Waveguide antenna element based beam forming phased array antenna system for millimeter wave communication

What is claimed is: 1. An antenna system, comprising: a first substrate; a plurality of chips; and a waveguide antenna element based beam forming phased array that comprises a plurality of radiating waveguide antenna cells for millimeter wave communication, wherein each radiating waveguide antenna cell of the plurality of radiating waveguide antenna cells comprises a plurality of pins, wherein a first pin of the plurality of pins is connected with a body of a corresponding radiating waveguide antenna cell, wherein the body corresponds to ground for the plurality of pins, wherein the first pin comprises a first current path and a second current path, wherein the first current path is longer than the second current path, wherein a first end of the plurality of radiating waveguide antenna cells of the waveguide antenna element based beam forming phased array is mounted on the first substrate, and wherein the plurality of chips are electrically connected with the plurality of pins and the ground of each of the plurality of radiating waveguide antenna cells to control beamforming through a second end of the plurality of radiating waveguide antenna cells for the millimeter wave communication. 2. The antenna system according to claim 1 , wherein each radiating waveguide antenna cell is configured to resonate at a first frequency range from 26.5 GigaHertz (GHz) to 29.5 GHz and a second frequency range from 37 GHz to 40.5 GHz. 3. The antenna system according to claim 2 , wherein the first current path is configured to generate a first RF current and the second current path is configured to generate a second RF current, and wherein the first RF current resonates at the first frequency range and the second RF current resonates at the second frequency range. 4. The antenna system according to claim 1 , wherein the chip is configured to: generate a high band Radio Frequency (RF) signal and a low band RF signal at a transmitter, and generate the high band Radio Frequency (RF) signal and the low band RF signal at a receiver. 5. The antenna system according to claim 1 , wherein a first direction of the first current path is same as a second direction of the second current path. 6. The antenna system according to claim 1 , wherein distance between two consecutive radiating waveguide antenna cells of the plurality of radiating waveguide antenna cells is based on the second current path. 7. The antenna system according to claim 2 , wherein distance between two consecutive radiating waveguide antenna cells of the plurality of radiating waveguide antenna cells is one of a half wavelength of the first frequency range or a value between the first frequency range and the second frequency range. 8. The antenna system according to claim 1 , wherein the waveguide antenna element based beam forming phased array further comprises a plurality of non-radiating dummy waveguide antenna cells in a first layout, wherein the plurality of non-radiating dummy waveguide antenna cells are at edge regions of the plurality of radiating waveguide antenna cells to enable even radiation for the millimeter wave communication through the second end of each of the plurality of radiating waveguide antenna cells. 9. The antenna system according to claim 8 , further comprising a second substrate, wherein the plurality of non-radiating dummy waveguide antenna cells are mounted on the second substrate that is different than the first substrate. 10. The antenna system according to claim 8 , wherein the first substrate comprises an upper side and a lower side, wherein the first end of the plurality of radiating waveguide antenna cells of the waveguide antenna element based beam forming phased array is mounted on the upper side of the first substrate, and the plurality of chips are between the lower side of the first substrate and the upper surface of a system board. 11. The antenna system according to claim 1 , wherein the first substrate comprises an upper side and a lower side, wherein the plurality of chips and the plurality of radiating waveguide antenna cells of the waveguide antenna element based beam forming phased array are on the upper side of the first substrate. 12. The antenna system according to claim 11 , wherein a vertical length between the plurality of chips and the first end of the plurality of radiating waveguide antenna cells of the waveguide antenna element based beam forming phased array is less than a threshold value to reduce insertion loss between the plurality of radiating waveguide antenna cells and the plurality of chips. 13. The antenna system according to claim 11 , wherein the waveguide antenna element based beam forming phased array has a metallic electrically conductive surface that acts as a heat sink to dissipate heat from the plurality of chips to atmospheric air through the metallic electrically conductive surface of the waveguide antenna element based beam forming phased array, and wherein the heat is dissipated based on a contact of the plurality of chips with the plurality of radiating waveguide antenna cells of the waveguide antenna element based beam forming phased array on the upper side of the first substrate. 14. The antenna system according to claim 1 , the waveguide antenna element based beam forming phased array is a dual-polarized open waveguide array antenna configured to transmit and receive radio frequency waves for the millimeter wave communication in both horizontal and vertical polarizations or as left hand circular polarization (LHCP) or right hand circular polarization (RHCP). 15. The antenna system according to claim 1 , wherein the plurality of pins in each radiating waveguide antenna cell includes a pair of vertical polarization pins and a pair of horizontal polarization pins, wherein the pair of vertical polarization pins comprises a first positive terminal and a first negative terminal and the pair of horizontal polarization pins comprises a second positive terminal and a second negative terminal, and wherein the pair of vertical polarization pins and the pair of horizontal polarization pins are utilized for dual-polarization. 16. The antenna system according to claim 1 , wherein the plurality of chips comprises a set of receiver (Rx) chips, a set of transmitter (Tx) chips, and a signal mixer chip. 17. The antenna system according to claim 1 , wherein the plurality of chips are configured to control propagation and a direction of a radio frequency (RF) beam in millimeter wave frequency through the second end of the plurality of radiating waveguide antenna cells for the millimeter wave communication between the antenna system and a millimeter wave-based communication device, and wherein the second end is an open end of the plurality of radiating waveguide antenna cells for the millimeter wave communication. 18. The antenna system according to claim 17 , wherein the propagation of the radio frequency (RF) beam in millimeter wave frequency is controlled based on at least a flow of a first RF current and a second RF current in each radiating waveguide antenna cell, wherein the first RF current and the second RF current flows from the ground towards a negative terminal of a first chip of the plurality of chips via at least a first pin of the plurality of pins, and from a positive terminal of the first chip towards the ground via at least a second pin of the plurality of pins in each corresponding radiating waveguide antenna cell of the plurality of radiating waveguide antenna cells. 19. The antenna system according to cla