CMOS continuous-time current-mode filters for high-frequency applications

Design considerations for high-frequency CMOS continuous-time current-mode filters are presented. The basic building block is a differential current integrator with its gain constant set by a small-signal transconductance and a gate capacitance. A prototype fifth-order low-pass ladder filter implemented in a standard digital 2 μm n-well CMOS process achieved a -3 dB cutoff frequency (f ₀) of 42 MHz; f₀ was tunable from 24 to 42 MHZ by varying a reference bias current from 50 to 150 μA. Using a single 5 V power supply with a nominal reference current of 100 μA, the five-pole filter dissipated 25.5 mW. The active filter area was 0.056 mm²/pole. With the minimum input signal defined as the input-referred noise integrated over a 40 MHz bandwidth, and the maximum input signal defined at the 1% total intermodulation distortion (TIMD) level, the measured dynamic range was 69 dB. A third-order elliptic low-pass ladder filter was also integrated in the 2 μm n-well CMOS process to verify the implementation of finite transmission zeros