| 摘要 |
<p>654,237. Valve amplifier, generator and multiplier circuits. SPERRY GYROSCOPE CO., Inc. Dec. 28, 1945, No. 35114. Convention date, Dec. 28, 1944. [Class 40 (vi)] [Also in Group XL (a)] "Transit time modulation" is effected in an apparatus comprising an electron-discharge tube having two regions A, B, Fig. 5, separated by an electron-permeable wall 13, means (such as cathode 15) for projecting an electron stream into the first region A, means (such as reflector 17) for producing a retarding field in A having a static component adapted to retard and reverse a component of the velocity of the electron stream whereby the stream is returned towards the wall 13 and passes through it into the second region B, means (such as transmission line 26, 27) for supplying a high-frequency signal to be amplified or frequency-multiplied to produce a high-frequency field in region A of suitable frequency to cause cyclical variations in the transit time of electrons through the retarding-field region so that cyclical changes of the current density of the stream passing through the wall 13 into the region B are produced, and means (such as resonator 12) in region B responsive to the cyclical changes of current density for abstracting high-frequency energy from the stream. Thus by applying a high-frequency signal to the ordinary reflex tube of Fig. 5, the tube may be made to operate either as a stabilized or "lock-in" oscillator, or as a driven frequency-multiplier. When used as a frequency-multiplier, as in Figs. 5 and 7, the stream may pass initially through the region B; it is shown that any initial velocitymodulation at the harmonic frequency so imparted to it does not materially impair, and may assist, the bunching by the fundamental signal in region A. When used as an amplifier it is preferred to arrange that the stream does not initially pass through region B, as in Figs. 11 and 15. The signal may be applied to a resonator connected between the permeable wall and the reflector, with a capacitative connection to the latter, Fig. 6 (not shown); or it may be generated within the valve by making the reflector the anode of a flat triode 52, 51, 17, Fig. 7, or a cylindrical one Fig. 8 (not shown), oscillating in a Hartley circuit; or may be selfgenerated within the region A, which is shown under certain conditions to have a negative conductance, Fig. 15. In Fig. 11, the main cathode 71, control grid 82 and earthed permeable-wall grid 72 form an oscillating triode, the reflector 76 receiving the signal from a tapping 98 on the oscillating coil 83. The electron stream may start in region A, for example from an annular cathode or from an electron gun firing a single beam in from the side. In an amplifier, the high-frequency energy is self-generated in resonator 138, Fig. 15, capacity-coupled to reflector 137 by flanges 141, and a modulating signal 150 may be applied to control grid 147.</p> |
