Figure 1.1 shows a full-scale temperature sensor circuit using the LM35. When Vout is equal to 1500 mV and -550 mV, it indicates 150 °C and -55 °C temperatures respectively. + Vs LM35 - VOUT R1 - Vs Figure 1.1: Full-scale Centigrade (°C) Temperature Sensor If you provide a 2.4 V supply voltage to the above circuit, will it generate the expected result? Explain your answer.
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- NOTE: Solve this as soon as possible, I need this urgently. Roll no =24 Determine the ripple factor for the filtered bridge rectifier with a load as indicated in Figure 1. Summarize results: a) What are Average value of the Rectified waveform and Average Value of the Rippled Output waveform of Figure 1? b) Find out the Ripple Factor of the following Circuit Figure 1? 8:1 D3 (50+Roll no)Vrms Output V posec) 60 Hz RL 2602 D. 920 µF ° All diodes Silicon. Figure 1 alllRepeat example 35 for FWD and firing angle Fa) 60°. 215 l65 D1985 Example 35: A full wave rectifier used 220V, with firing angle 10° ,total resistance load 5 KQ, inductance 2.34 H,and frequency 60HZ, Draw and calculate: (a) VD.c and Ipc (b) VD.C(Max) (c) Vn (d) Vorms-In the circuit in the figure, an AC voltmeter will be made with full wave rectifier circuit structure. R = 50ohm and diodesResistance values in the direction of transmission are Rd = 100ohm. Inside of the DC ammeter to be used as indicatorthe resistance is very, very small. The AC mark to be measured is Vs = 100 Sinwt Volts.a- Draw the shape of the current passing through the DC Ammeter and calculate its maximum value.b- Find the average value of the current passing through the DC Ammeter.c- Analyze the voltage seen at the ends of diode D1 for both alternans.d- Find the Rms value of the voltage seen at the ends of the diode D1.
- Design a full wave rectifier based on the circuit shown in Figure 5 below: N: N2 D3 RL ww US D, Figure 5 The required specification for the full wave rectifier circuit includes the peak output voltage of 5 V, deliver 100 mA to the load R1, and produce an output with a ripple of not more than 5 percent. An input line voltage of 220 V (ms), 50 Hz is available. Given V, =0.7 V. (d) Calculate v, (max). (e) Find the required turn ratio for the transformer. (1) Determine the Peak Inverse Voltage (PIV). (g) What is the effective load resistance? (h) Determine the required capacitance of the filter capacitor.Single phase half sinusoidal wave controlled rectifier with (? = 30?) pure resistive load (Vs =220 v. f=60 Hz, R=10Ω) Determine the average output voltage Vo Determine the r.m.s value of the output voltageDesign a full wave rectifier based on the circuit shown in Figure 5 below: N1: N2 D3 D1 RL vs D2 DA Figure 5 The required specification for the full wave rectifier circuit includes the peak output voltage of 5 V, deliver 100 mA to the load R1, and produce an output with a ripple of not more than 5 percent. An input line voltage of 220 V (rms), 50 Hz is available. Given Vy = 0.7 V. (d) Calculate v, (max). (e) Find the required turn ratio for the transformer. (f) Determine the Peak Inverse Voltage (PIV). What is the effective load resistance? (h) Determine the required capacitance of the filter capacitor.
- C4 R1 Vout For the precision rectifier circuit shown in Figure C4 what is the correct operation for the circuit if a Sine wave is 10k D1 R2 LM324 VEE applied to the input signal VIN? Vin D2 10k OUT V3 U1A Figure C4 A. When VIn is negative the circuit operates as unity voltage follower providing an in phase sine wave at VouT. When VIN is positive the circuit conducts but only to one diode drop, B. When VIn is negative the circuit operates as an inverting amplifier providing an inverted sine wave at VouT. When VIN is positive the circuit is driven to very close to zero due to amplifier gain reducing the diode drop voltage, c. When VIn is negative the circuit operates as an inverting amplifier providing an in-phase sine wave at VOUT. When VIn is positive the circuit is driven to very close to zero due to amplifier gain reducing the diode drop voltage, D. When VIn is negative the circuit operates as unity voltage follower providing an inverted sine wave at Vour. When VIn is positive the…4aa) This question is about half wave rectifier Half wave rectifier with a reservoir capacitor -> connected -> AC mains supply (220Vrms, 50Hz) by 20:1 transformer. What is the value of capacitor for the ripple voltage of 12% of the peak input voltage? The load's maximum current is 170mA. Show the full working!The full-wave rectifier circuit as shown in a (a) was designed to have a maximum ripple of approximately 1 V, but it is not operating properly. The measured waveforms at the three nodes in the circuit are shown in (b). What is wrong with the circuit?
- Find Vpc if VAN = VBn = Vcn= 120 volts... Half-wave Three-phase Rectifier Conduction Waveform Periodic Time (T) A B A 90° 180° 360 450° 540 time 270° -V VAN VeN VaN VaN VEN Voc4 Voc 150 120° 270 390 510° time 30 Output Voltage WaveformFor the circuit in the figurea) Determine the time constant.b) Write the mathematical expression for IL, VL and VR, after the switch is closed.c) Determine IL, VL for one, three and five time constants.d) Draw the waveforms of IL, VL and VR.Q1: Write the name of this Circuit L(consta ww R, R Flux from servoamplifier LOAD