Waveguides
guide the propagation of electromagnetic, light or sound waves.
See Also: Millimeter Waveguides, Optical Waveguides
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Waveguide Detectors 26.5 to 110 GHz
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Our waveguide detectors cover a broad frequency range of 26.5 GHz to 110 GHz and are available with waveguide sizes ranging from WR-28 to WR-10. The video output ports utilize SMA female connectors. These high performance zero-biased waveguide detectors exhibit excellent performance in Ka, Q, U, V, E and W frequency bands. These types of waveguide detectors are commonly used in various aerospace, defense and commercial wireless applications used in instrumentation, power detection, power monitoring, direct detection receivers, high frequency communications, radar, SATCOM, point-to-point radio, telecom, data links and R&D. The detector circuits use high performance GaAs Schottky Barrier Beam lead diodes with extremely low junction capacitance. These waveguide detector designs perform with minimal sensitivity variation resulting in a flat frequency response across the entire waveguide band. All of the waveguide detectors are in-stock and ready to ship.
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WR-12 Waveguide Straight
WAG-12-SXX
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• 60 GHz to 90 GHz• Low Insertion Loss, typical for length• Low Return Loss, typical for length• UG-387 flangeView more WR-12 Waveguide Straight
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Waveguide Harmonic Mixer, 40 to 60 GHz
11970U
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The Keysight 11970U waveguide mixer is a general-purpose harmonic mixer employing a dual-diode design to achieve flat frequency response and low conversion loss. These are achieved without external dc bias or tuning stubs. Manual operation and computer-controlled hardware operation are simplified because mixer bias and tuning adjustment are not required.
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60 GHz Transmitter and 60 GHz Receiver Modules
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The 60 GHz transmitter and 60 GHz receiver modules open up ultra high speed, high bandwidth data transmission for widespread use. Pasternack 60 GHz waveguide modules utilizes the globally unlicensed millimeter wave spectrum of 57 GHz to 64 GHz. Our wireless 60 GHz waveguide transmitter and receiver components are ideal for meeting the high speed data transmission needs of companies and developers.
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Right Angle Waveguide to Coax Adapters
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Fairview Microwave right angle waveguide to coax adapters include millimeter wave frequency ranges with models in the K-band (18 to 26.5 GHz) up to the V-band (50 to 65 GHz). These right angle waveguide to coax adapters offer excellent VSWR as low as 1.29:1, while also providing insertion loss performance as low as 0.3 dB. Waveguide sizes available for these new 90 degree coaxial adapter models include WR-42, WR-28, WR-22, WR-19 and WR-15. These coax to waveguide adapters in a right angle design are ideal for numerous applications requiring a transition from coaxial cable to waveguide or vice versa, including SATCOM, wireless communications, industrial, test and measurement and defense systems. Fairview’s new waveguide to coax adapter products feature a right-angle configuration, those with 2.92mm connectors use a UG-style square waveguide flange, 2.4mm and 1.85mm connector versions use a UG-style circular waveguide flange. Both male and female connector options are available in each right angle waveguide to coax adapter frequency band.
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Straight Waveguide Sections up to 110 GHz
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Fairview Microwave’s straight waveguide sections consists of 61 models that are available in sizes ranging from WR-10 to WR-137. These waveguide straights deliver VSWR as low as 1.03:1 and are available in section lengths from 3 inches to 12 inches. They are made of either painted copper alloy or gold-plated, oxygen-free hard copper (OFHC) and feature UG, CPR and UBR-style flanges. These waveguide straight sections are ideally suited for use in industrial, defense, aerospace, test and instrumentation, medical and telecom industries.
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Waveguide Adapter
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RF Lambda’s waveguide adapter product line is used to convert a waveguide interface to a coaxial interface. They come in a variety of frequencies, connector options and materials. They offer low insertion loss and VSWR as well as high power handling.
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Optical Fiber Cable Testing Equipment
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Optical fiber consists of a core and a cladding layer, selected for total internal reflection due to the difference in the refractive index between the two. In practical fibers, the cladding is usually coated with a layer of acrylate polymer or polyimide. This coating protects the fiber from damage but does not contribute to its optical waveguide properties. Individual coated fibers then have a tough resin buffer layer and/or core tube(s) extruded around them to form the cable core. Several layers of protective sheathing, depending on the application, are added to form the cable. Rigid fiber assemblies sometimes put light-absorbing ("dark") glass between the fibers, to prevent light that leaks out of one fiber from entering another. This reduces cross-talk between the fibers, or reduces flare in fiber bundle imaging applications Optical fibers are very strong, but the strength is drastically reduced by unavoidable microscopic surface flaws inherent in the manufacturing process. The initial fiber strength, as well as its change with time, must be considered relative to the stress imposed on the fiber during handling, cabling, and installation for a given set of environmental conditions. There are three basic scenarios that can lead to strength degradation and failure by inducing flaw growth: dynamic fatigue, static fatigues, and zero-stress aging.
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Waveguide Receiver Protector
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The continuous evolution of radar systems creates an ever more complex RF power environment in which sensitive receivers must operate and survive. Teledyne limiters deliver vital protection for a wide range of receivers, providing protection from L-Band through to Ka-Band (1 - 40GHz) and peak power levels up to 1MW with unparalleled low insertion loss levels.
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Debug Fixture
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With at-speed test, debug can easily become a problem: If test points are on the bottom, as is often the case for test processing, then this requires the board to be flip over for the debug. However, during at-speed testing, key devices and signal paths are often on the topside. IST Engineering has in-house expertise with debug fixtures, which allow the test technician to flip over a test board, or even hold it vertically for dual-sided access, while still running the Device-Under-Test at full-speed through card-edge connectors - whether these are standard DIN type or F or N type co-ax connectors. The debug stations are constructed robustly, with metal frames and high-grade flexible cabling and can also be used as backup test stations in a manufacturing flow. They can be built with custom machined waveguide connections for RF/Microwave applications, or with standard, off the shelf connectors, as defined by the application. A number of these debug fixtures are in production use with a range of customers.
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Waveguides
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Waveguides from Fairview Microwave consist of coaxial adapters, bandpass filters, bends, flexible waveguide cables, waveguide gain horns, sections and terminations. Fairview waveguides are available in standard sizes from WR-430 through WR-15 depending on type of waveguide product, which encompasses frequencies from 1.7 GHz to 75 GHz.
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Fixed Attenuator (Waveguide)
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RF Lambda’s fixed waveguide attenuators are used to attenuate RF signals with a waveguide interface. They come in a variety of different frequencies and power levels depending on the application.
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GaN Amplifiers
SBP-3233831838-KFKF-E1-HR
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Model SBP-3233831838-KFKF-E1-HR is a power amplifier with a typical small signal gain of 18 dB and a nominal Psat of +38 dBm across the frequency range of 32 to 38 GHz. The DC power requirement for the amplifier is +30 VDC/2 A. The mechanical configuration is an inline structure with K(F) connector as its input port and output port. Other port configurations, such as K connectors and WR-28 waveguides for either the input or output, are also available under different model numbers.
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Spot-Focusing Lens Antennas
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The antenna employs a low loss lens to offer excellent aperture efficiency at 105.96 GHz. The lens antenna is equipped with a standard WR-10 waveguide and UG-387/U-M flange as its input port. It supports linear polarized waveforms.
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Microwave Testing
140
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The PICOPROBE® MODEL 140, a high performance microwave probe which incorporates a WR-8 waveguide with our patented coaxial design techniques, has inherent low loss and low dispersion characteristics.
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H Bend Waveguides
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H-plane waveguide bends are sections of high-precision crafted waveguides and shaped to either 30º, 45º ,60º, or 90º angles. It directs the radio frequency beam and "bends" the signal to go the direction you want.View more H-Bend Waveguide
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Full Band Phase Shifters
STP-18-10-M2
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Full band phase shifters are micrometer-driven, waveguide-based phase shifters. The configuration of the micrometer-driven phase shifters is similar to that of level setting attenuators, where the phase shifting is caused by an E-plane dielectric insert in the rectangular waveguide. The amount of phase shifting is directly dependent on the volume of the insert. The VSWR and the insertion loss of these phase shifters are dependent on the frequency. The below standard offering covers the frequency range of 18 to 110 GHz and a phase shifting range of 180 degrees. These micrometer-driven phase shifters are typically used to introduce a certain amount of phase shifting when the absolute number is not a focus.
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Waveguide Power Sensor
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Make accurate and reliable measurements in the 50 to 110 GHz frequency range. Keysight's waveguide power sensors offer best SWR, high reliability and low loss, and come with a 50 MHz calibration port to reduce measurement uncertainties.
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Straight Waveguide
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Precision MMW has the worlds best Waveguide Straight Sections. Available in standard sizes and custom size needs for millimeter wave applications.We can manufacture from brass, OFHC copper, aluminum or rhodium. Waveguides have significant advantages over coaxial transmission in power handling, insertion loss and signal integrity in transmission of frequency signals. There are various types of waveguide straights that can fit your engineering needs.View more Straight Waveguide
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Double Ridged Waveguide Horn
QRH400
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Frequency range: 400 MHz - 6 GHz VSWR (max): < 2.3 :1Impedance: 50 O (Ohm)Connector: 2xN female Power (CW / Peak): 350 W / 350 W
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Waveguide Harmonic Mixer (smart mixer), 75 to 110 GHz
M1971W
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Keysight M1971W 75 to 110 GHz waveguide harmonic mixer is an un-preselected mixer that provides a complete solution for wideband millimeter-wave signal analysis of more than 2 GHz with X-Series signal analyzers. Embedded smart features help you to greatly simplify your overall test setup and improve the DANL and TOI of your test system. Go smart with harmonic mixing for your millimeter-wave applications.
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Vector Network Analyzer
R42XXE
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The R42XXE Vector Network Analyzers are designed for measuring of S-parameters, VSWR and impedance of waveguide networks in the full frequency ranges of standard waveguides between 33 and 170 GHz. Frequency accuracy is ±0.2%. The measurement range of reflection factor modulus is from 0 to 1. The measurement range of reflection factor phase is from 0 to ±180° for 0.1< |Гx|<1 with accuracy ±7.5 o in 18-75 GHz frequency range and ±9.6° in 75-170 GHz frequency range. The measurement range of transmission factor phase is from 0 to ±180 o with accuracy ±(5+0.1 |Ax|) o for Ax >-50 dB in frequency range to 75 GHz, for Ax >-30 dB - to 170 GHz. Data can be displayed in the rectangular, Smith or polar diagrams. VNA requires Personal Computer with USB interface.
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Magic Tee
MHTXE
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The MHTXE Magic Tee Hybrid Couplers for millimeter waves are matched power dividers for variety of applications (general purpose power splitters, power combiners, phase measurement circuits, phase / frequency discriminators). The MHTXE Magic Tee Hybrid Couplers are available in waveguide bands between 33 and 170 GHz. These couplers are four-port transmission line components with a port configuration as shown in figure. Operation bandwidth is limited to 20÷90% waveguide operation frequency range depending on performance specifications.
