The bias voltages in the circuit shown in Figure 10.2(b) are
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Microelectronics: Circuit Analysis and Design
- Kindly Show complete solutution and put diagrams if needed In which region is the transistor being operated for each of the following sets ofDC transistor terminal voltages (with respect to ground)?a) Collector: -7.32 V Base: -2.75 V Emitter: -2.07 Vb) Collector: 10.55 V Base: 9.89 V Emitter: 9.65 Varrow_forwardDetermine V and the made of operation of the PNP transistor showrn in the figure below. Assume l - 10x10 14 A. B- 50, VA -", and R-0.1 KO. Vcc 2V 12V Select one: O a. 0.577 V, Active Mode O b. None of these Oc 2306 V, Saturation Mode O d. 0.23 V, Active Mode O e. 1.153 V. Active Mode < O Oarrow_forwardK = 2 mA/V, V, = -3 V ve Vpp = 50 V Rp=8 k2 a) Calculate the ID current and VDS voltage. 100 2 b) Draw the small signal equivalent circuit of the circuit. 4kS 50 ka 250 2 c) Calculate the input impedance of Rin. d) Calculate the gain of the circuit.arrow_forward
- Knowing the equation of collector current IC for the transistor amplifier circuit, please calculate the current and voltage stabilization factors. Rc=2000ohm Re=500ohm Rb=500ohm Rb=1000ohm Beta0=200arrow_forwardConsider the emitter follower in Figure 1 with VCC = 10V, I = 100 mA, and RL = 100Ω. (a) Find the power dissipated in Q1 and Q2 under quiescent conditions. (vO = 0V) (b) For a sinusoidal output voltage of maximum possible amplitude (neglecting VCEsat ), find the average power dissipation in Q1 and Q2. Also find the load power.arrow_forwardDesign a common-emitter amplifier to provide a small-signal voltage gain of approximately -10. 1. Consider the circuit shown in Figure 1. Show the following calculations in your notebook: Calculate a value for Rc so that A, z –10 Calculate values for R1 and R2 so that the circuit is bias stable and near the center of the load line. (Note: Use the datasheet for the 2N5209 transistor to make your calculations more accurate). Vcc = 10 V R1 Rc Cc2 Cci RL Vs R, REj = 499 Q Figure 1: Common-emitter amplifier for part #1arrow_forward
- Time left 1:46:17 A bipolar junction transistor is described in the figure below. The transistor is implemented in the circuit with Vcc, Rc, and RB equal to 16 volts, 2k, and 10kn. Determine the value of Vout if Vin = 1.1V. V... in RB B Vec Ro V E outarrow_forwardConsider the circuit shown in figure, where VBE=700 mV, B = 100, and VA = co. Calculate the VCE of Q1. Assume that the emitter current is equal to collector current. Circuit parameters / - Rg = 140 kn, Rc = 0,7 kn, RE = 0,3 kn, Vcc = 12 V Vcc RB RC REarrow_forward3. In the figure shown below, Vmax is measured as 5.9 V and V min measured as 1.2V. 18] In the figure shown below, is measured as 5.9 V an (a) Determine the value of V.. (b) Determine the value of Vm. (c) Determine the modulation index. (d) Suppose we can change the value of V. What is the maximum value that we could use for Vm without causing overmodulation?arrow_forward
- In reference to the given figure, VCB = 10.3V and VBE = 0.7V. NOTES: VCB = VC-VB VBE = VB-VE In reference to Figure 2, given the dc load line and the transistor circuit, what will be the value of RC, in kilo-ohms? In reference to Figure 2, given the dc load line and the transistor circuit, what will be the voltage of RB, in volts? In reference to Figure 2, given the dc load line and the transistor circuit, what will be the value of RB in kilo-ohms, if Beta=100?arrow_forward6) the "simplest" model of transistor behavior in this problem, i.e., B = o and IB = 0, with forward bias voltage of AVBE = 0.6V. Consider the following circuit with a transistor and two resistors. You may use 5V a) Determine the output when Vin = 0.5V. 9kN Vout Vin 3002 3kN b) Determine the output when Vin = 1.2 V. c) Determine the output when Vin = 3.6 V.arrow_forward5V B OV OV For all the MOSFETS assume Vth=1V and k =50 mA/V² R₁ = 4700 Ao M₁ M₂ B Indicate and verify the state of each MOSFET and Vo for the following input combinations. Fill out the table for each assumed state of the MOSFET for every input combination. Use Rds(on) approximation for linear operation and three significant figures for the voltages. M1 is assumed to be in saturation. If Vgs = 2 V, Vds = 4V, Vds > Vgs - Vth 4>2-1 4> 1 (ok) Vgs > Vth (2>1) A M2 state M3 state V. 0 OV 5 V R₂ = 560Ω 5V M1 state M3arrow_forward
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