actions which are before (t = 0) and after (t = 0). Also, you need to calculate all voltages and currents with respect to the required time as listed in the Table and If we are going to use a BJT for this application instead of a mechanical switch, What is your recommendation for rated voltage and rated current of a BJT ? and why? v₁ (t) vc (1) + + R₁ V₂ (1) R₂ i, (t) V = 36 V , R = 200 Ω , R, = 170 Ω , R, = 320 Ω R₂ = 260 2, L= 15 mH, C = 25 nF V 1+ -Ji₂(1) iz (t) i, (1) t=0 (1) L 1₂ (1) + V₂ (1) v₂(t) _ _i₁(1) R₂ R₁ v₂(t)¯¯ v₂ (1) i. (1)

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HW.3) From the circuit shown in Figure 2,
actions which are before (t = 0) and after (t = 0+).
voltages and currents with respect to the required time as listed in the Table
Drawn the circuit respect to the switch
Also, you need to calculate all
and
If we are going to use a BJT for this application instead of a mechanical switch,
What is your recommendation for rated voltage and rated current of a BJT ? and why?
ve(t)
V₂ = 36 V, R₂ = 200 2, R₂ = 170 2, R₂ = 320 Q
R₂ = 260 2, L= 15 mH, C = 25 nF
i, (t) t=0
+
C
+
v₁ (1) R₁ v₂ (1) R₂
i, (t)
V
1+
-Iri₂ (1)
i, (t)
+
ww
R₂
V
SW
L
+ ₁₂ (1) + V3 (1) ₁₂ (1) +
(t)
R₁
v₂(t)
v₂(1) ₁₂ (1)
+
Transcribed Image Text:HW.3) From the circuit shown in Figure 2, actions which are before (t = 0) and after (t = 0+). voltages and currents with respect to the required time as listed in the Table Drawn the circuit respect to the switch Also, you need to calculate all and If we are going to use a BJT for this application instead of a mechanical switch, What is your recommendation for rated voltage and rated current of a BJT ? and why? ve(t) V₂ = 36 V, R₂ = 200 2, R₂ = 170 2, R₂ = 320 Q R₂ = 260 2, L= 15 mH, C = 25 nF i, (t) t=0 + C + v₁ (1) R₁ v₂ (1) R₂ i, (t) V 1+ -Iri₂ (1) i, (t) + ww R₂ V SW L + ₁₂ (1) + V3 (1) ₁₂ (1) + (t) R₁ v₂(t) v₂(1) ₁₂ (1) +
V₁ (0) =
V₁ (0*)=
|V₂ (0)=
|V₂ (0*)=
V3 (0-)=
V3 (0*)=
V4 (0-)=
V4 (0*)=
Vc (0)=
Vc (0*)=
VL (0)=
VL (0*)=
Vsw (0-)=
Vsw (0*)=
Voltages
i₁ (0-) =
i₁ (0*) =
1₂ (0) =
i2 (0+) =
i3 (0-) =
13 (0*) =
i4 (0-) =
i4 (0*) =
İL (0)=
İL (0+) =
is (0-) =
is (0+) =
Currents
Transcribed Image Text:V₁ (0) = V₁ (0*)= |V₂ (0)= |V₂ (0*)= V3 (0-)= V3 (0*)= V4 (0-)= V4 (0*)= Vc (0)= Vc (0*)= VL (0)= VL (0*)= Vsw (0-)= Vsw (0*)= Voltages i₁ (0-) = i₁ (0*) = 1₂ (0) = i2 (0+) = i3 (0-) = 13 (0*) = i4 (0-) = i4 (0*) = İL (0)= İL (0+) = is (0-) = is (0+) = Currents
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