Figure 4 shows the circuit symbol and the equivalent representation of an op-amp with nonzero input offset voltage (Vos). In the closed loop applications of 'op-amps with nonzero input offset voltage', we use the following assumptions: • in = i, = 0A • Vn = Vpos = Vp + Vos • temperature of each op-amp is assumed to be constant and input offset voltage drift is ignored Assume that we build the circuit in Figure 5 by using an opamp with a nonzero input offset voltage (Vos). Which one of the following is the equation for the output (Vout) of the circuit in Figure 5? opap without input ofhet voltnge Vout Vos opamp with input offet volape, Vos V ViE (a) (b) Figure 4. (a) Circuit symbol (b) Equivalent representation of an op-amp with nonzero input offset voltage. Vout Figure 5 O Vout - Vos - Vin Vout - V/in 4 Vor
Figure 4 shows the circuit symbol and the equivalent representation of an op-amp with nonzero input offset voltage (Vos). In the closed loop applications of 'op-amps with nonzero input offset voltage', we use the following assumptions: • in = i, = 0A • Vn = Vpos = Vp + Vos • temperature of each op-amp is assumed to be constant and input offset voltage drift is ignored Assume that we build the circuit in Figure 5 by using an opamp with a nonzero input offset voltage (Vos). Which one of the following is the equation for the output (Vout) of the circuit in Figure 5? opap without input ofhet voltnge Vout Vos opamp with input offet volape, Vos V ViE (a) (b) Figure 4. (a) Circuit symbol (b) Equivalent representation of an op-amp with nonzero input offset voltage. Vout Figure 5 O Vout - Vos - Vin Vout - V/in 4 Vor
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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