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... as found on Merlin's website.
The Valve Wizard
I'm trying to adapt this to use with a Type E tank (800 ohms, instead of 1.4k - requires 3.1mA drive current instead of 2mA) and an ECC81.
According to this site:
TDSL Tube data [ECC82]
the ECC82 has an anode resistance of 6250-7700 ohms.
TDSL Tube data [CV4024]
whereas the CV4024/ECC81 has an anode resistance of 11000-16500 ohms.
(I'm not sure why there's this variation?)
To work out what the resistance of a paralleled pair is, is it as simple as halving this quoted figure?
The reason I ask is that the reverb signal is very quiet (yet if I bang the tank it is very loud - so the recovery's just fine! I'd say it's the drive at fault) and perhaps I need to better match the load rather than just copy Merlin's example.
The Valve Wizard
I'm trying to adapt this to use with a Type E tank (800 ohms, instead of 1.4k - requires 3.1mA drive current instead of 2mA) and an ECC81.
According to this site:
TDSL Tube data [ECC82]
the ECC82 has an anode resistance of 6250-7700 ohms.
TDSL Tube data [CV4024]
whereas the CV4024/ECC81 has an anode resistance of 11000-16500 ohms.
(I'm not sure why there's this variation?)
To work out what the resistance of a paralleled pair is, is it as simple as halving this quoted figure?
The reason I ask is that the reverb signal is very quiet (yet if I bang the tank it is very loud - so the recovery's just fine! I'd say it's the drive at fault) and perhaps I need to better match the load rather than just copy Merlin's example.
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