It’s never easy to stay up to date on the latest market trends, no matter your industry. With technology moving at such a fast pace, RF engineers especially must take the time to understand the latest developments.
While you might think that a bandpass circuit has no more technological evolutions to get excited about, there are many new exciting developments in the world of RF technology. In fact, the RF filters market is poised to grow by $15.73 billion during 2020-2024, progressing at a CAGR of 20%. But what projects could be transformative in the coming years?
In this article, we answer this pressing question by exploring the recent advancements of bandpass circuits in broadband and military technology.
Did you know that in 1873, James Clerk Maxwell published his Treatise on Electricity and Magnetism? It was the first time anyone laid out a mathematical case for the existence of electromagnetic waves. But it wasn’t until World War II when there was a boom in radio technology that went outside of communications.
Now, in modern radio applications, from FM broadcasting to comms systems, bandpass circuits are only a piece of the puzzle for how only targeted frequencies are filtered. Whether it's streaming high-definition content over a broadband network or tuning into a favorite radio station, the precision of bandpass filters underpins the application’s reliability.
But bandpass circuits are not just limited to broadband communications:
“While RF signals are transmitted, reflected, obstructed, and dispersed by things such as buildings, furnishings, automobiles, and living beings, it is possible to gather relevant data from received RF signals such as one’s position, moving directions, speed, and vitals.”
- Via “Radio Frequency Sensing and its Innovative Applications in Diverse Sectors: A Comprehensive Study,” 2022
As the demand for faster internet speeds and more reliable connections surges, the available frequency spectrum becomes more and more congested. This crowding can lead to interference from adjacent channels, potentially degrading the quality of transmitted data.
The growing emphasis on the Internet of Things (IoT) introduces a range of new frequencies into the mix. This amplifies the risk of cross-talk and signal overlap. Bandpass circuits address these concerns by filtering out undesired frequencies, ensuring that only the relevant signals are transmitted or received.
As 5G and IoT continue to become more widespread around the world, the technology in electronic warfare evolves in tandem.
In 2020, the electronic warfare market was valued at $12.80 billion, with no lowering in sight. Bandpass circuits play a crucial role in electronic warfare.
Military communications, whether ground-to-ground, ship-to-ship, or even satellite-based, rely heavily on the precise transmission and reception of signals. With countless systems operating at the same time, interference is a serious risk in modern military technology. Bandpass circuits ensure that each communication channel remains clear, permitting troops, vessels, and aircraft to coordinate without the risk of a breach.
Bandpass circuits have evolved over time to become more resistant to harsh weather and other conditions. These RF filters must endure extreme temperatures, moisture, and physical shocks while consistently delivering optimal performance. Any faltering, even momentarily, can compromise mission-critical comms or radar functionality.
With advanced adversaries employing electronic countermeasures, the security and integrity of the applications that these circuits are installed in becomes paramount. The circuits and the materials they are made of must resist potential tampering.
In this high-stakes environment, the margin for a circuit’s imperfection is razor-thin.
The U.S. military is investing heavily into future projects that involve electronic frequency technologies. For example, Lockheed Martin has various government defense contracts, one of which is for a long-range frequency jammer.
“Electronic warfare is a high-stakes game of cat and mouse tied to the electromagnetic spectrum. Militaries rely on the spectrum — and its manipulation — for connectivity, navigation and weapons guidance.”
- US Army’s test of Lockheed jammer highlights payload adaptability
As we venture deeper into the technological future, several emerging trends and research areas promise to shape the trajectory of bandpass circuits.
As we delve deeper into the intricacies of modern RF engineering, it’s important to consider a manufacturer who understands these trends. These savvy experts can be the key to an on-budget and on-time partnership.
Are you ready to find the right components for your bandpass circuit?
For RF engineers, staying competitive and up to date on the latest broadband and military trends is vital. While your applications are designed to do what they need to do, the parts that go into your application need just as much scrutiny.
As bandpass circuits evolve, driven by advancements like miniaturization, the choice of a trusted and forward-thinking manufacturer becomes more critical than ever.
At Q Microwave, we're not just observing the future — we've been actively shaping it with our engineers for over 25 years.
Partner with Q Microwave and discover unparalleled quality, innovation, and precision in RF filters, whether custom or off-the-shelf. Learn more about our kickass team today and take the next step in RF engineering excellence!