Low Loss Dielectric Materials

Description: Cuming Microwave manufactures a full line of low loss dielectric materials. Our materials range in dielectric constant from 1.03 to 30. These materials have unique dielectric and physical properties. Dielectric materials can be

• Foam Type: Closed Cellular, Flexible, Rigid
• Form / Shape: Stock Shape (Bar, Sheet, etc.), Film / Sheet
• Material / Composition: Plastic / Polymer
• Special Features: Electrical Insulation / Dielectric

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

• Industry: Electronics, Electric Power, Energy Conversion (Battery/Fuel Cell/PV)
• Material Type / Grade: Dielectric / Electrically Insulating

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

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

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

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.

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

• Material Type: Piezoelectric Ceramic
• Max Use / Curie Temperature: 195 to 215 C

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

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

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

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

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

Description: an 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: 100 ft
• Cable Shielding: Braid

Description: 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 over a foil tape construction

• Cable Conductor: Copper and Copper Alloys
• Cable Jacket: Polyethylene (PE)
• Cable Length: 10 ft
• Cable Shielding: Braid

Description: 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 over a foil tape construction

• Cable Conductor: Copper and Copper Alloys
• Cable Jacket: Polyethylene (PE)
• Cable Length: 32.81 ft
• Cable Shielding: Braid

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

Description: >108MPa Compression Strength >508 MPa Thock Fracturness >2.56KJ/ m2 Elastic Modulus 65GPa Dielectric loss 1~ 4×10-3 Room temperature Dielectric Constant 6~7 " Thock Strength >40KV/mm

• Material Type: Glass Ceramic, Silica / Silicate Materials
• Thermal Conductivity: 1.71 W/m-K

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

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 279000 kHz
• Insertion Loss: 0.8000 dB
• Package Type: Surface Mount Technology (SMT), Other

Description: bonded material with hexagonal crystal structure.AlN has excellent thermal, mechanical and electrical properties, such as high thermal conductivity, low dielectric constant, high electrical resistivity, low density and a thermal expansion coefficient that matches well

• Coeff. of Thermal Expansion (CTE): 3 to 4.5 µm/m-C
• Dielectric Constant (Relative Permittivity): 9.66 to 10.6 #
• Loss Tangent (tan δ ): 3.00E-4 #
• Material Type: Aluminum Nitride

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 3.16E6 kHz
• Insertion Loss: 1.2 dB
• Package Type: Surface Mount Technology (SMT), Other
• VSWR: 1.17 :1

Description: Silicone Nitride Ceramic Wafer Material Description : Silicon nitride ceramic material has high hardness, low density, wear resistance and high temperature resistance. The rolling body is made of silicon nitride ceramic, while the other components are paired with bearing steel

• Coeff. of Thermal Expansion (CTE): 3.3 µm/m-C
• Dielectric Constant (Relative Permittivity): 8 #
• Material Type: Silicon Nitride
• Thermal Conductivity: 15 to 20 W/m-K

Description: Silicone Nitride Material Description : Silicon nitride ceramic material has high hardness, low density, wear resistance and high temperature resistance. The rolling body is made of silicon nitride ceramic, while the other components are paired with bearing steel to form

• Coeff. of Thermal Expansion (CTE): 3.3 µm/m-C
• Dielectric Constant (Relative Permittivity): 8 #
• Material Type: Silicon Nitride
• Thermal Conductivity: 15 to 20 W/m-K

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

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: 2.92 mm
• Geometry: Straight

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

Description: material. This 2.92mm male coaxial RF connector is RoHS and low loss 047 semi-rigid compliant, you can find this 2.92mm male coaxial low loss 047 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

Description: strength, elongation, dielectric strength, dielectric constant, volume resistivity, outgassing characteristics, total mass loss, volatile condensable material, and storage life.

Description: Insulators are materials or devices that prevent the flow of electrical current or transfer of heat. As for boron nitride ceramic, it possesses a number of properties including high dielectric strength, low dielectric loss, low thermal conductivity, high

• Applications: Corrosion Protection, Electrical / HV Parts, Refractory / High Temperature Materials, Thermal Insulation / Fire Proofing
• Density: 1.55 to 3 g/cc
• Material Type: Boron Nitride, Specialty Ceramic
• Max Use / Curie Temperature: 900 to 2000 C

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

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

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

• Carrier / Backing Material: Fluoropolymer, Plastic / Polymer
• Dielectric Strength: 1.97E7 V/m
• Features: Abrasion / Scratch Resistant, Dielectric / Insulating

Description: interface materials, we recommend stringent testing before selecting a material for your application. For more information, please refer to the product TDS or contact our Technical Support Team for solutions. Superior Thermal Conductivity even at High Temperatures 3.0 W/m.K Excellent

• Chemical / Polymer System Type: Silicone
• Features: Electrical Insulation / Dielectric
• Industry: Electronics, Semiconductors / IC Packaging
• Material Type: Grease / Paste

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

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
• Shape / Form: Tube / Sheath - Immersion (Closed End)