Given that R = 2.75 k2, VB = 3.75V and Vs = 10 sin cot V. R ΓΚΩ VB W Vs o www +Vcc + Vo -Vcc Figure Q.4(c) Schmitt trigger circuit. Based on the given information, (i) Calculate the upper threshold voltage, VUTP and the lower threshold voltage, VLTP (ii) Draw and label the transfer characteristic of output voltage, Vo versus input voltage, Vs. (iii) Draw and label properly the output voltage, Vo based on Vs applied. Assume the initial Vo= +VSAT.

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Given that R = 2.75 k2, VB = 3.75V and Vs = 10 sin cot V.
R
ΓΚΩ
VB W
Vs o
www
+Vcc
+
Vo
-Vcc
Figure Q.4(c) Schmitt trigger circuit.
Based on the given information,
(i) Calculate the upper threshold voltage, VUTP and the lower threshold voltage,
VLTP
(ii) Draw and label the transfer characteristic of output voltage, Vo versus input
voltage, Vs.
(iii) Draw and label properly the output voltage, Vo based on Vs applied.
Assume the initial Vo= +VSAT.
Transcribed Image Text:Given that R = 2.75 k2, VB = 3.75V and Vs = 10 sin cot V. R ΓΚΩ VB W Vs o www +Vcc + Vo -Vcc Figure Q.4(c) Schmitt trigger circuit. Based on the given information, (i) Calculate the upper threshold voltage, VUTP and the lower threshold voltage, VLTP (ii) Draw and label the transfer characteristic of output voltage, Vo versus input voltage, Vs. (iii) Draw and label properly the output voltage, Vo based on Vs applied. Assume the initial Vo= +VSAT.
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