To demonstrate the improved stopban

To demonstrate the improved stopband performance of the proposed coupled-line bandpass filter with an additional DGS section, we designed a DGS bandpass filter at the center frequency of 3 GHz with two attenuation poles in the upper stopband. The basic specification was a 2.9–3.1-GHz passband with a 0.01-dB ripple level and rejection of 40 dB up to 6 GHz. Theattenuation-pole locations have been chosen to be 3.7 and 5.9 GHz. Fig. 14 shows comparative results of the simulated-parameters between the DGS coupled-line filters with an additional DGS section and without an additional one. Since a DGS section has a self-resonant characteristic, this additional DGS section of the resonator can also provide an extra attenuation pole in the upper stopband. Due to this extra attenuation-pole location, the stopband performance can be significantly improved compared to that of the DGS coupled-line filter without an additional DGS section of a resonator, as shown in Fig. 14. Furthermore, rejection at the first attenuation-pole location shows deeper performance than that of the second one, as shown in the simulated data. This can be due to the overlapped resonant frequencies of the DGS sections at the in–out
ports. The designed coupled-line bandpass filter was fabricated using a Duroid ( ) substrate. The thickness of the substrate is 1.27 mm. Fig. 15 shows measurements on the fabricated DGS coupled-line filter with an additional attenuation pole. As shown in Fig. 15, the spurious-free stopband is extended to 6 GHz with excellent insertion-loss performance. A photograph of the fabricated hardware is shown in Fig. 16. We can obtain more extended stopband performance by pushing the resonant frequency of an additional DGS section out of the interesting frequency band.