MIT researchers, working with scientists from Brigham and Women’s Hospital, have developed a new way to power and communicate with devices implanted deep within the human body. Such devices could be used to deliver drugs, monitor conditions inside the body, or treat disease by stimulating the brain with electricity or light.
The Third Generation Partnership Project (3GPP) has finalized the 5G Phase-1 Standard, Verizon and AT&T duke it out for 5G rollout dominance, and cell site radiation health concerns resurface, today in the Week In 5G.
The future of electronic devices lies partly within the “internet of things” – the network of devices, vehicles and appliances embedded within electronics to enable connectivity and data exchange. University of Illinois engineers are helping realize this future by minimizing the size of one notoriously large element of integrated circuits used for wireless communication – the transformer.
JFW’s 50BA-024-62 is a mini benchtop programmable attenuator assembly designed for mm-wave testing. It is configured with one solid-state programmable attenuator, and it features an attenuation range of 0 to 62 dB in 1 dB increments and 50 Ohms nominal impedance.
The SKY16602-632LF is a low-threshold (+5 dBm typical) PIN diode limiter module covering the 0.2 to 4.0GHz frequency range. It features low insertion loss, low distortion, integrated PIN limiter and Schottky diodes, and DC blocks.
AR provides up to 500 watts of linear output power over the 0.7 to 6 GHz instantaneous frequency band in one benchtop amplifier housing when driven with a signal generator output of 0dBm. These Class A designs offer ∞:1 output protection, excellent harmonics and 100% rated power without foldback into mismatched loads. Class AB units are also available. Units have a digital display and all amplifier control functions and status indications are available. These instruments are used for EMC, wireless, or EW applications.
Remcom's 5G MIMO simulation software offers a unique ray tracing capability for simulating MIMO antennas for 5G, WiFi, and other technologies relevant to today's rapidly advancing technologies.
Corry Micronics, Inc. (CMI) offers a wide range of cellular band high-power amplifiers operating over the 900 MHz to 2,700 MHz frequency range for use in a variety of cellular applications. This family of amplifiers features high linearity, base station quality, low noise figure, and frequency modulation in GSM, LTE, and UMTS.
Integra Technologies introduces the C-band IGT5259CW25 transistor with GaN on SiC HEMT technology exhibiting 12 dB typical gain and 48% drain efficiency. It is ideal for applications operating in the 5.2 – 5.9 GHz frequency range. This depletion mode device is 100% high power RF tested in a 50Ω RF test fixture.
Qorvo offers the new QPB9329 highly integrated front-end module with operation in the 3.8 – 5.0 GHz frequency range for TDD base station, wireless infrastructure, small cell BTS, and pre-5G/5G massive MIMO applications. This LNA module integrates a two-stage LNA and a high power switch in a dual-channel configuration.
The NuPower™ 12B01A broadband, high performance solid-state power amplifier delivers over 10 watts across the entire 1.0 GHz to 2.5 GHz frequency range. Ideal for broadband RF telemetry and military communication systems that require high reliability and high efficiency in a compact housing.
In the earliest stages of 5G, fixed wireless access (FWA) systems will be used to deliver gigabit internet speeds to homes, apartments, and businesses in a fraction of the time and cost of traditional cable/fiber installations. Like other technological advancements, FWA has its own design challenges and considerations. This article presents five considerations to keep in mind when designing FWA systems.
There are numerous options available for RF filters used in communications systems, test and measurement setups, and RF module designs. This article presents a number of key parameters to help you choose the best RF filter for each specific application.
The Narrowband Internet of Things (NB-IoT) is a new radio interface that is a part of Release 13, 3GPP. It is adapted to work in difficult radio conditions, especially in machine type traffic applications. Although NB-IoT is an independent radio interference, it is closely related to LTE networks. This white paper will introduce NB-IoT technology with an emphasis on the tight connection to LTE.
Connected and Autonomous Driving (AD) vehicles bring new requirements for network architectures and the Cloud in order to support the new workloads and satisfy real-time service requirements. This white paper demonstrates how Edge Computing provides computing, storage, and networking capabilities in a network, and how this technology supports multiple services for connected AD vehicles.
Research at the Department of Medical Biophysics at the Sunnybrook Research Institute (SRI) aims to develop and demonstrate the application of new technologies for brain imaging. A recent project focused on developing ways to try and safely image patients with Deep Brain Stimulation (DBS), and reducing the heat created during an MRI as a result implant interaction with RF transmission fields. This case study details how FEKO® simulation software was used to create the electrical and magnetic fields required for imaging in an MRI environment.
5000 Watts CW, 320 To 400 MHz RF Power Amplifier. The Model KAW6042 is a Class AB wideband RF power amplifier system delivering in excess of 5000 Watts CW power into a 50-Ohm load at the frequency range of 370 MHz. Power gain is a minimum of 66 dB. GPIB control requires the optional IEEE488.2/RS232 Interface Controller Module
MegaPhase offers a series of low loss cable systems made with the industry-leading GrooveTube® design and rugged construction to resist torque, pull, and crush forces. This wide range of connector types may be used in many different markets including phased array radar, electronic warfare, military, and communication systems.
130 Watts CW 18 To 26.5 GHz Broadband TWT Amplifier. The Model 130T18G26z5 is a self contained, forced air cooled, broadband traveling wave tube (TWT) microwave amplifier designed for applications where wide instantaneous bandwidth, high gain and moderate power output are required. A reliable TWT provides a conservative 130 watts minimum at the amplifier output connector
In our last video at IMS 2018, Steve Reyes from Anritsu Company demonstrates the ability to perform differential noise figure measurements with the VectorStar VNA. Check out the full video for the complete measurement process, as well as the benefits this approach has to offer.
Michael Zeihl, Vice President and General Manager of MACOM, took time out of his afternoon at IMS 2018 to talk to us about choosing the optimal semiconductor vendor for 5G applications. To help avoid costly mistakes and time delays, a vendor should have a wide range of available technologies, deep application knowledge and understanding, and the capability to collaborate at all stages of a product’s production process. Check out the video for more information.
Jeff Broxon of Guerrilla RF discusses the issue the growing issue of product obsolescence in the RF industry. Check out the video for more information on possible solutions.
Have you wondered how you can stand above the rest to be hired at an engineering firm? What qualifications are often overlooked in the interview process? This morning at IMS 2018, Wendy Shu, Vice President at SAGE Millimeter, talked to us in detail about what firms are looking for when hiring new engineers. Check out the video for the top three overlooked qualifications that firms are looking for in candidates.
GaN provides opportunities for solutions with wider bandwidth while reducing the need to replace TWT amplifiers with solid-state amplifiers. This afternoon at IMS 2018, Apet Barsegyan from Integra discusses solutions for the challenges in upgrading current TWTs in high-power radar and pulsed applications to the newest solid-state GaN HEMT technologies.
A caring, group of patriots founded the veteran-owned NuWaves Ltd. in 2000, doing business as NuWaves Engineering, providing advanced Radio Frequency (RF) expertise and microwave solutions for military, government, and industrial customers. NuWaves offers an extensive range of RF products and services under one roof, from High Frequency (HF) through Ku-band, that address the most demanding customer requirements, such as electronics hardware miniaturization, project cost, and schedule.
EM Software & Systems (USA) Inc. is established to distribute and support FEKO in the United States, Canada, and Mexico. FEKO is a leading CEM code for the analysis of: antennas (wire antennas, patch antennas, horn antennas, integrated antenna systems, etc.), antenna placement on electrically small and large structures, electromagnetic compatibility, microstrip circuits and antennas in stratified media and dielectric bodies.
Electronic Military & Defense was developed as a resource for engineers, program managers, project managers, and other professionals involved in the design and development of electronic and electro-optic systems for a wide range of defense and aerospace applications. Check out the digital edition of our latest issue for exclusive editorial on detecting explosives with mm-Wave radars, advanced optical materials for transparent armor, simulating complicated radar cross sections, machine vision for military imaging, and more.
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Saelig Company, Inc. announces the availability of the Rigol DS/MSO7000 series of oscilloscopes, 4-channel advanced specification oscilloscopes with an excellent 10GSa/s real-time sample rate.
3GPP TSG #80 Plenary Meeting has approved the completion of the standalone (SA) Release 15 5G specifications. After the release of the 5G NR specifications for non-standalone (NSA) operation in Dec. 2017, another essential step of standardization of 5G has been successfully completed.
The group of scientists from Kaunas University of Technology (KTU), Lithuania has invented the innovative method for indoor positioning of people and things using wireless network. It localises a human being or an object within an accuracy of 1 meter, it works in any device having a Wi-Fi function, and can be applied for numerous areas of human activity – from logistics to health care.
Scientists at Tokyo Tech have designed and fabricated a tiny, but incredibly fast, reliable, and accurate 28-GHz transceiver meant for stable high-speed 5G communications. The fabricated transceiver trumps previous designs in various regards by taking a new approach for beam steering.
NI, the provider of a software-defined platform that helps accelerate the development and performance of automated test and automated measurement systems, recently announced a collaboration with NanoSemi on advanced 5G test capability.
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