2.47 Determine currents I₁ to 14 in the circuit of Fig. P2.47. 12 Ω 302 602 2 ww 602 12 V +1 Figure P2.47 Circuit for Problems 2.47 and 2.48.
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- The platinum RTD has been connected to the wheatstone bridge circuit represented by R3 with Vin = 5V, R1=R2=R4 = 100 ohms. Find the temperature where the RTD is subjected if voltage reading is 0.25 volts. Vin Select one: R₂ a. 39.23 °C b. 42.47 °C c. 48.73 °C d. 51.67 °C O f. e. 57.34 °C 62.76 °C g. 68.45 °C h. 74.28 °C1) Diode half-wave rectifier a) Consider the half-wave rectified sinewave voltage waveform at the right. What is the DC voltage and RMS voltage in terms of Vpeak? Remember: Vp peak ann T/2 1 Vay = DC = v(0)de avg T Sv(t)dt and V = Hve v² (t)dt TQ2) Find the Performance Parameters of a Full-Wave Rectifier with an RL Load, the single-phase full-wave rectifier of the figure below has L = 6.5 mH, R = 2.52 and E= 10 V. The input voltage is Vs = 120 V at 60 Hz. Assume that the load current is continuous current. Where: V io (t) = -(sin(wt - 0)+ im Z 2 -R 1-ewr -sin 8.e *) E R Determine: (1) The steady-state load current lo at wt = 0, (2) The average diode current Ip(av), (3) The rms diode current Ip(ms), (4) The rms output current lo(ms), and (5) The input power factor PF D₁ D₂ A Pa D₂ A + Vo 1. E
- An RTD forms one arm of a Wheatstone bridge, as shown in the figure below and the RTD is used to measure a constant temperature with the bridge operated in deflection mode. The bridge is balanced when the RTD temperature is at 0°C and the resistance R1 is set to 20 N. The RTD has a resistance of 20 2 at 0°C with an a = 0.0045°C-1. If the RTD is subjected to a temperature of 120°C and the output voltage from the bridge is 1.2 Volts, what is the input voltage? R₂ R₁ E₁ Hilllo R3 RTD RRTDCompute the convolution y[n] = x[n] *h[n] of the following pairs of signals: (d) x[n] and h[n] are as in Figure P2.21. 1012345 x[n] h[n] IIIII….…..IIIII 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Figure P2.21b) Use the ALU 74181 in the figure below and the tables (one is enough; second maybe, need to check the new kit) to implement : A + B, A – B, A. B. (MSB) (LSB) 10 (MSB) F3 F2 F1 FO S3 Cn+4 16 s2 20 U14 15 S1 14 so A3 A2 A1 AO B3 B2 B1 B0 M Cn 24 23 22 21 28 27 T26 25 (LSB) (MSB) (LSB)(MSB) (LSB) And given that under M = 1 the circuit performs the following arithmetic and logic functions according to Table 11.1. Input selection S3 Output M-H S2 SI Cn=L. F3 F2 F1 FO A 1 -A В -B A&B AxB 1 A'B 1 Ax(-B) (-A)xB (-A)x(-B) 1 1 ACTIVE HIGH DATA M-L: ARITHMETIC OPERATIONS SELECTION M-H LOGIC s3 s2 s1 so Ino carry) (with carry) F-A PLUS 1 F- LA + B) PLUS 1 F- (A + BI PLUS 1 FUNCTIONS L L F-A F-A+B F-AB F-A H FA+B F-A+T F- MINUS 1 12s COMPL) F-A PLUS AB F- IA + BI PLUS AB L L L L F-0 F-ZERO F- AB F-A PLUS AB PLUS 1 F- (A + BI PLUS AB PLUS 1 L L L H L F-AOB F- AB L L F-A MINUS B MINUS 1 F-A MINUS B F- AB MINUS 1 F- A F-A PLUS AB PLUS1 F-A PLUS B PLUS 1 F- IA + B PLUS AB PLUS 1 L H L F-A PLUS AB…
- Don't reject. Previous question was rejected because of not proper information but there was information given to solveMy circuit is a Wall-Wall rectifier circuit. The transformer is taking in 120Vac from the wall and stepping it down to 22Vac. A set of 4 diodew and a capacitor then supply 22 VDC with a ripple voltage of 50mV and a ripple frequency of 120Hz. Which diode should be purchased and why?A bridge full - wave rectifier with a capacitor - input filter provides a dc output voltage of 14.5 V to a 330 ohm load. Determine the value of filter capacitor if it connected to input voltage of 12 V rms, 50 Hz. Question 7Answer a. 220 ɲf b. 208 ɲfc. 440 fd. 104 nf
- For the circuit shown below D1 and D2 are Ideal Diodes, R1 = R2 = R3 = 2 K2. The output of the rectifier is shown below: a) Determine the VDC for the Vo = 10V without a capacitor. b) Sketch Vs (in the secondary). c) Calculate the Value of the Capacitor required to produce Vr = 0.04V. d) Determine the Turn Ration of the transformer, for the input votage Vp = 120V. M. 10V e) What is the PIV? D1 T=20 ms R1 loル R3 R2 RB. 2 (b) Nps - 2 No s6.365く す R, R8 Ns:- Re Ns = No 5lov lov R2 5o Hz 20m Noub R25 2 wwQ3. Draw the output voltage waveform for each circuit including the voltage values. (Ideal model) 2.2 k2 +30 V V. OV -30 V +5 V +50 V 47 3.3 kn -5 V -50 V D 2:1 +100 V -- IN4001 R. V ov 10 k2 -100 V IN4001 Q4. For the following bridge rectifier circuit, draw the output voltage waveform across the load (RL) showing the maximum value. Calculate the following: The average value of the output voltage across the load (RL). a. b. The rms value of the output voltage across the load (RL). c. The average load current. d. The rms value of the load current. (Use constant voltage drop model for the Silicon diode) 5:1 D, o Vrms DA 10 KNQ1 a. Consider you have to choose b/w the Full-Wave Bridge Rectifier (FWBR) & Center-Tapped Full Wave Rectifier (CT-FWR) in one of your semester Lab projects. (1) Discuss the advantages of FWBR over CT-FWR which will justify, why to select the FWBR.