102. What is the difference voltage if the inputs are an ideal opposite signal?
(a) The differential gain times twice the input signal. (b) The differential gain times the input signal. (c) The common-mode gain times twice the input signal. (d) The common-mode gain times the input signal.
Answer
Answer : (a)
Explanation
Explanation : No answer description available for this question. Let us discuss.
5555555555106. What is the difference voltage if the inputs are an ideal in-phase signal? (a) The differential gain times twice the input signal. (b) The differential gain times the input signal. (c) The common-mode gain times twice the input signal. (d) The common-mode gain times the input signal.
5555555555104. What is the difference output voltage of any signals applied to the input terminals? (a) The differential gain times the difference input voltage. (b) The common-mode gain times the common input voltage. (c) The sum of the differential gain times the difference input voltage and the common-mode gain times the common input voltage. (d) The difference of the differential gain times the difference input voltage and the common-mode gain times the common input voltage.
Tags: input, voltage, times, gain, difference, differential, common-mode, electronics, engineering
5555555555195. The common-mode rejection ratio (CMMR) is the ratio of _____ to ______. (a) the differential voltage gain, the common-mode voltage gain (b) the differential power gain, the common-mode power gain (c) the ideal voltage gain, the actual voltage gain (d) signal voltage, noise voltage
5555555555188. With negative feedback, the returning signal: (a) aids the input signal (b) is proportional to output current (c) opposes the input signal (d) is proportional to differential voltage gain
5555555555148. The common-mode voltage gain is (a) smaller than differential voltage gain (b) equal to voltage gain (c) greater than differential voltage gain (d) None of the above
Tags: voltage, gain, differential, operational, amplifier, fundamentals, common-mode, electronics, engineering