Hi Folks,
I'm calling on the electronics wizards of the forum, to ask if anyone can suggest a simple amplifier circuit that meets the following criteria.
- Input Power: 15v DC, up to 40 Amps
- Input Signal: 10v Pk - from a sig-gen
- Output: Same as input (but AC :))
- Fully inverting
- Frequency from 30 KHz to 30MHz (is this range too big?)
I would intend to use this amplifier for the following projects:
- Stan Meyer type HHO Generation
- Vialle Generator Rep
- Any (many) other RF amplification purposes...
Your input is received with thanks. :)
Regards, Tim
;D
Raid the ham shack!
Collins 30L-1 !
Drake L-4B !
Ameritron AL-572 !
Quote from: TinselKoala on January 30, 2014, 03:52:05 PM
Raid the ham shack!
Collins 30L-1 !
Drake L-4B !
Ameritron AL-572 !
TK, mate, those amps are all a) out of production, and b) over £1000... :o
I was hoping for something less than £100...
Is there any current HAM gear that you'd rate - that would be able to use the output from a sig-gen? I know most of them need many watts of input power...
I was expecting more mosfets etc...?
:)
Tim
PS: Poynt99 ?
Hi Tim,
Your specifications for a 'simple amplifier circuit' are not readily met: the main problem seems to insure the lower frequency response of 30 kHz. Normally the wideband transistor power amplifiers that are mainly available at relatively moderate price start from 1.5 MHz or so, this 'limitation' is mainly due to
-the nature of the transmission line transformers used for impedance matching
-the need for such wide frequency negative feedback for the active devices used (phase shift in the feedback loop)
See this paper, it nicely discusses these, you get a good glimpse on what are involved when designing such amplifiers:
http://www.nxp.com/documents/application_note/NCO8703.pdf
Also a good paper:
http://www.eetasia.com/ARTICLES/2001APR/2001APR03_RFD_AN3.PDF?SOURCES=DOWNLOAD
Just designing the wideband transmission line transformers, these are very good papers in two parts:
http://www.radio-kits.co.uk/radio-related/Linear_PA/ECO6907.pdf
http://www.radio-kits.co.uk/radio-related/Linear_PA/ECO7213.pdf
One more thing: the 15V DC supply input voltage is a bit low, when you expect 30-40 Amper output current, you would have to trade for 24V or higher supply voltage. If 13V or 15V is a must, you would have to combine several lower power amplifiers (also with power combining wideband transformers) to arrive at the needed output.
Lastly: such amplifiers are designed for driving 50 Ohm loads and you need to protect the active power devices when the load changes in a wide range like during HHO generation or the many other tasks you expect to perform.
See some component prices, out of the many (best prices maybe on ebay?) http://www.communication-concepts.com/index.php/components/rf.html
rgds, Gyula
Hi Gyula,
thanks for your reply, and the links, I'll check them out in a bit...
I did anticipate the range might be a problem, and I thought it might need a different set of mosfets for each application...
I suppose what I'm asking is: There are thousands of amp design out there - is there a particular circuit configuration / architecture which anyone would recommend from experience?
- Few components, easy to build
- Inverting output...
- Driven by a signal generator
- Run from DC supply
Commercial RF amps are expensive, and seem to need a large input signal too (i.e. from a pre-amp...?)...
Regards, Tim
I built this today - it's a single MOSFET amp - from this page, for running my Vialle generator replication...:
http://jnaudin.free.fr/rvproject/html/ugentest27.htm
It's not an inverting amp... But it's pretty :)
So, guys, suggestions, links, recommendations, experiences - for a simple inverting one?
Tim,
Usually in amplifier theory one simply swaps the load
from the source to the drain or emitter to collector.
The load is a resistor so it has two ends and attachment
to either ground or Vcc is possible. In the real world
the load maybe has one "end" and the other must be grounded.
Once the load has been swapped the designer may
have to "clean up" the device gate or base drive and bias
so that it "steps over" the load.
In an AC amplifier a capacitor or transformer can
be used to couple of one stage to another
or the load. If one must have DC coupling then
there is usually a PNP or PMOS complement
device that can be used to help simplify the (non) inverting amplifier.
The complimentory device has similar specs but often
times the positive versions are slightly less efficient
then the negative version which are then used more
often.
:S:MarkSCoffman
I'm sorry Mark, but I don't understand a word of what you just wrote... Load swapping? 'Stepping over'? Coupling Stages? Say what?
I was hoping for simple circuits people have built and found to be good, or links to similar... Something practical to build... The theory is endless - it seems - and I just looking for something practical to start off with... I need to build things to understand the theory...
http://www.tuks.nl/pdf/Reference_Material/Magnetic_Amplifiers/Platt%20-%20Magnetic%20Amplifiers%20Theory%20and%20Application%20-%201958.pdf (http://www.tuks.nl/pdf/Reference_Material/Magnetic_Amplifiers/Platt%20-%20Magnetic%20Amplifiers%20Theory%20and%20Application%20-%201958.pdf)
http://teslapress.com/magamp.pdf
This link is to a short document "Magnetic Amplifiers". On pages 4 and 5 (6 and 7 / 24 of the pdf) you find this (the first page):
"With the addition of two rectifiers (5), the device generates and controls a d.c. load from an a.c. supply."...
and on another page:
"Figures 6 and 7 show further developments with the addition of feedback. Gains of up to several million per stage have been obtained with these circuits."
Quote from: gyulasun on January 30, 2014, 06:12:25 PM
See this paper, it nicely discusses these, you get a good glimpse on what are involved when designing such amplifiers:
http://www.nxp.com/documents/application_note/NCO8703.pdf
Hi Gyula,
I've had a chance to look at the links you posted properly, and i realise that your first link did answer my question about as well as anything could. Thanks. :)
The design with the two BLF177s is exactly the sort of thing i was looking for, and the build cost would be under £100 too. Plus there's loads of good info in there explaining the theory. It looked too technical yesterday - i was in a building mood - but today it makes sense...
I will study this, and the other papers, and see if I can learn it...
Thanks again.
Regards, Tim
Quote from: Qwert on January 31, 2014, 06:55:09 PM
http://www.tuks.nl/pdf/Reference_Material/Magnetic_Amplifiers/Platt%20-%20Magnetic%20Amplifiers%20Theory%20and%20Application%20-%201958.pdf (http://www.tuks.nl/pdf/Reference_Material/Magnetic_Amplifiers/Platt%20-%20Magnetic%20Amplifiers%20Theory%20and%20Application%20-%201958.pdf)
Hi Qwert,
those are cool devices - but i think they can only amplify an AC supply... Would be good for modulating an existing signal, but not for generating one...(?)
Regards, Tim
Quote from: tim123 on February 01, 2014, 08:57:59 AM
Hi Qwert,
those are cool devices - but i think they can only amplify an AC supply... Would be good for modulating an existing signal, but not for generating one...(?)
Regards, Tim
My feelings were also this kind at first. But as I keep it reading deeper and deeper, I see something different. But only experimenting can prove or disprove this for sure.