Search results for "pasternack"
Waveguide couplers operate up to 110GHz
Pasternack unveils its latest family of instrumentation grade directional waveguide couplers boasting accurate performance up to 110GHz. These ultra-high frequency waveguide couplers are commonly used for signal sampling and other general purpose applications in wireless transmit/receive systems, test benches, satcomms, radar systems, point-to-point backhaul and telecomms.
High power amplifiers cover UHF, VHF, L, S & C bands
Covering UHF, VHF, L, S and C frequency bands, Pasternack has announced a portfolio of solid state, high power, coaxial packaged RF amplifiers. The devices are designed for use in applications such as electronic warfare, instrumentation, military communications, radar, SATCOM, telecomms, data links and medical devices.
Design & customise your own RF cable assemblies
Pasternack Enterprises has released their latest engineering resource called the Cable Assembly Designer, which allows the user to design and customise RF cable assemblies with an easy-to-use online web application on Pasternack's website.
Log video amplifiers cover 0.5-18GHz multi-octave bandwidths
A line of broadband log video amplifiers, covering multi-octave bandwidths from 0.5 to 18GHz, has been released by Pasternack. The line includes four successive detection log video amplifiers and one detector log video amplifier, which offer a wide input dynamic range, high signal sensitivity, fast recovery times and outstanding temperature stability.
Portable bench top RF amplifiers meet MIL-STD-202F
Portable bench top RF amplifiers that cover multi-octave bandwidths between 1GHz and 40GHz have been introduced by Pasternack. Designed to meet MIL-STD-202F environmental test conditions for humidity, shock, vibration, altitude and temperature cycle, the amplifiers are suitable for use inside high traffic test labs in industries such as aerospace, defence, optical, industrial, telecomms and R&D.
Microwave & millimeter wave products can be USB controlled
Pasternack announces brand new lines of USB controlled microwave and millimetre wave components which includes amplifiers, attenuators and PIN diode switches. The new components are controlled and powered by a convenient USB 2.0 port with driverless installation, meaning no external power supply is required.
75Ω cables offer excellent insertion & return loss
Designed to withstand the rigours of test lab use and applications in 75Ω comms systems, Pasternack has introduced a line of 75Ω test cables which operate up to 3GHz. Specific applications for the high frequency test cables include in technologies such as cable TV, MoCA 2.0 and MoCA 1.1 (Media over Coax Alliance) and DOCSIS (Data over Cable Service Interface Specifications).
RF limiters operate over a 0.5-40GHz frequency range
Broadband, high power coaxial limiters, designed to protect sensitive low power RF receivers and other microwave circuits in close proximity to high power signals, have been released by Pasternack. Common applications for these RF limiters include electronic warfare, instrumentation, fibre optic communication systems, military communications, radar, SATCOM, point-to-point radio, telecomms, data links and R&D.
Tiny coaxial cable assemblies operate from DC to 6GHz
Pasternack has introduced a line ofultra-miniature UMCX, WMCX and HMCX32 coaxial cable assemblies. These low profile, flexible micro-coax jumper cables offer operation from DC to 6GHz and are suitable for wireless applications including Wi-Fi, Wireless LAN, Bluetooth, ZigBee, LTE, mini-PCI, mobile antenna/GPS/radio systems, PDA/PCS/cellular handset application and other wireless communications systems.
LNAs offer typical low noise levels of 2.5-3dB
A series of ultra-broadband and millimeter wave LNAs, which offer typical low noise figure levels of 2.5-3dB across the entire band, have been introduced by Pasternack. Suitable applications include electronic warfare, instrumentation, fibre optic communication systems, military communications, radar, SATCOM, point-to-point radio links, telecomms and R&D.