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Hey guys,
I'm working on an amp design that will be 50W Class AB Cathode Bias with a pair of EL34's and 18W Class A Cathode Bias with a quad of EL84's. There will be a switch (S1) that switches the power supply voltage and filtering. The B+ for the Class AB operation will be 450 and the B+ for Class A is 310.
I am reducing the B+ for Class A operation by use of a 100V zener diode in series after the rectifier and using a 100R resistor to simulate the feel of a tube rectifier.
Since the power supply voltage for the plates and the screens will change depending on the operating class selected I opted to run the preamp power supply off the rectifier so it's voltage will be consistent regardless.
I'm still trying to work out the S1a switch so that the center tap of the OT can tie to it and feed the plates. Obviously as it is written, the S1a switch will not work right since the zener diodes would be after the plate connection. I still have to work that out.
One of my concerns is regarding the plates and the screens on the tube that is NOT selected. Since I'm using one OT that has a 6.6k primary I will have the plates and screens of both tubes connected at all times. Switching of the cathodes of the EL34's and the EL84's will be what turns each tube set on and off. My question is this:
When in Class AB operation, the cathodes of the EL84's will be disconnected BUT the plates will be be seeing the full 450V of the amp. Obviously this situation is reversed when in Class A mode. The cathodes of the EL34's will be disconnected BUT the plates will be be seeing the full 310V of the amp. My only concerne is that the max plate and screen voltage of the EL84's is 300V. Should I be concerned about this since the cathodes will be disconnected and therefore no current will be flowing or does that even matter?
Thanks for your help guys!
I'm working on an amp design that will be 50W Class AB Cathode Bias with a pair of EL34's and 18W Class A Cathode Bias with a quad of EL84's. There will be a switch (S1) that switches the power supply voltage and filtering. The B+ for the Class AB operation will be 450 and the B+ for Class A is 310.
I am reducing the B+ for Class A operation by use of a 100V zener diode in series after the rectifier and using a 100R resistor to simulate the feel of a tube rectifier.
Since the power supply voltage for the plates and the screens will change depending on the operating class selected I opted to run the preamp power supply off the rectifier so it's voltage will be consistent regardless.
I'm still trying to work out the S1a switch so that the center tap of the OT can tie to it and feed the plates. Obviously as it is written, the S1a switch will not work right since the zener diodes would be after the plate connection. I still have to work that out.
One of my concerns is regarding the plates and the screens on the tube that is NOT selected. Since I'm using one OT that has a 6.6k primary I will have the plates and screens of both tubes connected at all times. Switching of the cathodes of the EL34's and the EL84's will be what turns each tube set on and off. My question is this:
When in Class AB operation, the cathodes of the EL84's will be disconnected BUT the plates will be be seeing the full 450V of the amp. Obviously this situation is reversed when in Class A mode. The cathodes of the EL34's will be disconnected BUT the plates will be be seeing the full 310V of the amp. My only concerne is that the max plate and screen voltage of the EL84's is 300V. Should I be concerned about this since the cathodes will be disconnected and therefore no current will be flowing or does that even matter?
Thanks for your help guys!
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