5G Antenna System’s speaking company RFMW has announced design and sales support for a series of mmWave, 5G circulators from DiTom Microwave. The D3C2731Q circulator covers Ka-band frequencies from 27 to 31 GHz with 20 dB of isolation. A single-junction design, insertion loss
RFMW announces design and sales support for a high performance FEM from Integrated Device Technology, Inc. (IDT). The F0453B is an integrated, dual-path, RF front-end switch and LNA featuring up to 34 dB of gain and 1.35 dB noise figure. Designed for Active Antenna
RFMW announces design and sales support for high-performance, mmWave, 5G front end modules from Qorvo. The QPF4001 operates from 26 to 30 GHz with receive path (LNA+TR SW), designed to provide 17 dB of gain and a typical noise figure of 3.5 dB.
RFMW has announced design and sales support for a 5G circulator from Skyworks Ireland. The SKYFR-001692 offers 21 dB of isolation for infrastructure designs from 3,400 to 3,600 MHz. The 10 mm package size occupies up to 50 percent less board space
RFMW has announced design and sales support for a wideband, high-gain, high-linearity driver amplifier. Qorvo’s QPA9120 offers 35 dBm OIP3 for pre-driver circuits used in wireless infrastructure from 1.8 to 5 GHz, including dense array, 5G m-MIMO radios. With 29 dB of gain
RFMW, Ltd. has announced design and sales support for a MEMS-based oven controlled oscillator (OCXO) platform. SiTime’s SiT5711 OCXO combines MEMS resonators with programmable analog, innovative packaging and high-performance algorithms for a vibration resistant solution that’s up to 20 times better than what’s
RFMW, Ltd. announces design and sales support for a GaAs detector diode from Keysight Technologies. Available as a discrete, beam lead, the HSCH-9161 detector diode offers low junction capacitance of 0.035 pF and an fc >200 GHz making it ideal for medium-low barrier, zero
RFMW, Ltd. announces design and sales support for a wide bandwidth amplifier from Skyworks Solutions. The SKY66313-11power amplifier offers 100 MHz instantaneous bandwidths and high-efficiency for TDD 4G/5G systems to meet the growing demand for high data rate and low power consumption in massive