IEEE MTT-S International Microwave Symposium (IMS)’s Post

When it comes to in-ear monitors, precision matters. With over 8 million Fidelity+ connections in use today, gone are the days of intermittent issues and poor connections. Learn more: https://bit.ly/3XCQ5op. #inearmonitors #interconnectsolutions #rf #microwave #usamanufacturing #deltaelectronics

This paper employs the #massive #multi-#input #multi-#output (#mMIMO) and #non-#orthogonal #multiple #access (#NOMA) techniques that increase the multiplexing gain and network capacity. This paper utilizes the benefits of #millimeter #Wave (#mmWave) and #Terahertz (#THz) channels that possess considerably higher communication capacity. However, these schemes are highly complex. To mitigate this problem, the authors use BS caching as diverse applications in 6G will have varied rate requirements. In addition, they propose an #application-#specific #channel #selection (#ASCS) scheme with a cache-enabled two-tier 6G #Heterogeneous #Network (#HetNet). ----@Preksha Jain, @Akhil Gupta, @Neeraj Kumar, @Mohsen Guizani More details can be found at this link: https://lnkd.in/gQe-jXhH

If I were to develop a program for DARPA, I would name it the "Quantum Defense Protocol." This initiative would revolutionize national security by safeguarding the biological brain and its neurons against misuse and covert threats, while providing robust protection in scenarios such as teleportation mishaps and zipped bombs. The Quantum Defense Protocol would employ advanced quantum cryptography techniques, including Quantum Key Distribution (QKD) and post-quantum cryptography, ensuring unbreakable defense mechanisms against emerging technological threats. Utilizing sophisticated algorithms and machine learning for real-time monitoring and anomaly detection, the program would secure neural data transmissions, preventing unauthorized access and tampering. A critical component of this program is its seamless integration with medical devices, enhancing both national and medical security. By preserving the integrity of critical health data and ensuring the proper functioning of life-support systems, the protocol would provide early warnings of potential medical emergencies, significantly boosting patient safety and public health security. In applications such as teleportation technology, the Quantum Defense Protocol would ensure the secure transfer of neural data, maintaining cognitive function continuity during the process. The program would neutralize threats posed by zipped bombs through advanced quantum-based detection and decryption techniques, safeguarding individuals and infrastructure. Moreover, it would defend against neural hacking, brain signal interception, unauthorized neural modifications, cognitive warfare, neural data corruption, and neuro-viruses. The Quantum Defense Protocol would continuously evolve to address new and unforeseen challenges, remaining at the forefront of neural security and providing comprehensive protection in an ever-changing technological landscape. This initiative would play a crucial role in national security by protecting the biological brain and its neural interfaces, securing critical infrastructure, and integrating with national defense systems to counteract cyber threats and ensure the safety and integrity of defense operations. Quantum cells integrated into the body would offer an array of defense options to protect the brain and its neurons. These cells would actively monitor and protect against internal threats such as rogue cells, cancers, and infections by leveraging quantum-based detection methods that identify anomalies at the molecular level. Enhancing the immune system's capabilities, they would allow rapid responses to pathogens and internal malfunctions. Secure communication between body systems would be facilitated by quantum cells, ensuring that any signs of distress are promptly reported and addressed. Additionally, quantum cells would provide advanced encryption for personal medical data, ensuring privacy and preventing unauthorized access in the brain.

Highlighted on everything RF... The PE2-34-1G18G-3R5-20-SFF-VVG-DD from Quantic PMI (Planar Monolithics) is a Voltage Variable Gain Amplifier with an integrated diode detector that operates from 1 to 18 GHz. It has a gain control range of 30 dB with gain flatness of ±1.5 dB and a P1dB of 10 dBm. The amplifier has a noise figure of 4.5 dB and a VSWR of less than 2.0:1 (input/output). https://lnkd.in/e5QD2hpk #rf #rfengineering #microwave

The Arrayed Waveguide Grating (AWG) has several key features that make it useful in optical communication networks: 1. Wavelength Selectivity: The AWG can separate different wavelengths of light into different output waveguides, allowing for efficient wavelength division multiplexing and demultiplexing. 2. Low Insertion Loss: AWGs typically have low insertion loss, which means that they cause minimal loss of signal strength when light passes through them. 3. High Channel Count: AWGs can support a large number of channels, making them suitable for high-capacity WDM systems. 4. Compact Size: AWGs are often compact in size, making them space-efficient components for optical network systems. 5. Low crosstalk: AWGs are designed to minimize crosstalk between different channels, ensuring that signals remain separated and distinct.

0.1~18GHz Low Noise Amplifier NF: 3dB max. P1dB: 12dBm Hi-reliability and compact size. #amplifier #lownoiseamplifier #rf #microwave #LNA

arazim Ltd introduces thinkRF ThinkRF R5550 and R5750 Real-Time Spectrum Analyzers: The ThinkRF #spectrum analyzers are durable silent, lightweight, and offer high #functionality and spectral #performance in a #compact, light & rugged form factor. For: regulatory and #intelligence monitoring, #telecom deployment optimization, and #RF application development. - Demodulation or deeper analysis of #signals up to 27 GHz The R5750 #analyzer includes embedded #GPS for time and #location data, and an optional #IP66 rating for increased #durability in difficult environments. - 9 #kHz to 8, 18 or 27 #GHz  - 0.1 / 10 / 40 / 100 / 160 MHz* Real-time bandwidth (RTBW) - Up to 28 GHz/s @ 10 kHz RBW Sweep Rate - 20 W @ 12V input #power consumption - 257.3 x 193.7 x 60 mm (10.13” x 7.63” x 2.36“) - 2.54 kg ThinkRF - the leader in software-defined spectrum analyzers that monitor, detect and analyze complex waveforms, is represented in #Israel by arazim Ltd Contact us for further information: info@arazim.co.il 08-9230555

Featured in Microwave Journal's Advisor... Quantic PMI (Planar Monolithics) Model HP0R5G-18G-CD-SFF-ROHS is a broadband high pass filter having a passband of 0.5 to 18 GHz. Cut-Off Frequency is 0.5 GHz with a passband insertion loss of 2 dB from 1 to 16 GHz. RoHs complaint. https://lnkd.in/eNXDpfAR #RF #rfengineering #microwave #technology #QuanticPMI

My dear friends in #Microwave and #RF technology, I'd like to get your opinion on #crosstalk! It is widely recognized that in #microwaveheating applications, if two or more microwave feeds enter a single cavity, there is likely to be #crosstalk. Quantitatively speaking: 1. What is the probability (%) of crosstalk? 2. How much crosstalk will occur (dB)? 3. By how much will #magnetron life be reduced due to crosstalk (hrs)? 4. How much power loss can be expected due to crosstalk (%)? I recognize that the answer to these questions is "it depends", but I am keen to start a discussion on the subject, and am particularly interested in industrial applications at 915 MHz (although data points at 2450MHz are also valuable). Please reply below or message me directly if you have thoughts on the matter.

As seen on everything RF... The PDVAN-8018-60-8-OPT25dBM from Quantic PMI (Planar Monolithics) is an 8-bit Digital Attenuator that operates from 8 to 18 GHz that provides an attenuation range of 60 dB with a 0.25 dB step size using an 8-bit binary TTL control and has a switching speed of <800 ns. The attenuator can handle a CW input power up to 30 dBm, has an insertion loss of less than 5 dB and a VSWR of under 2:1. It consumes up to 150 mA of current while operating over a supply voltage from +12 to +15 V and consumes up to 75 mA of current while operating over a supply voltage from -12 to -15 V. The attenuator is available in a module that measures 2.0" x 1.8" x 0.5" with SMA female connectors. https://lnkd.in/eQqQfwvB #rf #rfengineering #microwave #technology