Electronic apparatus for biological research Electronic apparatus for biological research . electronicappara00dona Year: 1958 HARD VALVES concomitant space charge is sufficient to turn back secondarily emitted elec- trons. The anode characteristics of beam, tetrodes and power pentodes are similar and design procedure is the same for each. Figure Warning—The anode circuit of power pentode or beam tetrode valves must never be broken whilst the screen potential is applied. If this is done all the cathode current will go to the screen, which is of insufficient thermal capacity to withstan

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Electronic apparatus for biological research Electronic apparatus for biological research . electronicappara00dona Year: 1958 HARD VALVES concomitant space charge is sufficient to turn back secondarily emitted elec- trons. The anode characteristics of beam, tetrodes and power pentodes are similar and design procedure is the same for each. Figure Warning—The anode circuit of power pentode or beam tetrode valves must never be broken whilst the screen potential is applied. If this is done all the cathode current will go to the screen, which is of insufficient thermal capacity to withstand the resulting temperature rise. It is extremely hkely that the screen will melt and the valve be destroyed. Equivalent circuits of valve amplifying stages The voltage gain expression for a simple triode amplifier i,iRl(R + '*«)' suggests the equivalent circuit for the stage introduced in Figure , namely, a pdVg volt generator in series with a resistance /'„, feeding the load Rj^. Similarly, Figure shows an appropriate equivalent circuit for a pentode 9m^K m 'g 'a R. g bVg (a)

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