Found 200 matches (page 6 of 20)
Electronic Line Stretchers Simplify Voltage Controlled Oscillator (VCO) measurements with controlled phase shifts for applications up to 1300 MHz! Over 360 degree phase shift of reflected signal Normalized and stable magnitude of reflected signal Voltage controlled for automated applications Table of Models Advanced Search What is New Model With Electronic Line Stretchers, Coaxial, 80 to 1300 MHz Model Number Case Style F Low (MHz) F High (MHz) Input Power (dBm) Max. Phase Range
RF Test Solutions › High Power Test Systems High Power Test Systems Signal Sources, Amplifiers & Distribution HTOL (high temperature operating life) is a test method intended to stress a device over Power per Channel(W) Description HTOL-700-2700-1W 700 2700 80 1 High power signal source and distribution system HTOL-2500-6000-1W 2500 6000 80 1 High power signal source and distribution system HTOL-700-2700-3W 700 2700 80 3 High power signal source and distribution system High Power Passive Systems |
Typically available from stock for immediate shipment Affordable solution for a wide range of signal
Rack-Mount Mechanical RF Switch Systems Integrated Signal Routing Solutions for RF Test Applications Mini-Circuits’ purpose-built mechanical switch array racks can be configured according to your exact specifications. Our catalog includes a wide range of standard switch configurations that may solve your problem without the need for development time, but if you don’t see a configuration that works for you, get in touch and our applications engineering team will work with you to develop the
Mechanical RF Switch Systems For Your Test Signal Routing Needs Mini-Circuits offers an extensive selection of mechanical switch modules and integrated systems for signal routing in your test setup. Controlled via USB or Ethernet, options range from compact, benchtop devices to complex, integrated switch networks in a self-contained rack-mount housing. Our broad selection of high-reliability SPDT, SP4T, SP6T and SP8T electromechanical switches in stock allows us to develop affordable custom
RF Test Solutions › N x M Switch Matrices 50Ω / 75Ω RF Switch Matrices Blocking, Non-Blocking and Full-Fanout Designs Our integrated switch matrices provide reliable and repeatable signal routing for any application. Blocking, non blocking and full fan-out switch matrices are available using many combinations of mechanical and solid-state switch technologies to meet your unique system requirements. Blocking, non-blocking and full-fanout configurations Ideal for managing complex signal traffic
RF Programmable Attenuators Simulate Transmission Loss, Signal Fading, Handover & More Mini-Circuits' programmable attenuator product line provides versatile solutions for automating signal level control, simulating the effects of signal fading and a number of other useful functions. Our programmable attenuators offer outstanding accuracy, even at the highest attenuation settings and wide frequency ranges up to 67 GHz. These devices may be used individually or integrated into multi-channel
programmable attenuator & signal distribution systems Designed for cellular handover and wireless device testing Split signals to multiple devices with independent level control on each output Combine signals from multiple devices with independent level control on each input Model Name Frequency(MHz)
Programmable Attenuator Modules Single- and Multi-Channel Designs Mini-Circuits’ compact programmable attenuators are designed with wide attenuation ranges and fine step sizes for precise signal level control. Coupled with our standard USB & Ethernet control interfaces, these devices are easily integrated into any test system for simulation of transmission loss, signal fading, cross talk and power level calibration. Supporting applications up to 67 GHz Attenuation range up to 120 dB Step size
GHz and supporting measurements of any signal type from CW / single tone applications, to pulsed signals and most modern digital modulations. Input power ranges down to -60 dBm are ideal for measurement of transmitted signals and characterization of components with high loss or rejection (such as filters). Sample rates up to 80 million samples per second allow detailed signal analysis with very and fast pulsed signals Peak, average and statistical (crest factor / duty cycle) analysis of power
