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RF Test Solutions › Solid State Switch Systems › Compact Switch Modules Solid State RF Switch Modules Compact Signal Routing Solutions for Your Test Setup Mini-Circuits’ solid-state switch modules are ideal for applications requiring fast switching times and bullet-proof reliability. Options from SPDT to SP16T are available from stock, with some models operating up to 67 GHz. Our solid-state sensitive test applications where signal selectivity is critical! Frequency ranges spanning DC to 67
RF Chokes RF Chokes with effective parallel resistance over wide bandwidths from 5 MHz to 10 GHz! RF chokes are commonly used in RF system design to block RF signal while passing DC current. Mini-Circuits offers RF chokes with effective parallel resistance for DC current up to 15A over wide bandwidths from 5 MHz to 10 GHz. Tiny surface mount packages, as small as 0.15 x 0.15 x 0.15" Low DC resistance Low parasitic capacitance DC current handling up to 15A BROWSE CATALOG CONTACT US Catalog
10 kHz 1 kHz 1 MHz 100 kHz Spurious Signals (dBc) Max. Harmonic Suppression (dBc) Max.(2nd)
RF Terminations Reliable dissipation of signal power for 50-Ohm and 75-Ohm systems from DC to 65 GHz. Choose from a wide variety of male and female connector types including 1.85mm, 2.4mm, 2.92mm, SMA, SMP, N-Type, and DIN 1.0/2.3. Up to 250W Excellent return loss Rugged construction BROWSE CATALOG CONTACT US Catalog Products For special & custom products, please contact us. Designer Kits New Products Announcements Contact Us × Table of Models Advanced Search What is New Terminations,
RF Test Solutions › Signal Generation & Systems › Vector Network Analyzer(VNA) eVNA: 6 GHz USB Vector Network Analyzer 300 kHz TO 6 GHz Introducing the eVNA A High-Quality, Affordable VNA from the World’s Trusted Partner for All Things RF BUY NOW CONTACT US DYNAMIC RANGE >132 dB typ TRACE NOISE <0.005 dB rms typ OUTPUT POWER -50 to +10 dBm TIME DOMAIN Included Mini-Circuits' eVNA-63+ is a high performance, software-controlled vector network analyzer (VNA). By moving the complex data
transmit and receive signals anywhere within the 62 to 69 GHz range. 3 levels of transmit
RF Waveguides Millimeter Wave (mmWave) Performance for Over-the-Air Testing & More RF waveguides convey high-frequency signals through air cavities in precisely machined, shielded structures. Waveguides achieve superior transmission characteristics to traditional feed lines such as coaxial cable or printed wiring board material, especially at millimeter-wave frequencies, making them essential for test setups in the Q-, V-, and E-Band range and above. Mini-Circuits offers a variety of waveguide
signal that reaches the first generator, and vice versa. Additional isolation is provided by the 1), the outputs of two generators are amplified and merged by a power combiner. The combined output input signal. and is then applied to the device under test (DUT). The DUT output is connected to a spectrum analyzer for the IM measurement. In order to prevent interaction that creates IM signals, generators must be sufficiently isolated from each other. This is accomplished through proper
to provide adequate isolation between the two input signal generators and proper impedance matching, and (2) insufficient filtering of the two input test signals. Without adequate isolation and matching, interaction between the test generators and the device-under-test may produce significant errors (as high as 20 dB). Without sufficient filtering, the generator harmonics will contribute to the content. When the RF generator signals are applied to the mixer, the mixer will generate its own
production data, include x-bar (mean) and sigma (standard deviation) values. Signal naming convention A mixer is used to provide frequency translation from the input signal to the output signal. When a mixer is used for down-conversion, the input is the RF signal and the output is the IF; for up-conversion providing frequency translation from the RF input signal to the IF output signal. For given RF and LO the most comprehensive database for its RF/Microwave signal-processing components with
