5RA radio from Baofeng. I can’t say enough good things about this little radio!  This radio is compact, battery charge lasts a very long time, versatile, and so far it is proving itself to be very durable.  The downside? Yeah, made in China.

FYI…I spent about $130 for the radio and all the accessories to make this radio really work in every aspect for me.  This is a true bargain in every sense of the word. This radio, as I have outfitted it with accessories, goes a very long way towards overcoming communications issues during emergencies and disasters. When it comes to “grid-down” I believe this little beauty will make a life-saving difference.

One of the highest priorities in any emergency or disaster (yes, including “grid-down”) is the ability to communicate.  And this sweet little radio is fully programmable; it is wide open to programming on any of the standards 70cm and 2m frequencies available to Ham operators, plus a whole lot more!  It can also be programmed for all the NOAA, FRS, GMRS and MURS frequencies for use during emergencies.

This is a true dual-band radio as well.  You can monitor 2 frequencies at the same time, even frequencies on different bands.  The LCD screen clearly displays the frequencies or channel names. And switching between the two frequencies is very easy, push one button.

At just $24 per radio it is an unbelievable bargain. Easily affordable for each member of your family or group.

Some standard, web-based information and technical specifications…

The handheld radio is a micro-miniature multi-band FM transceiver with extensive receive frequency coverage, providing local-area two-way amateur communications along with incredible monitoring capability.

Tech Specs:

• Frequency Range: 136-174 / 400-479.995 MHz.
• Full height two-color LED definition display. The screen has exquisite clarity.
• Field programmable from keypad.
• Programmable via computer software.

The Baofeng UV-5RA is a compact F.C.C. Part 90 hand held transceiver providing 4 watts in the frequency range of 136-174 MHz and 400-480 MHz. It is a compact, economical handie-talkie (HT) that includes a special VHF receive band from 65 – 108 MHz which includes the regular FM broadcast band. Dual-monitor and dual-reception is supported. You get up to 128 memories that are programmable from the keypad or via programming software.

Other features include:

• selectable wide/narrow,
• battery save function,
• VOX,
• DCS/CTCSS encode,
• keypad lock,
• built in flashlight.

Selectable frequency steps include:  2.5, 5, 6.25, 10, 12.5 and 25 kHz. RF power may be selected at 1 or 4 watts depending on your field needs and battery life requirements.

This radio comes with:

• ANT5 SMA-J flexible antenna (rubber ducky),
• BL-5 Li-ion battery (7.4V 1800 mAh),
• Ear piece and lapel microphone,
• belt clip,
• wrist strap,
• drop-in charging tray with AC adapter (8.4V 600mA).

I loved this radio as soon as I took it out of the box! There is a “feel” to it that just gives that impression that it is a decent quality little radio. It doesn’t quite compete with my Yaesu FT-60R but my 60R was also SIX TIMES more expensive!

From a fully functional, field utility perspective, the UV-5RA competes just fine with the 60R. And I would rather every member of my family have a UV-5RA than only one member of the family have the better quality, far more expensive, Yaesu FT-60R.

I did some field programming from the keypad and it is OK but would be tedious and challenging to try and do to much of it without a manual right there and plenty of patience. I use the RT Systems software to program the UV-5RA. The RT Systems software works perfectly, easy to use, dependable, and I love the support from RT Systems folks if you ever have a question.

There is a huge bunch of accessories for this little gem. You can add-on to this radio to make it function in just about any role or perform any mission you need it to. Couple things that I did with this radio that might interest you:

• Turned it into a vehicle based mobile radio with improved range.
• Made a “mini-communications” center with it with way better antennas for improved range.
• Increased its battery life by adding a 3800 mAh battery to it.
• Added a AA battery tray to it making it more versatile with alkaline or rechargeable batteries.
• Made it independent of internal power with a 12vDC adapter cord.

Here is a list of accessories that I consider a “must buy” to really make the radio fully function for emergency, disaster and “grid-down” usage:

• 14.5″ dual-band antenna – Significantly improves operational range and quality of reception.
• Vehicle external antenna & connector/adapter cable – Allows the radio be operated from a vehicle with considerably more transmit and receive range.
• Speaker Microphone – Makes radio operation in many circumstances way more convenient, especially during vehicle operation in conjunction with the vehicle external antenna & connector/adapter cable.
• Programming software & cable – This is an absolute must as far as I am concerned to allow this radio to become fully functional for you. It opens up a whole lot of capability and “usability” for you. RT Systems is the only programming software I use or recommend.

Bottom line…

“BUY” this radio and you won’t ever regret it!

If you would like to see the best price just for the UV-5RA radio visit Amazon →

The radio is now only $24.00 on amazon!!

2009 - 2019 Copyright © AHTrimble.com ~ All rights reserved
No reproduction or other use of this content 
without expressed written permission from AHTrimble.com
See Content Use Policy for more information.

note: article first appeared in January 2015

In this post I will go over how I store my 60R, what I store/transport it in, and what I store with it.

In a previous article that was posted about 15 minutes ago I went over the Yaesu FT-60R radio and accessories.

So let’s go over my standard format, what is the mission for all of this?

Mission –

To safely store two radios and all components with which to operate the radios.

Requirements & Restrictions –

1. Cases must be sturdy, at least to military specifications.
2. Cases musty protect against dust, dirt, and water impingement.
3. Cases should protect the contents against damage due to reasonable heights and rough handling.
4. Cases should be low profile and not draw attention to them.
5. Case should be light enough for one person to easily carry.

The case I chose was the SKB i-series 3I-1610–58-C. These cases are waterproof and as sturdy, if not more so, that Pelican cases. And they are cheaper that Pelican cases. They come with “cubed” foam ready to be cut to size for your equipment.

So this is what my case looks like for my two Yaesu FT-60R radios.  The case is clearly labeled for easy identification.

Yaesu FT-60R Radio Case –

Bottom Level:

• 2 x Antennas, Dual-Band, 14.5″, Comet SMA24
• 2 x RF coaxial cable SMA female to UHF SO239 PL259 femaleRG58
• 2 x FT-60R Owner’s manual and US Amateur Bands chart in a Ziplock bag
• 1 x RT Systems Programming CD

Middle Level:

• 2 x Yaesu-VC-25 VOX Headsets

Top Level:

• 2 x Yaesu FT-60R radios
• 2 x Antenna, 7″ (rubber duck)
• 2 x Battery packs, rechargeable, L34D
• 2 x Battery trays, AAA
• 2 x Chargers, 12vDC (cigarette light style)
• 2 x Chargers, 120vAC
• 2 x Surveillance style earpieces with lapel microphones.
• 1 x RT Systems Programming Cable

I have given you a list of the equipment needed to run the Yaesu FT-60R Ham radio. Is it everything you might need?  This was meant strictly for the radio equipment itself and the essential equipment to get it going.

Take this list and use it as a starting point for your specific need and mission.

Note #1 : I specifically didn’t store batteries (other than the rechargeable pack) because I didn’t want to run into a corrosion issue.

Note #2 : This is a smaller case than the ones I use for the FT-8800, FT-8900, and the FT-897. Why? Because I bought this case first. If I had taken the time to measure everything out first I wold have stuck with the SKB i-series 3I-1711–68-C for all my radios.

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No reproduction or other use of this content 
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note: article first appeared in January 2015

As you soon as you pick up this radio you know you are holding a high-quality piece of electronic gear.  It has that “feel” to it, and you won’t be disappointed. The sound quality is excellent, 1000 programmable channels for all your favorite frequencies, and it can handle water! While I wouldn’t try submersing it, this radio can handle a pounding rain storm.

Generally I am seeing the radio last about 4 days on a full charge 1400mAH battery.  The dang radio is built solid and can take some abuse and drops; but please don’t.  The 60R is pricier that the Boafeng but it is also a whole lot higher quality radio.

If I was going to only have one Ham radio this would be the one I would buy.  Period!  End of story.

The Yaesu FT-60R dual-band 2 meter/440 MHz HT boasts 5 watts output on both bands. It also features wideband receive from 108-520 and 700-999.990 MHz (less cellular). Two programmable keys are provided for your convenience. There is even a password feature to prevent unauthorized use of your radio. Radio to radio cloning is possible with the optional CT-27A cable.

Other refinements include: One touch NOAA weather, nine DTMF auto dialer memories, die-cast weather resistant case, ARTS Auto-range transponder system. There is also a Mono-band and Memory-only operating mode.

Features –

• Over 1000 Memories
• 5 Watts RF Output
• Backlit Keypad
• Alphanumeric Display
• NOAA Weather Alert
• PL Encode/Decode
• DCS Encode/Decode
• Emergency Auto ID System
• ARTS System

Dual Band VHF/UHF 2 Meter & 70cm Amateur Radio. CTCSS/DCS (PL & DPL), DTMF, AlphaNumeric Display, Lighted Keypad, Scan modes. Receives 108-520Mhz and 700-999.99Mhz (less cell), Transmits 144-148Mhz & 430-470Mhz, Locking mode prevents accidental changes of frequency. One Thousand memory Channels, NOAA Weather Alert, Receives Emergency channels in 800-900Mhz, RF Power Output: 5W (High) / 2W (Middle) / 5W (Low). Basic set-up includes 1400mA Battery, Charger, antenna & belt clip.

Note:  Don’t leave the radio charging in the charging cradle. Once its charged, take it out.

Here is a list of the options I would purchase along with the radio to give you a whole lot of flexibility and capability –

Comet SMA24 DualBand Amateur Radio & Scanner SMA Antenna For Handhelds – 2M/440
This antenna is actually the correct antenna length for the Yaesu radio.  The short antenna that comes with the radio (rubber ducky) is good but this antenna will get you better performance.  This antenna is more suited for the 2m and 70cm frequencies.  The only downside, as with all longer handheld antennas, is the spot where the antenna whip enters the antenna base.  I used a piece of “heat shrink wrap” to reinforce that point and assist in keeping any contaminants out.

Yaesu Standard 12V DC Adapter For Handheld Tranceivers SDD-13 E-DC-5B
You have to be prepared to run off of 12vDC power during any disaster or emergency.  This charger will replace the AC charger that comes with the radio and allows you to recharge your radio’s battery of any 12vDC power source (i.e. your car battery).

Vehicle external antenna & Connector cable plus speaker/microphone : This three-part accessory is a must have for vehicle operations.  Operating a handheld radio inside your vehicle will reduce its power to reach out longer distances due to the metal shell of your vehicle.  It may also interfere with the quality of transmission as well; making your message sound distorted at the other end.  You overcome this by mounting an antenna on the roof of your vehicle.  Not a permanent antenna, a magnetic mount antenna; you can move the antenna to other vehicles if needed.  You can also use it in a non-vehicle setting as well by placing the antenna higher than the radio would normally be located.  You must use the adapter cable to connect the radio to the antenna cable.  Using the separate speaker/mic prevents wearing out the connection between the adapter cable and the radio.  You don’t have to hold the radio and move it around, you simply use the speaker/mic and leave teh radio sitting in one place.

Accessories to buy for this three-pack –

• Tram 1185 Amateur Dual-Band Magnet Antenna
• RF coaxial cable SMA female to UHF SO239 PL259 femaleRG58
• Yaesu Vertex MH-34B4B Speaker Microphone

Yaesu-VC-25 VOX Headset : This headset allows you to have a whole lot more privacy while using your 60R as more of a base station.  Which you can do by the way by adding a better antenna.  But this headset is top-quality unlike a lot of  the knock off aftermarket stuff.

Battery Tray :  The Yaesu FBA-25A battery tray is a great option to leverage your AA rechargeable batteries. I found that some of the rechargeable AA batteries on the market are a little large of diameter to fit in the tray correctly.  I use Energizers and have no problem.

Headset : If you want to go “undercover” and look like a secret agent or be discreet about having a radio under your coat you can use the IXRadio TW-HSBYA807-Y.  This is sometimes referred to as a FBI headset.  It is discreet and low-profile.

Programming Software w/cable :  RT Systems FT-60r Radio Software.  While the radio is fully programmable from the keypad that is not the way you want to try and program this puppy. I tried several different “free” programming software program; had problems with all of them.  RT Systems puts out a superb product that can’t be beat in my opinion. FYI – You can use the files from any of the RT Systems software to transfer to any other radio that you are programming.  So I can use all programming I did for my FT-60r for my Yaesu 8900 radio as well with a simple click of a software button.

2009 - 2019 Copyright © AHTrimble.com ~ All rights reserved
No reproduction or other use of this content 
without expressed written permission from AHTrimble.com
See Content Use Policy for more information.

note: first appeared late 2015

In the first article published about 30 minutes ago I described what I was trying to accomplish and then I defined the specific mission. Once all that was done I was able to list the individual components that would go into the box and the specifics for each.

This article will give you a step-by-step description of exactly how I built the final rig. I have even included some notes with pointers and suggestions.

I really hope this shows you how simple this stuff can be. And I also hope it motivates you to get some decent communications gear and capability ready for emergencies, disasters and grid-down.

Let’s get on with it…

The Build

My main concern was the limited space and heat generation. I wasn’t worried about the battery orientation because it is a sealed battery and won’t (shouldn’t) leak. Since the box will spend most of its life sitting upright in storage like a normal ammo can, I decided to orient the battery installation to be upright when the ammo box was in its normal upright position. When the radio unit is operational the ammo box will be sitting on its side and so will the battery. That shouldn’t pose any problem at all.

But, exactly how to secure the battery so it wouldn’t move around was the single biggest challenge. Before I tackled that issue I did have to get the radio positioned, but that proved to be really easy. It would be oriented vertically when in operation, horizontally when stored. Also, this would call for a remote head installation.

Step #1 – The Radio.

No matter how I looked at it I could only see one reasonable way to mount the radio, and that would require four holes drilled through the box to properly secure the radio. I also wanted to leave a little room so the remote head extension cable can be connected without rubbing against the bottom of the metal box. To protect the cable, the radio will sit 1/2” off the bottom of the ammo box.

I also wanted to mount the radio so the speaker orientation was facing up, directly toward the box side, so the sound would bounce off the box giving the volume a little boost. That would place the built in fan pointing out helping with air flow. The fan starts up when a transmission is initiated.

I made measurements approximating where the first radio body hole would be drilled through the box. I used my square to keep all the measurements exact and consistent. I laid out the first hole, punched the starter “dent” and drilled the hole. I was using the standard Yaesu installation screws so I sized the hole appropriately; the mounting screw barely went through the hole.

Once I drilled the first hole I tested the hole in relation to the radio and it was a good match. The radio would end up exactly where I wanted it inside the box.

Once that was done I then used the measurement between holes on the radio to verify the earlier mark for the second hole on the same side of the box. I punched the starter “dent” and drilled the hole.

Couple notes…

Note #1 – I used a really good “punch” to start the hole I would drill. If you don’t punch a starter dent your drill bit will tend to “walk around” and your measurements go right out the window.

Note #2 – I marked an “X” across each hole in the radio. It would make lining them up easier once the radio was inside the box. You can see each “X” through the hole in the box as it passes by.

Note #3 – I have a really decent little set of diamond files. I bought them at Harbor Freight. They were only a few bucks and I have used them more than any other set of files I have. I use the little rat-tail file to clean up the inside of the drilled holes.

Note #4 – After you have drilled each hole you need to follow Note #3. Once that is done use a flat file for ammo box metal and clean up the inside of the box where the hole went through the side of the box. There will be sharp jagged edges unless you file them flush with the box.

Note #5 – After I drill each hole I test it for alignment with the radio chassis. I actually install the mounting screw but only part way. Only “part way” allows for some wiggle room when testing the other holes’ alignment.

Both holes on side one lined up perfectly. I took the radio back out and then measured the holes’ placement with the square. If, on the other side of the box, I use these measurements exactly then they should line up perfectly. Notice how I measured in from the sides and bottom and top (3-way) measurements to ensure proper placement of the new holes.

Next came measuring and drilling the opposite side of the box for the mounting holes. I measured from the top, bottom and end using my square. Transferring the measurements from the other side should place these holes in the correct location. I punched the starter dent for hole #3, drilled it, cleaned it up, tested the alignment and bingo! It came out exactly right. Then on to hole #4. I verified the measurement against hole #3 to verify that it would be right. It came out with a slightly different placement, i made the adjust and went on.

I punched the starter dent for hole #4, drilled it, cleaned it up, tested the alignment and bingo! It came out slightly off. I got out the rat-tail diamond file and enlarged it slightly correcting the alignment. I was off by less that the depth of the screw’s thread. I had it corrected in less than a minute of filing. That diamond file is really sweet.

I then tested the alignment with all four mounting screws and it came out right on the money.

Step #2 – The Battery.

Next I had to resolve the issue of securing the battery, this was going to be no easy task. I spent a whole bunch of time looking at different mounting options. Finally I came up with something I thought would work well.

I knew that no matter what, I had to secure one end of the battery really well. So I put the permanent mounting bracket in the most natural spot that I could, the hinge end of the ammo can. Then it seemed only right that I put a piece of angle aluminum across the whole end to secure the battery no matter its exact side-to-side alignment.

I placed the battery in the can and measured from the top of the ammo box to the top of the battery and I drew a line on the metal can across the top of the battery on the end of the ammo box metal. I double measured the line from the top of the box. I added a very small additional space allotment during this process. The thickness of Gorilla Tape to be exact. Once this was done I transferred that line to the outside of the ammo can.

Note #6 – I decided to use pop-rivets to secure this bracket to the back of the ammo can. I didn’t see myself ever needing to take this piece off so I decided that riveting it would be just fine.

I drilled my first hole through the angle aluminum 1″ from the first side. I would do the same on the other side of the aluminum angle as well. I lined up the angle aluminum piece, now with the holes in it, and marked my first hole on the ammo can. I “punched” it, drilled, and cleaned up that hole. I placed the angle bracket piece on the can lining it up with the newly drilled hole and the drawn alignment line. I placed a rivet in the hole to stabilize it and give me a sure spot for hole #2. It did and I marked hole #2 on the ammo can. I “punched” it, drilled, and cleaned up that hole.

I moved the securing angle aluminum bracket to the inside of the box, verified the hole alignment and riveted it in-place. I placed the rivet on the inside of the can, pushed it through the box placed a rivet washer on it and finished the riveting process.

Note #7 – I used rivet washers to make sure I had a good strong fit of the bracket to the ammo can. The washer goes on the outside of the box over the end of the rivet prior to finishing the riveting process.

I finished it off with two layers of Gorilla Tape to protect contact with the battery case. I inserted the battery and everything fit snug. Just like it was supposed to.

Now it was time to figure out the next step in securing the battery. But after about an hour of looking it over I gave up. Well, I should say I took a break to give my mind a rest and pray for a new idea or two.

In the meantime I figured I could go ahead and fabricate the bracket that would hold the remote radio head bracket and the volt meter. I took an 8″ long piece of 1-1/2″ angle aluminum, laid out the location for the volt meter hole first, then ensured that the remote head bracket would leave enough space from radio chassis. I decide that I wanted the remote head in the center of the box to give it the most protection from damage. Also, I wanted it shaded the most from the sun and other light as well. So the volt meter would get mounted on the end of the bracket closest to the hinged end of the ammo can.

I used 1-1/2″ sock to give me enough room for the 1-1/4″ hole I would have to drill for the volt meter. Now, let me tell you right up front…use a good quality hole saw. If you use a cheap hole saw you may get enough “wiggle” or “wobble” in the hole saw that your hole ends up too large. My old one was shot so I went out and bought a  Lennox Bi-Metal hole saws and I am real happy with them.

Once the hole for the volt meter was cut, I Gorilla taped the face of the bracket and tech crewed the remote head bracket into place.  Yes, the hammer is there to make the “fine” adjustments that might be needed 😉

I attached this mounting bracket to the side of the ammo can using the previously installed hinge-side battery bracket to hold it in place. While I was lining up the bracket to drill another hole in the ammo can to secure it, I “saw” the solution to finish securing the battery in-place. It is hard to describe to you so let me just show you the pictures.

I cut a 4-1/2″ piece of 1-1/2″ angle aluminum to it would fall just shy of the positive terminal of the battery by about 3/4″ of an inch. Then I cut a notch to match where the negative terminal sits on the battery. I Gorilla taped it to protect the battery case from the edges between the battery and the aluminum.

Now I just had to figure out the last little question of keeping the battery from moving side-to-side.

The answer was to drill a hole and place a bolt through the angle aluminum. I didn’t want the battery case exposed to the bolts threads so I installed nuts on the bolt. I topped it off with a lock-nut at the end. Then I put two layers of heat shrink over the nuts.

Then I figured out how to permanently attach that bracket to the 8″ piece holding the remote head bracket and the volt meter. I used a large tech screw in the center of the remote head bracket and a smaller tech screw to the bottom right of the large one. In the picture to the right the “large tech screw” is the one in the middle of the remote head bracket. In the picture to the right – red are the tech screws that hold the remote head bracket is held to the angle aluminum, green are the tech screws that hold the two pieces of angle aluminum together.

I installed the volt meter and tested for fit and alignment. Ooppppsss!

I hadn’t accounted for the volt meter protruding through the bracket, it ran square into the riveted bracket that is holding the battery in-place. So I had to drill out the rivets and notch that battery hold-down bracket to make room for the volt meter. Time…10 minutes and I was back in operation with a perfect fit.

Now it was time to start wiring some stuff. First up was my battery connections. The battery has “F” style terminals. The right piece of equipment to make this happen is a Powerwerx ATC Style Fuse Holders with F-Type Connectors and Powerpoles to make the connection.

——-Side note – But I wanted to be creative and challenge myself a little. I wanted to “adapt” something to see what I could come up with. I had a Powerwerx ATC Style Fuse Holder connector with Powerpoles on both ends siting in my electronics kit. I figured I would just cut off the Powerpoles on one end and put a couple “F” connectors on the ends. But then I started thinking, would that match my “flexibility” intent? Nope! So I made a converter. I put “F” type connectors on one end and Powerpoles on the other end. Now I would hook that up to the battery and then plug the fuse holder connector onto the converter.

But I would would have bare metal connectors on the battery terminals and that is a recipe for disaster…spark, sizzle & smoke.

So I got out some 5/8″ shrink wrap, cut to size, and heated that stuff up to form my own protected “F” style connectors. Yes, I did it to both connectors. I just wanted to show you a before and after picture.

Note #8 – Notice the zip-tie on the wire? That it sued to keep the tension off the Anderson Powerpole connector. The zip-tie stabilizes the wire to each other taking the tension off the Powerpoles.

Bingo! Adapt and overcome! used what I had on hand to make it happen while not destroying an existing resource. Wow! That sounds like the #3 rule of L.I.P.S. “Don’t destroy anything you don’t have to.”

——-End of side note——-

Once I had completed that exercise in creativity I installed the pre-made “F” type ATC fuse connector that I purchased from Powerwerx.

Tip – When you remove the terminal protectors from the new battery…save them. Put them in a little plastic bag and place them in your electronics kit. You never know when you might need to put them back on the terminals for protection when the ATC connectors have been removed.

I fabricated the wiring to connect the volt meter to the power distribution hub. For this “build” I am using a Powerwerx Red-Dee-2 (old style) 4-way power distributor.

Notice there is no power switch. To remove power from everything you disconnect the ATC fused line from the Red-Dee-2 power distributor.

I went through my standard “start-up test” procedure –

1. Test the battery with the multimeter first. That gives me a baseline reading.
2. Hook-up the fused connector, test with multimeter.
3. Hook-up the 4-way power distribution Popwerwerx Red-Dee-2, test each outlet with multimeter.
4. Hook-up the volt meter, test with multimeter.
5. Hook-up the radio after checking it’s dedicated fuse. Test with multimeter before turning on the radio.
6. Turn on the radio and pray there is no sizzle, sparks & smoke!

It all turned out really well. There was a .04v variance between the volt meter and the multimeter but the volt meter rounds to the nearest 1/10th volt. So it was all good. Yes, I hooked up an antenna before I turned on the radio.

The weight of the box came in at a total of 19 pounds, that is everything, including the battery. This came out to a very compact radio “go-box” that can be taken anywhere.  You can also just throw it in a backpack and head up the mountain.

The solar recharging capability is a serious bonus. This gives you a renewable energy source that you don’t have to scrounge up or steal from something else like gas for a generator.

Remember…this was built for a Yeasu FT-8900R. But a Yeasu FT-8800R also fits it. Both of those radios have built-in cross-band repeater feature. You open up, the box, plug in the solar, turn it on, set-up the frequency package and you are ready to operate. You are in business if you use it as a regular Ham radio for communications or let it run remotely as a repeater.

I hope you enjoyed reading about this “build” as much as I enjoyed making it. But I sure would like you to take this information and put it to use meeting your own radio needs. If you have any questions or need help with your build just “reply” here let’s tart talking.

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without expressed written permission from AHTrimble.com
See Content Use Policy for more information.

note: first appeared late 2015

I decided to build this really cool solar rechargeable battery powered Portable Power Box. The Power Box was to provide battery-based power in the event the AC power went out.

So I went back to the basics of a Power Box…supply power to a Radio Go Box solution in that build. As I went through that process it became clear to me that I had two distinct missions for Ham radio operations. Dual mission needs…

One mission was the “emergency preparedness response” and the other was more along the lines of “grid-down” or field-going type of missions. And they have somewhat different operating environments. But either way, my Go Box had to be stand alone. That threw me into coming up with a very small self-contained, stand-alone Go Box. But I wanted this box to be geared towards the “grid-down” and field-going missions.

The Go Box has to be a completely self-contained unit that enables a person to use a mobile Ham radio without external power. I chose the “mobile” aspect to provide for as much transmitting power as reasonable, given the field portability aspect.

The unit will also have a battery in the box to provide power for itself independent of any other power source. Obviously the battery can’t be very large so the ampere hour capacity will be relatively small. But the design will provide the unit with the capability to connect a solar panel for power to run the radio and to recharge the battery whenever there is sufficient current from the solar panels.

Additionally, I am toying with the idea of being able to “daisy chain” Power Boxes together to increase ampere hours capacity (operational time). 

NOTE#1 : For solar recharging the Go Box I currently have GoalZero Boulder30 solar panels with a GoalZero Guardian charge controllers. However, I am researching and will soon begin field testing a dual 30w (60w total) system that is showing a lot of promise and has a lot of potential. I am also trying out a couple of other charger controllers to improve overall charging efficiency.

NOTE #2 : I also am looking into low voltage disconnect units (LVD) to protect the battery from over-discharging. All of this is going to take some pretty tricky engineering to get it right. At any point if you are seeing something that isn’t making sense, or is a potential problem, please say to me something right then and there.

So back to the Go Box project…

I have outlined some of the basics and the mission for the unit. Now let me start outlining the components:

Container. I have decided on the .50cal ammo can as the container for the Go Box. There are a whole list of reasons but here are few primary ones –

• They are extremely sturdy.
• They are water and airtight.
• They are a very convenient size.
• They are also my choice of container for Portable Power Boxes.
• They have a nice, sturdy, collapsible carrying handle.
• I have several in my shed that need using.

Once I decided on the container I struggled on keeping the integrity of the box in-tact. In other words, do I drill any holes through the box for mounting purposes? I worked at it for a couple of hours laying it out. The only really feasible method to mount much of the guts was to drill holes through the box, thus, breaking the container’s integrity. But I think it is worth it and won’t significantly reduce the container’s overall usability for this project in the intended environment.

Next I had to decide exactly what would go into the box. That may sound kind of silly but I wanted to keep the component list to a minimum. I wanted to keep costs low, reduce the amount of heat generated, keep it as lightweight as possible and I didn’t want it all jammed up. So here is the component list I came up with:

Radio. Yaesu FT-8900R. That is the best all-round radio for emergency work. It has the two main freq bands 70cm and 2m. Plus it has a small section of HF band as well. The radio is amazingly rugged and reliable. And the bonus was…it was the perfect width for the width of the box.

Optionally, I can use the Yaesu FT-8800R as well. It has the same case dimension as the Yeasu FT-8900R. So yes, that means I could turn this into a portable repeater as well.

Battery. Duracell Deep Cycle SLA, 14Ah. The choice of battery was due more to available space than anything else. It was simply a matter of what was the highest ampere hour battery I could get into the box and not interfere with the other components’ installation.

Technical Specs –

• Item Number: WKDC12-14F2
• Brand: Duracell Ultra
• Voltage: 12
• Lead Acid Type: Deep Cycle
• Capacity: 14AH
• Chemistry: Lead Acid
• Lead Acid Design: AGM
• Terminal Type: F2, T2, Faston .250
• Weight: 9.2 lbs

Volt Meter. I have started obsessing over the life span of AGM batteries. AGM batteries are expensive, but they are also really good for Ham radio operations. But they are expensive. Over discharging AGM batteries really reduces their life span. Did I mention that AGM batteries are expensive? Monitoring a volt meter and ensuring that you don’t drop below the safe SOC level keeps your battery in good shape. To track the battery voltage condition I went with the Powerwerx Panel Mount Digital Volt Meter. It has a nice blue display and I’ve used them before. Again, available through Powerwerx.com Nice little high-quality units. But this volt meter will be mounted inside of the box not mounted on the exterior.

Flexibility. By itself this is not a single component but rather a design methodology. I want to ensure that the parts in all my radio and power boxes are interchangeable. That means using Anderson Powerpoles for connections. And I also threw in a 4-way connector to eliminate splicing of wire.

2009 - 2019 Copyright © AHTrimble.com ~ All rights reserved
No reproduction or other use of this content 
without expressed written permission from AHTrimble.com
See Content Use Policy for more information.