مرکز منطقه ای اطلاع رساني علوم و فناوري - Design of single-voltage amplifier active filters for minimum open-loop gain sensitivity

Abstract :

The pole sensitivity with reference to the open-loop gainbandwidth product $|\\omega _{a}|$ of the amplifier for a large class of single-voltage amplifier $RC$ networks is examined. Both finite gain and operational amplifier networks are considered under the assumption that the amplifier openloop gain effectively has a one-pole rolloff frequency characteristic. For $p=\\omega _{0}(-1/2Q+j\\sqrt {1-1/4Q^{2}})$ a nominal pole of the transfer function, general expressions for $dp/d(1/ \\omega _{a}), dQ/d(1/ \\omega _{a})$ , and $d \\omega _{0}/d(1 / \\omega _{a})$ are presented in terms of certain parameters of the $RC$ network. It is shown that these parameters may generally be found by inspection from the $RC$ openand short-circuit time constants and the high-frequency current gain of the passive $RC$ network. The second-order transfer function case is considered in detail and the optimum choices of the pertinent passive $RC$ network parameters for minimum sensitivity magnitude under various constraints are presented. A simple expression for the minimum possible magnitude of $dp / d(1 / \\omega _{a})$ for a given second-order transfer function is derived. Finally, the application of these criteria to existing synthesis schemes in order to minimize $dp/d(1/ \\omega _{a})$ or achieve other sensitivity properties, such as zero $Q$ sensitivity, is discussed.