The figure shows a half-wave rectifier circuit with input voltage V(t) = 10 sin (100 at) volts. Assuming ideal diode characteristics with zero forward voltage drop and zero reverse current, the average power consumed in watts by the load resistance R, is W. + V(t) R_=100 Q ww

The figure shows a half-wave rectifier circuit with input voltage V(t) = 10 sin (100 at) volts. Assuming ideal diode characteristics with zero forward voltage drop and zero reverse current, the average power consumed in watts by the load resistance R, is W. + V(t) R_=100 Q ww

Electric Motor Control

10th Edition

ISBN:9781133702818

Author:Herman

Publisher:Herman

Chapter59: Motor Startup And Troubleshooting Basics

Section: Chapter Questions

Problem 12SQ: How is a solid-state diode tested? Explain.

See similar textbooks

Related questions

Q: Given that RI = i0, R2 (Rload) - IKA, LI - 750mH, k - 1,Vi - 220V.f = 60HZ, assume an ideal diode,…

A: A center tapped full wave rectifier is given. It converts AC into pulsating DC.

Q: Q3) The half-wave rectifier shown below is operating at a frequency of 60 Hz, and the rms value of…

Q: Q3: A. Silicon diodes are used in bridge rectifier eircuit to supply a load (1202) with 12 volts DC,…

Q: (b) The governing equation for the diode is: (A) ) Define the parameters within this equation. (i)…

Q: 4. A sinusoidal voltage of 50 V (Vrms) and frequency 50 Hz is applied to a half wave rectifier. RL =…

Q: Reg. No = 26 Calculate the forward current for the diode circuit as shown in the given figure,…

A: To find the forward current for the diode circuit

Q: The full-wave rectifier circuit shown in Figure Q1(d) has a center-tapped transformer. The load…

Q: Q4: An AC voltmeter uses the circuit below. The meter has an internal resistance of 1000 and…

Q: 5.8 A 2:1 step-down transformer supplies a full-wave center-tap rectifier from a 400 V source. If…

A: Note: As per the policy we can solve only 3 sub-parts, please re-upload the remaining part as a…

Q: A diode is tested at the presence of dc+ac source, where the diode's average current level (dc…

Q: Q3) A full-wave bridge rectifier with a 220 V ms sinusoidal input has a load resistor of 6.2 KO 1.…

A: The solution can be achieved as follows.

Q: 2. Full Wave Bridge Rectifier a. Determine V. and the required PIV rating of each diode for the…

A: We need to find out output for full wave rectifier

Q: Q1/ In the circuit shown below, the zener diode used has the following specifications : Vz= 12 volt,…

Q: A centre-tap full-wave rectifier (CT-FWR) is operated from a (60 Hz), (110 V,ms) line voltage…

A: Thank you for the question. Your question consist of multiple sub-parts, as per company policy I…

Q: 05: Determine the peak output voltage Vp(out) for the bridge rectifier in Fig. belowAssuming the…

A: The diodes are made of semiconductor materials. Silicon and germanium are common semiconductors for…

Q: We wish to design a Si p+-n diode such that the avalanche breakdown and punchtrough at 300 K both…

A: The gradient of the electric field can be expressed as:-

Q: 1. Determine the dynamic (ac) resistance of the diode at a forward current of 15 milliAmpere using…

A: consider thegiven question;

Q: If a diode full wave rectifier circuit is excited by an ac source with an amplitude of 10 V and…

A: For a full wave rectifier circuit using diodes, if VP is the amplitude of the ac signal voltage…

Q: Consider the following rectifier circuit with four ideal diodes and an ideal Thyristor. (a) Sketch a…

A: Given Circuit:

Q: O A) A rectifiers shown in fig.3. If the output current assumed to be ripple free. (a) Draw the…

A: Note: We have solved the questions first part (a) for firing angle of 45 degree

Q: Q4. In the full-wave diode rectifier shown below, the diodes are ideal. The source voltage is v, =…

A: GIVEN DATA:

Q: A single-phase single-pulse diode rectifier (Fig. 3.1), with a resistive load (R=100 0), is fed from…

A: a) voltage ripple factor = Form factor2-1 form factor = V0rmsV0(avg) V0rms=Vm2 V0avg=Vmπ form factor…

Q: Exercises: 1. A full-wave bridge rectifier isolated from the 220 V rms power line by a transform…

A: Since you have asked multiple questions in a single request, we will be answering only the first…

Q: Q3: A full-wave bridge rectifier with a 100V ms sinusoidal input has a load resistor of I k. a. If…

A: Since the input voltage given is 100V RMS it's maximum value is √2×100 = 141.4V [since max value =…

Q: Design a full-wave rectifier circuit to rectify an ac voltage of 50 mVp-p. Illustrate its operation.

Q: Consider the "Zener diode as a voltage regulator" circuit given below: 1502 D unregulated/ 12 volt…

A: For given Zener diode to operate in a breakdown region is necessary to operate in the reverse-biased…

Q: R1 Vx - Considering the given circuit, Vz = 6.5 V @ 4 mA, R1 = 0.5 kN, V = 12±3 V, and rz 25 N. If…

A: The minimum value of zener diode in breakdown region, if the voltage are given.

Q: 2. An AC voltmeter uses a bridge rectifier with silicon diodes and a PMMC instrument with FSD = 75…

A: GIVEN DATA:

Q: A load is connected in the Full Bridge rectifier circuit (Four Diodes).

Q: A PMMC instrument with FSD of 50 µA and Rm = 1700 N is used in the half wave rectifier voltmeter…

A: We need to find RS and RSH For given half wave voltmeter.

Q: The figure shows a half-wave rectifier circuit with input voltage V(t) = 10 sin (100 t) volts.…

Q: 24. An ac voltage source of V max = 120 V is rectified using a half-wave rectifier circuit, using…

A: It is given that: Vmax=120 V

Q: The input of a Half-wave rectifier is V = 200 sin 40 t. If R₁ = 1K2, and forward resistance of the…

Q: Figure 1 is a halfwave rectifier circuit employing a silicon diode with a forward on- potential of…

A: VD = 0.7V Vs =10 V rms R=200ohm Frequency 50Hz Find maximum voltage across load Capacitance if…

Q: Design rectifier circuits to provide an output of 100 VDC using: a) Half wave rectifier b)…

A: Given:-VPrms=220VSrms=100VSm=141.42vVoltage drop across diode,VD=0.7v

Q: for a forward bias condition. Compute for (a) the current of the circuit, (b) the voltage across the…

A: Given: A series circuit has a 1.5 V battery, a 100 Ohm resistor, and a diode.

Q: For the circuit shown in the Figure, consider silicon diodes with forward drop voltage of 0.7 V. If…

A: Given : The given transformer is of centre tapped transformer hence we have to take the secondary…

Q: sinusoidal voltage of 48v, 60 Hz is applied to a half-wave rectifier with dynamic resistance of the…

Q: Q2) VDC and the current IDC, flowing through a 1002 resistor connected to a 240 Vrms single phase…

A: Single phase half wave Rectifier- One thyristor and load is used in single-phase half-wave…

Q: 28. A full-wave bridge rectifier with a 120-V rms sinusoidal input has a load resistor of 1 kſN. a.…

A: As per the guidelines of Bartley we supposed to answer first three subpart only for solution of…

Q: For the full-wave rectifier circuit shown in Fig. below, assume ideal diodes Find : (i) d.c. output…

Q: 1.-Find the Q point of both diodes, for the rectifier consider Silicon, n = 1, Also, Is = 1x10 -12…

A: Given : Here in the above question they have mentioned an electrical circuit having voltage source…

Q: Consider a three-phase diode rectifier supplying a R = 10 Ω DC load. The supply system is 440 VLL…

Q: Consider a two terminal semiconductor diode a) Calculate the thermal voltage of a diode at room…

Q: In an electronic laboratory, a diode rectifier tube has a plate resistance of 500 ohms (assumed…

A: A Half-wave rectifier is an AC to DC converter. single-phase HWR converts AC voltage into pulsating…

Q: Design a Zener diode voltage regulator with a suitable circuit diagram and to consider the voltage…

Q: 2. For the half-wave rectifier shown below, the cut-in voltage is 0.7 V. Sketch the voltage transfer…

A: Given circuit is a Half wave rectifier we have asked to solve vi,vii,viii,ix,x, Note: output we…

Q: a. Determine V. and the required PIV rating of each diode for the configuration shown. b. Calculate…

A: The given rectifier have ideal diode hence no voltage drop across diode.

Q: Figure 1 shows a center-tap rectifier circuit employing silicone diodes combined with b) a load…

A: Input voltage to primary side of transformer is -20sin(2πTt) By transformer action Voltage at…

Q: Design rectifier circuits to provide an output of 100 VDc using a) HWR and b) Center-tapped FWR…

A: A rectifier is an AC to DC converter. The rectifier converts AC voltage into pulsating DC Voltage.…

Question

The figure shows a half-wave rectifier circuit with input voltage V(t) = 10 sin (100 at) volts.
Assuming ideal diode characteristics with zero forward voltage drop and zero reverse current, the
average power consumed in watts by the load resistance R1 is
W.
+
V(t)
R_=100 Q
ww

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Three Phase Controlled and Uncontrolled Rectifiers

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

What is CEMF?
What is the difference between a diode and rectifier?
3 Given the bridge-type full-wave rectifier circuit shown 220V 60Hz 220V:Es Es D1 D2 D3 D4 The load resistor is 220 and the transformer average current is 300mA. Determine: (a) Average value, RMS value, and frequency of load voltage VRL. (b) Average current and PIV of each diode. RL
In a full wave rectifier circuit involving double diodes, a sinusoidal input signal of the following nature is applied e=10 sin(500*pi*t) V. What will be value of the dc voltage obtained at the output of the rectifier.
Power supply circuit is delivering 0.5 A and an average voltage 20 V to the load as shown in the circuit below. The ripple voltage of the half wave rectifier is 0.5 V and the diode is represented using constant voltage model. The smoothing capacitor value is equal to 220V rmsh soHz} VL-DC =20V 0.01 F 0.02 F 0.0167 F None of the above
You are asked to design a de power supply using a bridge full wave rectifier, as shown in Figure 1.d, to deliver a de voltage of Vo = 12 V to a 3 k2 load resistor with a ripple of less than 0.6 Vpp, where Vpp is the peak to peak voltage. The input voltage is a sine wave with frequency of 50 Hz. The diodes have a forward voltage of 0.7 V. i) Calculate the value of smoothing capacitor C. ii) Calculate the rms value of the input voltage, v(t). Figure 1.d.
The four diodes used in a bridge rectifier circuit have forward resistances which may be considered constant at 1 ohm and infinite reverse resistance. The alternating supply voltage is 220 V r.m.s. and load resistance is 580 ohm. Calculate (i) mean load current and (ii) power dissipated in each diode.
1. Build the following circuit. Use the function generator to obtain the specified AC input voltage. D4 D1 + RL 1.2K + Vs D3 Y D2 9V sin(2n 50 t) Verify the amplitude and frequency of the output waveform on the load resistor, RĻ. Peak voltage: Waveform period: Frequency 1.c) Calculate the average power dissipated on all four rectifier diodes (assume that each diode is ON for exactly one half cycle of vs for simplicity).
Draw the input waveform and output waveform for the circuit given below with proper values marked in the figure. Assume D1 as germanium and D2 as silicon diodes. Input Vpp%3D20V, V1=3 V and V2=10 V. R D2 D1 Vin Vout V1 V2 Maximum voltage of output waveform Minimum voltage of output waveform Ps
The four diodes used in a bridge rectifier circuit have forward resistances which may be considered constant at 12 and infinite reverse resistance. The alternating supply voltage is 240 V r.m.s. and load resistance is 480 Q. (Ideal Diode Model) Calculate (i) mean load current and (ii) power dissipated in each diode. * Idc= 0.5A, Pd= 0.132 W Idc= 2.45A, Pd= 2.123 W Ildc= 0.55A, Pd= 1.123 W Idc= 0.45A, Pd= 0.123 W None of the above
The four diodes used in a bridge rectifier circuit have forward resistances which may be considered constant at 12 and infinite reverse resistance. The alternating supply voltage is 240 V r.m.s. and load resistance is 480 Q. (Ideal Diode Model) Calculate (i) mean load current and (ii) power dissipated in each diode. * Idc= 0.5A, Pd= 0.132 W Idc= 2.45A, Pd= 2.123 W Idc= 0.55A, Pd= 1.123 W Idc= 0.45A, Pd= 0.123 W None of the above
Figure shows an AC source G having an effective voltage of 240 V, 60 Hz is connected to a single-phase full-wave rectifier. The resistance for R is 53 Ω and ripple-to-ripple current is 15%.Determine the DC voltage and DC current across the resistor. Hence, determine the power absorbed by the load. Assuming all diodes are ideal.