Electronically reconfigurable 1-bit phase quantization phased array element

What is claimed is: 1. A phase shift element comprising: an antenna; a first dielectric layer; a ground plane mounted to a first surface of the first dielectric layer; a reflecting circuit mounted to a second surface of the first dielectric layer, wherein the first surface is opposite the second surface; a single antenna-reflector line connected between the antenna and the reflecting circuit through the ground plane and the first dielectric layer, wherein the antenna-reflector line is formed of a conducting material; and an interconnect line connected between the antenna and the ground plane, wherein the interconnect line is formed of a conducting material, wherein the reflecting circuit is configured to reflect a signal received on the single antenna-reflector line from the antenna back to the antenna on the single antenna-reflector line; and wherein the reflecting circuit is further configured to be switchable between two different impedance levels that each provide a different phase shift when the signal is reflected by the reflecting circuit. 2. The phase shift element of claim 1 , wherein the antenna is a dipole antenna with an unbalanced geometry. 3. The phase shift element of claim 1 , wherein the antenna is a dipole antenna. 4. The phase shift element of claim 3 , wherein the dipole antenna comprises: a second dielectric layer; a first conducting pattern mounted on a first surface of the second dielectric layer; and a second conducting pattern mounted on a second surface of the second dielectric layer that is opposite to the first surface of the second dielectric layer. 5. The phase shift element of claim 4 , wherein the single antenna-reflector line is connected between the second conducting pattern and the reflecting circuit through the ground plane and the first dielectric layer. 6. The phase shift element of claim 5 , further comprising an interconnect line connected between the second conducting pattern and the ground plane, wherein the interconnect line is formed at least partially on the second surface of the second dielectric layer, wherein the interconnect line is formed of a conducting material. 7. The phase shift element of claim 4 , wherein a first plane defined by the first surface of the second dielectric layer is perpendicular to a second plane defined by the first surface of the first dielectric layer. 8. The phase shift element of claim 4 , wherein a first plane defined by the first surface of the second dielectric layer is perpendicular to a second plane defined by the first surface of the first dielectric layer and to a second plane defined by the first surface of the ground plane. 9. The phase shift element of claim 4 , wherein the first conducting pattern and the second conducting pattern are different. 10. The phase shift element of claim 1 , wherein the reflecting circuit comprises: a first transmission line section; a second transmission line section; and a switch connected between the first transmission line section and the second transmission line section, wherein the two different impedance levels are defined based on a conducting or a non-conducting state of the switch. 11. The phase shift element of claim 10 , wherein the switch is a diode. 12. The phase shift element of claim 11 , wherein the reflecting circuit further comprises: a first voltage pad connected to the first transmission line section; and a second voltage pad connected to the second transmission line section, wherein a difference between voltages applied to the first voltage pad and the second voltage pad controls a state of the diode to connect the first transmission line section and the second transmission line section. 13. The phase shift element of claim 11 , wherein the first transmission line section forms a U-shape. 14. The phase shift element of claim 13 , wherein the second transmission line section forms an L-shape. 15. The phase shift element of claim 1 , wherein the reflecting circuit comprises: a first inductor; a first capacitor connected in series with the first inductor; a second inductor; a second capacitor connected in series with the second inductor; and a switch connected in series between the first inductor and the second inductor, wherein the two different impedance levels are defined based on a conducting or a non-conducting state of the switch. 16. The phase shift element of claim 15 , wherein the switch is a diode, and wherein the reflecting circuit further comprises: a first voltage pad connected between the first inductor and an anode of the diode; and a second voltage pad connected between the second inductor and the second capacitor, wherein a difference between voltages applied to the first voltage pad and the second voltage pad controls a state of the diode to connect the first inductor and the second inductor. 17. The phase shift element of claim 1 , wherein the reflecting circuit comprises: a first inductor; a first capacitor connected in parallel with the first inductor; a second inductor; a second capacitor connected in parallel with the second inductor; and a switch connected in series between the first capacitor and the second inductor, wherein the two different impedance levels are defined based on a conducting or a non-conducting state of the switch. 18. The phase shift element of claim 17 , wherein the switch is a diode, and wherein the reflecting circuit further comprises: a first voltage pad connected between the first inductor and the first capacitor; and a second voltage pad connected between the second inductor and the second capacitor, wherein a difference between voltages applied to the first voltage pad and the second voltage pad controls a state of the diode to connect the first capacitor and the second inductor. 19. A phased array antenna comprising: a plurality of phase shift elements, wherein each phase shift element of the plurality of phase shift elements comprises: an antenna; a first dielectric layer; a ground plane mounted to a first surface of the first dielectric layer; a reflecting circuit mounted to a second surface of the first dielectric layer, wherein the first surface is opposite the second surface; a single antenna-reflector line connected between the antenna and the reflecting circuit through the ground plane and the first dielectric layer, wherein the antenna-reflector line is formed of a conducting material; and an interconnect line connected between the antenna and the ground plane, wherein the interconnect line is formed of a conducting material, wherein the reflecting circuit is configured to reflect a signal received on the single antenna-reflector line from the antenna back to the antenna on the single antenna-reflector line; and wherein the reflecting circuit is further configured to be switchable between two different impedance levels that each provide a different phase shift when the signal is reflected by the reflecting circuit.