Abstract
The design and implementation method of a CMOS continuous-time inverse-follow-the-leader feedback (IFLF) filter are described. The approach permits the realization of arbitrary transfer functions. A seventh-order lowpass filter with equiripple delay and real zeros to effect a gain boost is implemented by using a linear, fully-balanced CMOS operational transconductance amplifier (OTA) which has high DC gain and extremely wide bandwidth. SPICE simulations show that the cut-off frequency of the lowpass filter without real zeros and with real zeros ranged from 5 to 20 MHz and 10 to 47 MHz, respectively. Total harmonic distortion (THD) is less than 0.45% for a differential input voltage of V/sub in/=1 V/sub pp/ at 1 MHz. Power consumption is 120 mW for a 5-V supply.
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