Thanks,
I can also add that the Telefunken transmitters used Wye-Delta switching for
reducing plate and screen voltages during tune-up.
Still remember the tune-up sequence from a "cold start" by heart:
1. Heat the cathodes for two minutes. Seemed like an eternity for the
operators...
2. Apply RF and wait a few seconds for the band-switch and tuning servos to
reach their preset positions
3. Apply plate voltage in Wye connection and wait for the servos to converge,
starting with the servos in the driver stages
4. Apply plate voltage in Delta connection and wait for the fine-tuning to
converge
5. Adjust the drive control until full power is reached and the "ready"
condition is back-signalled
6. If reduced power (1/3) is selected, set the plate voltage control to "Wye"
7. Remove drive and wait for "key" command from the remote control
A complete cycle took about 30 seconds after warm-up, and the procedures were
almost identical between
both the 30 kW and 100 kW transmitters.
73/
Karl-Arne
SM0AOM
----Ursprungligt meddelande----
Från : jtml@losalamos.com
Datum : 2022-09-13 - 17:22 ()
Till : amps@contesting.com
Ämne : Re: [Amps] 10 kw CCS on 6M - High Power Amplifier Installations
Thanks Karl-Arne and Don for sharing insights in tuning up high power
communications xmtrs!
John K5PRO
> ----------------------------------------------------------------------
>
> Message: 1
> Date: Tue, 13 Sep 2022 07:13:53 +0200 (CEST)
> From: "sm0aom@telia.com" <sm0aom@telia.com>
>
> Having worked with really big transmitters; Telefunken 100 kW ISB and
> Thomson-CSF 500 kW carrier AM,
> tune-up works in very similar ways for all practical purposes.
>
> First the low-power drive stages are peaked up for maximum drive voltage to
> the penultimate
> driver grid. After this, the procedures differ somewhat between linear
> amplifiers for ISB and AM transmitters that are
> Class C in the drivers and PA stages.
>
> A servo-tuned ISB transmitter uses the phase relations between the grid and
> plate circuits to establish resonance,
> and then is the plate circuits and their coupling circuits adjusted to
> present the proper load-lines to the tubes.
> Finally, the drive level is adjusted so the proper output power and linearity
> is reached.
>
> In order for this to work properly, the tuned circuits need to be pre-set
> quite closely to their final positions.
> This was mostly accomplished by measuring the input frequency and use this
> information to access tables of stored
> tuning information, either established after the last successful tuning
> operation, or at the design stage of the amplifier.
>
> "Before computers" this was done by dividing the tuning range of the
> amplifier into many sub-ranges and then use the measured frequency for
> choosing one of the ranges with its preset information. After this,
> "Auto-tune" mechanisms with servo motors were first brought to their initial
> positions, and after this phase and load-line discriminators took over
> control.
>
> Class-C transmitters used grid and plate currents to establish resonance
> conditions, and were tuned progressively from the drivers to the final stages
> at reduced power. As the final step, the drive was increased to reach the
> proper carrier output level before high-level modulation could be applied.
>
> The Thomson-CSF transmitters did not servo-tune in the proper sense of the
> word, but used stored settings for each frequency. Instead, the servo-motors
> brought the tuning elements to their pre-set positions without any room for
> adjustments. This worked well because the tuning settings become quite broad
> when operating into a broad-band antenna, and there are no critical linearity
> specifications for a Class-C AM transmitter.
>
> 73/
> Karl-Arne
> SM0AOM
> ---------
> Message: 3
> Date: Tue, 13 Sep 2022 09:56:44 -0500
> From:donroden@hiwaay.net
>
> I spent 40 years maintaining Broadcast transmitters. It was always my
> preference to get the final tube(s) close to their operating points
> before working my way back to the lowest power drivers. Keeping the
> screen voltage low, or keeping the grid voltage near or beyond cutoff
> while using a sensitive voltage or power meter to find the matched
> output network settings resulted in a much reduced stress level..... for
> both me and the tubes. Cathode over-current relays were set at 1/3rd to
> 1/4th typical operating conditions until relatively stable operations
> were achieved. We always worked from the highest powered stages
> backwards to give the lower powered stages a load to work into.
> Lowering filament voltages during tuneups to below operating levels also
> helped to keep the "bang" factor low. W4DNR
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