Kavitha N - Academia.edu (original) (raw)

Papers by Kavitha N

Research paper thumbnail of Electronically Controlled Frequency Agile Beam Scanning Reflectarray Antenna with Integrated Control Unit

Blue Martin Press, 2023

This paper reports the design, development, fabrication, and testing of a 225-element reconfigura... more This paper reports the design, development, fabrication, and testing of a 225-element reconfigurable reflectarray (RRA) antenna with frequency agility and beam steering capabilities. The 15 × 15 (18.75 cm) RRA operating in the Ku-band downlink frequency range (11.8-12.2 GHz) of fixed satellite services (FSS) produces dual resonances switched between uplink frequency range (15-18 GHz) of FSS and earth exploration satellite range of 9.5-9.8 GHz (Xband). To attain reconfigurable multiple resonances, the unit cell is designed with a Malta cross of varying slot lengths interconnected to a square ring via a PIN diode. In the OFF state of the PIN diode connected between the concentric elements, a phase variation of 360 • is obtained at 12 GHz and 9.5 GHz by varying the size of the Malta cross. By increasing the width of the outer ring in the ON state of the PIN diode, a dual resonance is obtained at 12 GHz and 17 GHz with 360 • phase agility. The beam scanning is attempted at X-band frequency by controlling the capacitance offered by the varactor diode connected between an inductive element and Malta cross. The proposed RRA offers 22.16 dBi, 24.5 dBi, and 18.43 dBi simulated gain at 17 GHz, 12 GHz, and 9.5 GHz, respectively. The simulated sidelobe levels (SLLs) and cross-polarization levels are-14.7 dB and less than-32 dB, respectively. The proposed compound reconfigurable reflectarray befits fixed and mobile satellites, earth exploration satellites, radiolocation, aeronautical radio navigation, and deep space research.

Research paper thumbnail of Design and Development of Frequency Agile Reflectarray Antenna

JOURNAL OF HIGH-FREQUENCY COMMUNICATION TECHNOLOGIES

This paper presents the design of a frequency reconfigurable reflectarray with concentric circula... more This paper presents the design of a frequency reconfigurable reflectarray with concentric circular rings. The PIN diode connected between a phase delay line and the ring produces reconfigured resonances at 16 GHz and 10.4 GHz. The variation in the size of the concentric rings offer a phase change of 356º during the OFF state of the PIN diode. 360° phase variation in the PIN ON condition is achieved by varying the delay line length. A 225-element centre-fed reflectarray antenna is constructed with square geometry. A simulated gain of 23 dBi is obtained with -17 dB side lobe level and -28 dB cross-polarization level at 16 GHz. In the PIN ON condition, a simulated gain of 22 dBi is obtained with -12 dB side lobe level and -28 dB cross polarization level. This reconfigurable reflectarray finds its applications in space research, satellite communication, and RADAR.

Research paper thumbnail of Electronically Controlled Frequency Agile Beam Scanning Reflectarray Antenna with Integrated Control Unit

Blue Martin Press, 2023

This paper reports the design, development, fabrication, and testing of a 225-element reconfigura... more This paper reports the design, development, fabrication, and testing of a 225-element reconfigurable reflectarray (RRA) antenna with frequency agility and beam steering capabilities. The 15 × 15 (18.75 cm) RRA operating in the Ku-band downlink frequency range (11.8-12.2 GHz) of fixed satellite services (FSS) produces dual resonances switched between uplink frequency range (15-18 GHz) of FSS and earth exploration satellite range of 9.5-9.8 GHz (Xband). To attain reconfigurable multiple resonances, the unit cell is designed with a Malta cross of varying slot lengths interconnected to a square ring via a PIN diode. In the OFF state of the PIN diode connected between the concentric elements, a phase variation of 360 • is obtained at 12 GHz and 9.5 GHz by varying the size of the Malta cross. By increasing the width of the outer ring in the ON state of the PIN diode, a dual resonance is obtained at 12 GHz and 17 GHz with 360 • phase agility. The beam scanning is attempted at X-band frequency by controlling the capacitance offered by the varactor diode connected between an inductive element and Malta cross. The proposed RRA offers 22.16 dBi, 24.5 dBi, and 18.43 dBi simulated gain at 17 GHz, 12 GHz, and 9.5 GHz, respectively. The simulated sidelobe levels (SLLs) and cross-polarization levels are-14.7 dB and less than-32 dB, respectively. The proposed compound reconfigurable reflectarray befits fixed and mobile satellites, earth exploration satellites, radiolocation, aeronautical radio navigation, and deep space research.

Research paper thumbnail of Design and Development of Frequency Agile Reflectarray Antenna

JOURNAL OF HIGH-FREQUENCY COMMUNICATION TECHNOLOGIES

This paper presents the design of a frequency reconfigurable reflectarray with concentric circula... more This paper presents the design of a frequency reconfigurable reflectarray with concentric circular rings. The PIN diode connected between a phase delay line and the ring produces reconfigured resonances at 16 GHz and 10.4 GHz. The variation in the size of the concentric rings offer a phase change of 356º during the OFF state of the PIN diode. 360° phase variation in the PIN ON condition is achieved by varying the delay line length. A 225-element centre-fed reflectarray antenna is constructed with square geometry. A simulated gain of 23 dBi is obtained with -17 dB side lobe level and -28 dB cross-polarization level at 16 GHz. In the PIN ON condition, a simulated gain of 22 dBi is obtained with -12 dB side lobe level and -28 dB cross polarization level. This reconfigurable reflectarray finds its applications in space research, satellite communication, and RADAR.