Re: [Amps] Re: matching network

To:	amps@contesting.com
Subject:	Re: [Amps] Re: matching network
From:	"Ian White, G3SEK" <G3SEK@ifwtech.co.uk>
Reply-to:	"Ian White, G3SEK" <g3sek@ifwtech.co.uk>
Date:	Wed, 28 Jan 2004 14:41:06 +0000
List-post:	<mailto:amps@contesting.com>

R. Measures wrote:

**  In a grounded-grids, tetrode amplifier, c. 75% of the total grid
current flows in the control grid and c. 25% of the current flows in
the screen grid.

We need to be very careful about what we mean by "grounded grids".

Both grids need to be grounded to RF... but they don't *have* to be both
connected directly to chassis.

** which means?

Which means: "Keep on reading, before typing".


What Rich says is only true if both grids are connected directly to
chassis (and even then, the current division between g1 and g2 will
depend on the mu-g1g2 value for that particular tube).

** True, but g1-g2 amplification is typically 4 to 5.

Except when it's 13, for a 4CX350A.

If one grid is directly grounded, and the other is bypassed to ground,
and the g1 and g2 voltages - measured relative to the cathode voltage -
are the same as for grounded cathode, then the tube's DC operating
conditions will still be OK. Many VHF/UHF tetrode amplifiers use this
configuration, because at those frequencies the cathode driving
impedance is much easier to match than the grid driving impedance.

** Especially above 1GHz.

The crossover point is actually around 144MHz. Above that frequency, matching into the grid becomes quite tricky, as anyone who has built a K2RIW grid circuit for 432MHz can testify.

In other words, cathode drive is strictly an RF thing. It doesn't *have*
to involve incorrect DC operating conditions.

However, for this particular 4CX350 amp, it makes no sense to convert it
to cathode drive, because the amp will then require a band-switched
input network. As many have said, resistor-swamped 'passive grid' is the
way to go.


**  The 2mA max grid current rating would seem to preclude grounded grid
operation.

Apparently I failed to make my point.

A more detailed Application Note entitled 'Tetrode Grounding Options' is on my website at: www.ifwtech.co.uk/g3sek/boards/tetrode/an-4-1.0.pdf (6 pages, 35KB) It fully explains the options for grid or cathode drive, and for DC grounding and RF bypassing.


--
73 from Ian G3SEK         'In Practice' columnist for RadCom (RSGB)
                           Editor, 'The VHF/UHF DX Book'
http://www.ifwtech.co.uk/g3sek
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