Add to ORKGConventional silicon wafers have low resistivity and consequently unacceptably high value of dielectric attenuation constant. Microwave circuits for phased array antenna systems fabricated on these wafers therefore have low efficiency. By choosing a silicon substrate with sufficiently high resistivity it is possible to make the dielectric attenuation constant of the interconnecting microwave transmission lines approach those of GaAs or InP. In order for this to be possible, the transmission lines must be characterized. In this presentation, the effective dielectric constant (epsilon sub eff) and attenuation constant (alpha) of a slotline on high resistivity (5000 to 10 000 ohm-cm) silicon wafer will be discussed. The epsilon sub eff and alp...
Our research group has been working on CPW line measurements on several silicon substrates. Our main...
The attenuation (a) and effective dielectric constant (E(sub eff)) of Coplanar Waveguide (CPW) trans...
The goal to achieve low microwave attenuation loss in a high-speed wireless communication system is...
Attenuation and epsilon(sub eff) of Coplanar Waveguide (CPW) transmission lines were measured on Sil...
Silicon (Si), although not traditionally the material of choice for RF and microwave applications, h...
A review of RF transmission lines on silicon substrates is presented. Through measurements and calcu...
In this paper a new transmission line for microwave applications, referred to here as the Micro-Copl...
Deep level doping compensation concept using elemental gold is utilised to create effectively high r...
The complex permittivity and resistivity of float-zone high-resistivity silicon were measured at mic...
The effective resistivity (ρeff) is a figure of merit commonly used to assess the radio-frequency pe...
We show that deep level doping of Czochralski-grown silicon wafers is capable of providing high resi...
The effective resistivity () is a figure of merit commonly used to compare the RF performance of a s...
This paper reports the FEM model, design, fabrication and characterization of a square patch antenna...
The technological downscaling has improved the figures of merit of silicon-based technology, enablin...
Deep-level doping compensation process using elemental gold is used to create high resistivity silic...
Our research group has been working on CPW line measurements on several silicon substrates. Our main...
The attenuation (a) and effective dielectric constant (E(sub eff)) of Coplanar Waveguide (CPW) trans...
The goal to achieve low microwave attenuation loss in a high-speed wireless communication system is...
Attenuation and epsilon(sub eff) of Coplanar Waveguide (CPW) transmission lines were measured on Sil...
Silicon (Si), although not traditionally the material of choice for RF and microwave applications, h...
A review of RF transmission lines on silicon substrates is presented. Through measurements and calcu...
In this paper a new transmission line for microwave applications, referred to here as the Micro-Copl...
Deep level doping compensation concept using elemental gold is utilised to create effectively high r...
The complex permittivity and resistivity of float-zone high-resistivity silicon were measured at mic...
The effective resistivity (ρeff) is a figure of merit commonly used to assess the radio-frequency pe...
We show that deep level doping of Czochralski-grown silicon wafers is capable of providing high resi...
The effective resistivity () is a figure of merit commonly used to compare the RF performance of a s...
This paper reports the FEM model, design, fabrication and characterization of a square patch antenna...
The technological downscaling has improved the figures of merit of silicon-based technology, enablin...
Deep-level doping compensation process using elemental gold is used to create high resistivity silic...
Our research group has been working on CPW line measurements on several silicon substrates. Our main...
The attenuation (a) and effective dielectric constant (E(sub eff)) of Coplanar Waveguide (CPW) trans...
The goal to achieve low microwave attenuation loss in a high-speed wireless communication system is...