A compact triangular patch bandpass filter

## Abstract A compact dual‐mode bandpass filter (BPF) using equilateral triangular slotted‐patch resonator is proposed, which has the advantages of compact size, low insertion loss, and good passband selectivity because of two transmission zeros located at the low and high stopband. A demonstration

## Abstract A novel compact microstrip bandpass filter using a triangular resonator is proposed. The bandpass filter has the characteristic of the quasi‐elliptical response, and several transmission zeros in the stopband are realized in order to improve the selectivity of the passband. A demonstrat

## Abstract A novel microstrip bandpass filter using series‐connected triangular patches is proposed. Centered at 1.34 GHz, the insertion loss of the second resonant mode is about 18‐dB below that of the first mode. A demonstration filter is designed, fabricated, and tested. The theoretical and exp

## Abstract A novel dual‐mode DC‐block bandpass filter (BPF) using a pair of V‐shape slots on triangular‐patch resonators is developed in this letter. The V‐shape slots perturb the field distributions of triangular‐patch resonators and excite degenerate modes. Compared to our previous research, the

## Abstract A novel compact microstrip bandpass filter using one equilateral triangular‐patch resonator with a small cut is proposed. This filter has the advantages of compact size, low insertion loss in the passband, and sharp rejection in the stopband. Moreover, without coupling gaps, this novel

## Abstract A microstrip bandpass filter (BPF) using a triangular patch resonator is introduced in this paper. With one coupling gap between the input and output ports together with the patch configurations, the filter can realize DC block, lower insertion loss, and higher power‐handling capability