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  • Demonstrating a low temperature organic dense dielectric patch antenna

    descriptionPublicationkeyboard_double_arrow_right Report 2017 United Kingdom Publisher:IEEE
    Authors: Espley-Jones, RJ; Tong, KF; Dalley, JEJ; Langley, JDS;

    This paper demonstrates the possible implementation of a low temperature organic dense dielectric patch antenna (DDPA). Instead of using deionised water for the patch material, a mixture of ethanol and methanol was the material of choice as it remains liquid below 0°C. The freezing points of ethanol and methanol are -114.1°C and -97.6°C respectively. The mixture was 80% ethanol, 20% methanol. Reasonable reflection coefficients, efficiencies and gains can be achieved. The maximum gain over the band of interest is 5.62 dB at 1.31 GHz.

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The following results are related to Energy Research. Are you interested to view more results? Visit OpenAIRE - Explore.
1 Research products
download

  • Demonstrating a low temperature organic dense dielectric patch antenna

    descriptionPublicationkeyboard_double_arrow_right Report 2017 United Kingdom Publisher:IEEE
    Authors: Espley-Jones, RJ; Tong, KF; Dalley, JEJ; Langley, JDS;

    This paper demonstrates the possible implementation of a low temperature organic dense dielectric patch antenna (DDPA). Instead of using deionised water for the patch material, a mixture of ethanol and methanol was the material of choice as it remains liquid below 0°C. The freezing points of ethanol and methanol are -114.1°C and -97.6°C respectively. The mixture was 80% ethanol, 20% methanol. Reasonable reflection coefficients, efficiencies and gains can be achieved. The maximum gain over the band of interest is 5.62 dB at 1.31 GHz.

    Claim

    This Research product is the result of merged Research products in OpenAIRE.

    You have already added works in your ORCID record related to the merged Research product.
    0
    citations0
    popularityAverage
    influenceAverage
    impulseAverage
    BIP!Powered by BIP!
    more_vert
      Claim

      This Research product is the result of merged Research products in OpenAIRE.

      You have already added works in your ORCID record related to the merged Research product.
Powered by OpenAIRE graph