Are you interested in the 3.4-4.0 GHz band? Visit our website to subscribe to email updates on developments in this frequency range. https://lnkd.in/g-ng754
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Antenna is a basic Component in RF & Microwave World, IEEE Definition of Antenna is : The Part of Receiving or Transmitting System that is designed to radiate or receive Radio Waves. Simple Classifications of Frequencies (Range). MF= 300 kHz ~ 3 MHz HF= 3 MHz ~ 30 MHz VHF= 30 MHz ~ 300 MHz UHF= 300 MHz ~ 3GHz SHF= 3GHz ~ 30 GHz (its up-to Terahertz nowadays) #rfengineering #antennadesign #antenna #rf
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Founder at PM Networking | Cisco Instructor (CCIE | CCNP | CCDP | CCNA | CyberOps | DevNet | CCSP | Service Provider | Wireless | SD-WAN) | Corporate Trainer | Network engineer | Youtuber | Trained 2000+ professionals |
In this video, we dive deep into the world of Wi-Fi channels, specifically focusing on the 2.4 GHz and 5 GHz frequency bands. Understanding the difference between overlapping and non-overlapping channels is crucial for optimizing your wireless network's performance. 📡 **Topics Covered:** - **Introduction to Wi-Fi Channels:** Learn about the basics of wireless channels and why they matter. - **2.4 GHz Band:** Discover how channels are spaced and why overlapping can cause interference. We'll cover the best non-overlapping channels to use. - **5 GHz Band:** Explore the wider range of channels available in the 5 GHz band, including how to select the optimal channel for minimal interference. - **Overlapping Channels:** Understand what overlapping channels are, how they can impact your network, and strategies to avoid them. - **Non-Overlapping Channels:** Learn about the importance of using non-overlapping channels to maximize your Wi-Fi performance. #WiFiChannels #WiFiOptimization #2.4GHz #5GHz #WirelessNetwork https://lnkd.in/dwS_X5Sq
4. Understanding Wireless Channels in 2.4 GHz and 5 GHz Frequencies | Wi-Fi Channels Explained
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RF Absorbers up to 110 GHz! #RFabsorber #AnechoicChamber #Antenna #Microwave
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The ADM-8006PSM from Marki Microwave is a RF Amplifier with Frequency 2 to 30 GHz, Small Signal Gain 23 dB, Noise Figure 2.7 dB, P1dB 21 dBm, P1dB 0.12 W. https://lnkd.in/dJ2vW5si
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Yesterday marked the end of Q3 '24. A year ago, IsoHorns developed the world's only high-performance wideband antennas. Yet, we're still waiting for suitable wideband radios, like Ubiquiti's airFiber MLO PTP wireless bridge. When wideband radios finally arrive, WISPs won't fully benefit from them with narrowband antennas. Using narrowband antennas can limit performance and even damage the radio's low-noise amplifiers due to power reflection (SWR). Future-proofing in the WISP antenna industry means having antennas supporting the entire frequency range of Wi-Fi 6e and Wi-Fi 7. An antenna isn't "Wi-Fi 7 ready" if the necessary adapters are band-specific to 5 GHz or 6 GHz. IsoHorns antennas outperform competing narrowband antennas in specific frequency ranges. For instance, the IsoHorns WB6-A90 delivers 50% faster 5 GHz downlink modulation rates compared to the RF Elements AH90-TP. WISPs seeking true wideband, high-performance antennas can order from IsoHorns: https://isohorns.com #Wifi7Ready #Wideband #MLO #WISP #Ubiquiti #Cambium #IsoHorns
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