hysics 113 Worksheet 2 Spring 2019 Problem 2 470 nF 33 nF 2.2 uF 4.7 uF 3.3 uF 2 Figure 1: Capacitor Network Define AV VB VA 10 V and calculate the following: (3 Points) Calculate the Equivalent Capacitance, Cq, of the circuit shown in Figure 1. . (3 Points) Calculate the Charge on the Equivalent Capacitance, (3 Points) Calculate the Voltage at PointJ in Figure 1 with respect to Terminal B Problem3 Assume
f.V.c? From the shown circuit, determine, Vcc=+12 V Rc 2.2 k Ro 240 k Ic C2 H 10uF ac output 18 ac input C1 B 10 uF Va B - 50 Determine, a. Ise ? b. Io.? c. Vao? d. Vo ? e. V c? f. Vac? VBC = -6.83 V VBC = -7.13 V VBC = -6.13 V VBC - 6.13 V
Objective After performing this experiment, you will be able to 1. Measure Vout, Av 2. Verify the operation of CE Amplifier PART 1 (MULTISIM SIMULATION) 1. Wire up the following circuit on Multisim and fill the following table: Consider: Vin 20mVp-p F 1KHz VCc +10 V BDC= 150 Ba= 175 RC 4.7 k C3 V out 47 k2 C 10 μF 10 μF 47 k R 560 ! Re 470 10 k 100 μΕ 470 Av Vout/Vin Vout As is...
Physics 113 Worksheet 2 Spring 2019 Problem2 470 nF 33nFJ 2.2 uF 4.7 uF 3.3 uF Figure 1: Capacitor Network Define Δ V-Va-H4-10V and calculate the following: (3 Points) Calculate the Equivalent Capacitance, G. of the circuit shown in Figure 1. (3 Points) Calculate the Charge on the Equivalent Capacitance, (3 Points) Calculate the Voltage at PointJ in Figure 1 with respect to Terminal B. Problem 3 Assume B-(x +y)R+(-2x+3y) . (3 Points) Calculate the Scalar Product, A B ....
Physics 113 Worksheet 2 Spring 2019 Problem 2 470 nF 33 nF 2.2 uF 4.7 uF. 3.3 uF Figure 1: Cspacitor Network Define AVV VAV and calculate the following (3 Points) Calculate the Equivalent Capacitance, G,, of the circuit shown in Figure 1. (3 Points) Calculate the Charge on the Equivalent Capacitance, (3 Points) Calculate the Voltage at Point J in Figure 1 with respect to Terminal B Problem 3 Assume A= (3x-2y)2 + (x-y), . (3 Points) Calculate the...
7. Determine the quiescent levels of Ic and Vce for the network of Figure 25. 10 V 4.7 k92 250 k22 16 10 uF B = 90 OH 10 uF 1.2 ΚΩ Figure 25 8. A stage is a transistor and the passive components connected to it. Figure 26 shows a three-stage circuit using two-supply emitter bias. Vec +15 V RCI 10 ΚΩ Ro 10 ΚΩ Rc 10 k 2 Yout R1 RB3 w- RER 33 k22 33 k2 RE1...
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit. Determine the input and output impedance, Z; and Zo, voltage gain, Avi and Av2 and total cascade voltage gain, Ayr and Ays. [25 marks) 2 +8V 1.5 kn 2.2 F 82 k2 3.3 k2 Vo 2.2 uf B = 100 6.8 k12 1 k 2 what B = 100 tuf ZA 5.6 k 2 47012 ZA V. 33 k2 IuF w 10k_2 -2V w...
I need help with numbers 4,6,7,8,9 please?
12 VDC 1.0 k ohms 10k ohms C3 1.0 uF C1 1.0 UF , R Load Baca 1 80 10k ohns 300 mVp-p 1.0 kHz 100 ohms .7k ohms C2 47uF 330 ohms 4. Calculate the following parameters assuming capacitor C2 has been removed from the circuit with the 1.0k2 resistor as the load. RIN BASE Av Vour 5. Construct the circuit shown on the previous page. Before connecting the AC supply, measure...
Please use Multisim with probes placed and labeled.
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VCC 24V RC 6.8kQ 100kΩ C2 0 15UF 01 C1 15uF 2N3904 R2 RE CE Figure 1. Common-emitter transistor amplifier 2. Use Multisim to build circuit and measure the DC bias value for the figure above. 3. Calculate the AC dynamic resistance, re, using the measured value of lE 4. Calculate the amp voltage gain for the bypassed emitter 5. Record measured and calculated results in table...
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And what are the functions of the capacitors Cs and CE? b) What are the functions of the resistors RD and Rc? c) Draw the DC biasing circuits for each stage. d) Find loa, VGsa, VDs and gm for the JFET stage (you may use either mathematical or graphical methods) e) Calculate l, Ic, le and Ve for...