Title :
Integrated non-reciprocal dual H- and E-Field tunable bandpass filter with ultra-wideband isolation
Author :
Lin, Hwaider ; Jing Wu ; Xi Yang ; Zhongqiang Hu ; Tianxiang Nan ; Emori, Satoru ; Yuan Gao ; Rongdi Guo ; Xinjun Wang ; Sun, Nian X.
Author_Institution :
Dept. of Electr. & Comput. Eng., Northeastern Univ., Boston, MA, USA
Abstract :
The integrated non-reciprocal tunable bandpass filter with a NiZn ferrite film deposited via a spin sprayed process is presented. With external in-plane magnetic fields from 100 to 400Oe, the central frequency was tuned from 3.78 to 5.27GHz, with an insertion loss of 1.73 to 3.42dB and an in-band isolation of more than 13 dB, which was attributed to the non-reciprocity characteristics of the magnetostatic surface wave. By attaching the BPF on a PMN-PT slab, it can perform a voltage tunable behavior by magnetoelectric coupling. Frequency tunabilities of 500MHz/100Oe and 55MHz/1(kV/cm) are achieved. This design with dual functionality of integrated tunable bandpass filters and an UWB isolator can lead for compact, low-cost and power-efficient RF communication systems on RFIC and MMIC.
Keywords :
band-pass filters; ferrites; lead compounds; magnetic fields; magnetostatic surface waves; microwave filters; nickel alloys; ultra wideband communication; zinc alloys; E-field tunable bandpass filter; H-field tunable bandpass filter; NiZn; NiZn ferrite film; PMN; PMN-PT slab; external in-plane magnetic fields; integrated nonreciprocal tunable bandpass filter; loss 1.73 dB to 3.42 dB; magnetoelectric coupling; magnetostatic surface wave; spin sprayed process; ultra-wideband isolation; Band-pass filters; Magnetic films; Magnetic resonance; Magnetoelectric effects; Slabs; ferrite; integrated; magnetoelectric; magnetostatic surface wave; non-reciprocal; tunable bandpass filter;
Conference_Titel :
Microwave Symposium (IMS), 2015 IEEE MTT-S International
Conference_Location :
Phoenix, AZ
DOI :
10.1109/MWSYM.2015.7167041
