Power electronics and drives miscellaneous Easy Questions and Answers | Page - 14

Power electronics and drives miscellaneous

In the circuit shown below, the knee current of the ideal Zener diode is 10 mA. To maintain 5 V across R_L, the minimum value of R_L in Ω and the minimum power rating of the Zener diode in mW respectively are

1. 125 and 125
1. 125 and 250
1. 250 and 125
1. 250 and 250

View Hint View Answer Discuss in Forum

I_s = I_z + I_L
I_s – I_z = I_L

Two extreme condition :
If I_z (min),then I_L (max)
If I_z (max) then I_L (min) = 0
I_z (max) = I_s = 10 - 5 = 50 mA
10

I_z (min) = I_s – I_L (max)
I_L (max) = I_s – I_z (min) = I_s – I_z = (50 – 10) = 40mA
R_L (min) = V = 5 K = 125 Ω
I_L (max) 40

P_z = V_z × I_z (max) = 5 × 50 mA = 250 mw

Correct Option: B

I_s = I_z + I_L
I_s – I_z = I_L

Two extreme condition :
If I_z (min),then I_L (max)
If I_z (max) then I_L (min) = 0
I_z (max) = I_s = 10 - 5 = 50 mA
10

I_z (min) = I_s – I_L (max)
I_L (max) = I_s – I_z (min) = I_s – I_z = (50 – 10) = 40mA
R_L (min) = V = 5 K = 125 Ω
I_L (max) 40

P_z = V_z × I_z (max) = 5 × 50 mA = 250 mw

In the feedback network shown below, if the feedback factor k is increased, then the

1. input impedance increases and output impedance decreases.
1. input impedance increases and output impedance also increases.
1. input impedance decreases and output impedance also decreases.
1. input impedance decreases and output impedance increases.

View Hint View Answer Discuss in Forum

Input Independence of a voltage-voltage feedback circuit = Z_i (1 + A₀ k)
Z_i = initial input impedance (without feed output
Impedance of a voltage-voltage feedback circuit = Z₀ / (1 + A₀ k)
Z₀ = initial output impedance (without feedback)
Hence, As K is increased, the input impedance will increase and output impedance will decrease.

Correct Option: A

Input Independence of a voltage-voltage feedback circuit = Z_i (1 + A₀ k)
Z_i = initial input impedance (without feed output
Impedance of a voltage-voltage feedback circuit = Z₀ / (1 + A₀ k)
Z₀ = initial output impedance (without feedback)
Hence, As K is increased, the input impedance will increase and output impedance will decrease.

In the circuit shown below what is the output voltage (V_out) in Volts if a silicon transistor Q and an ideal op-amp are used?

1. – 15
1. – 0.7
1. + 0.7
1. +15

View Hint View Answer Discuss in Forum

I = I, e I = I₀e ^{V_RE / V_T} , I = I₀e ^{-V₀ / V_T}
-V₀ = V_T ln I = V_T ln I₃ms
I₀ I_s

V₀ = - 0.7
R_L = √R_s² + X_s² = √4² + 3² = 5

Correct Option: B

I = I, e I = I₀e ^{V_RE / V_T} , I = I₀e ^{-V₀ / V_T}
-V₀ = V_T ln I = V_T ln I₃ms
I₀ I_s

V₀ = - 0.7
R_L = √R_s² + X_s² = √4² + 3² = 5

A single-phase voltage source inverter shown in figure is feeding power to a load. The triggering pulses of the devices are also shown in the figure.

If the load current is sinusoidal and is zero at 0, π, 2π...., the node voltage V_AO has the waveform

View Hint View Answer Discuss in Forum

NA

Correct Option: D

NA

In the single phase diode bridge rectifier shown in the given figure, the load resistor is R = 50 Ω; source voltage is v = 200 sinωt, where ω2π × 50 radians per second. The power dissipated in the load resistor R is ______ W.

1. 40
1. 200
1. 400
1. 800

View Hint View Answer Discuss in Forum

NA

Correct Option: C

NA