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Pardon if my searches missed relevant info.
I'm thinking about class AB2, and looking up material on drivers for the output stage. Many designs and discussions out there, but the info I lack pertains specifically to the difference between triode construction and pentode construction. Some tube data sheets list grid current v grid/anode voltage, but others do not. I found at Tung-Sol a graph for the 12AU7 that showed control grid voltages at up to +30 volts, and over 100mA grid current!
http://www.tungsol.com/specs/12au7-tung-sol.pdf
This got me thinking: Do triodes as a family have beefier control grids because there are no screens, or is this an example of a specialty-use tube, or has my ignorance once again trumped my ability to reason this out? The published control grid current in the document above seems pretty whack in the light of the care needed to protect 'those fragile grids' from over-dissipation.
I'm thinking about class AB2, and looking up material on drivers for the output stage. Many designs and discussions out there, but the info I lack pertains specifically to the difference between triode construction and pentode construction. Some tube data sheets list grid current v grid/anode voltage, but others do not. I found at Tung-Sol a graph for the 12AU7 that showed control grid voltages at up to +30 volts, and over 100mA grid current!
http://www.tungsol.com/specs/12au7-tung-sol.pdf
This got me thinking: Do triodes as a family have beefier control grids because there are no screens, or is this an example of a specialty-use tube, or has my ignorance once again trumped my ability to reason this out? The published control grid current in the document above seems pretty whack in the light of the care needed to protect 'those fragile grids' from over-dissipation.
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