Determine V₁ and V₂ in the circuit 1 2 3 ΚΩ ΓΚΩ www 10 mA Μ 55 ΚΩ 20 ΚΩ
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Q: 9. Find Rin(emitter), Ay, A₁, and Ap for the unloaded amplifier in Figure 6-57.
A: The required parameters can be calculated by using the DC and AC analysis of the amplifier circuit.
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Q: I= 2 12 १ 2 ( 6-I - 3 - 1) 2 १ ( 2 -1) 2 = २(५+३९ पर) 9 I+8= o
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Q: E2.7 Find I, and I, in Fig. E2.7.
A: The required parameters can be calculated by using the kirchhoff's current law at the nodes.
Q: Question- An amplifier without feedback has a gain of 150, input resistance of 2kQ and output…
A: It is given that: A=150Ri=2 kΩRo=5 kΩβ=0.2
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Q: Consider the circuit shown in (Figure 1). Suppose that v₁ = 10 V and v₂ = 4 V. Figure Part A 0 μА 5…
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- An R-L series circuit contains two resistors and two inductors. The resistors dissipate powers of 96 watts and 125 watts. The inductors have reactive powers of 100 VARs and 78 VARs. What is the power factor?explain how the circuit works 16V RA 10K 15V = v2 INDICADOR LOOICO Vin R1 10K RB LM741 100 led 15V V3 O So IS O O S2 CONVERTIDOR DIGITAL A ANALOGO S3 9999For the circuit shown, what is the Norton equivalent current, IN? j3 N 12 0 2452.6° A -j5 N (+2) 14430° V O 3.08452.6° A O 3.29/39.5° A O 2.0252.6° A O 1.15/39.5° A
- +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:Consider the following circuit. The frequency of oscillation is: R₁ ww R₁ www 6.8kΩ 2.95 kHz 1.36 kHz 434.32 Hz 1.06 kHz HH 0.022 μF 0.022 μF 0.022uF 6.8 ΚΩ WHI 6.8 ΚΩPROBLEM NUMBER 3 For the figure below, determine VE and IE. 98V R1 Σ250kΩ IE R2 >250kΩ VEE -8V B=150 - VE
- For the circuit shown, what is the primary current, I1? 3-j50 20430° V 12+ j2 0 150 300 O 2.67Z66.9° A 2.25/30.0° A O 0.39/26.6° A O 1.31/41.3° A eleConvert the given Delta circuit to Y and find R2 * RC RB 150 90 RA 120 O 37.5 ohms O 50 ohms O 30 ohms O 80 ohmsConsider 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 με
- What is the power factor (P.F) in this circuit? 80MH 60H2 20F 28.8% O 72% 75.5% 43.2% 25% 57.6% O 14.4%If R2 in Figure is adjusted to 1.68 kQ, determine the regulated d.c.output voltage for the LM 317. * LM317 Power Supply Vout Vin Load ADJ R 240 Ω C E 1 µF 0.1 μF 5 kΩ R2 5V O 6V 7V None of the aboveWhat is the approximate value of the total resistance. R2 RS R11 4 kOhm 4 kOhm 5 kOhm R128 kOhm R310 kOhm R42 kOhm R62 kOhm R12712 kOhm