«RESNATRON»に関連する英語の本
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1
Publications of the School of Physics
The output of the driver, approximately 100 kw, is transmitted to the intermediate
stage resnatron (No. 4) through about 100 ft of coaxial transmission line and a
short length of wave guide. The double transition — from air-filled coaxial line to ...
University of Minnesota. Dept. of Physics, 1951
2
Annual Progress Report - University of Minnesota, Linear ...
By far the major problem this year has been Resnatron No. I having grid-cathode
shorts which we are unable to pound loose. Resnatron No. I was opened 10
times during this period as compared to six times for Resnatron No. 2 and four
times ...
University of Minnesota. Linear Accelerator Laboratory, 1962
Reflex Resnatron Shows Exploded view of electron-beam-iormlng section oi
reflex FIG. 2 —. Negative repeller bends electron beam back through output
cavity to accelerator electrode. Wideband modulation is accomplished with low ...
Linked to both radar and nuclear physics, the resnatron is one of the most
significant of recent electronic developments. Attaining high power at ultra-high
frequencies, the resnatron achieved fame as a jamming device against enemy
radar.
Unlike the magnetron, which in radar transmits ultra-high frequency power in
short bursts, the resnatron pours out continuous wave power. Developed at the
University of California beginning in 1938, the resnatron was used for the
jamming of ...
6
U.S. Government Research Reports
Machine work is continuing on the cathode parts for the 5 megawatt S-band
resnatron. Schematic diagrams of this tube and a 10 megawatt grounded - grid S-
band resnatron are shown. Results of preliminary tests on a simple model of a ...
7
UHF Issues: Proceedings of the I.R.E.
Proceedings of the I.R.E. Institute of Radio Engineers. McCreary, Armstrong, and
McNees: Resnatronfor UHF McCreary, Armstrong, and McNees: Resnatron for
UHF RF Performance of. 1953 43 formance of this tube. As a part of this program,
...
Institute of Radio Engineers, 1953
megacycles is but slightly shorter despite the transmitter output being but one
sixth of that at 600 megacycles. Thus the absolutely maximum range can be
obtained with a transmitter of the Resnatron type in the 50-cm band (see below),
but in ...
The power problem was solved by a remarkable vacuum tube known as the "
resnatron" developed at the research laboratory of the Westinghouse Electric
Company in cooperation with the Harvard Radio Laboratory. All sorts of difficult ...
The power problem was solved by a remarkable vacuum tube known as the "
resnatron" developed at the research laboratory of the Westinghouse Electric
Company in cooperation with the Harvard Radio Laboratory. All sorts of difficult ...