Jim,
You're the audio expert, but didn't Bob Carver figure out some clever
variable supply voltage tricks with his big Sunfire amps? I have two
and my "Signature" stereo is rated 2 to 16 ohms (1250w/ch 4 ohms) and
runs stone cold even when delivering big power. No other amp I've tried
had the headroom needed for my B&W 801Fs to generate max orchestral
peaks at concert hall levels.
So isn't what you are suggesting been done before in the audio domain?
Grant KZ1W
On 10/26/2013 9:21 PM, Jim Lux wrote:
On 10/26/13 9:05 PM, Richard Karlquist wrote:
On 2013-10-26 18:35, Richard Solomon wrote:
It may take some innovative fellow to come up with a SS Amp that
behaves
better and my mention of LDMOS devices may be the way to go.
Some of the newer LDMOS devices are quite robust, and seem to be
oblivious of SWR (to a point).
73, Dick, W1KSZ
The recent activity in the LDMOS arena with various manufacturers
trying to outdo each other on maximum SWR specs is not relevant
to this discussion. This is because these specs are merely
survival specs for the active device. It doesn't mean that the
device can deliver useful power into a mismatch.
Unfortunately, there is no "innovative" circuit design or state of
the art device that will make a SS amp operate into a 2:1 SWR
efficiently. If you want to deliver 1500W into any
load with better than a 2:1 SWR, you basically have to build an
amplifier that can deliver 3000W into 50 ohms, but only drive
it hard enough to get 1500W into 50 ohms. It will also deliver
1500W into any 2:1 SWR, but the gain will be somewhat higher or
lower than for 50 ohms, depending on the angle of the load impedance.
It doesn't have to be able to deliver 3000 W to a 50 ohm load, it has
to be able to deliver 1500W to a 100 ohm or a 25 ohm load. It depends
on what the limiting aspects are. One could build an amplifier that is
power supply limited but that can put 100V into a 50 ohm load, and
140V into a 100 ohm load (for the same RF power), but that draws 70%
of the current at the high load impedance.
The heat dissipation will basically double as well, and the power
supply will have to produce about 40% more current.
That's not necessarily the case.. if the amplifier has variable bias
and drain voltages that adjust to what's needed for the match, you can
optimize the efficiency at all powers. A simple design with fixed
Vdd/Vcc, yes, you'll have a bigger power supply and efficiency will be
bad.
All that extra
heat will heat your shack, which is not good in the summer time.
After considering the above, an outboard tuner looks like a much
better option. Or use antennas that are well matched in the first
place.
Or a tuner at the feedpoint, or an antenna that is tunable.
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