2. According to circuit below calculate values for RF, VOUT and VCE in case of the relay is activated for an input voltage of VIN = 100 mV. What would be worst case scenario if R3 has ±10% tolerance? OP-AMP is ideal. Transistor data: VBE =0.8V, ẞ = 100 Relay 12V/200 R1 R2 R3 = 10 KQ = = +O VIN OV 2H R1 RF ww ww VOUT R3 WW-13 OV ww 0.8V Q+15V [ 12V/2009 R₂ OV VCE
2. According to circuit below calculate values for RF, VOUT and VCE in case of the relay is activated for an input voltage of VIN = 100 mV. What would be worst case scenario if R3 has ±10% tolerance? OP-AMP is ideal. Transistor data: VBE =0.8V, ẞ = 100 Relay 12V/200 R1 R2 R3 = 10 KQ = = +O VIN OV 2H R1 RF ww ww VOUT R3 WW-13 OV ww 0.8V Q+15V [ 12V/2009 R₂ OV VCE
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:2. According to circuit below calculate values for RF, VOUT and VCE in case of the relay is
activated for an input voltage of VIN = 100 mV. What would be worst case scenario if R3
has ±10% tolerance? OP-AMP is ideal.
Transistor data: VBE =0.8V, ẞ = 100
Relay 12V/200
R1 R2 R3 = 10 KQ
=
=
-0+
OV
2H
VIN
R1
ww
RF
ww
VOUT
WW-13
OV
R₂
R3
ww
0.8V
OV
2H
Q+15V
☑ 12V/2009
VCE
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