Zi-Xian WU, Cheng GUO, Xiao-Zhu WEN, Xu-Bo SONG, Shi-Xiong LIANG, Guo-Dong GU, Li-Sen ZHANG, Yuan-Jie LYU, An-Xue ZHANG, Zhi-Hong FENG. Design of high power tripler based on on-chip schottky diodes[J]. Journal of Infrared and Millimeter Waves, 2021, 40(5): 647
- Journal of Infrared and Millimeter Waves
- Vol. 40, Issue 5, 647 (2021)
Fig. 1. Schematic and 3-D model of the 110 and 220 GHz balanced triplers:(a)Schematic of the balanced triplers;(b)3-D model of 110 GHz tripler;(c)3-D model of 220 GHz tripler
Fig. 2. 3-D model of integrated on-chip capacitance:(a)Top view of integrated on-chip capacitor and surrounding circuits;(b)Enlarged side view of integrated on-chip capacitor
Fig. 3. 3-D model of integrated on-chip capacitance:(a)Top view of integrated on-chip capacitor and surrounding circuits;(b)Enlarged side view of integrated on-chip capacitor
Fig. 4. Configuration of proposed band stop filter in tripler
Fig. 5. Simulated results of the band stop filter and stepped impedance LPF:(a)Simulated results for 110 GHz tripler;(b)Simulated results for 220 GHz tripler
Fig. 6. Test module of 110 GHz tripler and details of the circuits:(a)The split-block of 110 GHz tripler;(b)Enlarged view of surrounding circuits and the chip in tripler;(c)Enlarged view of the details on diodes
Fig. 7. Test platform of 110/220 GHz tripler
Fig. 8. Measured results of 110 GHz tripler
Fig. 9. Test module of 220 GHz tripler and details of the circuits:(a)The split-block of 220 GHz tripler;(b)Enlarged view of surrounding circuits and the chip in tripler;(c)Enlarged view of single path
Fig. 10. Measured and simulated results of 220 GHz tripler
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Table 1. Comparison of several types of triplers operating at 220 GHz
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