given that3) Based on Bpc obtained in step2, calculate the values of R., B₂, Bcand RE using your derived equations step1VecR₁NeSR2IcaVCEvet REATosBac obtained in step is Fac=0.53392• VCE = V₁ - V₁ •Vc = V₁E + V₁ = 6 + 1-2 • V₁= 7.2Vbut V₁ = √₂ x R₂ • Rc = √₂/1₂ = 7-2/2x10-3 = 3.6 kvRe=3.6 Kvfrom the IBO = ICB/Bac = 2X10²3/6.53392IBQ = 3-7454xlo-³ AIEQ = 100+ Ica: S. 7459x10-³ ANo.Vicc - 12V, VGA=0.65V, V₁E = 1/₂ x 12 = 6V ₁ VG = 0.1 XV₁6 = 0.1X12Ve = 1.2V, Ice = 2mA, IR₂ = 10 IBOVE TE X REVBE VB-VEDate●1. RE: VE/TE = 208.8453 V • TR₂ = 10 x IBQ = 37-459 x10³AVB = VBE + V₂ = 6.65 +1.2 UG = 1.85V IR₂ = VB / RzR₂ = 49-38232VB = Vcc X R₂ / R₂ + R₁-49.3873 +R₁ = 12x 49.3873/1.85R₁= 320.3501-49.3873=R₂ = UB/IR 1.85/37.459x16-3By using voltage division rule1-85= 12 x 49.5875/49-3823 +R₁49,3873+R₁ = 320, 350llR₁ - 270.9628 22 R₂ = 49.3873-12 R₁₂3.8K2 R$ = 268.843352for Bac 0-533924) Construct the circuit in figure 1, By using the values you obtained instep-3R₁=220.96282 Q VELVe →IR₂R₂TeaVBEDIMRHAReFigure-11) Figure 1 shows a voltage divider circuit. By referring to figure - 1,Produce desgin equation for each resister (R₁, R₂, Rc and Re) based onthe following information:VCE = 1/2 Vec, 1R2 = 10 18a, Ica = 2mA, Vcc = 12 V, VBFCON) = 0.65 V, V₁ = 0.1 Vcc• V₁ = V₁B + V₂ = 6+1·2= 7.2 V • Rc= V₂c-Vc/Ica = 12-7-2/2 = 2.4 ks2take ß= loo, 1BQ = 1cQ/B = 2/1000.02mALEQ = IBA + Ico= 0·02+2=2.0 m AR₁ = V₁ / 1₁ = 1.2/2.02 = 0.59KR• VB = VBE + VE = 0.65 + 1.2 = 1.85 V •IR₂ = 10x 0.02 20.2m A• R₂ = VB/1R₂ = 1.85/0·2=9.25kBy voltage division Rule, V₁ = Vcc R₂/R₁+R₂R₁ + 9.25= 60R. So.75 KQlok s+VCEREFigure-2LKJ(A)RE=0.59K R₁ = 2.4K 222) Construct the circuit shown in figure 2, determine the value ofBoc at the given Q-point.Vcc= 12V2N3904IMDlokn(2FFLVCE=(VBIB +V66=0.65152No.●KUL in loop (2)|-6-10-³ x 1₂ x 10³ +12=0 I₁ = 6 ABoc Tc/10BAC = 6/11-2376DEBpc = 0.533392DC voltage, Vec - 12V collector to emitter voltage, VcR = YZVCcBase to emitter to voltage, VBE = 0.659 V₁z12V16012x1.25/So, R.-So.75k R₂=9.25 kDate/RH 9.25 = 1.85KVL in Loop (1)- 12+ 1x 10² x 10-61B + lo x10³ x 106 La to, 85=01.0113= 11.35 18 211.35/8-01IB= 11. 2376 AQueIRRisaRL↓VEEL REIBA• Vcc= 12 V, Ves = 1/2X12=6V, V BE = 0.65 Vhttp://www.tanenghong.com

Answered: Image /qna-images/answer/5f69ef8e-1b61-4cde-a634-569756a41fc1.jpg

Answered: 4) Construct the circuit in figure 1,…

Engineering

Electrical Engineering

4) Construct the circuit in figure 1, By using the values you obtained in step-3

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Predictive Maintenance System

Predictive maintenance technologies are designed to assist in determining the state of in-service equipment so that maintenance can be scheduled. Predictive maintenance is the application of information; proactive maintenance approaches examine the condition of equipment and anticipate when it should maintain. The purpose of predictive maintenance is to forecast when equipment will fail (depending on a variety of parameters), then prevent the failure through routine and corrective maintenance.Condition monitoring is the continual monitoring of machines during process conditions to maintain optimal machine use, which is necessary for predictive maintenance. There are three types of condition monitoring: online, periodic, and remote. Finally, remote condition monitoring allows the equipment observed from a small place and data supplied for analysis.

Preventive Maintenance System

To maintain the equipment and materials on a regular basis in order to maintain those running conditions and reduce unnecessary shutdowns due to unexpected equipment failure is called Preventive Maintenance (PM).

Question

given that
3) Based on Bpc obtained in step2, calculate the values of R., B₂, Bc
and RE using your derived equations step1
Vec
R₁
Ne
SR2
Ica
VCE
vet RE
A
Tos
Bac obtained in step is Fac=0.53392
• VCE = V₁ - V₁ •Vc = V₁E + V₁ = 6 + 1-2 • V₁= 7.2V
but V₁ = √₂ x R₂ • Rc = √₂/1₂ = 7-2/2x10-3 = 3.6 kv
Re=3.6 Kv
from the IBO = ICB/Bac = 2X10²3/6.53392
IBQ = 3-7454xlo-³ A
IEQ = 100+ Ica: S. 7459x10-³ A
No.
Vicc - 12V, VGA=0.65V, V₁E = 1/₂ x 12 = 6V ₁ VG = 0.1 XV₁6 = 0.1X12
Ve = 1.2V, Ice = 2mA, IR₂ = 10 IBO
VE TE X RE
VBE VB-VE
Date
●
1. RE: VE/TE = 208.8453 V • TR₂ = 10 x IBQ = 37-459 x10³A
VB = VBE + V₂ = 6.65 +1.2 UG = 1.85V IR₂ = VB / Rz
R₂ = 49-38232
VB = Vcc X R₂ / R₂ + R₁
-49.3873 +R₁ = 12x 49.3873/1.85
R₁= 320.3501-49.3873
=
R₂ = UB/IR 1.85/37.459x16-3
By using voltage division rule
1-85= 12 x 49.5875/49-3823 +R₁
49,3873+R₁ = 320, 350ll
R₁ - 270.9628 22 R₂ = 49.3873-12 R₁₂3.8K2 R$ = 268.843352
for Bac 0-53392
4) Construct the circuit in figure 1, By using the values you obtained in
step-3
R₁=220.96282

Q VEL
Ve →
IR₂
R₂
Tea
VBE
DIMR
HA
Re
Figure-1
1) Figure 1 shows a voltage divider circuit. By referring to figure - 1,
Produce desgin equation for each resister (R₁, R₂, Rc and Re) based on
the following information:
VCE = 1/2 Vec, 1R2 = 10 18a, Ica = 2mA, Vcc = 12 V, VBFCON) = 0.65 V, V₁ = 0.1 Vcc
• V₁ = V₁B + V₂ = 6+1·2= 7.2 V • Rc= V₂c-Vc/Ica = 12-7-2/2 = 2.4 ks2
take ß= loo, 1BQ = 1cQ/B = 2/100
0.02mA
LEQ = IBA + Ico= 0·02+2=2.0 m A
R₁ = V₁ / 1₁ = 1.2/2.02 = 0.59KR
• VB = VBE + VE = 0.65 + 1.2 = 1.85 V •IR₂ = 10x 0.02 20.2m A
• R₂ = VB/1R₂ = 1.85/0·2=9.25k
By voltage division Rule, V₁ = Vcc R₂/R₁+R₂
R₁ + 9.25= 60
R. So.75 KQ
lok s
+
VCE
RE
Figure-2
LKJ
(A)
RE=0.59K R₁ = 2.4K 22
2) Construct the circuit shown in figure 2, determine the value of
Boc at the given Q-point.
Vcc= 12V
2N3904
IMD
lokn
(2
FFL
VCE=(V
B
IB +
V66=0.6515
2
No.
●
KUL in loop (2)
|-6-10-³ x 1₂ x 10³ +12=0 I₁ = 6 A
Boc Tc/10
BAC = 6/11-2376
DE
Bpc = 0.533392
DC voltage, Vec - 12V collector to emitter voltage, VcR = YZVCc
Base to emitter to voltage, VBE = 0.65
9 V₁z12V
160
12x1.25/
So, R.-So.75k R₂=9.25 k
Date
/RH 9.25 = 1.85
KVL in Loop (1)
- 12+ 1x 10² x 10-61B + lo x10³ x 106 La to, 85=0
1.0113= 11.35 18 211.35/8-01
IB= 11. 2376 A
Que
IR
Risa
RL
↓
VEEL RE
IBA
• Vcc= 12 V, Ves = 1/2X12=6V, V BE = 0.65 V
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