Phased array antenna
First Claim
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1. A phased array antenna comprising:
- a. a first antenna element;
b. first switching circuitry connected to the first antenna element and configured to switch operation of the first antenna element between (i) an inactive mode and (ii) at least one of a signal-receiving mode or a signal-transmitting mode;
c. a first impedance element having a first impedance value set by a first input signal;
d. a second antenna element;
e. second switching circuitry connected to the second antenna element and configured to switch operation of the second antenna element between (i) an inactive mode and (ii) at least one of a signal-receiving mode or a signal-transmitting mode; and
f. a second impedance element having a second impedance value set by a second input signal; and
in which (i) the first impedance element is connected to the first antenna element when the first antenna element is operating in the inactive mode, (ii) the second impedance element is connected to the second antenna element when the second antenna element is operating in the inactive mode, (iii) the first impedance value is set randomly or pseudo-randomly by the first input signal, and (iv) the second impedance value is set randomly or pseudo-randomly by the second input signal, thereby disrupting the grating lobe pattern of the backscattering response of the phased antenna array when at least one of the first and second antenna elements is operating in the inactive mode.
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Abstract
There is provided a phased array antenna comprising a plurality of antenna elements (12) and switching circuitry configured to switch the phased array antenna to an inactive mode. The switching to the inactive mode comprises the switching circuitry connecting random or pseudo-random impedance elements (20) to the antenna elements to reduce the peak backscatter level of the phased antenna array.
5 Citations
5 Claims
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1. A phased array antenna comprising:
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a. a first antenna element; b. first switching circuitry connected to the first antenna element and configured to switch operation of the first antenna element between (i) an inactive mode and (ii) at least one of a signal-receiving mode or a signal-transmitting mode; c. a first impedance element having a first impedance value set by a first input signal; d. a second antenna element; e. second switching circuitry connected to the second antenna element and configured to switch operation of the second antenna element between (i) an inactive mode and (ii) at least one of a signal-receiving mode or a signal-transmitting mode; and f. a second impedance element having a second impedance value set by a second input signal; and in which (i) the first impedance element is connected to the first antenna element when the first antenna element is operating in the inactive mode, (ii) the second impedance element is connected to the second antenna element when the second antenna element is operating in the inactive mode, (iii) the first impedance value is set randomly or pseudo-randomly by the first input signal, and (iv) the second impedance value is set randomly or pseudo-randomly by the second input signal, thereby disrupting the grating lobe pattern of the backscattering response of the phased antenna array when at least one of the first and second antenna elements is operating in the inactive mode. - View Dependent Claims (2, 3, 4, 5)
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Specification