A compact equivalent circuit using a complex transconductance analysis is proposed for linearity design in the multiple gated transistors configuration. This complex transconductance analysis gives broadband linearity improvement in the common source amplifier as compared to previous published analysis. Following the complex transconductance analysis, an UWB LNA and an UWB RF front-end circuit were verified through two individual chips. In the first chip, -5dBm IIP3 UWB low noise amplifier using complex derivative cancellation technique is analyzed and designed for ultra-wideband system. Measurement results show that the improvement of the linearity is more than 5dB without extra power consumption, and the designed LNA has conversion gain of 8.1dB, input return loss of 8dB, and input third-order intercept point (IIP3) of -5dBm with 8.26mW power dissipation. In the second chip, a low power and high linearity UWB receiver intends to use in the receiver path of the ultra-wideband system. This front-end circuit is composed of a low noise amplifier, an active balun, and a direct down-conversion mixer. Simulation results show that the circuit has conversion gain of 20.3dB, input return loss of 10dB, IIP3 of -4.7dBm, while consuming only 10.4mW.