HighK_InvOA Rb Rc M Do: Find P, V., i,, P., and the voltage gain of the...
PART A) Parameters Vi = 40 mV Ra = 15 kOhms Rb = 47 kOhms Rc = 68 kOhms Rd = 3.3 kOhms RL = 27 kOhms ----------------------------------------------------------------------------------------------------------------------------------------- PART B) Parameters Ix = 20 uA Vy = 7 V Ra = 39 kOhms Rb = 220 kOhms Rf = 68 kOhms RL = 33 kOhms Rc Ro WW kwt Rd Ra ww +1 OV. Vi + w4 RL Do: Find P, V, i,, P., and the voltage gain of the...
Pi = 4 mW Pd = 2.5 mW R1 = 8.2 kOhms R2 = 4.7 kOhms R3 = 5.6 kOhms I1 = 650 uA Rix R3 Y T)I. The power supplied by the independent current source is P , and the power supplied by the dependent source (current controlled voltage source or CCVS) is P, . You are also given R ,R,,R,, and I, . Solve for the power absorbed by the element Y, P,. given. This is not a...
P1 (25 pts): Find the current supplied by the 48 V source, as well as the current through each of the resistors and the voltage drop across each resistor. R, 20入そk2 P2 (25 pts): The voltage across RB is found to be 15 V. What current must be supplied by the source? What must be the voltage drop across RA and Rc? What must be the voltage supplied by the source (that is, what is Vi)? RA 5032
(10 points) For the DC cicuit show below, find the voltage and current across each resistor. The voltage source is 40V Find the power dissipations in R1 and R Click on the circuit to view a larger image 53877d4e-fdab-38aa-8764-b436caa24771 571....- e https://webwork2.uncc.edu/webwork2 fil Minimize iR1201-C RA # 10 Ω, Rn-400 Ω, Rc : 500 Ω, and RD-85 Ω Current through RA Voltage drop across RA Power dissipation in RA RD Current through Rp Voltage drop across RB Current through R...
For the DC cicuit show below, find the voltage and current across each resistor. The voltage source is 40V. Find the power dissipations in R1 and R3. Click on the circuit to view a larger image 20 , RB 500 2, Rc RA 400 , and Rp 75 - - Current through RA A Voltage drop across RA V Power dissipation in RA W Current through Rg A Voltage drop across R V Current through Rc = A Voltage drop...
3.1. For the BJT differential pair configuration shown below, assume the input transistor beta is very large. Then find the differential signal vd = vB1 − vB2 sufficient to cause: 3.2. A differential amplifier resembling that below uses I = 200μA, RC = 10kohm and VCC = 3V. Assume beta is very large 3.4.For the emitter follower in the figure below, given VCC = 15 V, VEE = −15 V, RL = 1 kohm and beta = 100 for all...
can you do 4.83 Ar- Q Sea 100 V, what does the gain become? age at the collector. (b) Replacing the transistor by its T model, da the small-signal equivalent circuit of the a plifier. Analyze the resulting circuit to dete mine the voltage gain t/ 04.81 Consider the CE amplifier circuit of Fig. 4.43(a). It is required to design the circuit (i.e., find values for I and Rc) to meet the following specifications: (a) R,5kn (b) the voltage gain...
BJT and Amplifier Circuits +15 V 27 k R2 680 Ω Compute: 53 1. Show the extra units and connections RE 680 2 R2 12 kC2 2. The input and the output impedance 3. The Voltage gain Av 4. If the input ac voltage with Vp-1 mV, draw the output voltage. What is the maximum vin value. 5. 6. The current gain Ai and Ap. 7. Compute the produced power and the consumed power in transistor and RL. BJT and...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t) 0 for t<0. After t=0, the voltage alternates between 15 V and 0 V. Assume that R-40 , C 150 HF. We will call the voltage across the capacitor and the resistor Ve(t) and Vr(t) respectively (c) The capacitor above is now replaced by an inductor whose inductance is 0.24 H. We call the voltage across the inductor VL(t) Calculate...
ans, RA = 721.5 kohms, RB = 360.8 kohms, R3 = 3.5kohms as an example solution. Question 7 (6 marks) You have been given a 555 Timer, an LED with Von 2V, a 9V battery that can comfortably supply 5mA of current without loss of voltage, a 1 μF capacitor and access to any resistor values you want. You are to design a circuit that causes the LED to flash periodically once per second with a duty cycle of 75%....