2017 IEEE MTT-S International Microwave Symposium (IMS) 2017
DOI: 10.1109/mwsym.2017.8058595
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Experimental studies on a low power injection-locked continuous wave magnetron

Zhenlong Liu
1
,
Xiaojie Chen
2
,
Menglin Yang
3
et al.
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Cited by 2 publications
(1 citation statement)
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“…Moreover, the measured data using LDMOS FETs (Field Effect Transistors) [9] are newly added in Figure 3 for making clear the difference between them. A magnetron oscillator has an output power of 800 W and an efficiency of 66% [12]. The circuit simulation has been done for the schematic diagram of Figure 2 by using ADS (Advanced Design System) and a nonlinear model name of "EEHEMT".…”
Section: Feedback Circuitmentioning
confidence: 99%

A 2.4 GHz-Band 250 W, 60% Feedback-Type GaN-HFET Oscillator Using Imbalanced Coupling Resonator for Use in the Microwave Oven

Ikeda
1
,
Itoh
2
2019
Applied Sciences
4
0
5
0
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“…Moreover, the measured data using LDMOS FETs (Field Effect Transistors) [9] are newly added in Figure 3 for making clear the difference between them. A magnetron oscillator has an output power of 800 W and an efficiency of 66% [12]. The circuit simulation has been done for the schematic diagram of Figure 2 by using ADS (Advanced Design System) and a nonlinear model name of "EEHEMT".…”
Section: Feedback Circuitmentioning
confidence: 99%

A 2.4 GHz-Band 250 W, 60% Feedback-Type GaN-HFET Oscillator Using Imbalanced Coupling Resonator for Use in the Microwave Oven

Ikeda
1
,
Itoh
2
2019
Applied Sciences
4
0
5
0
View full textAdd to dashboardCite
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2.4-GHz-Band High-Power and High-Efficiency Solid-State Injection-Locked Oscillator

Ikeda
1
,
Itoh
2
2018
IEEE Trans. Microwave Theory Techn.
12
0
9
0
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