Coplanar Waveguide

Description: Up-to-date coverage of the analysis and applications of coplanar waveguides to microwave circuits and antennas The unique feature of coplanar waveguides, as opposed to more conventional waveguides, is their uniplanar construction, in which all of the conductors are

Description: For use in stripline, coplanar waveguide, or microstrip circuits

• Diode Applications: Switching, Other
• Diode Type: PIN Diodes, RF Diodes
• I_F: 50 mA
• I_R: 100 mA

Description: SDWA.01 antennas can be used for optimal performance for MIMO applications. Its low profile allows use on extremely thin devices while still maintaining highest RF performance characteristics. All that is needed is a 50 Ohm co-planar waveguide (CPW) to the module.

• Gain: 4.91 dB
• Polarization Type: Linear
• Primary Frequency Range: 2400 to 6000 MHz
• Technology Type: Other Antennas & Arrays

Description: frequency board substrates. The in-line connector design minimizes reflections as compared to a right-angle (perpendicular) pc mount transition. The Johnson® High Frequency End Launch connector is designed to attach directly to a high frequency coplanar waveguide (CPW) circuit board

• Gender: Female / Jack
• Geometry: Straight

Description: frequency board substrates. The in-line connector design minimizes reflections as compared to a right-angle (perpendicular) pc mount transition. The Johnson® High Frequency End Launch connector is designed to attach directly to a high frequency coplanar waveguide (CPW) circuit board

• Gender: Female / Jack
• Geometry: Straight

Description: frequency board substrates. The in-line connector design minimizes reflections as compared to a right-angle (perpendicular) pc mount transition. The Johnson® High Frequency End Launch connector is designed to attach directly to a high frequency coplanar waveguide (CPW) circuit board

• Gender: Female / Jack
• Geometry: Straight

Description: -wideband antenna designs. Successful examples include linear antenna array with a null controlled pattern, linear antenna array with a sector beam, linear antenna array with reduced side lobe levels, microstrip band stop filter, microstrip band pass filter, coplanar waveguide band

Description: The F-PD-30-1064 is a highly linear, 30 GHz bandwidth InGaAs PIN photodetector that is optimized for 1064 nm operational wavelength; it is ideal for the use in O/E front-ends requiring wide band frequency response. The coplanar waveguide photodiode design optimizes speed and

• Bandwidth: 28000 MHz
• Connector Type: Other
• Photodiode Type: PIN

Description: The F-PD-23-A-FCA is a highly linear, 23 GHz bandwidth InGaAs PIN photodetector that is ideal for use in O/E front-ends requiring wideband frequency response. The coplanar waveguide photodiode design optimizes speed and sensitivity for the 1260 nm through 1610 nm wavelength range and

• Bandwidth: 21000 MHz
• Connector Type: Other
• Photodiode Type: PIN

Description: The F-PD-30-D-K-FCA is a highly linear, 30 GHz bandwidth InGaAs PIN photodetector that is ideal for use in O/E front-ends requiring wideband frequency response. The coplanar waveguide photodiode design optimizes speed and sensitivity for the 1260 nm through 1610 nm wavelength range and

• Bandwidth: 28000 MHz
• Connector Type: Other
• Photodiode Type: PIN

Description: The F-PD-23-D-FCA is a highly linear, 23 GHz bandwidth InGaAs PIN photodetector that is ideal for use in O/E front-ends requiring wideband frequency response. The coplanar waveguide photodiode design optimizes speed and sensitivity for the 1260 nm through 1610 nm wavelength range and

• Bandwidth: 21000 MHz
• Connector Type: Other
• Photodiode Type: PIN

Description: optimized for surface mounting on co-planar waveguide or microstrip printed circuit boards. Bond wires or ribbons are used to connect the input and output ports of the attenuators to the external circuit transmission lines. Connection to ground is accomplished by through-die vias to

• Attenuation: 30 dB
• Attenuator Type: Fixed

Description: optimized for surface mounting on co-planar waveguide or microstrip printed circuit boards. Bond wires or ribbons are used to connect the input and output ports of the attenuators to the external circuit transmission lines. Connection to ground is accomplished by through-die vias to

• Attenuation: 4 dB
• Attenuator Type: Fixed

Description: optimized for surface mounting on co-planar waveguide or microstrip printed circuit boards. Bond wires or ribbons are used to connect the input and output ports of the attenuators to the external circuit transmission lines. Connection to ground is accomplished by through-die vias to

• Attenuation: 8 dB
• Attenuator Type: Fixed

Description: optimized for surface mounting on co-planar waveguide or microstrip printed circuit boards. Bond wires or ribbons are used to connect the input and output ports of the attenuators to the external circuit transmission lines. Connection to ground is accomplished by through-die vias to

• Attenuation: 20 dB
• Attenuator Type: Fixed

Description: Sonnet's suites of high-frequency electromagnetic (EM) Software are aimed at today's demanding design challenges involving predominantly planar (3D planar) circuits and antennas. Predominantly planar circuits include microstrip, stripline, coplanar waveguide, PCB (single and multiple

• Use: Educational, Professional

Description: Sonnet's suites of high-frequency electromagnetic (EM) Software are aimed at today's demanding design challenges involving predominantly planar (3D planar) circuits and antennas. Predominantly planar circuits include microstrip, stripline, coplanar waveguide, PCB (single and multiple

• Use: Educational, Professional

Description: Sonnet's suites of high-frequency electromagnetic (EM) Software are aimed at today's demanding design challenges involving predominantly planar (3D planar) circuits and antennas. Predominantly planar circuits include microstrip, stripline, coplanar waveguide, PCB (single and multiple

• Use: Educational, Professional

Description: Sonnet's suites of high-frequency electromagnetic (EM) Software are aimed at today's demanding design challenges involving predominantly planar (3D planar) circuits and antennas. Predominantly planar circuits include microstrip, stripline, coplanar waveguide, PCB (single and multiple

• Use: Educational, Professional

Description: and reel packaging for high volume pick and place applications. Up to 27 GHz of operating frequency when properly matched in a coplanar waveguide structure. Up to 12.5 watts of power to supply a wide array of applications and satisfy different customers’ needs

• Mounting / Packaging: Surface Mount (SMT / SMD)
• Resistance Range: 10 to 500 ohms
• Standard and Compliances: RoHS Compliant