Yeah, dont panic. I am still working on the receiver/transceiver i have this pile of boards sitting here waiting for me to do something with them. I do hope to get to at least one of them this week and move the project along.
No its not an April fools joke. I actually am going to build an rf amplifier capable of over 100w. Sacrilege i know for all the qrp’s out there. But there comes a time when everyone has to have a go at making some power. To date the most power I have made is a little over 10w and typically i would be happy with this kind of power. But for some unknown reason, the other day I decided while waiting for receiver bits, to design and layout a pcb capable of doing a few hundred watts or a little more. Actually, the board should handle 400w comfortably. The limiting factor being the T106 toroids wont handle much more than that on a good day.
The schematic can be viewed here: vk4hat_amp
Now, i do not claim credit for the design. A lot of it was directly copied from a 6m amp design by OZ1PIF http://frenning.dk/OZ1PIF_HOMEPAGE/50MHz_IRF510.htm all i did really was add my own spin on it. Grounding the unused side of the Omron G2RL relays for better isolation and the relay itself was recommended by Mark VK5EME from https://www.minikits.com.au/ and other bits of inspiration were taken from people like LZ2JR http://lz2jr.com/blog/index.php/mosfet-linear-power-amplifier-50-watts/ from whom i learned about the FQP13N10 mosfet that lead me to a lot of Cb’rs who use that same transistor in a lot of their illegal amps. From what I have read, its a superior transistor to the IRF510 and should give better output. I will not be disappointed if i do not make a lot of power out of this, but somewhere between 100 and 300w should definitely be on the cards with a supply voltage over 24v.
They say short leads and short traces make everything better. You can see in the 3d view from my ecad how I plan on mounting the transistors. The tab on both the IRF510 and the FQP13N10 is connected to the drain, so i will, with the aid of tab under the mounting screws, soldered directly to the pcb. Other than going bonkers with the via’s its a pretty standard affair with a single 7th order lowpass filter. Yes, I am making this for one band only. I will likley made 2 of them, one for 40 and one for 20m, but making this multi band is just way to spendy. For each band you are adding $50 in relays, toroids and capacitors to the build cost. There is just no way to make power cheap. If the board turns out ok and the amp is a good thing and works. I will probably release the gerbers and let everyone have at it and build their own.