a few examples of my work
Image showing the size comparison of an L&S-Band and X-Band tapered slot antennas that I developed. Not how much smaller the X-band element is.
Tapered Slot Antennas
A tapered slot antenna (TSA) is a directional antenna characterized by a gradually widening slot that efficiently guides and radiates electromagnetic waves.
Known for their wide bandwidth and high gain, TSAs are widely used in radar, wireless communications, and high-resolution imaging systems. Their broadband performance makes them ideal for applications requiring reliable operation across a broad frequency range.
I have extensive experience in the design and development of tapered slot antennas, delivering solutions that operate seamlessly from 600 MHz to 35 GHz. My expertise encompasses the entire development process, from initial design and simulation to material selection and performance optimization.
With a proven track record in creating high-performance, customized TSA solutions for diverse applications, I bring a deep understanding and a commitment to delivering innovative, reliable designs for demanding engineering needs.
You can download some measured data on the measured performance of the x-band tapered slot antenna here.
Spiral Antenna
A spiral antenna is a type of frequency-independent antenna known for its wide bandwidth, circular polarization, and compact design. It is commonly used in applications such as direction finding, satellite communications, and radar systems due to its consistent performance across a broad frequency range and ability to handle multiple polarizations.
I have extensive experience in designing and developing spiral antennas, creating solutions tailored for various applications and frequency requirements.
My expertise includes optimizing performance characteristics such as impedance matching, axial ratio, and beamwidth.
I have successfully developed multiple high-performance spiral antennas, delivering reliable, innovative designs that meet complex engineering demands.
For information on the measured performance of this spiral antenna I designed, you can find it here.
Image of a spiral antenna I designed to operate at L-Band. It was designed for right hand circular polarization and had excellent axial ratio, gain, and impedance match.
Image of a phased array using patch antenna elements.
Phased Arrays
Your phased array requirements may seem unclear or challenging for you too meet in the timeline required. My proven phased array development process will help guide you to the solution.
From concept to deployment, the process is crafted to result in innovative designs that optimize beamforming, coverage, and signal performance.
The phased array solutions are tailored to deliver precision, reliability, and efficiency, ensuring your systems excel in complex environments. With a focus on streamlined development cycles and cutting-edge technology, I address your specific challenges while delivering superior results.
Whether for defense, aerospace, or telecommunications, my expertise ensures your phased array systems achieve unparalleled performance and a competitive edge. Let’s bring your vision to life.
For more information on phased arrays, I suggest my book title Systems Engineering of Phased Arrays which is available on Amazon or the publisher.
Or, for an example of a phased array design applied to satellite communications you can download an article I wrote here.