An Integrated Slot-Ring Traveling-Wave Radiator

Author

Bowers, Steven M. ; Safaripour, Amirreza ; Hajimiri, Ali

Author_Institution

Dept. of Electr. & Comput. Eng., Univ. of Virginia, Charlottesville, VA, USA

Volume

63

Issue

4

fYear

2015

fDate

42095

Firstpage

1154

Lastpage

1162

Abstract

Electromagnetic duality is used to design a multi-port traveling-wave slot-ring antenna with on-chip driver circuitry to create a fully integrated radiator. By creating a slot version of the multi-port driven antenna, the required exclusive use area of the antenna is significantly decreased, while still being able to perform impedance matching, power combining, and power transfer off chip through electromagnetic radiation in a single step. The driver core consists of an oscillator followed by three amplification stages. A split path inductor design was utilized to reduce the radiator´s dependence on process variation in the metal stack while ensuring proper isolation between the four quadrature paths. The slot radiator has a simulated antenna efficiency of 39% and a measured single-element effective isotropic radiated power of 6.0 dBm with a total radiated power of -1.3 dBm at 134.5 GHz.

Keywords

antenna radiation patterns; driver circuits; impedance matching; inductors; millimetre wave antennas; millimetre wave oscillators; power combiners; slot antennas; amplification stages; driver core; efficiency 39 percent; electromagnetic duality; electromagnetic radiation; frequency 134.5 GHz; impedance matching; integrated radiator; integrated slot ring; metal stack; multiport driven antenna; multiport traveling-wave slot-ring antenna; on-chip driver circuitry; oscillator; power combining; power transfer off chip; quadrature paths; single-element effective isotropic radiated power; split path inductor; traveling wave radiator; Couplings; Inductors; Integrated circuit modeling; Oscillators; Slot antennas; Wires; Antenna theory and design; CMOS integrated circuits; electromagnetic (EM) simulation; integrated microwave circuits; integrated radiators; millimeter-wave silicon RF integrated circuits (RFICs); on-chip antennas;

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/TMTT.2015.2405921

Filename

7055932