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O.K., I've got a quick question regarding the bias adjustment on a DRRI (probably a 'newbee' quiz for most techs out there), but when there's just one visible bias pot, what's the point of measuring the actual bias on both power tubes?
In other words, as best I can tell from looking inside the DRRI, there is only one bias pot (immediately behind the power tubes and main transformer), yet there are two 6V6 power tubes. So if I attach a Weber Bias-Rite adapter (with multimeter) to either power tube and I adjust the bias to (say) 24-28 mA as recommended using the lone bias pot (which apparently sets the current for both tubes?), why would I need to bother checking the bias on the 2nd (remaining) tube?
Multiple video and written sources of guidance on this subject suggest doing both tubes, but if the single setting changes it for both tubes simultaneously, what's the point? Am I missing something somewhere?
Thanks All!
In other words, as best I can tell from looking inside the DRRI, there is only one bias pot (immediately behind the power tubes and main transformer), yet there are two 6V6 power tubes. So if I attach a Weber Bias-Rite adapter (with multimeter) to either power tube and I adjust the bias to (say) 24-28 mA as recommended using the lone bias pot (which apparently sets the current for both tubes?), why would I need to bother checking the bias on the 2nd (remaining) tube?
Multiple video and written sources of guidance on this subject suggest doing both tubes, but if the single setting changes it for both tubes simultaneously, what's the point? Am I missing something somewhere?
Thanks All!
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