Hi Al,
It's hard for me to response (quick), because my contributions must be verifyed by an admin ;-)
ok...try this link for the datasheet:
http://www.mif.pg.gda.pl/homepages/frank/sheets/084/3/300B.pdf
And yes, the ER300B can handle more than 800V of anode voltage (not specified, but tested yet ;-))
It can handle more than 200mA too, but not at the same time ;-)
Our datasheet specified the power dissipiaton at 40W.
I have build some reference designs for using the ER300B in a perfect environment. All they working with very high anode voltage but with lower anode current.
It is very important the anode dissipiaton is not higher than 40W in any case.
As I measured, the autobias will work well using a 1kOhm cathode resistor if the tubes are very close to the design center values and close to the plate curves in the datasheet.
But tubes have deviations any time. I own a lot of WE300B. And they have differences between 53mA and 82mA at the operating point 300V/-58V...where they should have an anode current of 60mA. This is absolutely normal...and all the tubes of all other manufacturers have deviations...
The problem is not the deviation itself, the problem is the handling by the amp. Autobiasing is a nice feature...but not at the top end of the operating conditions! If this should be done, a potentiometer (for changintg the resistance of the cathode resistor or for changing the fixed bias voltage) and a ampere meter should be the minimum equipment...
The next question is how the heater voltage looks like in this amp.
If an EML 300B XLS is the right choice we have 1.5A heater current at 5V. There is no voltage regulation. A transformer a rectifier bridge and a CLC only. May be the XLS is underheated (so I hope) ore all other (right) 300B are overheated, because they draw 1.2A (some russians and chinese 1.25A)only. This would result a heater voltage above 5V...not so good for any 300B and very bad for an Elrog 300B, because the use of thoriated tungsten for filaments. Higher heater voltage will result a (much) higher anode current and a much lower lifetime...
Regards, Matthias
It's hard for me to response (quick), because my contributions must be verifyed by an admin ;-)
ok...try this link for the datasheet:
http://www.mif.pg.gda.pl/homepages/frank/sheets/084/3/300B.pdf
And yes, the ER300B can handle more than 800V of anode voltage (not specified, but tested yet ;-))
It can handle more than 200mA too, but not at the same time ;-)
Our datasheet specified the power dissipiaton at 40W.
I have build some reference designs for using the ER300B in a perfect environment. All they working with very high anode voltage but with lower anode current.
It is very important the anode dissipiaton is not higher than 40W in any case.
As I measured, the autobias will work well using a 1kOhm cathode resistor if the tubes are very close to the design center values and close to the plate curves in the datasheet.
But tubes have deviations any time. I own a lot of WE300B. And they have differences between 53mA and 82mA at the operating point 300V/-58V...where they should have an anode current of 60mA. This is absolutely normal...and all the tubes of all other manufacturers have deviations...
The problem is not the deviation itself, the problem is the handling by the amp. Autobiasing is a nice feature...but not at the top end of the operating conditions! If this should be done, a potentiometer (for changintg the resistance of the cathode resistor or for changing the fixed bias voltage) and a ampere meter should be the minimum equipment...
The next question is how the heater voltage looks like in this amp.
If an EML 300B XLS is the right choice we have 1.5A heater current at 5V. There is no voltage regulation. A transformer a rectifier bridge and a CLC only. May be the XLS is underheated (so I hope) ore all other (right) 300B are overheated, because they draw 1.2A (some russians and chinese 1.25A)only. This would result a heater voltage above 5V...not so good for any 300B and very bad for an Elrog 300B, because the use of thoriated tungsten for filaments. Higher heater voltage will result a (much) higher anode current and a much lower lifetime...
Regards, Matthias
