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For an NMOS differential pair, It VDD = VSS =2.5 V, kn'W/L = 3 mA/V2, Vtn = 0.7 V, I = 0.2 mA, RD = 5kohm, and neglect channel-length modulation. Let vG2 = 0 and vG1 = vid. Find the value of vid that corresponds to each of the following situations: a) iD1 = iD2 = 0.1 mA b) iD1 = 0.15 mA and iD2 = 0.05 mA c) iD1 = 0.2 mA and iD2 = 0 mA d) iD1 = 0.05 mA and iD2 = 0.15 mA e) iD1 = 0 mA and iD2 = 0.2 mA For each case, find vS, vD1, vD2, and (vD2 - vD1).

For an NMOS differential pair, It VDD = VSS =2.5 V, kn'W/L = 3 mA/V2, Vtn = 0.7 V, I = 0.2 mA, RD = 5kohm, and neglect channel-length modulation. Let vG2 = 0 and vG1 = vid. Find the value of vid that corresponds to each of the following situations: a) iD1 = iD2 = 0.1 mA b) iD1 = 0.15 mA and iD2 = 0.05 mA c) iD1 = 0.2 mA and iD2 = 0 mA d) iD1 = 0.05 mA and iD2 = 0.15 mA e) iD1 = 0 mA and iD2 = 0.2 mA For each case, find vS, vD1, vD2, and (vD2 - vD1).

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For an NMOS differential pair, It VDD = VSS =2.5 V, kn'W/L = 3 mA/V2, Vtn = 0.7 V, I = 0.2 mA, RD = 5kohm, and neglect channel-length modulation. Let vG2 = 0 and vG1 = vid. Find the value of vid that corresponds to each of the following situations: a) iD1 = iD2 = 0.1 mA b) iD1 = 0.15 mA and iD2 = 0.05 mA c) iD1 = 0.2 mA and iD2 = 0 mA d) iD1 = 0.05 mA and iD2 = 0.15 mA e) iD1 = 0 mA and iD2 = 0.2 mA For each case, find vS, vD1, vD2, and (vD2 - vD1).

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