Today’s space applications demand high performance frequency control and timing solutions in smaller, lighter, more power-efficient, and cost-effective form factors. Quantic Wenzel innovates by developing low-phase noise and low-g sensitive technologies into SWaP-C efficient, affordable solutions:
At Quantic Wenzel we know that your mission-critical program needs are financially and strategically important to your organization, and we take the responsibility to help you achieve your goals very seriously. From prototype to production, we consistently provide proactive, world-class customer service in our efforts to research, design and deliver innovative frequency control and timing solutions with industry-leading performance.
Quantic Wenzel is trusted to support the mission-critical frequency control and timing engineering and manufacturing needs of some of the finest companies in the world.
Meet Bruce Carlson, Director of Engineering. New to Quantic Wenzel, Bruce plays a key role by leading our engineering department and supporting our customers’ mission-critical RF and microwave system applications. This interview sheds light on Bruce’s extensive career, expertise, vision for the future of our engineering team, and other valuable insights. Question #1: Can you tell us about your background and what led you to join Quantic Wenzel? Bruce Carlson: I have over 35 years of experience in RF and […]
The latest generation of cellular networks have revolutionized connectivity with unprecedented speed and capacity. To extend these benefits globally, developments are shifting towards space-based cellular networks. Low Earth Orbit (LEO) satellite constellations are being deployed to provide service from orbit, bridging connectivity gaps in remote and underserved areas. However, in the challenging space environment, maintaining precise frequency control and minimizing phase noise has been a challenge for RF engineers. Phase noise can impact data transmission quality, especially at high frequencies. […]
The demand for space-based frequency control and timing components has been growing rapidly in recent years. This new trend is driven by the need for better communication, navigation, Earth observation, and scientific research. To meet these demands, missions require highly reliable and precise frequency control and timing solutions. In the past, these components were custom-designed and manufactured at great cost and with long lead times. However, Commercial Off-The-Shelf (COTS) components have emerged as a game-changer, offering cost-effective and reliable performance […]
