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Supplier: TPL, Inc.
Description: advanced capacitance materials primarily for electromagnetic weapon systems and is a manufacturer of nano-size ceramic dielectric powders, monolithic ceramic capacitors and substrates, as well as specialty dielectric materials. The Micropower Technologies Division is
- Dielectric Constant: 4.75 to 5.03
- Features: Electronics / Semiconductors, Electrical Power / HV
- Material Form: Composite, Film / Sheet, Polymer (Plastic / Elastomer)
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Description: IEC 62810:2015 relates to a measurement method for complex permittivity of a dielectric rod at microwave frequency. This method has been developed to evaluate the dielectric properties of low-loss materials in coaxial cables and electronic devices used in microwave
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Description: IEC 62562:2010 describes a measurement method of dielectric properties in the planar direction of dielectric plate at microwave frequency, called a cavity resonator method. It has been created in order to develop new materials and to design microwave active and passive devices
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Description: IEC 63185:2020 relates to a measurement method for complex permittivity of a dielectric substrates at microwave and millimeter-wave frequencies. This method has been developed to evaluate the dielectric properties of low-loss materials used in microwave and
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Supplier: Skyworks Solutions, Inc.
Description: floor and a metal roof, sometimes (as in oscillators) with an intervening substrate attached to the metal floor. The support, when used, is a low-loss, low dielectric constant material that provides space between the DR and the metal floor. That space differs for filters
- Resonator Type: Ceramic
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Description: Describes the measurement method of dielectric properties in the planer direction of dielectric plate at microwave frequency in order to develop new materials and to design microwave active and passive devices. This method is called a cavity resonator method.
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Supplier: CSA Group
Description: IEC 62810:2015 relates to a measurement method for complex permittivity of a dielectric rod at microwave frequency. This method has been developed to evaluate the dielectric properties of low-loss materials in coaxial cables and electronic devices used in microwave
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Supplier: Morgan Advanced Materials
Description: dielectric constant, low dielectric losses and improved electromechanical coupling coefficients. • High performance applications include medical imaging, inkjet printing and actuators. • Higher dielectric permittivity and coupling results in higher sensitivity in
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Supplier: CSA Group
Description: IEC 62562:2010 describes a measurement method of dielectric properties in the planar direction of dielectric plate at microwave frequency, called a cavity resonator method. It has been created in order to develop new materials and to design microwave active and passive devices
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Supplier: Skyworks Solutions, Inc.
Description: . Features Temperature Stable Wide Range of tf Small Size High Q for 700 MHz to 4 GHz Range Low Insertion Loss for Dielectric Constant Linear Temperature Coefficient Applications Specialty Medical Applications Avionics Radar Space
- Oscillation Frequency: 500 to 4000 MHz
- Resonator Type: Ceramic
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Supplier: Skyworks Solutions, Inc.
Description: The 3500 ceramic material is intended primarily for osillators and multi-pole filters within the 1500 MHz - 13,800 MHz frequency range. This material typically yields an unloaded Q of 40,000 at 2 GHz. Features High Q (Qf >70,000) Linear tf Low
- Oscillation Frequency: 1500 to 25000 MHz
- Resonator Type: Ceramic
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Supplier: Skyworks Solutions, Inc.
Description: The 2150 series is designed for frequency operation from 700 MHz to 13.8 GHz. This series offers a reduced size while maintaining high Q. Features Robust TM Resonator Material Small Size Repeatability of Design Low Insertion Loss High-volume Manufacturing Capability Applications
- Oscillation Frequency: 700 to 13800 MHz
- Resonator Type: Ceramic
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Foams and Foam Materials - Closed-cell Polyurethane Dielectric Foam Material -- LAST-A-FOAM® RF-2206Supplier: General Plastics Manufacturing Co.
Description: LAST-A-FOAM® RF-2200 is an advanced dielectric material for use in radomes, antennas and other radio frequency (RF) communication systems. This series of Machin able, closed cell polyurethane foams provide an RF-transparent, low-loss protective layer for applications requiring
- Application: Other
- Bulk Density: 6 lbs/ft³
- Foam Type: Closed Cellular, Rigid
- Form / Shape: Stock Shape (Bar, Sheet, etc.), Board / Block / Bun
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Supplier: Smiths Interconnect
Description: Our Low Loss Semi-Rigid products are designed with solid Aluminum outer jackets for the ability to route cables "on-site" while maintaining the abilities to withstand high levels of radiation doses. The dielectric materials in this product are very low loss
- Application: RF
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Supplier: PolyPhaser Corporation
Description: material with a phase velocity of 80% reducing the attenuation when compared to solid dielectric coax cables. PolyPhaser Low Loss 195 Series coax has a solid center conductor and uses a double shield comprised of a wire braid over a foil tape construction providing >90%
- Cable Conductor: Copper and Copper Alloys
- Cable Jacket: Polyethylene (PE)
- Cable Length: 3.28 ft
- Cable Shielding: Braid
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Supplier: PolyPhaser Corporation
Description: antenna jumper cable. The 195 Series coax used in these Type N to Type N assemblies is a 0.195 inch diameter coax with a black PE jacket. This cable's foam PE dielectric is low loss material with a phase velocity of 80% reducing the attenuation when compared to solid
- Cable Conductor: Copper and Copper Alloys
- Cable Jacket: Polyethylene (PE)
- Cable Length: 32.81 ft
- Cable Shielding: Braid
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Supplier: PolyPhaser Corporation
Description: dielectric is low loss material with a phase velocity of 80% reducing the attenuation when compared to solid dielectric coax cables. PolyPhaser Low Loss 195 Series coax has a solid center conductor and uses a double shield comprised of a wire braid
- Cable Conductor: Copper and Copper Alloys
- Cable Jacket: Polyethylene (PE)
- Cable Length: 25 ft
- Cable Shielding: Braid
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Supplier: PolyPhaser Corporation
Description: dielectric is low loss material with a phase velocity of 80% reducing the attenuation when compared to solid dielectric coax cables. PolyPhaser Low Loss 195 Series coax has a solid center conductor and uses a double shield comprised of a wire braid
- Cable Conductor: Copper and Copper Alloys
- Cable Jacket: Polyethylene (PE)
- Cable Length: 10 ft
- Cable Shielding: Braid
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Supplier: Materion Corporation
Description: . Materion packages are used for discrete Si, GaAs and GaN devices. The high thermal conductivity flange promotes low thermal resistance ?JC, and alumina ring frames provide very low dielectric loss at RF frequencies. The leads are Alloy 42, and are plated with Ni and Au
- Applications: Other
- Shape / Form: Bar Stock
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Supplier: HAVE, Inc.
Description: GEPCO VT61811 RG11 PERMANENT INSTALL TRIAX CABLE Triaxial camera cable for permanent installation in conduit, plenum air spaces, or outdoor environments. Gepco triax features a precision-drawn,copp er conductor and a low-loss, gas-injected polyethylene dielectric. These processed
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Supplier: Richardson RFPD
Description: The MLO® Low Pass Filters are low profile passive devices with best in class performance based on AVX’s patented multilayer organic high density interconnect technology. The MLO® low pass filters utilize high dielectric constant and low loss materials
- Bandwidth: 0.0 to 141000 kHz
- Insertion Loss: 0.9000 dB
- Package Type: Surface Mount Technology (SMT), Other
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Supplier: Richardson RFPD
Description: The MLO Low Pass Filters are low profile passive devices with best in class performance based on AVX’s patented multilayer organic high density interconnect technology. The MLO low pass filters utilize high dielectric constant and low loss materials
- Bandwidth: 0.0 to 1.61E6 kHz
- Insertion Loss: 1.2 dB
- Package Type: Surface Mount Technology (SMT), Other
- VSWR: 1.14 :1
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Supplier: HAVE, Inc.
Description: GEPCO VT61811 RG11 PERMANENT INSTALL TRIAX CABLE, FULL REEL 1000' Triaxial camera cable for permanent installation in conduit, plenum air spaces, or outdoor environments. Gepco triax features aprecision-drawn, copper conductor and a low-loss, gas-injected polyethylene dielectric. These
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Supplier: Fluoro-Plastics, Inc.
Description: Fluoro-Plastics offers modified PTFE basic shapes and machined parts. The new material offer engineering products with higher permeation resistance, lower creep, smoother surfaces and better high-voltage dielectric properties. Modified PTFE has the same performance characteristics of
- Dielectric Strength: 1.97E7
- Material Form: Polymer (Plastic / Elastomer), Tape
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Supplier: Lydall Performance Materials
Description: found some older kilns, and makes it extremely easy to install. Features/Advantages: Easy to cut wrap or form Temperature stability Low thermal conductivity Low heat storage Resilient Light Weight Thermal shock resistant Good dielectric strength High fired tensile strength Good
- Material Form: Ceramic / Inorganic, Nonwoven Product
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Supplier: Fairview Microwave Inc.
Description: material. This 1.85mm male coaxial RF connector is RoHS and low loss 047 semi-rigid compliant, you can find this 1.85mm male coaxial low loss 047 semi-rigid connector datasheet specifications above. Fairview Microwave male 1.85mm connector purchases will ship the
- Connector Type: 1.85 mm
- Geometry: Straight
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Supplier: Fairview Microwave Inc.
Description: material. This 2.92mm male coaxial RF connector is RoHS and low loss 086 semi-rigid compliant, you can find this 2.92mm male coaxial low loss 086 semi-rigid connector datasheet specifications above. Fairview Microwave male 2.92mm connector purchases will ship the
- Connector Type: Coaxial Connector, RF and Microwave Connector
- Geometry: Straight
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Supplier: MacDermid Alpha Electronics Solutions
Description: -creep characteristics Very high thermal conductivity; 2.50 W/m.K Wide operating temperature range: -50°C to +130°C Low evaporation weight loss White colour enabled treated parts to be easily identified Low in toxicity
- Material Form: Powder / Grain
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Supplier: ASTM International
Description: strength, elongation, dielectric strength, dielectric constant, volume resistivity, outgassing characteristics, total mass loss, volatile condensable material, and storage life.
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Supplier: Zhuhai Cersol Technology Co., Ltd.
Description: characteristic ? Good thermal conductivity ? Good thermal shock resistance ? Excellent surface characteristics and flatness ? High insulation performance, low dielectric constant and dielectric loss ? Excellent mechanical strength ? Stable physical and chemical properties
- Material Type: Alumina / Aluminum Oxide
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Supplier: CoorsTek
Description: Steatite is used in electronic components and manufacturing processes. Its low dielectric loss combined with a high dielectric strength make it an excellent inexpensive component for electronics and manufacturing processes. Example Applications Traditional electrical
- Applications: Electrical / HV Parts, Other
- Coeff. of Thermal Expansion (CTE): 8.5 to 10 µm/m-C
- MOR / Flexural Strength: 20305 to 23206 psi
- Material Type: Silica / Silicate Materials, Steatite, Specialty Ceramic
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Description: No other oxide ceramic material collectively exhibits these highly desirable properties and characteristics. BeO ceramic conducts heat more quickly than virtually all metals with the exception of copper and silver. Beryllia exhibits extremely low dielectric loss
- Material Type: Beryllia / Beryllium Oxide
- Shape / Form: Fabricated / Custom Shape
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Description: Low thermal expansion Good thermal shock resistance Low dielectric constant and loss tangent Excellent machinability Chemically inert Corrosion resistant Not wet by most molten metals Extremely high working temperature
- Material Type: Boron Nitride
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Supplier: IES2000
Description: transmission loss in many applications. VBC is especially recommended for new construction and equipment requiring superior flame and smoke resistant materials to meet local codes and ordinances. Ideal for OEM applications including bus, rail and marine. Easily brushed, troweled or
- Mounting: Spray / Trowel
- Product Description: Compound (Trowel), Compound (Spray)
- Thickness: 0.0625 to 0.1875 inch
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Supplier: MacDermid Alpha Electronics Solutions
Description: to ‘Talk Solutions’ Key properties Excellent non-creep charactistics Vibration stable, designed for gap filling applications Wide operating temperature range: -50°C to +130°C Exceptional thermal conductivity: 3.40 W/m.K Low in toxicityLow evaporation weight loss
- Chemical / Polymer System Type: Ceramic / Inorganic Cement
- Features: Electrical Insulation / Dielectric Material, Gap Filling Sealant / FIP Gasket, Thermal Compound / Interface (Thermally Conductive)
- Thermal Conductivity: 3.4 W/m-K
- Use Temperature: -58 to 266 F
Find Suppliers by Category Top
Featured Products Top
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-2200 is an advanced dielectric material for use in radomes, antennas and other radio frequency (RF) communication systems. This series of machinable, closed cell polyurethane foams provide an RF-transparent, low-loss protective layer for applications requiring optimal performance where (read more)
Browse Foams and Foam Materials Datasheets for General Plastics Manufacturing Co. -
inductors, and flyback transformers. Notable characteristics of Magnetics’ powder core materials are high resistivity, low hysteresis and eddy current losses and excellent (read more)
Browse Ferrite Ceramics and Ferromagnetic Materials Datasheets for Magnetics -
do not absorb water, thus preventing changes in dielectric performance. Our dielectric materials display non-dispersive and low-loss properties, where dielectric performance stays (read more)
Browse Foams and Foam Materials Datasheets for General Plastics Manufacturing Co. -
, high saturation, and low power loss. Additionally, common mode chokes that are produced with nanocrystalline material can be used in a multitude of applications and industries, including switched-mode power supplies (SMPS), uninterruptible power supplies (UPS), solar inverters, frequency (read more)
Browse Ferrite Ceramics and Ferromagnetic Materials Datasheets for Magnetics -
. RF-2200, in particular, is a low-density dielectric polyurethane foam ideal for applications where an RF-transparent, low-loss material is required. CUSTOM-MOLDED PARTS General Plastics’ flexible (read more)
Browse Foams and Foam Materials Datasheets for General Plastics Manufacturing Co. -
such as high thermal conductivity and high electrical resistance. In addition, it is featured advantages such as high hardness, corrosion resistance, low dielectric constant and dielectric loss, and low CTE. Aluminum nitride ceramics have excellent thermal conductivity (7-10 times that of alumina (read more)
Browse Industrial Ceramic Materials Datasheets for Xiamen Innovacera Advanced Materials Co., Ltd. -
over 10,000 PSI High Temperature Usage Low Dielectric Loss Mass Spectrometer Leak Tested High Chemical Stability Ceramic-to-Metal Welding Process: Cleaning Pasting Metallizing Nickel Plating (read more)
Browse Industrial Ceramic Materials Datasheets for Xiamen Innovacera Advanced Materials Co., Ltd. -
and efficiently. Our Cable Offerings: UltraLite RF Cables (50 Ohm): These premium coaxial cables are built with a focus on low-loss and ultra (read more)
Browse Coaxial Cables and Triaxial Cables Datasheets for PIC Wire & Cable -
Flexco's Super Low Loss Assemblies utilize a variety of designs and configurations to provide the verybest and most reliable cables. The US Army, Navy and Air Force all have Flexco SLL cables in their defense systems; on land, sea, and air. Our SLL cables have Flexco's uniqe outer conductor (read more)
Browse Cable Assemblies Datasheets for Flexco Microwave, Inc. -
Interquip Dielectric Ceramic filter has faster speed and wider bandwidth, utilize the characteristics of low loss, low dielectric constant, small volume, stable frequency temperature coefficient and low thermal expansion coefficient of dielectric filtering materials, and can withstand higher (read more)
Browse Crystals Datasheets for Interquip Electronics Co., Ltd.
Conduct Research Top
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Dielectric Materials for Use in Radomes
to eliminate dielectric framework scattering and wall insertion loss. [5]. Fabrication of such radomes generally involves layup or prepreg methods where a resin reinforced laminate material is bound to low or medium density polyurethane foam. Choice of layup or prepreg materials can vary depending
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96% Alumina Multi-Layer Circuit Ceramic Substrate
Features - Benefits of 96% Alumina + Pt Conductor. Very low Dielectric Loss compared to existing material. High Thermal Conductivity compared to existing material
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What are the Defects on the Surface of Alumina Ceramics?
Alumina ceramics is a kind of ceramic material with Al2O3 as the main raw material. It has many advantages, such as high mechanical strength, high hardness, and low dielectric loss at high frequencies, so it is widely used in the fields of electronics, electrical appliances, machinery, textiles
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Beryllia Ceramic BeO Metallization
The thermal conductivity of BeO ceramics is very high, which is comparable to that of some metal materials; it also has the advantages of high-temperature resistance, high-pressure resistance, high strength, and low dielectric loss, which meets the requirements of power devices for insulation
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EETimes.com | Electronics Industry News for EEs & Engineering Managers
Applied, Novellus, JSR tip future low-k plans SAN FRANCISCO -- Hoping to get an early jump in the 90- and 65-nm technology nodes, chip-equipment and material vendors are quietly showing their next-generation, low-k dielectric offerings to enable new, high-speed ICs. According to sources
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EETimes.com | Electronics Industry News for EEs & Engineering Managers
semiconductor industry in April, according to the Semiconductor Industry Association (SIA) Friday (May 30). Intel, Sony, TSMC, Toshiba to show low-k roadmaps Frustrated with the integration issues of low-k dielectric materials, chip makers next week will present several novel approaches
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Designing Atmospheric-Pressure Plasma Sources for Surface Engineering of Nanomaterials
. Davalos1,2. 1. School of Biomedical. Engineering and Sciences,. Virginia Tech-Wake Forest. University, Blacksburg, VA, USA. 2. Department of Materials Science. and Engineering, Virginia Tech,. Blacksburg, VA, USA. 3. Department of Human Nutrition,. Foods and Exercise, Virginia. Tech, Blacksburg, VA
More Information Top
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Low-loss dielectric ceramic materials and their properties
M. T. Sebastian and H. Jantunen: ‘ Low loss dielectric materials for LTCC applications.
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Microwave Electronics: Measurement and Materials Characterization
high permittivity and extremely low loss dielec- tric materials .
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Complex permittivity measurements of low-loss microwave ceramics employing higher order quasi TE0np modes excited in a cylindrical dielectric sample
Microwave Theory Tech. 36 774–9 [9] Krupka J, Derzakowski K, Riddle B and Baker-Jarvis J 1998 A dielectric resonator for measurements of complex permittivity of low loss dielectric materials as a function of temperature Meas.
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A Measurement Process to Characterize Natural and Engineered Low-Loss Uniaxial Dielectric Materials at Microwave Frequencies
[11] J. Krupka, K. Derzakowski, B. Riddle, and J. Baker-Jarvis, “A dielec- tric resonator for complex permittivity of low loss dielectric materials as a function of temperature,” Meas.
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Towards rational design of low-temperature co-fired ceramic (LTCC) materials
Low loss dielectric materials for LTCC applications: A review.
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Modern Antenna Handbook Complete Document
The potential of the dielectric-loaded horn has been made possible by the advent of accurate design software and also high quality low loss dielectric materials .
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Advances in Microwave and Radio Frequency Processing
It is not usually accurate for low loss dielectric mate- rials .
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Frequency domain complex permittivity measurements at microwave frequencies
J. Appl. Phys. 28 (Suppl. 28-2) 21–3 [65] Krupka J, Derzakowski K, Riddle B and Baker-Jarvis J 1998 A dielectric resonator for measurements of complex permittivity of low loss dielectric materials as a function of temperature Meas.
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Signal transmission loss on printed circuit board in GHz frequency region
In particular, the reduction effect of signal loss has been demonstrated quantitatively by using copper foil with smooth surface roughness along with low dielectric loss material .