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enter image description here

In the picture above I am trying to implement a steerable antenna, by means of the phase shifter chips U1, U2, and U3. Each is capable of varying the phase of the input by a maximum of 100 degrees (output depends on the bias). My goal for the antenna is merely to achieve the steering effect by changing the phases. Given that each phase sifter has a insertion loss of 1.4 dB, will I be able to see any steering effect?

My thinking was that since 1.4 dB power loss means a loss of about 14% power, and since without the phase sifters, the array would essentially be a parallel connexion of antenna elements (ANT1, ANT2, ANT3 and ANT4), with the sifters I would still be able to split power among the antenna elements.

So if my input power is 1 W, would 
the first antenna receive 0.25*1= 0.25 W,
the second antenna receive 0.25*0.86 = 0.22 W,
the third antenna receive 0.215*0.86 = 0.18 W,
the fourth antenna receive 0.18*0.86 = 0.16 W ?

The antennas are monopole antennas designed to work at 2 GHz. I will be testing the steering effect by using a Light Emitting Diode connected to a receiving antenna.

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There are a couple of issues with your implementation:

1) 1.4 dB of loss is about 28% power loss -1.4 =10*log10(P1/P0), so by cascading you end up losing quite a bit to a point of not being able to steer

2) matching: when you are splitting a 50 Ohm line into 2 50 ohm lines, the line in effect sees a 50||50 or 25 Ohms creating a large reflection. You may want to use a power splitter (e.g. Wilkinson power divider)

3) at 2 GHz your free space wavelength is 15 cm. If you are using a PCB trace (depending on type of transmission line and the properties of the PCB) it is even shorter (e.g. 10 cm). So, the lines that go to your phase shifters introduce quite a bit of delay. Make sure you take that into account.

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  • \$\begingroup\$ How about I use appropriate lengths of micro strip (at each feedline) so as to match the input impedance seen by the generator to be 50 Ohm? And also doesn't the steering not depend on the amplitude but only the phase? Can't I just boost up the input power? \$\endgroup\$ Oct 26, 2013 at 23:35
  • \$\begingroup\$ You can, but then your antenna/phase shifter will see a different impedance (e.g. 100 Ohms). The problem with steering is not amplitude but relative amplitude: ie if one antenna gets more power than the other. \$\endgroup\$
    – Yuriy
    Oct 27, 2013 at 1:29
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Your LED would have to receive a power of 1.8V x (say) 5mA to illuminate - that is a power of 9mW. Your transmit antennas will have to be close to the receiving antenna for it to illuminate the LED and this means you are likely to be in the near field of your transmit antenna(s).

I'm half thinking that this rules out any sensible evidence that your antennas are steering the EM wave as you think. Just a thought.

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  • \$\begingroup\$ haha, thanks, that's a possibility. I will have to use some other other forms of detectors. \$\endgroup\$ Oct 26, 2013 at 23:37

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