A positive-feedback amplifier circuit (inverting Schmitt trigger) is shown in the following figure exists in the positive stable state. Determine voltage v* at the non-inverting input vs common ground (give you answer in volts) if the output voltage vout 12 V is given to you. 3 k2 1 k2 Vout VOV + I

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Given the positive stable state in Problem 2 above, determine output voltage when the applied trigger
signal verigger = -Vcc-
Express your result in volts.
Transcribed Image Text:Given the positive stable state in Problem 2 above, determine output voltage when the applied trigger signal verigger = -Vcc- Express your result in volts.
A positive-feedback amplifier circuit (inverting Schmitt trigger) is shown in the following figure exists
in the positive stable state. Determine voltage vt at the non-inverting input vs common ground
(give you answer in volts) if the output voltage vout
12 V is given to you.
3 kQ
v+
+1
1 kO
Vout
10
VOV
Transcribed Image Text:A positive-feedback amplifier circuit (inverting Schmitt trigger) is shown in the following figure exists in the positive stable state. Determine voltage vt at the non-inverting input vs common ground (give you answer in volts) if the output voltage vout 12 V is given to you. 3 kQ v+ +1 1 kO Vout 10 VOV
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