Plymouth Rock found the cryogenic isolators we designed for NASA, and their expert team was able to deliver to the Navy exactly what was required. Read more about our cryo-capable isolators that can operate at 1 Kelvin here: . #mmWave #isolators

We have successfully developed an advanced line of commercial off-the-shelf (COTS) hybrid circulators, isolators, orthomode transducers, and variable attenuators, many of which can operate well into the sub-THz regime. #mmWave #MicroHarmonics #circulators #rfengineering

We are extending our line of Voltage Variable Attenuators with the release of our VA080 in waveguide band WR-8 (90-140 GHz). This adds to our previously released #mmWave attenuators in both the W band (WR 10, 75-110 GHz) and D band (WR 6.5, 110-170 GHz).

Here are just a few reasons why engineers are increasingly choosing Micro Harmonics: . 1) Low insertion loss.2) High isolation.3) Compact size.4) Extended bandwidth.5) 25 GHz to 400 GHz.6) Diamond heatsinks.7) Cryogenic options.8) Comprehensive test data with every component

Often flying under the radar, RF isolators protect your power amplifiers from unwanted signal reflections — keeping everything stable and performing at its best. 🚀🔧. #mmwave #poweramplifiers #RFisolator #RFtechnology #wirelesstech

IMS 2025 was a huge success! We had a great time meeting everyone and demonstrating our D band Voltage Variable Attenuator (110-170 GHz) and our new Orthomode Transducer (OMT) in WR-3.4 (220 – 330 GHz). Very exciting!.#IMS2025 #MicroHarmonics #technology #rfengineering

We are excited to announce the release of our orthomode transducers (OMTs) in three new standard waveguide bands. Our OMTs cover full waveguide bands at #mmWave and #THz frequencies. #MMWave #MicroHarmonics #transducers #technology

IMS 2025 is next week in San Francisco and while we would love you to come see us at Booth #2539, we also encourage you to check out our friends at VDI in booth #651. They’ll be showcasing a demo that utilizes our #mmwave orthomode transducers (OMTs) in D band. #MicroHarmonics

As a recent article in EverythingRF recently pointed out, at higher frequencies traditional isolators do not perform optimally. That is why we re-engineered our MMW isolators. Read the full article here:

Although the full potential of 5G has yet to be realized, researchers around the world are already heavily focused on solving a significant problem. For more about our components, click here: #mmWave #rfengineering #MicroHarmonics #5G

We developed an approach that uses the principle of Faraday rotation to rotate the RF signal polarity into a fixed resistive vane. There are no moving parts and no sensitivity to electrostatic discharge. #rfengineering #MicroHarmonics #mmWave

Isolators are often placed directly after amplifier outputs. This is because customer loads can vary, and an isolator can reduce standing waves in a variety of systems. More in our blog: #mmW #MicroHarmonics #rfengineering #technology #isolators

We leverage the Faraday effect to rotate the RF signal polarity, directing it into a resistive layer embedded in a ceramic cone. This is best displayed by an image of an attenuator in front of space and fire. #mmWave #MicroHarmonics #rfengineering

Isolation is a key parameter. If a circulator doesn't have good port-to-port isolation, the signal you are trying to transmit is interfering with the signal you are trying to receive. #mmWave #MicroHarmonics #rfengineering #technology #circulators

Our original linkedin post was "10 (+1) reasons why you should choose Micro Harmonics:" but that doesn't fit in the character limit here so instead you get this somewhat meta post! Here are some hashtags:. #mmwave #microharmonics #rfengineering #technology

No two mmwave components have the same exact frequency response. That is why we test every component across the full waveguide band on a VNA. We supply the test data to the customer at no additional cost. That is our guarantee. #mmWave #rfengineering #technology

Happy Thanksgiving from the Micro Harmonics team. We are so grateful to all of you for supporting us as we look to a bright future.

Our new, patented hybrid circulators are giving microwave engineers options! Our hybrid circulator can easily reach the WR-2.8 band 260-400 GHz and possibly beyond. #mmWave #hybridcirculators #MicroHarmonics #technology #NASA

Don’t be frightened by the fact that our #mmWave isolators operate at up to 400 GHz. No, it is not a trick. You get high isolation and the lowest insertion loss in the industry with our isolators. What a treat!. Have a happy and safe Halloween.

“Micro Harmonics had an isolator with the single most important parameter I needed, low insertion loss,” explains Dunnam. “They were ultimately able to select one with just 1.2 dB loss at 240 GHz, which is pretty phenomenal.”. #rfengineering #mmWave #Cornell #technology