Thesis research can be divided into two parts. The first part introduces that design of a low supply voltage, low power of 0.18-μm CMOS ultra wideband (UWB) low noise amplifier (LNA). Employing the common-source configuration with the RC negative feedback and source degeneration of three-stage cascade circuit to achieve an amplifier is applied for ultra wideband system. Simulation results about high gain of 25.04dB and low noise figure of 2.9dB. Moreover, the transistor works in low supply voltage of 0.3V that it can reduce the drain current to achieve the low DC power consumption of 3.7mW. The second part introduce the design of 0.18-μm CMOS UWB LNA with notch filter to reject the specific bandwidth while you not need, and it can reduce the signal interference of the transceiver. Then, design of the notch filter implemented by the passive circuit with the inductor and the capacitor series. The inductance is replaced by active inductor, and characteristic of active inductor is high quality factor to achieve a highly selective passive band reject filter. The capacitance is replaced by varactor, and characteristic of varactor can change the capacitance by voltage to achieve the notch filter of the rejection frequency adjusted.