How Does a Parabolic Collector Work?

The unique shape of the parabolic collector allows anything coming into the dish, that is parallel to the center line of the dish, to be focused onto a single point.

This shape is based on a mathematical formula called a parabola. That is where parabolic collectors get their name.

This focusing effect works with light, electromagnet energy or sound energy. Satellite dishes use this same concept to gather electromagnetic signals from space. According to Wikipedia, German physicist Heinrich Hertz constructed the world’s first parabolic reflector antenna in 1888, but the principle of parabolic reflectors has been known since classical antiquity, when the mathematician Diocles described them in his book On Burning Mirrors and proved that they focus a parallel beam to a point. Acoustic Mirrors used the same effect to detect enemy aircraft prior to the invention of radar.


When a microphone, an electronic element that converts sound pressure into an electrical signal, is mounted inside a parabolic collector, it is referred to as a parabolic microphone. As mentioned above, the unique shape of the parabolic collector is used to collect incoming sound (pressure) waves and focus them onto a single point where the microphone converts the collected sound energy into an electrical signal. Because the sound energy from a large area is focused onto a single point, the sound is in effect, amplified. The electrical signal generated by the microphone is then amplified electronically as well.

This is the same technology that is used to capture the sounds of the game during professional football games every weekend. In fact, the Sound Shark is manufactured by Klover Products, the leading manufacturer of the parabolic microphones used for professional sports.

The Sound Shark, however, is unique in that it is small enough to be mounted directly on a video camera, a light stand, a tripod or a Magic Arm. This flexibility allows the Sound Shark to be located out of the camera’s field of view, regardless of where the video camera may be.


Exactly. A whisper can be heard from a great distance if you stand at the focus point of a large parabolic dish. Museums and science centers commonly refer to these as Whisper Dishes.


Yes. The parabolic shape is critical to the performance of the parabolic collector, the dish must be manufactured to exact specifications. The Sound Shark’s dish is manufactured to tolerances of only a few thousandths of an inch. While you are able to collect sounds with an inexpensive dish, that sound will be distorted or “garbled”, and the amplification will be reduced significantly.

Paul Terpstra has more than 35 years of engineering and product development experience. He founded Innalytical Solutions, Inc. in 2004, to provide a wide range of engineering services including forensic engineering, Finite Element Analysis, electomechanical design, machine design, and machinery repair. Paul was recently granted his eleventh U. S. Patent.

In April of 2012, Paul and Patrick Santini, an Innalytical Solutions customer, created Klover Products, Inc. Previously in 2011, they had jointly dveloped a parabolic microphone for Fox Sports when Fox audio engineers grew disatisfied with the available products. That original test unit turned out to be the first prototype of the microphone that would later become the Klover MiK 26. The Klover MiK 26 parabolic microphones have been used exclusiely by Fox Sports for football broadcasts since 2012.