Abstract
The inductorless realization of high-order voltage transfer functions is achieved by subdividing a conventional realization into identical memoryless active subnetworks; the realization is then achieved by time multiplexing one of the memoryless active subnetworks such that it effectively replaces the total number of active subnetworks. The result of this time-multiplexing operation is to create a new type of RC-active filter that exhibits many practical advantages, such as lower power dissipation and a considerable saving in circuit complexity. The synthesis technique is illustrated by means of the design of a sixteenth-order low-pass transfer function. Nonideal performance is analyzed.
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