Ok I'm over in the USA, Muskegon Michigan. I just found your channel, it wasn't easy to find on RUclips.i was going down a rabbit hole,and BOOM I'm here? So I subscribed to your channel to see how it goes
I have learned a lot from this and built it, albeit with a ropey transistor, an IRF 151. Can anyone explain what the 200p capacitor is doing? Does it in any way resonate with the transformer primary - which is broadband, after all. I notice that the capacitor has a good effect on the output waveform, removing a nasty frequency-doubled bump on the wave. I am just enjoying watching voltages on my scope, not building a rig.
Thanks Christian. I presume the 200pF cap is for stability but that's just a guess. I basically just followed the design on the datasheet. Glad you've had some success. 73, Nick
Thank you, Nick. As you see, I am finding that the joy and sorrow of RF is that it's not just clicking functional blocks together like digital. @@M0NTVHomebrewing
Have made the walford ham and hale transceiver and am pretty pleased with it. I can get about 3 or 4 watts out using a gel battery. Can increase the voltage up to around 20V and would get more power out. But I am looking to making an amp to fit into the frame I built it in to boost the op with upto about 15V supply both. Have made one of those minipa70 amps from which I can get about 60W with a ameritron 50A supply. They use nice cheap irf530 mosfets, but they were not designed for rf amp use and I concerned about the spurous ops. I have been thinking of using a band pass filter and a lpf with that. I think however a device like the mrf151 might be cleaner. The only problem: have you seen the price of those things and they are getting rare. mrf101 are only £20 from Farnell and they only sell genuine devices of course. I saw the message on here about the mrf101. I think I will compare the data sheets and have a think. That is the problem these days; you see circuits but usually the devices are obsolete, or horendously expensive. Keith G0 ODU By the way, I am surrounded by hills right here!
Hi Keith, thanks for your reply. Those RF MOSFETs can be pricey it’s true. You can chance it and buy some used ones on AliExpress or buy some less powerful ones. You could then use a couple in push pull. Eamon Skelton has a design for a PA which puts out 16W: Building a Transceiver amzn.eu/d/bUayIuy. Hope this helps. 73 Nick
No I didn't. I haven't noticed an issue but it is certainly something to watch out for. I think some are more noisy than others. Thanks for the heads up. 73 Nick.
@@M0NTVHomebrewing definitely worth keeping an eye on. I'd see a raised noise floor (like humps) each side of the carrier, offset by the switching frequency. Often low enough down not to be an issue, but some were seriously poor.
Brilliant video mate!!! I subscribed on your channel !! Could you please write to me details about the book? I didn't found that. Greetings from New Zealand
Hi Rico, thanks very much for watching, subscribing and commenting! The book I mentioned is 'Building a Transceiver' by Eamon Skelton (EI9GQ) & Elaine Richards (G4LFM) published by the RSGB (Radio Society of Great Britain) in 2014. You should be able to get a copy on Amazon etc. I'm hoping when Cycle 25 gets going I might even be able to make some contacts with some ZL stations - not managed it yet though! Thanks again. 73 Nick
Nick, have you figured out the stages efficiency? Thats a really good measure of how well its working, best i have got was approaching 80% in my 5 watts tx
Hi Ed, no I haven't done this. I basically built it to the Datasheet specifications and hoped for the best! Just getting a clean output with no oscillation was a triumph in itself (you'll understand why this is so significant when you see the final transceiver!). I would like to get into the business of measuring the performance of my RF amps though. I've now got a Siglent Spectrum Analyser so I probably have most of what I need ... apart from the time! Thanks very much. 73 Nick
Great work Nick! Can't wait until you show it working in the next video. Btw did you check out the MRF101 ? - it's around ~23£ and delivers around a 100 watts. Best Regards ,Ash M0LKA
Hi there! Thanks very much for watching and commenting. You don't measure the bias before installing the MOSFET - you build it as I did and then proceed like this. First, with no power attached anywhere you make sure the bias trimpot is fully off (i.e. max resistance so no current will flow to the gate). Second, you insert a multimeter set to measure Amps in series with the main power supply to the amp. Third, you apply the main power to the amp - I wouldn't use 50V to start with even if you are going to run it at that. Start lower - like 12V (you can turn it up gradually later). Make a note of the current draw. This is the current the amp is pulling with the bias circuit off. Fourth, turn the power to the bias circuit on (simulating the PTT being keyed). Fifth, CAREFULLY & SLOWLY adjust the bias trimpot until the meter reads a current draw of 250mA + your base current figure. So if it was drawing 50mA before any bias then you'll be aiming for a total current draw of 250 + 50 = 300mA. Once you've got this set and the MOSFET is happy (i.e. not overheating) then you can try connecting the amp with a dummy load and a signal source (e.g. the radio you've built). You can then GRADUALLY try increasing the main amp voltage up to the required level. The transistor I used likes 50V. Sorry this is rather long and technical. The short answer is that the bias voltage is whatever it needs to be to provide the appropriate level of current flow. It makes me realise I need to do a video on this very subject! Thanks again and 73. Nick
The transformers on input and output are necessary to match the very low impedance of the RF power transistor to 50Ω. On the input that will insure that maximum power is transferred from the driver stage to the power amp. On output you are matching a nominal impedance at the collector/drain (based on a calculation of how much power you want out) to the 50Ω of the following low pass filter and antenna. These are wideband transformers and the output one is built to handle significant RF current. Hope this helps. 73, Nick
I have some problems!!! How rf power amplifier works I have a walkie talkie that have a rf power amplifier module inside and powered by 7.5v and have 5watts of power into the antenna How this is happening? We know our antenna have a impedance of 50 ohm so if: I = v÷r P= v × I I= 7.5v ÷ 50ohm=150mA P=7.5v×150mA=1.12 watts So why ican see 5watts in my power meter
Thanks for your question. The answer is ... it depends! The output of your final amplifier will depend on several parameters: the gain of the transistor; the bias current running through it; the voltage that is feeding it; the power of the signal coming in from the driver amp; the class of amplifier etc. Without a schematic it would be impossible to say for sure. The class is important though - a class A will draw lots of current but waste half it's power on heat that you have to deal with whereas a class E will be highly efficient and you'll get more power out and less wasted. Some of the small HF QRP rigs are now using class E finals. I'm afraid the calculation is not as simple as you think. Check out Charlie Morris' RUclips channel where he walks you through the calculations of how a power amplifier works. 73 Nick
@@M0NTVHomebrewing thanks for answer. I have some modules from motorolla shw5066 they can produce 7watts of power with 7.5 volt battery and when I opened it ididnt see any transistor!!! I can send you some pictures of inside of it
Hi there! It depends upon the MOSFET you use. This particular one was originally used in a linear amp for the 4m band (70 MHz) but I repurposed it for 17m (18 MHz). You'll almost certainly need to adjust the transformer ratios if you go this high though. Best idea is to study the data sheet of your device and see what it suggests for a particular frequency. All I can say is that I would expect the design I used to perform pretty well across the whole HF band - with greater gains at lower frequencies. Hope this helps. 73, Nick M0NTV.
Hi Phillip, wow - you're fast off the mark! Why would you want to connect your oscillator to the PA? Normally your oscillator would feed into a mixer (or modulator). Sorry if I'm not understanding you right. This amp is intended to be the final part of the transmit chain (but it will have a low pass filter after it too). It has an input and output impedance of 50 Ohms - courtesy of the two transformers. Thanks for watching! 73 Nick M0NTV
Hi Nick, Thank you for your quick response. I was under the impress@@M0NTVHomebrewing Hi Nick, Thank you for your quick response. I was under the impression the chain for a WSPR beacon was software->si5351->rf amplifier ->low pass filter->antenna. Is this too simplistic ?
Hi Phillip, Ah you didn't mention it was for a beacon - I understand! I think if you've got one of those all-in-one black boxes that Hans Summers sells then you probably can feed it directly into an external RF amp but two questions arise: (1) I thought WSPR was a low power mode so you probably wouldn't want to connect it to something as beefy as I built. (2) I'm not sure what the power output of your beacon is - probably not much. The amp I built needs at least 250 - 300mW drive so you might need some kind of driver first. Hope this helps! Keep going - it's all good fun :)
Hi there! The transistor is good to 230 MHz according to the data sheet. Check out the data sheet (SD2931-10) and you'll find suggested schematics for 30 MHz and 175 MHz. If you are using it for FM then you should be able to dispense with the bias circuitry and run it in Class C for much greater efficiency. I've never built for FM though so I can't advise you on this I'm afraid. All the best. 73, Nick
Hi there, I don't have any downloadable schematic or layout for the PA at present but you could always watch the video and take a screen grab at the appropriate points. At 4:45 I show the SCHEMATIC and at 9:26 I show my LAYOUT. Hope this helps. 73 Nick
That great. I found with FET's that are high gain low drive. I made a few over the years, using BJT RF transistors like MRF 454/421/455 and 2SC 2290/2879 different bias and tuning and make more heat. I have even used 24V and 50 V BJT as well. 2SC2510 Etc. working with LD Mos now. MRFX 80H /BLF 188XR for 6 meters and 2 meters. watch that thermal past. the stuff sold for computers is reactive to RF and will de tune the amp. I had some repairs come threw that CPU thermal compound was used. That ok for oversupply's like LT 1083 reg etc. to get same power on MRF 421 you need about 3 to 5 watt drive . around 10watt gets appx 100 watt PEP out. drawing 12 amps 14V or so. be careful with 50V and higher FET;s. I had one blow the lid right off and made a dent in my ceiling .was one like you are using but VHF on 6meter. had to much bias and not enough attenuator on input. hear in the USA ,NY state been some great 6meter activity . and some 10 and 12 meter as well. 73's
Thanks very much Robert. That's particularly interesting what you say about the thermal paste. I must admit I thought it was all the same stuff! I've found that the genuine RF MOSFETs are much more tolerant and forgiving than IRF510s. In one rig I killed so many IRF510s I could have replaced them in my sleep! Thanks again for watching and commenting. 73 Nick
@@M0NTVHomebrewing easy way to tell thermal paste is color. wight is good in RF. The gray or copper color is bad. has metal flake in it to improve thermal resistance. CPU's in computer's can make lot of heat. better thermal paste was made for them . in RF world the metal flake silver can conduct in HV transistors like IGBT can arc threw. same with copper type. the newer wight silicone base is great. don't dry out like the old stuff did. when working with LD-Mos you will find soldering to a copper base is best way to get heat out. then either a water block or heatsink to the plate. I still like BJT RF transistors. like MRF 477, 2SC 2312C much better than IRF 510s . and for a KW go with tube like 3-500Z or 8877 Etc. 73's Bob
A fun and informative video, thanks again Nick. I was chuckling at the size of the heat sink till you got to the 80W part. That shut me up! 🤣
Thanks very much. Yeah the heatsink is definitely oversized but it certainly does the job! Thanks again. 73 Nick
Ok I'm over in the USA, Muskegon Michigan. I just found your channel, it wasn't easy to find on RUclips.i was going down a rabbit hole,and BOOM I'm here?
So I subscribed to your channel to see how it goes
Thanks Jason. Welcome to the channel. Hope you find something of interest here! 73 Nick
Thanks for another great video Nick, congrats on achieving 83W output power 73's Bob
Thanks Bob.
great stuff welcome back hope you had a good holiday
Thanks very much. Yes, we had a lovely time away. Thanks for watching as always. 73 Nick
I have learned a lot from this and built it, albeit with a ropey transistor, an IRF 151. Can anyone explain what the 200p capacitor is doing? Does it in any way resonate with the transformer primary - which is broadband, after all. I notice that the capacitor has a good effect on the output waveform, removing a nasty frequency-doubled bump on the wave. I am just enjoying watching voltages on my scope, not building a rig.
Thanks Christian. I presume the 200pF cap is for stability but that's just a guess. I basically just followed the design on the datasheet. Glad you've had some success. 73, Nick
Thank you, Nick. As you see, I am finding that the joy and sorrow of RF is that it's not just clicking functional blocks together like digital. @@M0NTVHomebrewing
Oh how awesome very nice to meet you very interested in rd MOSFET been building antenna but trying to buy more test equipment
Welcome to the channel Timothy. Hope you find some encouragement here! Happy building. 73, Nick
looking good!
Thanks Curt!
Have made the walford ham and hale transceiver and am pretty pleased with it. I can get about 3 or 4 watts out using a gel battery. Can increase the voltage up to around 20V and would get more power out. But I am looking to making an amp to fit into the frame I built it in to boost the op with upto about 15V supply both. Have made one of those minipa70 amps from which I can get about 60W with a ameritron 50A supply. They use nice cheap irf530 mosfets, but they were not designed for rf amp use and I concerned about the spurous ops. I have been thinking of using a band pass filter and a lpf with that. I think however a device like the mrf151 might be cleaner. The only problem: have you seen the price of those things and they are getting rare. mrf101 are only £20 from Farnell and they only sell genuine devices of course. I saw the message on here about the mrf101. I think I will compare the data sheets and have a think. That is the problem these days; you see circuits but usually the devices are obsolete, or horendously expensive. Keith G0 ODU By the way, I am surrounded by hills right here!
Hi Keith, thanks for your reply. Those RF MOSFETs can be pricey it’s true. You can chance it and buy some used ones on AliExpress or buy some less powerful ones. You could then use a couple in push pull. Eamon Skelton has a design for a PA which puts out 16W: Building a Transceiver amzn.eu/d/bUayIuy. Hope this helps. 73 Nick
Have you looked at the noise sidebands from the boost converter. My boost converter was horrific on a spectrum analyser!
No I didn't. I haven't noticed an issue but it is certainly something to watch out for. I think some are more noisy than others. Thanks for the heads up. 73 Nick.
@@M0NTVHomebrewing definitely worth keeping an eye on. I'd see a raised noise floor (like humps) each side of the carrier, offset by the switching frequency. Often low enough down not to be an issue, but some were seriously poor.
I got the boo from the UK. Nice one.
Ah, sometimes life's just too short for QRP... Nice work Nick!
Thanks very much.
Cheers mate just found your channel by chance and subscribed. I've also just ordered that book.
Cheers 73s de VK6HIL
Thanks very much Graeme and enjoy the book when it arrives. 73 Nick
Brilliant video mate!!! I subscribed on your channel !!
Could you please write to me details about the book?
I didn't found that.
Greetings from New Zealand
Hi Rico, thanks very much for watching, subscribing and commenting! The book I mentioned is 'Building a Transceiver' by Eamon Skelton (EI9GQ) & Elaine Richards (G4LFM) published by the RSGB (Radio Society of Great Britain) in 2014. You should be able to get a copy on Amazon etc.
I'm hoping when Cycle 25 gets going I might even be able to make some contacts with some ZL stations - not managed it yet though! Thanks again. 73 Nick
Nick, have you figured out the stages efficiency? Thats a really good measure of how well its working, best i have got was approaching 80% in my 5 watts tx
Hi Ed, no I haven't done this. I basically built it to the Datasheet specifications and hoped for the best! Just getting a clean output with no oscillation was a triumph in itself (you'll understand why this is so significant when you see the final transceiver!). I would like to get into the business of measuring the performance of my RF amps though. I've now got a Siglent Spectrum Analyser so I probably have most of what I need ... apart from the time! Thanks very much. 73 Nick
@@M0NTVHomebrewing divide the power out by your supply power (voltage x current), multiply by 100, you have efficiency
Thanks very much Ed. That's really useful to know.
👍Excellent. Look forward to seeing this in action.
Thanks very much Steve. 73 Nick
I keep wondering what's under that cloth on the table behind you.....?
I made a point of uncovering the Shelf-17 on the latest video (No.56). Just so you can see it! 73, Nick
Great work Nick! Can't wait until you show it working in the next video. Btw did you check out the MRF101 ? - it's around ~23£ and delivers around a 100 watts.
Best Regards ,Ash M0LKA
Thanks very much Ash. No I've heard of the 101 but not played with it yet. I'll put that on my list! Thanks again. 73 Nick
@@M0NTVHomebrewing the fm boys in the uk like this Moffset for obvious reasons lol 😂 😊
Thank you for this great video .
Please tell me what should be bias voltage before instaling the 150watt power transistor ?
Thank you very much
Hi there! Thanks very much for watching and commenting. You don't measure the bias before installing the MOSFET - you build it as I did and then proceed like this. First, with no power attached anywhere you make sure the bias trimpot is fully off (i.e. max resistance so no current will flow to the gate). Second, you insert a multimeter set to measure Amps in series with the main power supply to the amp. Third, you apply the main power to the amp - I wouldn't use 50V to start with even if you are going to run it at that. Start lower - like 12V (you can turn it up gradually later). Make a note of the current draw. This is the current the amp is pulling with the bias circuit off. Fourth, turn the power to the bias circuit on (simulating the PTT being keyed). Fifth, CAREFULLY & SLOWLY adjust the bias trimpot until the meter reads a current draw of 250mA + your base current figure. So if it was drawing 50mA before any bias then you'll be aiming for a total current draw of 250 + 50 = 300mA. Once you've got this set and the MOSFET is happy (i.e. not overheating) then you can try connecting the amp with a dummy load and a signal source (e.g. the radio you've built). You can then GRADUALLY try increasing the main amp voltage up to the required level. The transistor I used likes 50V. Sorry this is rather long and technical. The short answer is that the bias voltage is whatever it needs to be to provide the appropriate level of current flow. It makes me realise I need to do a video on this very subject! Thanks again and 73. Nick
I love the idea of buying the $20 Chinese kits just for the parts you need.
Hi John, the transformer was actually a separate kit but you could almost do as you suggest!
What benefit does input and output magnetic coupling bring ?
The transformers on input and output are necessary to match the very low impedance of the RF power transistor to 50Ω. On the input that will insure that maximum power is transferred from the driver stage to the power amp. On output you are matching a nominal impedance at the collector/drain (based on a calculation of how much power you want out) to the 50Ω of the following low pass filter and antenna. These are wideband transformers and the output one is built to handle significant RF current. Hope this helps. 73, Nick
@@M0NTVHomebrewing I can't not subscribe after such a reply. Thanks.
You're welcome! Thanks very much and welcome to the channel. 73, Nick
Excellent 👍👍👍 ❤️
Thank you very much! 73 Nick
Crocodile Nick Dundee ... that's not a heatsink ... that's a heatsink!
That made me smile Neville! 73
I have some problems!!!
How rf power amplifier works
I have a walkie talkie that have a rf power amplifier module inside and powered by 7.5v and have 5watts of power into the antenna
How this is happening?
We know our antenna have a impedance of 50 ohm so if:
I = v÷r
P= v × I
I= 7.5v ÷ 50ohm=150mA
P=7.5v×150mA=1.12 watts
So why ican see 5watts in my power meter
Thanks for your question. The answer is ... it depends! The output of your final amplifier will depend on several parameters: the gain of the transistor; the bias current running through it; the voltage that is feeding it; the power of the signal coming in from the driver amp; the class of amplifier etc. Without a schematic it would be impossible to say for sure. The class is important though - a class A will draw lots of current but waste half it's power on heat that you have to deal with whereas a class E will be highly efficient and you'll get more power out and less wasted. Some of the small HF QRP rigs are now using class E finals. I'm afraid the calculation is not as simple as you think. Check out Charlie Morris' RUclips channel where he walks you through the calculations of how a power amplifier works. 73 Nick
@@M0NTVHomebrewing thanks for answer. I have some modules from motorolla shw5066 they can produce 7watts of power with 7.5 volt battery and when I opened it ididnt see any transistor!!! I can send you some pictures of inside of it
Greetings! If i may ask, what frequency range is this RF amplifier capable of operating in? Many thanks.
Hi there! It depends upon the MOSFET you use. This particular one was originally used in a linear amp for the 4m band (70 MHz) but I repurposed it for 17m (18 MHz). You'll almost certainly need to adjust the transformer ratios if you go this high though. Best idea is to study the data sheet of your device and see what it suggests for a particular frequency. All I can say is that I would expect the design I used to perform pretty well across the whole HF band - with greater gains at lower frequencies. Hope this helps. 73, Nick M0NTV.
Thank you for the video. Can I stick the output of the digital oscillator directly into this rf amp ?
Hi Phillip, wow - you're fast off the mark! Why would you want to connect your oscillator to the PA? Normally your oscillator would feed into a mixer (or modulator). Sorry if I'm not understanding you right. This amp is intended to be the final part of the transmit chain (but it will have a low pass filter after it too). It has an input and output impedance of 50 Ohms - courtesy of the two transformers. Thanks for watching! 73 Nick M0NTV
Hi Nick, Thank you for your quick response. I was under the impress@@M0NTVHomebrewing
Hi Nick, Thank you for your quick response. I was under the impression the chain
for a WSPR beacon was software->si5351->rf amplifier ->low pass filter->antenna.
Is this too simplistic ?
Hi Phillip, Ah you didn't mention it was for a beacon - I understand! I think if you've got one of those all-in-one black boxes that Hans Summers sells then you probably can feed it directly into an external RF amp but two questions arise: (1) I thought WSPR was a low power mode so you probably wouldn't want to connect it to something as beefy as I built. (2) I'm not sure what the power output of your beacon is - probably not much. The amp I built needs at least 250 - 300mW drive so you might need some kind of driver first. Hope this helps! Keep going - it's all good fun :)
dear sir NICK Montv, i would like to ask iis this amplifier use in fm frequency 87mhz to 108mhz fm frequencies////???
Hi there! The transistor is good to 230 MHz according to the data sheet. Check out the data sheet (SD2931-10) and you'll find suggested schematics for 30 MHz and 175 MHz. If you are using it for FM then you should be able to dispense with the bias circuitry and run it in Class C for much greater efficiency. I've never built for FM though so I can't advise you on this I'm afraid. All the best. 73, Nick
Does it work in class A or class AB?
Hi Jose, it is Class A. Thanks for watching. 73, Nick
aqui e do brasil muito bom parabens
Muito obrigado. 73
Circuit and layout
Hi there, I don't have any downloadable schematic or layout for the PA at present but you could always watch the video and take a screen grab at the appropriate points.
At 4:45 I show the SCHEMATIC and at 9:26 I show my LAYOUT.
Hope this helps. 73 Nick
❤❤❤❤❤
That great. I found with FET's that are high gain low drive. I made a few over the years, using BJT RF transistors like MRF 454/421/455 and 2SC 2290/2879 different bias and tuning and make more heat. I have even used 24V and 50 V BJT as well. 2SC2510 Etc. working with LD Mos now. MRFX 80H /BLF 188XR for 6 meters and 2 meters. watch that thermal past. the stuff sold for computers is reactive to RF and will de tune the amp. I had some repairs come threw that CPU thermal compound was used. That ok for oversupply's like LT 1083 reg etc. to get same power on MRF 421 you need about 3 to 5 watt drive . around 10watt gets appx 100 watt PEP out. drawing 12 amps 14V or so. be careful with 50V and higher FET;s. I had one blow the lid right off and made a dent in my ceiling .was one like you are using but VHF on 6meter. had to much bias and not enough attenuator on input. hear in the USA ,NY state been some great 6meter activity . and some 10 and 12 meter as well. 73's
Thanks very much Robert. That's particularly interesting what you say about the thermal paste. I must admit I thought it was all the same stuff! I've found that the genuine RF MOSFETs are much more tolerant and forgiving than IRF510s. In one rig I killed so many IRF510s I could have replaced them in my sleep! Thanks again for watching and commenting. 73 Nick
@@M0NTVHomebrewing easy way to tell thermal paste is color. wight is good in RF. The gray or copper color is bad. has metal flake in it to improve thermal resistance. CPU's in computer's can make lot of heat. better thermal paste was made for them . in RF world the metal flake silver can conduct in HV transistors like IGBT can arc threw. same with copper type. the newer wight silicone base is great. don't dry out like the old stuff did. when working with LD-Mos you will find soldering to a copper base is best way to get heat out. then either a water block or heatsink to the plate. I still like BJT RF transistors. like MRF 477, 2SC 2312C much better than IRF 510s . and for a KW go with tube like 3-500Z or 8877 Etc. 73's Bob