This work proposes a 14 b 150 MS/s CMOS A/D converters (ADC) for software‐defined radio systems requiring simultaneously high‐resolution, low‐power, and small chip area at high speed. The proposed calibration‐free ADC employs a wide‐band low‐noise input sample‐and‐hold amplifier (SHA) along with a four‐stage pipelined architecture optimizing scaling‐down factors for the sampling capacitance and the input trans‐conductance of amplifiers in each stage to minimize thermal noise effect and power consumption. A signal‐insensitive 3‐D fully symmetric layout achieves a 14 b level resolution by reducing a capacitor mismatch of three MDACs. The prototype ADC in a 0.13µm 1P8M CMOS technology demonstrates a measured differential nonlinearity (DNL) and integral nonlinearity within 0.81LSB and 2.83LSB at 14 b, respectively. The ADC shows a maximum signal‐to‐noise‐and‐distortion ratio of 64 and 61 dB and a maximum spurious‐free dynamic range of 71 and 70 dB at 120 and 150 MS/s, respectively. The ADC with an active die area of 2.0mm2 consumes 140 mW at 150 MS/s and 1.2 V. Copyright © 2010 John Wiley & Sons, Ltd.