A novel microstrip slow-wave resonator band-pass filter for millimeter wave applications

## Abstract A dual‐band bandpass filter using microstrip slow‐wave resonators is developed for wireless local area network applications. The fundamental and higher order resonant harmonics of a microstrip open‐loop resonator are analyzed against the length of the loading open stub. Then a dual‐band

## Abstract In this paper, a new type of slow‐wave 1D PBG microstrip band‐pass filter with a half‐wavelength linear resonator is introduced. Reduction of the central frequency (slow‐wave effect) is over 50%, as compared to the conventional band‐pass filter of the same type. Additional coupling is o

## Abstract In this paper, a new microstrip stepped‐impedance hairpin resonator with interdigital capacitor (IDC) slow‐wave band‐pass filter (BPF) using dielectric supported air‐gapped microstrip line (DAML) of surface micromachining on GaAs substrate is proposed. Unlike conventional slow‐wave filt

## Abstract Novel slow‐wave CPW resonators with defected ground structures (DGSs) in a rectangularly spaced and open‐loop shapes are investigated. These structures have an extremely compact size. The simulations and experimental results verify that these structures provide a size reduction of about

## Abstract In this paper, a new microstrip stepped‐impedance hairpin resonator (SIHR) slow‐wave bandpass filter (BPF) using a dielectric‐supported air‐gapped microstrip line (DAML) via surface micromachining on GaAs substrate is proposed. The slow‐wave periodic structures utilize the parallel‐ and

## Abstract The concept of very simple planar high‐pass filters using microstrip with short‐circuited edge has been extended to filters with pass‐bands beginning in the K and K~a~ bands. Two examples of such filters have been designed using electromagnetic simulator and fabricated on 0.5‐mm thick a