The Norton resistance for the circuit is Α) 500 Ω Β) 10 kΩ C) 15 kΩ D) 20 kΩ ΤΟΥ R ww 1912 R₂ R
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- Consider the circuit below. The frequency of oscillation is: www OF R₂ 1,0 ΚΩ C₁ 0.015 μF R₁ 1.0 ΚΩ 11 L Q₁ 2N5458 C₂ 0.015 μF 10.6 kHz 1.94 kHz 19.4 kHz 15.9 kHz www R₁ 10 ΚΩ R3 820 02 ww R₁ 10 ΚΩ ovour D₁ IN914 C3 1.0 μεWhat is the total equivalent (total) inductance Lr of this circuit? 000 30mH L2 R 000 60mH 1 kQ 10 V L3 100mH 000 500mH 43 mH 720 mH O 173 mH o 日 点四RUA 36% DE 40°F PriSc Impr. Écr. F12 F10 F11 F7 F8 F9 F4 F5 F6 * & 3 0 1/4 1/2 4. 5 6. 7 8 2 R Y K LPlot the dc bias line for this circuit. www11 R₁ 1.5 ΜΩ R₂ 1.5 ΜΩ VGS (V) +30 V RD 1.1 ΚΩ 2N5459 www11 Rs 10 ΚΩ Minimum and maximum curves are from the datasheets. ID (mA) 16 -12 -10 Qmax 14 1 L L 1 -8 -6 -4 -2 12 10 8 6 4 Qmin Hó VG Rs 1 2 = 1.5 mA 4 1 6 8 10 12 14 16 18 VG
- A 1 Megaohm resistor is connected in series with 1 microfarad capacitor. If the circuit is suddenly impressed by 1kV DC source, what is the transient current when the switch is closed after 1,000 milliseconds? O 0.9990 mA O 0.6065 mA O 0.368 mA O 0.7788 mAWhat charging RC circuit has a time constant of A. 1 B. 2 C. 3 D. 4 E. 5 O C ΟΕ OA 1. OB OD HI HHH 2. TT 12R 5. =RC t 3. 12G 1203 R}5. 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?
- Given the circuit below, please find the current 12 O 1.33A 13.33A 6.66A 0.66A 20 A R₁ < 50 ΩΣ R₂ 100 ΩΣQ1 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…+5V VDO EN Xtal 8ה 7 +5V Freq1 HGND | GND х Mhz Sensor0 crystal Freq26 5 Vss Out 04 PRE Xtal 1k Output HA7210IP 4 CLK CLR SN74HC7491 GND 0.01 μ GND +5V 4 +5V +5V +5V OE O/P3 0. 1µF | 47µF GND SG351P |2 x MHz GND GND Consider the Quartz Crystal Microbalance Sensor shown above, with crystal resonant frequency, x = 3.3 Mhz. You are given the following values: Active crystal area = 1.6 cm², and the change in frequency = - 10 Hz Calculate the change in mass, Am in nano gram, up to 2 decimal places. Answer: