Skyworks’ SKY12408-321LF is suited for 100 Ω systems in which high attenuation accuracy, low insertion loss, and low intermodulation products are required. It offers a novel differential I/O design and fast settling time for applications that down convert to a low intermediate frequency. Learn more.
RFIC Passive Device And Interconnect EM Simulation Challenges By Sonnet Software
Today, several Cadence Virtuoso-based EM simulation tools can model process design kit spiral inductors, including PeakView from Lorentz Solutions, VeloceRF from Helic, EMX from Integrand Software, and Blink from Sonnet Software. As more and more silicon integrated circuit designs use nodes lower than 65 nm, new challenges appear in the modeling of RF passive devices and interconnects using electromagnetic (EM) simulation.
Spotlight On RFICs And MMICs
Wi-Fi Connectivity Solutions Brochure Skyworks' Wi-Fi and Bluetooth connectivity solutions include high-performance front end modules; power amplifiers; low-noise amplifiers; step down converters; SPDT, SP3T and DPDT switches; and discrete PIN, Schottky and varactor diodes. The broad portfolio supports a wide range of end products from access point and routers to mobile/portable subscriber equipment.
RF, Microwave/MMW Solutions Brochure This brochure contains information on API Technologies' offerings in QFN custom packaging, Q-band power MMIC amplifiers, high-power radar amplifiers, and more. It also includes information on RF, microwave, and MMW assembly capabilities, background information on the company and its locations, microelectronics manufacturing, and engineering capabilities.
PIN Diode Limiter For S- And L-Band Applications Datasheet The MADL-011008 is a PIN diode limiter designed to protect low-noise amplifiers, detectors, mixers, and other sensitive receiver components in S- and L-band applications. Download the datasheet for a detailed description, as well as information on features and specifications.
6-Bit Digital Variable Gain Amplifier Datasheet The BGA7210 MMIC is an extremely linear variable gain amplifier, operating from 0.7 GHz to 3.8 GHz. The maximum gain is 30 dB. It has an attenuation range of 31.5 dB. At its minimum attenuation setting it has a maximum output power of 21 dBm, an IP3O of 39 dBm, and a noise figure of 6.5 dB.
4- To 10-GHz Driver Amplifier Datasheet This driver amplifier from Custom MMIC Design Services is well suited for applications involving WiMAX, WiLAN, UNII, ISM, and military end-use. It features high output power, a single positive bias, and low current consumption.
This direct digital synthesizer is suitable for applications involving agile LO frequency synthesis, fast frequency hopping, polar modulators, programmable clock generators, FM chirp source for radar scanning systems, acousto-optic device drivers, and test and measurement equipment.
This front end module addresses the need for aggressive size reduction for typical portable equipment RF front end design and greatly reduces the number of components outside of the core chipset thus minimizing the footprint and assembly cost of the overall solution.
The T1G4003532-FL is a SiC RF power transistor in a bolt-down flanged package. It covers the DC to 3.5 GHz frequency range and is ideal for applications involving commercial and military radar, professional and military radio communications systems, jammers, wideband or narrowband filters, and test instrumentation.
GPS Networking, Inc. specializes in providing global positioning products and solutions to enable you to effectively distribute the GPS signal throughout your site or facility. We have developed a line of building block GPS products which allow you to design your own GPS network to meet your individual needs.
ION GNSS+ is the world's largest technical meeting and showcase of GNSS technology, products and services. This year's conference will bring together international leaders in GNSS and related positioning, navigation, and timing fields to present new research, introduce new technologies, discuss current policy, demonstrate products and exchange ideas. Learn more.