Terahertz frequency tripler based on coplanar waveguide transmission wires

A technology of coplanar waveguide and frequency tripler, which is applied in the terahertz field, can solve the problems of the influence of assembly accuracy and increase the difficulty of processing and assembly, so as to reduce assembly steps, reduce the influence of processing and assembly on the result, and achieve a compact structure. Effect

Active Publication Date: 2015-05-06
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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Problems solved by technology

This increases the difficulty of processing and assembly, and at the same time causes the assembly accuracy to have a greater impact on the results, which is extremely important in terahertz design

Method used

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  • Terahertz frequency tripler based on coplanar waveguide transmission wires
  • Terahertz frequency tripler based on coplanar waveguide transmission wires
  • Terahertz frequency tripler based on coplanar waveguide transmission wires

Examples

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Embodiment 1

[0032] Such as Figure 1 to Figure 7 shown.

[0033] The terahertz frequency tripler based on the coplanar waveguide transmission line includes a main body waveguide 13 and a dielectric substrate 12 arranged on the bottom surface of the main body waveguide cavity, and the coplanar waveguide whose lower surface is flush with the upper surface of the dielectric substrate 12 is arranged on the dielectric substrate 12 Transmission line, coplanar waveguide transmission line includes DC bias low-pass filter, input matching transmission line 4, fundamental wave low-pass filter, fundamental wave matching transmission line 15, third harmonic matching transmission line 14, and third-level matching connected in sequence from left to right The transmission line 9, the four-stage matching transmission line 10, the output matching transmission line 18, the DC bias low-pass filter and the fundamental wave low-pass filter are all composed of transmission lines whose lower surface is flush wit...

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Abstract

The invention discloses a terahertz frequency tripler based on coplanar waveguide transmission wires. The terahertz frequency tripler based on the coplanar waveguide transmission wires comprises three waveguides, including a fundamental wave input wave guide, an output waveguide and a main body waveguide, a dielectric substrate inside the main body waveguide, and electrical structures arranged on the dielectric substrate through the coplanar waveguide transmission wires in an integrated mode, wherein the electrical structures are composed of a DC (direct current) bias low-pass filter, an input matching transmission wire, a fundamental wave low-pass filter, a fundamental wave matching transmission wire, a triple-harmonic matching transmission wire, a three-stage matching transmission wire, a four-stage matching transmission wire and an output matching transmission wire from left to right and takes the coplanar waveguide transmission wires as a ground wire. The coplanar waveguide transmission wires substitute traditional microstrip wires and traditional suspended microstrip wires for designing the peripheral passive circuit of the frequency tripler; the inside of the circuit is directly connected with a cavity wall to achieve a radio frequency grounding and DC circuit; by means of a fundamental wave input duplexer, DC bias and other circuits can be designed simultaneously, subsequent assembling steps can be reduced, and the circuit structure is easy to process and assemble.

Description

technical field [0001] The present invention relates to the technical field of terahertz, and specifically refers to a terahertz frequency tripler based on a coplanar waveguide transmission line. Background technique [0002] The terahertz frequency multiplier, as the local oscillator source of the terahertz receiver mixer or the radiation source of the transmitter, has become a key component of the terahertz front-end system. With the rapid development of terahertz technology, the performance requirements of terahertz frequency multipliers are getting higher and higher. In the existing technology, the production and performance of W-band frequency sources have been relatively stable, but with the increase of frequency, the production and stability of frequency sources are difficult to solve, and the production cost of high-frequency frequency sources is very high, so The existing terahertz high-frequency frequency source is obtained by doubling the W-band frequency by usin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01P1/213
Inventor 张波纪东峰杨益林刘戈牛中乾李全龙高欣钱骏闵应存樊勇
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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