This paper introduces different types of N-way metamaterial radial power combiners/dividers. The metamaterial properties permit significant size reduction over a conventional N-way radial power combiner/divider. Metamaterial “MTM Technologies™” allow designing transmission lines with an electrical length of zero degree. The first design presented in this paper uses a 0° MTM line that reduces the size to one third of the conventional N-way radial divider. This size reduction improves overall performance by injecting fewer losses into the system and increasing the bandwidth of the radial power combiner/divider. Dual-band properties of Metamaterial are exploited in a second approach to design a dual-band MTM N-way power combiner/divider. In this second case MTM lines have a zero degree phase at a chosen frequency and 180° phase at a second chosen frequency which is not a multiple of the first one. This dual-band radial power combiner/divider is smaller than a conventional 180° single band radial power combiner/divider. Simulation and measurement data is presented in this paper for these different devices.
[1]
Tatsuo Itoh,et al.
Electromagnetic metamaterials : transmission line theory and microwave applications : the engineering approach
,
2005
.
[2]
Cheng Sun,et al.
Millimeter-Wave Power-Combining Techniques
,
1983
.
[3]
K.M.K.H. Leong,et al.
Power Combining Tunnel Diode Oscillators using Metamaterial Transmission Line at Infinite Wavelength Frequency
,
2006,
2006 IEEE MTT-S International Microwave Symposium Digest.
[4]
Sung-Woo Lee,et al.
A simplified design approach for radial power combiners
,
2006,
IEEE Transactions on Microwave Theory and Techniques.
[5]
D. I. Stones,et al.
A comprehensive design technique for the radial wave power combiner
,
1988,
1988., IEEE MTT-S International Microwave Symposium Digest.