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- ・ Cernex(DC〜100GHz対応)
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HOME >> マイクロウェーブ・ミリ波 コンポーネント >> Millimeter wave(DC〜220GHz対応)
Series 115 Full Waveguide Band Isolators |
Series 145 Polarization Switches |
Series 150 Ferrite Phase Shifters |
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• Low Insertion Loss • Full Waveguide Band • Lightweight and Compact Design • Excellent Isolation Across the Band • Faraday Rotation Principle of Operation |
• Low VSWR • Low Insertion Loss • Faraday Rotation Devices • Low Cross-Polarized Components |
• Fast Rise Time • 360º Phase Shift • Remote Controlled |
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Series 172 Y-Junction Isolators |
Series 173 Y-Junction Circualtors |
Series 178 Y-Junction Isolators |
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• Low Loss • Low VSWR • High Isolation • Broad Bandwidth • Compact & Rugged • Optimal Temperature Response |
• Low Loss • Low VSWR • High Isolation • Broad Bandwidth • Compact & Rugged • Optimal Temperature Response |
• Low Loss • Low VSWR • High Isolation • Broad Bandwidth • Compact & Rugged • Optimal Temperature Response |
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Series 179 Y-Junction Circulators |
Series 202 & 203 Prime Focus Antennas |
Series 222 & 223 Cassegrain Antennas |
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• Low Loss • Low VSWR • High Isolation • Broad Bandwidth • Compact & Rugged • Optimal Temperature Response |
• Low Cost • High Directivity and Gain • Simple Mechanical Design • Moderate Sidelobe Performance • Wide Range of Available Beamwidths and Reflector Sizes |
• Low VWSR • Aluminum or Fiberglass Construction • Low Loss Performance at Millimeter Wave Frequencies |
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Series 258 Horn Lens Antennas |
Series 261 Standard Gain Horns |
Series 262 Conical Horns |
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• Low Sidelobes • Wide Bandwidths • No Aperture Blockage • Symetrical E and H Plane Beamwidths |
• Nominal Gain of 25 dBi • Available from 12.4 to 220 GHz • Made with Precise Dimensional Tolerance Control • Gain Calibration is Accurate to 0.5 dB Over Full Waveguide Bandwidth • Other Gain Values Availible upon Request, ex: 10, 15, 20, etc. |
• Available from 12.4 to 220 GHz • Nominal Gain of 15, 20 and 25 dbi • Made with Precise Dimensional Tolerance Control • Gain Calibration is Accurate to 0.5 dB Over Full Waveguide Bandwidth |
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Series 263 Scalar Feed Horns |
Series 267 Omni-Directional Antennas |
Series 268 Wide AngleScalar Feed Horns |
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• Low VSWR • Wide Beamwidths • Polarization Insensitive • Partial Waveguide Bandwidths |
• Low VWSR • Wide Bandwidths • 360 degree Beamwidths • Variable Elevation Beamwidths |
• Low VWSR • Wide Bandwidths • Narrow Beamwidths • Polarization Insensitive |
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Series 281 Orthomode Transducers |
Series 282 Circular Polarizers |
Series 283 Linear-Circular Switchable Polarizers |
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• VSWR < 1.2 • Isolation > 30 dB in Linear Mode • Higher Frequency Units will be Quoted on Request • Available from 18.0 to 110 GHz with 3% or Greater Bandwidth |
• VSWR < 1.2 • Higher Frequency Units will be Quoted on Request • Axial Ratio < 1.0 dB Over the Indicated Bandwidth • Converts Linear Input Signals to Circular Out • Specify Sense of Circular Polarization (RHCP or LHCP) • Available from 18.0 to 110 GHz with 3% or Greater Bandwidth |
• VSWR < 1.2 • Extremely Compact • Manual Switch for Polarization Selection • Higher Frequency Units will be Quoted on Request • Axial Ratio < 1.0 dB Over the Indicated Bandwidth • Converts Linear Input Signals to Selectable Output Signals • Available from 18.0 to 110 GHz with 3% or Greater Bandwidth • Output Signal Options: Right-Hand Circular / Left-Hand Circular / Linear |
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Series 284 Tapered Mode Transitions |
Series 330 Mode Transitions |
Series 340 Mode Filters |
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• Low Insertion Loss • Precision-Fabricated • VSWR < 1.15 Over a 10% Bandwidth • Converts from Rectangular TE10 Mode to Circular TE11 Mode • Available from 18.0 to 110 GHz with 10% or Greater Bandwidth |
• Minimum VSWR • Minimum Insertion Loss • Optional Pressurized Models Available • Efficient Conversion from TE10 Mode Rectangular Waveguide to TE01 Mode Circular Waveguide |
• Low Loss • High Spurious Mode Attenuation |
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Series 355 Rotary Joints |
Series 365 TE 01 Circular Waveguide Terminations |
Series 370, 371 Flanged & Unflanged Circular Waveguides |
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• Negligible Variation During Rotation • Minimum Effects on Transferred Signals |
• Low VSWR • Full Waveguide Bandwidth |
• Low VSWR • Precision Size |
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Series 380 Circular Waveguide Flange Set |
Series 410 Waveguide to Coax Transitions |
Series 450 High Pass Filters |
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• Self-Aligning Connectors • Supplied in Male and Female Pairs |
• Low Cost Versions Available • Frequency Ranges 12.4 to 75 GHz • Wide Variety of Coax Connectors Available • High Performance Versions for Laboratory Use |
• Low Cost • Wide Bandwidths • Low Insertion Loss • Low VSWR in Band |
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Series 460 Band Pass Filters |
Series 510 Direct-Reading Precision Antenuators |
Series 511 Programmable Rotary Vane Attenuators |
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• Low Cost • Low VSWR • Narrow Bandwidths • High Rejection Levels • Low in-Band Insertion |
• Low VSWR • Direct Reading • Low Insertion Loss • Anti-Backlash Drive • Negligible Phase Shift • Precision Construction • Frequency Independent |
• Low Cost • Compact Size • 7.0 to 170 GHz • High Accuracy • Highly Reliable • Digital Readout • Low Insertion Loss • IEEE-488 Interface • Full Waveguide Bands • Manual Operation Mode |
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Series 520 Uncalibrated Variable Attenuators |
Series 521 Fixed Attenuators |
Series 522 Dial-Driven Callibrated Attenuators |
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• Dial Driven • Compact, Mechanically Stable Design • Wide Range of Attenuation Values • Smooth, Spring-Loaded Setting Control |
• Wide Range of Accurately Calibrated Values • Available in Every Waveguide Size from 18.0 to 220 GHz |
• Compact & Mechanically-Stable Design • Smooth Anti-Backlash Attenuation Control • High Resolution Over Wide Attenuation Range • Microdial Knob with Calibration Curve for Repeatable Measurements |
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Series 523 Micrometer-Driven Calibrated Attenuators |
Series 525 Uncalibrated Phase Shifters |
Series 526 Dial-Driven Calibrated Phase Shifters |
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• High Resolution • Micrometer Readout • Differential Screw Drive • Anti-Backlash Operation • Excellent Mechanical Stability • Calibration Accuracy: 0.2 dB or 2% • Calibration Curve Provided at Specified Frequency |
• Dial Driven • Smooth Phase Shift Control • Compact & Mechanically-Stable Design • Settings Maintained in all Orientations |
• Compact & Mechanically-Stable Design • Smooth Anti-Backlash Phase Shift Control • High Resolution Over A Wide Phase-Shifting Range |
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Series 527 Micrometer-Driven Calibrated Phase Shifters |
Series 528 Direct-Reading Phase Shifters |
Series 529 Motorized Rotary Vane Phase Shifters |
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• Low VSWR • Micrometer Readout • Smooth Anti-Backlash Operation • Differential Screw Drive for Increased Phase Shift Resolution |
• High Accuracy • Direct Reading Dial • Frequency Independent • Direct Drive With No Gears • Covers Full Waveguide Band • Continuously Adjustable Phase • Low VSWR & Low Insertion Loss |
• High Accuracy • Digital Readout • Low Insertion Loss • Computer Controlled • Precision Construction • Full Waveguide Bands |
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Series 530 Manual Waveguide Switches |
Series 535 Two-Position Solenoid Switches |
Series 550 Frequency Meters |
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• Positive Indexing • Optimum Isolation • Non-Contacting Choke Coupling • Versatile Switching Combinations |
• Low Loss • Low VSWR • Accurate Positioning • High Isolation Between Ports • GPIB IEEE-488 Control Available |
• High Frequency Operation from 90.0 to 220 GHz • Circular Waveguide Cavity for High-Q Resonances • Micrometer Readout for Accurate Frequency Determination |
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Series 551 Direct-Reading Frequency Meters |
Series 555 Bidirectional Couplers |
Series 559 Broadband Directional Couplers |
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• Full Band • Direct Reading • High Resolution • Anti-Backlash Drive |
• High Directivity • Accurate Coupling • Full Waveguide Bandwidth |
• Broadband • Low VSWR • High Directivity • Rugged Construction • High Coupling Accuracy • Calibrated Coupling Values • Minimum Coupling Variation with Frequency |
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Series 560 Broadband Directional Couplers |
Series 561 Broadband Directional Couplers |
Series 564 Cross Guide Directional Couplers |
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• Broadband • Low VSWR • E-plane design • High Directivity • Rugged Construction • High Coupling Accuracy • Calibrated Coupling Values • Minimum Coupling Variation with Frequency |
• Broadband • Low VSWR • High Directivity • Rugged Construction • High Coupling Accuracy • Calibrated Coupling Values • Minimum Coupling Variation with Frequency |
• Low VSWR • Four-Port Device • Rugged Construction • Broadband Operation |
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Series 565 Cross Guide Directional Couplers |
Series 566 Cross Guide Directional Couplers |
Series 580 Terminations |
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• Low VSWR • High Isolation • High Directivity • Rugged Construction • Broadband Operation |
• Low Cost • Low VSWR • Four-Port Device • Rugged Construction • Broadband Operation |
• Low VSWR • Compact Size • Full Waveguide Bandwidths • Available for Low Power and Medium Power Applications |
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Series 581 Medium Power Load Terminations |
Series 582 High Power Load Terminations |
Series 585 Sliding Matched Terminations |
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• Low VSWR • Compact Size • Full Waveguide Bandwidths • Available for Low Power and Medium Power Applications |
• Low VSWR • Compact Size • Full Waveguide Bandwidths • Available for High Power up to 250 watts CW Applications |
• Low VSWR • Precision Adjustment |
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Series 590 Adjustable Waveguide Short Circuits |
Series 600 Single Hybrid Rings |
Series 605 3dB Short Slot Hybrids |
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• Full Waveguide Coverage • Non-Contacting Choke Type Short • Precision Micrometer Tuning and Readout • Minimum Travel of One-Half Wavelength at Lowest Operating Frequency |
• Low VSWR • High Isolation • Minimum Size • High Reliability • Equal Power Split • Low Insertion Loss • Rugged Construction |
• Small • Compact • Negligible Coupling Variation |
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Series 610 Triple Hybrid Rings |
Series 620 E/H Plane Tuners |
Series 630, 635 Hybrid Tees |
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• Low VSWR • High Isolation • Minimum Size • High Reliability • Equal Power Split • Low Insertion Loss • Rugged Construction |
• Micrometer Driven • Non-Contacting Choke-Type Short Circuits |
• Equal Power Division • Available from 12.4 to 220 GHz • High Isolation Provided by Symmetrical Construction |
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Series 640 E-Plane and Series 650 H-Plane Tees |
Series 660, 661, 662, 665 E-Plane Bends |
Series 670, 671, 672, 675 H-Plane Bends |
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• Unmatched Ports • Geometrical Symmetry • Available from 12.4 to 220 GHz • Equal Power Division Between the Two Outputs |
• Available from 12.4 to 220 GHz • Additional Radius and Angle Bends by Special Order • Smooth Precision Bends Minimize Energy Reflections |
• Available from 12.4 to 220 GHz • Additional Radius and Angle Bends by Special Order • Smooth Precision Bends Minimize Energy Reflections |
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Series 680 45° Twists, Series 681 90° Twists |
Series 688 Flanged Adapters |
Series 690 Flanged Waveguide Sections |
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• Smooth 45º / 90º Polarization Changes for Minimum Energy Reflections |
• Precision Built • Available from 12.4 to 220 GHz |
• Available from 12.4 to 220 GHz • Precision Fabricated to Meet Electrical & Mechanical Specifications |
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Series 691 Unflanged Waveguides |
Series 692 Tapered Transitions |
Series 695 Waveguide Stands |
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• Precise Fabrication | • Low Loss • Minimum Reflections • Precise Fabricated Tapers • Shortest Possible Insertion Length Consistent with High Mode Purity |
• Clamp Rigidly Secures Waveguide with Single Thumbscrew • Adjusts to Fit all Millimeter Waveguides Mounted in Either Polarization |
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Series 700 Precision Drill Jigs |
Series 705 Pressurizing Units |
Series 712 Bulkhead Waveguide Adapters |
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• Hardened Steel Provides Continued Accurate Drilling Alignment • Tapered Locating Tab Uses Waveguide Surfaces as Location Reference to Ensure a Perfect Mate |
• System Pressure Continuously Monitored • Convenient Means for Pressurizing Waveguide Transmission Lines |
• Full Waveguide Bandwidths • O-Ring, Provided for Moisture Resistance • Waveguide Feedthru for Panel Mount Applications |
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Series 750 Waveguide Flanges |
Series 830 Mechanically Tuned Gunn Oscillators |
Series 840 Electronically Tuned Gunn Oscillators |
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Precision Machined Materials Brass, Aluminum, Copper |
• Low Noise • High Stability • 12.4 to 110 GHz • Broadband Tuning • Excellent Reliability |
• Low Noise • High Reliability • 12.4 to 110 GHz • Electronic Tuning |
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Series 900, 905 Pin Diode Attenuators |
Series 910 Pin Diode Switches |
Series 911 High Speed Pin Diode Switches |
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• Series 900 Attenuators 10 to 60 dB - 6% Bandwidth • Series 905 Attenuator 10 to 40 dB Full Bandwidth (K, A, B, U) |
• Millimeter Wave Switches with Integral TTL drivers • Series 910 Single Throw Switches (SPST) - 6% Bandwidth (100 ns) |
• Series 911 Single Throw Switches (SPST) - 6% Bandwidth • Series 911 Single Throw Switches (SPST) - 6% Bandwidth (10 ns) |
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Series 912 SPDT Pin Diode Switches |
Series 915 Full Bandwidth Pin Diode Switches |
Series 920 Harmonic Mixers |
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• Series 912 Double Throw Switches (SPDT) - 6% Bandwidth |
• 18.0 to 110.0 GHz • Various On/Off Ratios Available • 10 GHz Bandwidths from 75 to 110 GHz • Full Waveguide Band Coverage up to 75 GHz • Broadband SPST Diode Switches with Integral TTL Devices |
• Full Waveguide Band Coverage • Extends the Useful Frequency Range of Spectrum Analyzers |
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Series 922 Harmonic Mixers |
Series 932,933, 934, 936 High Power Multipliers |
Series 938 Broadband Multipliers |
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• Full Waveguide Band Coverage • Available With or Without IF Amplifier • Extends the Useful Frequency Range of Spectrum Analyzers |
• Operation to 150 GHz • High Efficiency (to 40 Percent) • X2, X3, X4, X6, X9 Multiplication • 1 Percent to 5 Percent Bandwidths |
• Operation thru 140 GHz • X2, X3, X4, X6 Multiplication • High Efficiency • 10° Percent to 100 Percent Bandwidth’s |
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Series 950 Finline Detectors |
Series 955 Amplifiers |
Series 957 Phase-Locked Oscillators |
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• Full Waveguide Band • High Video Sensitivity • No Bias Voltage Required • Planar Finline Construction • Lightweight Compact Design |
• Low Noise • High Gain • Full Bandwidths • High 1 db Comp. Points • Wide Varity of Frequency Ranges • 2 GHz to 140 GHz |
• Several Stability Options • High Power Models Available • Several Spectral Purity Options • Available from 18.0 to 140.0 GHz • Miniaturized Lightweight Assembly |
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Series 960 Balanced Mixers |
Series 970 Wide-Band Balanced Mixers |
Series 980, 985 Upconverters |
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• Low Cost • Low Noise Figures • Moderate RF Bandwidths • With or Without IF Amplifier |
• Very Wide RF Bandwidth • Available With or Without IF Amplifiers |
• Low Drive (Biased) • Low Conversion Loss • Wide Choice of IF Inputs • With or Without RF Filter • High Drive (Unbiased) Options |
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Series 990 Balanced Phase Detectors |
MIWV_Catalog (11.3MB) | ||||
• High Sensitivity • Good RF Isolation • High-Reliability Beam-Lead Diodes |