tariq mehmood | University of Engineering & Technology Lahore, Pakistan (original) (raw)

Papers by tariq mehmood

-In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our... more -In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our topic “Reconfigurable Antenna for 4G LTE and 5G Applications” is reconfigured form of previous antennas and it deals with 5 or more bands of LTE [2140MHz, 4200MHz, 5650MHz, 5900MHz and 12.04GHz]. It provides wide range of applications for modern communication systems. It is efficient and there are no mobility issues in it as were in previous antennas. It is an important feature of RF systems. With it a single device can access more than one wireless standard. The Re-configurability can be obtained by changing frequency, polarization, radiations pattern and their combination. Pin diode are used, to achieve reconfigurability. We prefer pin diode (MPP4203) for reconfigurability, due to its high resolution, high switching speed, reliability, and compact size, also it’s a very high attenuator. We worked on HFSS [8] and CST [9] for modelling of this antenna. Reconfigurable Antenna is working on maximum bands of LTE and so it can facilitate more services and users.

Reconfigurable Antenna for 4G LTE and 5G Applications Reconfigurable Antenna for 4G LTE and 5G Applications , 2019

In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our ... more In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our topic “Reconfigurable Antenna for 4G LTE and 5G Applications” is reconfigured form of previous antennas and it deals with 5 or more bands of LTE [2140MHz, 4200MHz, 5650MHz, 5900MHz and 12.04GHz]. It provides wide range of applications for modern communication systems. It is efficient and there are no mobility issues in it as were in previous antennas. It is an important feature of RF systems. With it a single device can access more than one wireless standard. The Re-configurability can be obtained by changing frequency, polarization, radiations pattern and their combination. Pin diode are used, to achieve reconfigurability. We prefer pin diode (MPP4203) for reconfigurability, due to its high resolution, high switching speed, reliability, and compact size, also it’s a very high attenuator. We worked on HFSS [8] and CST [9] for modelling of this antenna. Reconfigurable Antenna is working on maximum bands of LTE and so it can facilitate more services and users.In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our topic “Reconfigurable Antenna for 4G LTE and 5G Applications” is reconfigured form of previous antennas and it deals with 5 or more bands of LTE [2140MHz, 4200MHz, 5650MHz, 5900MHz and 12.04GHz]. It provides wide range of applications for modern communication systems. It is efficient and there are no mobility issues in it as were in previous antennas. It is an important feature of RF systems. With it a single device can access more than one wireless standard. The Re-configurability can be obtained by changing frequency, polarization, radiations pattern and their combination. Pin diode are used, to achieve reconfigurability. We prefer pin diode (MPP4203) for reconfigurability, due to its high resolution, high switching speed, reliability, and compact size, also it’s a very high attenuator. We worked on HFSS [8] and CST [9] for modelling of this antenna. Reconfigurable Antenna is working on maximum bands of LTE and so it can facilitate more services and users.

-In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our... more -In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our topic “Reconfigurable Antenna for 4G LTE and 5G Applications” is reconfigured form of previous antennas and it deals with 5 or more bands of LTE [2140MHz, 4200MHz, 5650MHz, 5900MHz and 12.04GHz]. It provides wide range of applications for modern communication systems. It is efficient and there are no mobility issues in it as were in previous antennas. It is an important feature of RF systems. With it a single device can access more than one wireless standard. The Re-configurability can be obtained by changing frequency, polarization, radiations pattern and their combination. Pin diode are used, to achieve reconfigurability. We prefer pin diode (MPP4203) for reconfigurability, due to its high resolution, high switching speed, reliability, and compact size, also it’s a very high attenuator. We worked on HFSS [8] and CST [9] for modelling of this antenna. Reconfigurable Antenna is working on maximum bands of LTE and so it can facilitate more services and users.

Reconfigurable Antenna for 4G LTE and 5G Applications Reconfigurable Antenna for 4G LTE and 5G Applications , 2019

In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our ... more In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our topic “Reconfigurable Antenna for 4G LTE and 5G Applications” is reconfigured form of previous antennas and it deals with 5 or more bands of LTE [2140MHz, 4200MHz, 5650MHz, 5900MHz and 12.04GHz]. It provides wide range of applications for modern communication systems. It is efficient and there are no mobility issues in it as were in previous antennas. It is an important feature of RF systems. With it a single device can access more than one wireless standard. The Re-configurability can be obtained by changing frequency, polarization, radiations pattern and their combination. Pin diode are used, to achieve reconfigurability. We prefer pin diode (MPP4203) for reconfigurability, due to its high resolution, high switching speed, reliability, and compact size, also it’s a very high attenuator. We worked on HFSS [8] and CST [9] for modelling of this antenna. Reconfigurable Antenna is working on maximum bands of LTE and so it can facilitate more services and users.In our work reported, the focus is around miniaturization and reconfigurability of antennas. Our topic “Reconfigurable Antenna for 4G LTE and 5G Applications” is reconfigured form of previous antennas and it deals with 5 or more bands of LTE [2140MHz, 4200MHz, 5650MHz, 5900MHz and 12.04GHz]. It provides wide range of applications for modern communication systems. It is efficient and there are no mobility issues in it as were in previous antennas. It is an important feature of RF systems. With it a single device can access more than one wireless standard. The Re-configurability can be obtained by changing frequency, polarization, radiations pattern and their combination. Pin diode are used, to achieve reconfigurability. We prefer pin diode (MPP4203) for reconfigurability, due to its high resolution, high switching speed, reliability, and compact size, also it’s a very high attenuator. We worked on HFSS [8] and CST [9] for modelling of this antenna. Reconfigurable Antenna is working on maximum bands of LTE and so it can facilitate more services and users.