On Fri, 27 Aug 2004 19:28:39 +0100, Paul Burridge
wrote:

On Fri, 27 Aug 2004 08:07:02 -0700, John Larkin
wrote:

I think the RF guys (I'm not one!) call an amplifier "linear" if the
RF output amplitude follows the input drive amplitude. You can do this
with a transistor that has very low quiescent bias. So "linear" does
not mean "class A" to them. The key here is that an RF amp has a tuned
output, whereas an audio amp doesn't. So the lopsided bias would
normally produce intolerable distortion in something like audio, but
the tuned output circuit changes the pulsey-looking collector/drain
current back into a nice sine wave. So you don't need a lot of idle
current, and the transistor really amplifies half of the incoming sine
cycle.

Most mosfets are pretty nicely linear (ie, straight-line Ic/Vd curve)
beyond the initial knee. You could get gobs of watts at zero standing
current, but then you'd have some zero-clipping (no output) for the
smallest drive levels, so a little idle current helps.

The only sensible way to do it AFAICS is to operate the MOSFET in
class C as a high speed switch and reconstruct the pulsed output into
a sine wave carrier by means of a suitable tuned circuit. I wouldn't
consider driving a MOSFET for RF use in any other way. The efficiency
should be pretty darned good, too.

---
That doesn't make any sense to me.

Unless things have changed pretty drastically from how they were when
I was doing RF, class "C" was pretty much relegated to FM, so that
when you hit PTT, you banged the hell out of the final and filtered
the hell out of the carrier, which went to maximum amplitude and
stayed there, and the information was put on the constant amplitude
carrier by varying its frequency (or phase).

AM and SSB finals were _always_ linear amps and, like John said, the
_amplitude_ of the carrier/sideband(s) followed the amplitude of the
modulating audio precisely.

Whether you use a MOSFET as a switch or as a resistive element
yielding a linearly varying output depends on how you tailor the
characteristics of the MOSFET to fit the application. After all,
there are lots of linear audio amps out there with MOSFET class A and
class B finals, aren't there? So why shouldn't there be linear MOSFET
RF amps as well?

--
John Fields