So with the restriction of not using a pentode as pass valve, I looked out for candidates to match my requirements and instantly thought about GU-50 in triode-strapped mode. Yes, I know that UG2 limit is 250V, not 1,000V as anode max voltage. But, in triode strapped specs are not shown. As\u00a0recently checked this with the 814 triode strapped, and seems to be ok UG2=Ua in triode mode. 7N7 also said this was ok and Morgan Jones previously tested this as well with similar valves.<\/p>\n
So, question here initially was: could the GU-50 withstand 600V in triode mode or should I needed to look out for other options?<\/p>\n
After asking for some help in DIYaudio forum<\/a>\u00a0to see what was the best option on this topology and\u00a0\u00a0the recommendation was to use the GU-50 in “right-handed mode”:<\/p>\n In this mode GU-50 was able to provide the regulation required (or close to it) with minimum driving requirements (i.e. 0V to +15V)<\/p>\n First version of the passive regulator:<\/p>\n The MOSFET is in source follower mode to provide the necessary grid current, albeit not sure how much grid current the GU-50 needed in right-handed mode. So the value of R6 must be adjusted on test. In order to survive an output short, R6 needs to be in the order of 100K and 3 or 4W to avoid blowing up the 18V zener protecting the grid.<\/p>\n The circuit above is very interesting as the anode\u00a0dissipation\u00a0of the GU-50 is very handy for this setup and requirements. Is important to highlight that the circuit has no regulation, so if this is a requirement a different topology must be explored.<\/p>\n If we look at the sandy option here, then the following equivalent is comparable:<\/p>\n R2 and R3 are required to protect silicon from output short. Q1 provides current limitation with R6. This topology suffers from same issues related to regulation as previous circuit.<\/p>\n A big issue on the two\u00a0circuits\u00a0presented before is that the potentiometer is stressed at full raw HT supply. This is far from ideal and despite the specific power\u00a0requirements\u00a0of the pot, \u00a0we also need to ensure that the part can\u00a0withstand\u00a0the voltages used.<\/p>\n A slight modification (requiring an additional LT supply) can solve this problem:<\/p>\n Now P1 is connected to 15V. The gain of the M2 stage is significant so stability of circuit above is an issue now.<\/p>\n So if we have already introduced an LT supply in the circuit, then is a better choice to look at a feedback regulator.<\/p>\n A more complex circuit indeed, but a more effective one. The op-amp provides regulation by sensing output from R7 and R8 divider and comparing it to the stable reference from the output of P1. R10, R9 and C1 limit the HF gain response of the op-amp. R12\/C3 and the 10pF FKP2 Wilma cap across R7 optimise the HF response of the overall regulator. D1 will protect the op-amp input (specially if 10pF cap is fitted). R1 is an additional protection for M1. M1 requires a good sink if wider regulation is needed. When output voltage is low and high current is drawn, then M1 is bearing all the effort and will dissipate a lot of heat (just do the maths).<\/p>\n The raw supply stays the same, however the gyrator stage was optimised as shown below:<\/p>\n![\"\"](\"https:\/\/i0.wp.com\/www.bartola.co.uk\/valves\/wp-content\/uploads\/2012\/10\/GU50-right-handed.jpg?resize=689%2C395\" "\\"GU50")
<\/a>![\"\"](\"https:\/\/i0.wp.com\/www.bartola.co.uk\/valves\/wp-content\/uploads\/2012\/10\/600V-stabiliserv2-1024x524.png?resize=584%2C298\" "\\"600V")
<\/a><\/p>\n![\"\"](\"https:\/\/i0.wp.com\/www.bartola.co.uk\/valves\/wp-content\/uploads\/2012\/10\/600V-stabiliserv2-silicon-1024x727.png?resize=584%2C414\" "\\"600V")
<\/a><\/p>\n![\"\"](\"https:\/\/i0.wp.com\/www.bartola.co.uk\/valves\/wp-content\/uploads\/2012\/10\/600V-stabiliserv3-1024x604.png?resize=584%2C344\" "\\"600V")
<\/a><\/p>\n![\"\"](\"https:\/\/i0.wp.com\/www.bartola.co.uk\/valves\/wp-content\/uploads\/2012\/10\/600V-stabiliserv5-1000x1024.png?resize=584%2C598\" "\\"600V")
<\/a><\/p>\n![\"\"](\"https:\/\/i0.wp.com\/www.bartola.co.uk\/valves\/wp-content\/uploads\/2012\/10\/600V-raw-1024x366.png?resize=584%2C208\" "\\"600V")
<\/a><\/p>\n