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ground plane under balun (and antenna net)

Geir Strand

Hi,

I am developing a test board with a nRF51822 and ST balun (NRF01D3) and a chip antenna (probably Johanson 2450AT18A100 or B100). The board will have 4-layers. The inner layers are ground and power planes. Should they be removed under the balun and antenna net?

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  • 0

    The ST BALUN is designed to work with 2 or more layer boards without any modifications or keep-out areas. No need to make any alterations wrt. to the BALUN.

    However, the antenna must have a keep-out on all layers, with a given clearance length, as described in the manufacturers datasheet. If the antenna is not placed to radiate freely, it will not function properly.

    We recommend using a PI-network as an antenna tuner (shunt-series-shunt network) between the BALUN and the antenna. All antennas are not 50 ohm by default, and their impedance at 2.45 GHz will always differ from design-to-design.

  • 0 in reply to Håkon Alseth

    Hi Geir,

    The answer would then be different. If you're using discrete match, the components will have a coupling to the mid-layers (if mid-layers = solid), and would then have an effect on out-of-band noise (harmonics and receiver leakage in RX, often called RX_LO) and may degrade output power (not often). You are correct, this is done to get more distance (less parasitic effects) from matching network to the next layer on the PCA10000.

    Ideally, you want at least .5 mm distance from the discrete matching network to the next solid layer in the PCB stackup. Integrated matching network (one component BALUN) are built up in a different way, and does not seem to be influenced on how the PCB is stacked up.

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  • 0 in reply to Håkon Alseth

    Hi Geir,

    The answer would then be different. If you're using discrete match, the components will have a coupling to the mid-layers (if mid-layers = solid), and would then have an effect on out-of-band noise (harmonics and receiver leakage in RX, often called RX_LO) and may degrade output power (not often). You are correct, this is done to get more distance (less parasitic effects) from matching network to the next layer on the PCA10000.

    Ideally, you want at least .5 mm distance from the discrete matching network to the next solid layer in the PCB stackup. Integrated matching network (one component BALUN) are built up in a different way, and does not seem to be influenced on how the PCB is stacked up.

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