A Voltage amplifier circuit is shown in Fig. 1.1, where the membership functions of the two resistors and input voltage are given by Rf = 0.5/{12} + 0.8/{6), R = 0.3/{2} + 0.7/(3}, and Vin = 0.5/(4} + 0.6/(6). The fuzzy output voltage is described as Vout = Vin + . Using the extension principle, find the fuzzy voltage Vout- ww Vout Fig. 1.1: Voltage amplifier Circuit
A Voltage amplifier circuit is shown in Fig. 1.1, where the membership functions of the two resistors and input voltage are given by Rf = 0.5/{12} + 0.8/{6), R = 0.3/{2} + 0.7/(3}, and Vin = 0.5/(4} + 0.6/(6). The fuzzy output voltage is described as Vout = Vin + . Using the extension principle, find the fuzzy voltage Vout- ww Vout Fig. 1.1: Voltage amplifier Circuit
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![A Voltage amplifier circuit is shown in Fig. 1.1, where the membership functions of
the two resistors and input voltage are given by
Rf = 0.5/{12} + 0.8/{6), R = 0.3/{2} + 0.7/(3}, and
Vin = 0.5/(4} + 0.6/(6).
The fuzzy output voltage is described as Vout = Vin + . Using the extension
principle, find the fuzzy voltage Vout-
ww
Vout
Fig. 1.1: Voltage amplifier Circuit](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F51adcb2a-d2a8-4c97-af00-c039d456935a%2F298ae91d-faa0-43af-947d-d4e092676832%2Fa2apdam.png&w=3840&q=75)
Transcribed Image Text:A Voltage amplifier circuit is shown in Fig. 1.1, where the membership functions of
the two resistors and input voltage are given by
Rf = 0.5/{12} + 0.8/{6), R = 0.3/{2} + 0.7/(3}, and
Vin = 0.5/(4} + 0.6/(6).
The fuzzy output voltage is described as Vout = Vin + . Using the extension
principle, find the fuzzy voltage Vout-
ww
Vout
Fig. 1.1: Voltage amplifier Circuit
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