Production prototype harmonic radar planar antenna developed by Michael Volz that was 50% smaller and 85% cheaper than the previous generation patented design. Red arrow indicates flow of incident energy through to harmonic generating diode and back to the patch that primarily radiates the second harmonic of the radar transmitter.

L-band Radar system front-end unit--a nanowatt, microwatt, through milliwatt through-wall radar system. Uses two coffee cans as open-ended circular waveguide antennas.

Publications / Conferences

M. A. Volz, et al. "Recent Developments in Miniaturized Planar Harmonic Radar Antennas." Boston, MA: Antenna Measurement Techniques Assoc. Symposium, Nov 2007 (in review).

M. A. Volz, G. Charvat, L. Kempel, M. Warren, E. Liening. "Harmonic Radar Planar Antenna Miniaturization." Ottawa, Ontario: North American Radio Science Meeting, July 2007.

M. A. Volz, G. Charvat, L. Kempel, E. Rothwell. "A Low Cost Approach to L-Band FMCW Radar: Through-Wall Microwatt Radar." Ottawa, Ontario: North American Radio Science Meeting, July 2007.

Affiliations

	President: Eta Kappu Nu: Gamma Zeta Chapter (ECE Honor Society)
	Communications Chair: Tau Beta Pi: Michigan Alpha Chapter The Engineering Honor Society
	Member: IEEE Aerospace and Electronic Systems Society
	Member: IEEE Antennas and Propagation Society
	Member: IEEE Microwave Theory and Techniques Society
	Member: IEEE Signal Processing Society
	President: MSU Amateur Radio Club

Areas of research experience include:

• Code optimization for serial and parallel processing in Matlab and Labview
• Phased Array Angular Accuracy analysis
• Harmonic Radar
• Multi-band Miniaturized Planar Antennas
• Microstrip Circuit Design

Other Recent Work

Wilkenson Power Divider: current distribution modeling and physical realization

Pin loaded patch antenna current distribution modeling

Modeling of antenna radiation pattern, about 1/6 wavelength above real ground (NEC2)