Free Designs

This page has some free designs for you do download and play with as you see fit.

Please note that as usual, you use the designs and information entirely at your own risk.  If you are not willing to accept this, simply don't use the designs.

No support is offered for these designs other than the instructions here. 

Hopefully there will be enough info. for you to fill in any gaps with your skill and creativity.

PRP Series Battery Case

Philips / Simoco PRP series hand held radio: Battery Pack Replacement.

NOTE: if you build this do not charge up the  project battery pack using the original PRP battery charger.  The OEM charger was not built to recharge Li-ion batteries as they weren't in general use or even maybe weren't invented when the PRP radios were in service.  

Use the following information entirely at your own risk. If you can't accept that, don't use the information.  

Why did I bother with this project? 

I'm lucky to own a low-band VHF PRP radio that has the UK 4m VHF channels programmed into it.  These radios are not easy to find.  The VHF and UHF ones are more numerous. There was a time when there where bins full of them at radio rallies in the UK.

The PRP series are old radios and are generally obsolete.  As with all radios of this era they were supplied with old-tech NiCd battery packs.  If you are familiar with this technology the batteries have a service life and if you have a battery pack that is still working and holds a charge then your are very lucky.  Most don't even power up off the old battery.

So you have the radio that works, but a battery pack that doesn't.

You could re-cell an OEM pack with NiHM batteries, but your run into problems with charging it.  That is if you can get the battery pack open safely without completely wrecking it. Or you could try putting some Li-ion batteries into the original, but slight problem is that the readily obtainable 18650 ones don't fit inside.

The answer is to update the battery pack by replacing it with one that has Li-ion batteries.  Here two 18650 2600mAH are used, along with a 2 cell balancing board from eBay.  The original charger cannot be used, so instead a charging port is put on the battery pack itself, and a separate charger is used to charge the pack.  This modernises the radio and saves it from the landfill or just gathering dust in a box of junk. 

Note: if anyone from Philips / Simoco is reading this and judges that it is infringing some of your IP, just let me know and I'll take the information off the internet.

Battery Pack Connections

There are a couple of resistors needed inside the battery pack.  There isn't much information on these around, but after a search F5JTZ had some information on his website. Although this was for a battery eliminator, the values are needed for the battery pack.  http://f5jtz.free.fr/pjacquet/prp73faussebat.htm  There is also some useful information about the radio here as well. http://f5jtz.free.fr/pjacquet/tous-radiotel.htm

The connections are made by using M3 C/S screws around 6mm long. The screws where helped into position by warming them with a soldering iron just so that the PLA softened. Instead of a nut to hold the screw I used one of the embedded nut fasteners with a slot cut carefully into it so that it could be tightened with a screwdriver.  The connections were made with wires attached to solder tags that were filed down so that they did not short circuit.  Once in place check the wiring does not show a short on your test meter and then put some non-conductive material in between each of the contacts. You could use glue gun if you like but some heat-shrink can be used, taking care not to overheat and melt the PLA case.

That's it for the instructions.  The rest you should see in the pictures on this page. I'm sure you could massively improve on the use of screws for the electrical contacts.

I don't offer the printed parts for sale as there would be limited demand.  If you want to give the project a go, drop me a line to info@whizz3dparts.co.uk

Parametric Box Spanner / Wrench