Title :
A C - Ku-Band RF Module Transmitter Including an RF Signal Generator for a Flexible Phased-Array System
Author :
Kawakami, Kenji ; Nakamizo, Hideyuki ; Tajima, Katsubumi ; Taniguchi, E. ; Akiyama, Toyokazu ; Hieda, Morishige ; Sakai, Kenji ; Hayashi, Ryohei ; Nakayama, Makoto ; Hirano, Yoshikuni ; Chiba, Isamu
Author_Institution :
Inf. Technol. R&D Center, Mitsubishi Electr. Corp., Kanagawa, Japan
Abstract :
This paper presents a new concept of an active phased array antenna (APAA) system with RF modules, including an RF signal generator. The proposed APAA realizes multi-frequency and multi-modulation beam forming simultaneously by generating an RF signal independently in each module and sharing them among the antenna arrays. This configuration is effective in a distributed array radar system because the interconnect equipments of modules can be simplified by not transmitting an RF signal on the cables. Moreover, the proposed APAA can compensate the performance variation between output signals of RF modules. These features contribute a flexible and precise APAA operation. Key features of the proposed APAA are verified by measurements. A transmitter block of the RF module with three silicon-germanium integrated circuits is fabricated to validate the proposed functions and performances. The fabricated RF module generates the various modulated signals of 1 Gs/s and operates in C- Ku-bands. It is achieved that the measurement accuracy of timing error, phase error, and amplitude error of RF output signals are 56 ps · rms, 0.6° · rms, and 0.6 dB · rms, respectively.
Keywords :
Ge-Si alloys; antenna phased arrays; array signal processing; microwave integrated circuits; radar antennas; radio transmitters; signal generators; APAA system; C-Ku-band RF module transmitter; RF module output signals; RF output signal amplitude error measurement accuracy; RF output signal phase error measurement accuracy; RF output signal timing error measurement accuracy; RF signal generator; SiGe; active phased array antenna system; bit rate 1 Gbit/s; distributed array radar system; flexible phased-array system; interconnect equipments; multifrequency beamforming; multimodulation beamforming; silicon-germanium integrated circuits; Beam steering; multichip modules; phased arrays; signal generators; silicon–germanium (SiGe);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2264683
