Abstract
An L-2L through-line de-embedding method has been verified up to millimeter wave frequency. The parasitics of the pad can be modeled from the L-2L through-line. Measurement results of the transmission lines and transistors can be de-embedded by subtracting the parasitic matrix of the pad. Therefore, the de-embedding patterns, which is used for modeling active and passive devices, decrease greatly and the chip area also decreases. A one-stage amplifier is firstly implemented for helping verifying the de-embedding results. After that a four-stage 60GHz amplifier has been fabricated in CMOS 65nm process. Experimental results show that the four-stage amplifier realizes an input matching better than -10.5dB and an output matching better than -13dB at 61GHz. A small signal power gain of 16.4dB and a 1dB output compression point of 4.6dBm are obtained with a DC current consumption of 128mA from a 1.2V power supply. The chip size is 1.5mm × 0.85mm.
