LM317 Power Vin Vout Load Supply ADJ R, 240 2 0.1 µF =C C1 µF 5 k2 R2
Q: R1= 50 R3= 7N 20V R= 40 R2= 30 R5= 9N R= 20
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Q: 1. Series RL Given: E -12V Complete the table below t 0 Ιτ 2t = 3t = 4t= 5t= = I R 50 L 1mH ER EL…
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Q: Question-1 For the circuit in the figure below, calculate: a- Rc le = 1.6 mA b- RE RC Ve = 4 V B-…
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- Q1 Explain the following terms: (a) Sensor (1.5 marks) (b) Transducer (1.5 marks) (c) Instrument Q2 Q3 (2 marks) Based on Figure Q2, if the RTD sensor measurement is 57°C answer the following. (a) Calculate the output current from RTD sensor if the output range is 4 20mA. (2 marks) (b) Calculate the output voltage from the temperature controller if the output range is 0-10VDC. (2 marks) (c) Propose a type of sensor if the process temperature is increased to 1000°C. (1 marks) A capacitive displacement transducer is designed to determine the rotary position. from 0° 180° as shown in Figure Q3. The moving plate whose radius is 40mm is sandwiched between two fixed plates, spacing at Imm. The dielectric constant of air is k 1.The capacitive transducer is formulated as: where; (a) kA€。 farads k = dielectric constant A the area of the plate, in square meters €₁ = 8.854 × 10-12 in farads per meter d = the plate spacing in meters Construct an equation of the change of the capacitance (F) when…152130 222 Ⓒ520° Fj² 7 Find voltage drop Mutual inductance Majt = + {1.2 V. on 12 resistance Nex (the same for allSMTH 00 References Mailings Review View Help AaBbCcD AaBbCcDe AaE D- A - I Normal T No Spac. Head Paragraph 2. Find the equivalent inductance of the circuit if L= 20H 25 H 20 H 20 H 60 H 10 H 30H acer
- Two 10 uF capacitors have been connected in parallel across a 230 V 50 Hz AC supply. The current drawn from the supply will be approximately: Select one: a. 1.44 A b. 0.36 A c. 11.5 A O d. 23.0 A2. Convert the following values from microfarads to picofarads: a. 0.1 μF b. 0.0025 μFPower factor 90 to 100% 88 to <90% 85 to <88% 80 to <85% 75 to < 80% 70 to < 75% 65 to < 70% 60 to <65% 55 to <60% 50 to <55% Less than 50% Surcharge None 2% 4% 9% 16% 24% 34% 44% 57% 72% 80% Use the table given for the following. A house with inductive loads has an avg consumption of 40kW and 26kVAR is supplied 230 Vrms source. We want to make the surcharge 0% by adding a capacitor. a. What is the smallest kVar of the capacitor that would reduce the surcharge to 0%?
- Consider the circuit shown below. b) a) What is the current through 220 22 when the 2N4441 is conducting? What is the capacitor voltage that will turn on the 2N4441? What is the minimum voltage that can turn-off the 2N4441? c) 0.2 μF 2.2 1 kQ 1N752 VB = 10 V 9+25 V 220 2N4441 V₁ = 1 V IT = 7 mA IH= 5 mACalculate the voltage at 1.5¹ (milliseconds) for the following RC Circuit. Assume switch is closed and capacitor is in a charge state. t=0 LE -10 V oto R1 1kQ C1 1uF5. Suppose the following circuit is left open for a long time. 5000 22 24 V (a) What is the facial curren What is the carte II What is the ches What is the not the pos 80mF when we close thei 90s after we close the switch? dissipe the resistor 90s arter ene capacitor ons after we close the suit Close the switchi difference across the spacitor 008 after we close the switch across the resisto we close the swit 12 the potential (g) What is the energy stored in the capacitor 90s after we close the switch? (h) What is the energy dissipated by the resistor during the first 90s since the switch is closed?
- Te netuork show in ope eating in the tondy Thandy state wilh sinussidal vol voltage douce and V, 2 Sin2t delernine the volla fe Va(t) 2178 F Va 2178F 2173F IHQI: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc. Ic=1.5mA at 25°c. 25°C 65°C 55 70 Ico InA 16nA VBE 0.6 0.5 Vc +20v 3.9k 12kOs 1.2kQ1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc. Ic=1.5mA at 25°C, Rf =250KQ, Rc=lk and Re=0.5k. 25°C 65°C Voc B 55 70 Rf Rc Ico InA 16nA VBE 0.6 0.5 Re