I. Introduction

With the rapid development of wireless communications technology, RF front-end has been put forward high requirements. Nowadays, there are two methods to improve the performance of RF front-end, including system-level packaging of RF systems (passive and active components or subsystems are integrated into one device to realize the system in one package) and co-design for RF front-end (the traditional interface between the LNA and band-pass filter is removed to realize multi-function in one device) [1]–[5]. The co-design can essentially change the structure of the circuit, combine the function of the circuits and simplify the connection between the components. In ref. [1], a RF antenna-filter-LNA co-design strategy was presented. By co-design, the noise figure was improved significantly. In ref. [2], [3], antennas were co-designed with amplifier and transceivers, and the integration were improved significantly. Also, a device acted as a matching network, balun, and an extracted-pole band-pass filter was proposed in [4]. In [5], the oscillator was co-designed with filters, and the noise levels and harmonic suppression is improved effectively.