Q2. A full-wave controlled rectifier circuit with resistive load shown below: Calculate the firing angle (as) if it is required to obtain an average output voltage of 70% of the maximum possible average output voltage. • Sketch the output Vg & ig waveform and determine the average current. 1:2 a, = 15 R= 302 Vs -v2x110 Sin 120rnt 2n ot VR
Q2. A full-wave controlled rectifier circuit with resistive load shown below: Calculate the firing angle (as) if it is required to obtain an average output voltage of 70% of the maximum possible average output voltage. • Sketch the output Vg & ig waveform and determine the average current. 1:2 a, = 15 R= 302 Vs -v2x110 Sin 120rnt 2n ot VR
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![Q2. A full-wave controlled rectifier circuit with resistive load shown below: Calculate
the firing angle (a.) if it is required to obtain an average output voltage of 70% of
the maximum possible average output voltage.
• Sketch the output Vg & ig Waveform and determine the average current.
1:2
a, = 15
R= 302
Vs -V2x110 Sin 120nt
cot
VR](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7540c4f1-3059-4df3-ac55-48d69e9c8c22%2F7b82ad01-d14e-4e5d-9d48-2f40f284730b%2Fvtedixp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q2. A full-wave controlled rectifier circuit with resistive load shown below: Calculate
the firing angle (a.) if it is required to obtain an average output voltage of 70% of
the maximum possible average output voltage.
• Sketch the output Vg & ig Waveform and determine the average current.
1:2
a, = 15
R= 302
Vs -V2x110 Sin 120nt
cot
VR
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