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s (1e-4.6) a voltage with frequency f60Hz and amplitude 10. V. Assuming that the diode voltage...
Q5) Half-wave rectifier given below has an operating frequency of 120 Hz, while the transformer o...
Q5) Half-wave rectifier given below has an operating frequency of 120 Hz, while the transformer output voltage is 7.2 Vrms a) What is the rms value of the output voltage (V_OUT), if diode has an ON voltage of 1V? b) Minimum value of C to maintain the ripple voltage less than 0.35V, when R is 1 ohm? c) Draw thews and VOUT voltage waveform assuming vs_Ypsinωt D1 V S V OUT
Q5) Half-wave rectifier given below has an operating frequency...
In a full wave bridge rectifier, input voltage is 110sin(2pi60t) V, Vd=0.7V. The transformer turn ratio...
In a full wave bridge rectifier, input voltage is 110sin(2pi60t) V, Vd=0.7V. The transformer turn ratio is 10:1. What is the amplitude of output voltage? What is the maximum voltage across diode which is off? For load of 5kohm, calculate C for Vr of 1V.
Plot the output for each circuit, assuming the constant voltage drop model (CVD) for the diode....
Plot the output for each circuit, assuming the constant voltage
drop model (CVD) for the diode.
(B) Full-wave rectifier: D2 Di Vi = 5V, sin(2π 103 t) D3 D4
Design a FULL WAVE BRIDGE RECTIFIER circuit that will: Take 120volts ac, 60 hz, sinusoidal waveform...
Design a FULL WAVE BRIDGE RECTIFIER circuit that will:
Take 120volts ac, 60 hz, sinusoidal waveform and convert
it to a “regulated “dc value
giving 12 volts +, - 1 volt across a 2000-ohm output
load resistor with no more than 2%
ripple voltage.
You may assume:
a. An ideal power transformer as discussed in class.
b. For hand computations, you must assume a diode given by
Figure 4.8 page 185.
c. A filter capacitor sized per the textbook equation...
Figure 2 shows a power supply circuit comprising a transformer coupling the mains voltage on the...
Figure 2 shows a power supply circuit comprising a transformer coupling the mains voltage on the left to the full-wave rectifier circuit on the right. It is given that the mains voltage (Vmains) is 230 V RMS, the mains frequency (fin) is 50 Hz, the transformer T1 has a ratio of 9:1, the load resistance (RL) is 1 k. and the capacitance of the capacitor (C) is 470 uF. a. Calculate the following: 1. the transformer AC output RMS voltage...
4. The half-wave rectifier in Fig. P3.94 is operating with an input voltage, V = 10...
4. The half-wave rectifier in Fig. P3.94 is operating with an input voltage, V = 10 sinat,at a frequency of 60 Hz and Von=1V. (25 points) C D Les = Figure P3.94 a. Draw the output voltage (Vo(t)) waveform. b. What is the minimum value of C required to maintain the ripple voltage to less than 0.25V if R=0.5 Q and the diode voltage drop is 1V? c. What is the PIV rating of the diode in this circuit? d....
Consider a half-wave rectifier circuit with a triangular-wave input of 5-V peak-to-peak amplitude and zero average,...
Consider a half-wave rectifier circuit with a triangular-wave input of 5-V peak-to-peak amplitude and zero average, and with R= 1 k.2. Assume that the diode can be represented by the constant-voltage- drop model with Vp = 0.7 V. Find the average value of v. DH + 0.7 V - + O Us + R = 1 kN vo
4.70 A full-wave bridge-rectifier circuit with a 500-22 load operates from a 120-V (rms) 60-Hz household...
4.70 A full-wave bridge-rectifier circuit with a 500-22 load operates from a 120-V (rms) 60-Hz household supply through a 6-to-1 step-down transformer having a single Secondary winding. It uses four diodes, each of which can be modeled to have a 0.7-V drop for any current. What is the peak value of the rectified voltage across the load? For what fraction of a cycle does each diode conduct? What is the average voltage across the load? What is the average current...
Given an input voltage of 120VAC (RMS) +/- 1% mains voltage with 60 Hz frequency (plugged...
Given an input voltage of 120VAC (RMS) +/- 1% mains voltage with 60 Hz frequency (plugged into your wall), design a rectifier circuit that outputs +9V and -5V (account for diode voltage drop). The output voltages should be within +/- 5% of their specification (including peak-peak voltage ripple) with a load of up to 40 mA on the +9V supply and 20 mA on the -5V supply. (6 points) Show circuit diagram of design. For transformer, simply specify turns ratio(s)....
The circuit below uses a transformer with center tap access, which feeds a six-diode rectifier The voltages v, and v2 have the same amplitude and are 180 electrical degrees shifted from each other...
The circuit below uses a transformer with center tap access, which feeds a six-diode rectifier The voltages v, and v2 have the same amplitude and are 180 electrical degrees shifted from each other. Plot the load voltage assuming a pure resistive load. Load 120VRMs 60㎐ RAS
The circuit below uses a transformer with center tap access, which feeds a six-diode rectifier The voltages v, and v2 have the same amplitude and are 180 electrical degrees shifted from each other. Plot...
Q5) Half-wave rectifier given below has an operating frequency of 120 Hz, while the transformer output voltage is 7.2 Vrms a) What is the rms value of the output voltage (V_OUT), if diode has an ON voltage of 1V? b) Minimum value of C to maintain the ripple voltage less than 0.35V, when R is 1 ohm? c) Draw thews and VOUT voltage waveform assuming vs_Ypsinωt D1 V S V OUT
Q5) Half-wave rectifier given below has an operating frequency...
Plot the output for each circuit, assuming the constant voltage
drop model (CVD) for the diode.
(B) Full-wave rectifier: D2 Di Vi = 5V, sin(2π 103 t) D3 D4
Design a FULL WAVE BRIDGE RECTIFIER circuit that will:
Take 120volts ac, 60 hz, sinusoidal waveform and convert
it to a “regulated “dc value
giving 12 volts +, - 1 volt across a 2000-ohm output
load resistor with no more than 2%
ripple voltage.
You may assume:
a. An ideal power transformer as discussed in class.
b. For hand computations, you must assume a diode given by
Figure 4.8 page 185.
c. A filter capacitor sized per the textbook equation...
Figure 2 shows a power supply circuit comprising a transformer coupling the mains voltage on the left to the full-wave rectifier circuit on the right. It is given that the mains voltage (Vmains) is 230 V RMS, the mains frequency (fin) is 50 Hz, the transformer T1 has a ratio of 9:1, the load resistance (RL) is 1 k. and the capacitance of the capacitor (C) is 470 uF. a. Calculate the following: 1. the transformer AC output RMS voltage...
4. The half-wave rectifier in Fig. P3.94 is operating with an input voltage, V = 10 sinat,at a frequency of 60 Hz and Von=1V. (25 points) C D Les = Figure P3.94 a. Draw the output voltage (Vo(t)) waveform. b. What is the minimum value of C required to maintain the ripple voltage to less than 0.25V if R=0.5 Q and the diode voltage drop is 1V? c. What is the PIV rating of the diode in this circuit? d....
Consider a half-wave rectifier circuit with a triangular-wave input of 5-V peak-to-peak amplitude and zero average, and with R= 1 k.2. Assume that the diode can be represented by the constant-voltage- drop model with Vp = 0.7 V. Find the average value of v. DH + 0.7 V - + O Us + R = 1 kN vo
4.70 A full-wave bridge-rectifier circuit with a 500-22 load operates from a 120-V (rms) 60-Hz household supply through a 6-to-1 step-down transformer having a single Secondary winding. It uses four diodes, each of which can be modeled to have a 0.7-V drop for any current. What is the peak value of the rectified voltage across the load? For what fraction of a cycle does each diode conduct? What is the average voltage across the load? What is the average current...
The circuit below uses a transformer with center tap access, which feeds a six-diode rectifier The voltages v, and v2 have the same amplitude and are 180 electrical degrees shifted from each other. Plot the load voltage assuming a pure resistive load. Load 120VRMs 60㎐ RAS
The circuit below uses a transformer with center tap access, which feeds a six-diode rectifier The voltages v, and v2 have the same amplitude and are 180 electrical degrees shifted from each other. Plot...
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