A New Low Noise Vacuum Tube
- 1 July 1932
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 3 (1) , 11-17
- https://doi.org/10.1063/1.1745074
Abstract
When commercial vacuum tubes are used to amplify small low‐frequency voltages it is found that random disturbances of the order of 100 to 1000 microvolts are present in the anode circuit. These disturbances exist almost entirely in the range below 100 cycles per second, and therefore fix the minimum voltage which can be measured over this low frequency band from 10 to 100 microvolts. These disturbances are shown to be caused by any or all of the following: (1) insulating material in or near electron path; (2) irregularity of filament emission; (3) gas; (4) positive ions emitted by filament; (5) insulating or foreign deposits on grid wires. A tube has been developed in which the above effects are removed or reduced to a point where the disturbances are nearly that of the shot effect of the electrons, as limited by space charge. This allows the amplification of low‐frequency voltages of less than 1 microvolt over the entire frequency band below 100 cycles.This publication has 8 references indexed in Scilit:
- Shot Effect in Space Charge Limited CurrentsPhysical Review B, 1932
- Receiver Design for Minimun Fluctuation NoiseProceedings of the IRE, 1931
- The Schottky Effect in Low Frequency CircuitsPhysical Review B, 1925
- Determination of Elementary Charge E from Measurements of Shot-Effect.Physical Review B, 1925
- Studies with Ionization Gauge. II. Relation between Ionization Current at Constant Pressure and Number of Electrons per MoleculePhysical Review B, 1924
- Electron Emission from Metals as a Function of Temperature; Added NotePhysical Review B, 1924
- A Method for the Neutralization of Electron Space Charge by Positive Ionization at Very Low Gas PressuresPhysical Review B, 1923
- Studies with the Ionization Gauge. I. Construction and Method of CalibrationPhysical Review B, 1921