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[Keyword] diplexer(5hit)

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  • 300-GHz-Band Diplexer for Frequency-Division Multiplexed Wireless Communication

    Yuma KAWAMOTO  Toki YOSHIOKA  Norihiko SHIBATA  Daniel HEADLAND  Masayuki FUJITA  Ryo KOMA  Ryo IGARASHI  Kazutaka HARA  Jun-ichi KANI  Tadao NAGATSUMA  

     
    BRIEF PAPER

      Pubricized:
    2023/04/19
      Vol:
    E106-C No:11
      Page(s):
    722-726

    We propose a novel silicon diplexer integrated with filters for frequency-division multiplexing in the 300-GHz band. The diplexer consists of a directional coupler formed of unclad silicon wires, a photonic bandgap-based low-pass filter, and a high-pass filter based on frequency-dependent bending loss. These integrated filters are capable of suppressing crosstalk and providing >15dB isolation over 40GHz, which is highly beneficial for terahertz-range wireless communications applications. We have used this diplexer in a simultaneous error-free wireless transmission of 300-GHz and 335-GHz channels at the aggregate data rate of 36Gbit/s.

  • Design of Diplexer Using Surface Acoustic Wave and Multilayer Ceramic Filters with Controllable Transmission Zero

    Shinpei OSHIMA  Hiroto MARUYAMA  

     
    PAPER-Microwaves, Millimeter-Waves

      Pubricized:
    2021/01/15
      Vol:
    E104-C No:8
      Page(s):
    370-378

    In this paper, we propose a design method for a diplexer using a surface acoustic wave (SAW) filter, a multilayer ceramic filter, chip inductors, and chip capacitors. A controllable transmission zero can be created in the stopband by designing matching circuits based on the out-of-band characteristics of the SAW filter using this method. The proposed method can achieve good attenuation performance and a compact size because it does not use an additional resonator for creating the controllable transmission zero and the matching circuits are composed of only five components. A diplexer is designed for 2.4 GHz wireless systems and a global positioning system receiver using the proposed method. It is compact (8.0 mm × 8.0 mm), and the measurement results indicate good attenuation performance with the controllable transmission zero.

  • A Simple f0/2f0 Microstrip Diplexer with Low and Wideband Insertion-Loss Characteristics

    Ken'ichi HOSOYA  Ryosuke EMURA  

     
    PAPER-Microwaves, Millimeter-Waves

      Pubricized:
    2020/06/22
      Vol:
    E104-C No:1
      Page(s):
    11-21

    An f0/2f0 (frequency ratio of two) microstrip diplexer with simple circuit configuration as well as low and wideband insertion-loss characteristics is proposed. It is a parallel combination of a coupled line for f0 port and a wave-trap circuit composed of a transmission line and an open stub for 2f0 port. All the lines and stub have a quarter-wave length for f0. Matching circuits are not needed. Circuit and electro-magnetic simulation results prove that the proposed f0/2f0 diplexer exhibits well-balanced properties of insertion loss (IL), IL bandwidth, and isolation, as compared to conventional simple f0/2f0 diplexers composed of two wave-trap circuits or two coupled lines. The proposed diplexer is fabricated on a resin substrate in a microstrip configuration at frequencies of f0/2f0=2.5/5 GHz. Measured results are in good agreement with simulations and support the above conclusion. The proposed diplexer exhibits ILs of 0.46/0.56 dB with 47/47% relative bandwidth (for f0/2f0), which are lower and wider than f0/2f0 diplexers in literatures at the same frequency bands.

  • Design of Multilayer Dual-Band BPF and Diplexer with Zeros Implantation Using Suspended Stripline

    Min-Hua HO  Wei-Hong HSU  

     
    PAPER

      Vol:
    E95-C No:7
      Page(s):
    1195-1202

    In this paper, a dual-band bandpass filter (BPF) of multilayer suspended stripline (SSL) structure and an SSL diplexer composed of a low-pass filter (LPF) and a high-pass filter (HPF) are proposed. Bandstop structure creating transmission zeros is adopted in the BPF and diplexer, enhancing the signal selectivity of the former and increasing the isolation between the diverting ports of the latter. The dual-band BPF possesses two distinct bandpass structures and a bandstop circuit, all laid on different metallic layers. The metallic layers together with the supporting substrates are vertically stacked up to save the circuit dimension. The LPF and HPF used in the diplexer structure are designed by a quasi-lumped approach, which the LC lumped-elements circuit models are developed to analyze filters' characteristics and to emulate their frequency responses. Half-wavelength resonating slots are employed in the diplexer's structure to increase the isolation between its two signal diverting ports. Experiments are conducted to verify the multilayer dual-band BPF and the diplexer design. Agreements are observed between the simulation and the measurement.

  • Polarization Diplexing by a Double Strip Grating Loaded with a Pair of Dielectric Slabs

    Akira MATSUSHIMA  Tokuya ITAKURA  

     
    PAPER-Electromagnetic Theory

      Vol:
    E76-C No:3
      Page(s):
    486-495

    An accurate numerical solution is presented for the electromagnetic scattering from a double strip grating, where the strip planes are each supported by a dielectric slab. This structure is a model of polarization diplexers. The direction of propagation and the polarization of the incident plane wave are arbitrary. We derive a set of singular integral equations and solve it by the moment method, where the Chebyshev polynomials are successfully used as the basis and the testing functions. By numerical computations we examine the dependence of the diplexing properties on grating parameters in detail. The cross-polarization characteristics at skew incidence are also referred. From these results we construct an algorithm for the design of polarization diplexers.