A 160-GHz three-stage fully-differential amplifier in 40-nm CMOS.

This paper presents a 160-GHz fully-differential power amplifier in 40-nm CMOS. A tapered gate-connection network was optimized which results in a reduction of the gate resistance and allows to achieve a maximum gain of 11.6 dB with a 3-dB bandwidth of 24 GHz from the three-stage amplifier. The measured saturated output power is 4.1 dBm and the measured 1-dB compression power is 1.5 dBm. The matching networks are implemented using on-chip transformers and slow-wave transmission lines. Differential and common-mode stability is obtained by adding cross-coupled capacitance to the differential pairs and series resistance to the bias network respectively. The amplifier core occupies an area of 0.063 mm(2) due to the compact design and the use of slow-wave transmission lines. With a supply voltage of 1.0 V, the amplifier consumes a DC current of 42 mA.