EESeal® EMI Filter Connector Inserts
Meet the newest addition to the EESeal® family of EMI filter connector inserts: the EESeal+. Achieve enhanced filtering for demanding high frequency requirements (up to 20 to 40 GHz) and greater attenuation needs (up to 45 to 50 dB). The EESeal+ utilizes conductive silicone rubber to provide an extremely low inductance ground plane. Like the original EESeal, it can be installed in seconds, maintains the environmental seal of the host connector and is proven against military standard (MIL-STD) and DO-160 requirements.
Quell
www.eeseal.com
PS RF Cable Assemblies
FastEdge™ PS RF cable assemblies feature enhanced phase and amplitude stability with flexure without sacrificing flexibility. The PS series distinguishes itself by guaranteeing a maximum phase and insertion loss stability specification. They are optimized for laboratory and production test environments that require precise and repeatable measurements. The flexibility of FastEdge™ PS cables reduces mechanical stresses on the device under test as compared to phase stable assemblies from other manufacturers.
Swift Bridge Technologies
www.swiftbridgetechnologies.com
AMPLIFIERS
Solid-State X-Band Pulse Amplifier
Exodus Advanced Communications’ AMP4022DBP-4KW Pulse Amplifier is designed for pulse/HIRF, EMC/EMI MIL-STD-461/464 and radar applications. Providing superb pulse fidelity and up to 100 usec pulse widths. Duty cycles to 6 percent with a minimum 66 dB gain. Available monitoring parameters for forward/reflected power in watts, dBm, VSWR, voltage, current and temperature sensing for outstanding reliability and ruggedness for compact integrations.
Exodus Advanced Communications
www.exoduscomm.com
Temperature-Compensated Amplifiers
Fairview Microwave Inc. has released a series of temperature-compensated amplifiers to address precision performance and test and measurement applications. Fairview’s new series of coaxial packaged, temperature-compensated amplifiers covers broadband and ultra-broadband frequencies ranging from 0.5 to 40 GHz. Designs incorporate pin diode attenuation circuitry that senses and adjusts broadband gain levels and maintains a minimum gain level of 35 dB over the full operational temperature range of -67°F to +185°F.
Fairview Microwave Inc
www.fairviewmicrowave.com
Low Noise Amplifier
Quantic PMI model PE2-20-1G40G-5R5-15-12-292FF is a low noise amplifier that operates over the frequency range of 1 to 40 GHz and provides +20 dB minimum gain with gain flatness of ±2.75 dB maximum; noise figure of 4.0 dB typical; VSWR in/out 2.5:1; OP1dB 15 dBm minimum and input power of +17 dBm maximum. This amplifier is supplied with 2.92 mm connectors in a housing that can be used as a surface-mount or connectorized component.
Quantic PMI
www.pmi-rf.com
SOURCES
OCXOs
Raltron is enabling communications networks around the globe with its OX7000 Series, the smallest SMD oven controlled crystal oscillator (OCXO) available on the market. At only 9 x 7 mm, the OX7000 Series features superior temperature stability in an ultra-small package and is designed for all aspects of 5G wireless infrastructure, network interface cards, transmission and base station application requirements. The OX7000 Series covers a frequency range from 10 to 40 MHz with a power supply voltage of 3.3 V at 150 mA steady state.
Raltron
www.raltron.com
TEST & MEASUREMENT
RF Microwave Generator
RIGOL Technologies announced a new RF microwave generator, the DSG5000 Series, that can generate up to 20 GHz carriers with high signal fidelity. These new generators are available with two, four, six or eight independent RF channels packaged in a single 2U full width mainframe. The DSG5000 Series features impressive long-term phase stability between channels of ±1 degree and is designed for high frequency signals in applications like radar and quantum research.
RIGOL Technologies
www.rigolna.com
Diode Power Sensors
The new R&S NRP90S and R&S NRP90SN power sensors from Rohde & Schwarz provide unheard-of performance in power measurements. The new instruments combine an extraordinary frequency range of 50 MHz to 90 GHz with a dynamic range from -70 to 20 dBm along with high measurement speeds of 50,000 measurements per second. Compared to current thermal power sensors for measurements over 67 GHz, the diode technology increases the power measurement dynamic range by 35 dB and significantly cuts test times.
Rohde & Schwarz
www.rohde-schwarz.com