- 2 A A Draw An Ideal Ota C Integrator And Derive Its Transfer Function 10 B Describe Briefly Two Methods Popular 1 (89.97 KiB) Viewed 21 times
2 (a) a Draw an ideal OTA-C integrator and derive its transfer function. (10 %) (b) Describe briefly two methods popular
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2 (a) a Draw an ideal OTA-C integrator and derive its transfer function. (10 %) (b) Describe briefly two methods popular
2 (a) a Draw an ideal OTA-C integrator and derive its transfer function. (10 %) (b) Describe briefly two methods popularly used to design high order OTA-C filters. Contrast their performances. (15 %) (c) Give the reasons for the widespread use of balanced structures and automatic tuning in modern analogue filter design. (10 %) (d) In the practical design of OTA-C filters, nonideal OTA parameters must be considered. What are the effects of the finite output resistance of an OTA in OTA-C filters? State how these effects may be reduced or eliminated and why, showing your full workings. (15%)
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