MICROWAVE HEATING MAGNETRON Russian patent published in 1999 - IPC

Abstract RU 2143767 C1

FIELD: vacuum- tube devices. SUBSTANCE: magnetron efficiency exceeding 80% is attained due to adequate selection of geometry of interaction space. The latter is chosen considering output characteristics of magnetron (power and anode voltage) and possibility of implementing desired electrodynamic characteristics of resonator system (wave impedance and frequency separation of modes). Interaction space for continuous-wave magnetron operating in frequency range of 2400-2500 MHz meets following conditions: , where r_a is anode radius, mm; h_a is anode height, mm; N is number of resonators. EFFECT: improved efficiency of magnetron.

Similar patents RU2143767C1

Title	Year	Author	Number
ASYMMETRIC-SLOT SURFACE-WAVE MAGNETRON	2001	Adamovich V.A. Bulanov V.N. Gundobin G.S. Eremin V.P.	RU2208872C2
MULTIPLE-CAVITY MAGNETRON WITH ASYMMETRIC ENERGY LEAD	1998	Adamovich V.A. Eremin V.P. Perovskij Eh.V.	RU2148869C1
SURFACE-WAVE MAGNETRON	2001	Adamovich V.A. Bulanov V.N. Vislov V.I. Eremin V.P.	RU2209486C2
METHOD AND DEVICE FOR PRODUCING BROAD-BAND, HIGH- POWER, SUPERHIGH-FREQUENCY QUASI-NOISE SIGNALS	1999	Voskresenskij S.V. Sominskij G.G.	RU2150765C1
RELATIVISTIC MAGNETRON	2013	Vintizenko Igor Igorevich	RU2551353C1
MAGNETRON WITH THIN CATHODE	2017	Plakhotnik Anatolij Stepanovich	RU2683243C1
RELATIVISTIC MAGNETRON WITH CATHODE END SHIELDS	2015	Mashshenko Aleksandr Ivanovich Vintizenko Igor Igorevich	RU2599388C1
SEED TREATMENT METHOD AND DEVICE FOR ITS IMPLEMENTATION	2019	Kotov Boris Stepanovich Degtyarev Yurij Aleksandrovich Shepovalov Daniil Alekseevich Slavnyj Nikolaj Eduardovich	RU2729833C1
RELATIVISTIC MAGNETRON	2001	Vintizenko I.I. Fomenko G.P.	RU2216066C2
METHOD OF INITIATION OF EMISSION OF CHARGED PARTICLES AND CONTROL OVER IT	1990	Alenichev Aleksej Vladimirovich	RU2017255C1

RU 2 143 767 C1

Authors

Adamovich V.A.

Eremin V.P.

Perovskij Eh.V.

Starets Ja.A.

Dates

1999-12-27—Published

1998-06-02—Filed