Question 1 (4 points) Voc 3 Rc RB13 The voltage-divider bias circuit shown has Rc =...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2, and RE-600Ω. 3. Find ic, VCE and mode of operation, if RBI-30.2 and RB2-10 ΚΩ, for β-150 4. Determine RB2, for Q to be on center of LL. Verify, Ic, VcE and mode of operation 5. Find mode of operation, Ic, and VcE, if: a. RBi is Short b. RBi is Open c. RB2 is Short. d. RB2 is Short Mode of operation 4...
Vsig = 10mV*sin(2Kπ) The circuit above is a common-emitter amplifier. Given the parameters in the circuit, 1. If Rb1=10KΩ, Calculate Rb2, Ib, Ic, Ie, Re, transconductance (gm), Current through Rb1 (I_rb1), and Current through Rb2(I_rb2), Vb, Vc, Ve, Vce. Also, calculate Rc to achieve a voltage gain Av = - 100 V/ (If Rb1 value does not match up, then choose your resistor value for Rb1.) 2. If the amplitude of Vsig keeps increasing, at what amplitude of the input...
design a Voltage Divider Circuit that has the following – VCC= 12 V IC=2.5 mA VCE = 6 V For the design, you will use a 2n3904 npn transistor. Assume a β of 150. Determine values for RC, RE, R1, and R2
please choose one of the answer choices above. Must show all work, thank you Question 7 CIRCUIT D1 (2.5 Marks) Statement: Sketching relevant output (Vc-Ic) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig. 7 (denoting the type Circuit C2). Assume the following: Vcc= 18 volt; VBE = 0.7; Rc = 1.5 k; RB2 = 33 k; Vc = 9.5 volt; Irc = 9.5 and, B = 100...
Experiment 2: Good biasing Set up the circuit with R2 12 k2, R RE 1 k, and Vcc 15 V 39 k2, Rc = 2 k?. Circuit Analysis: Compute Ic, I, and VCE PSpice Simulation: a) Simulate the circuit with PSpice (bias point details only) and compare values of Ic, IB, VCE, and VBE from PSpice simulations with your analytical calculations. b) Rerun your PSpice simulations for temperatures of 0 and 60°C. Make a table of Ic IB, VCE, and...
6.5 BI C2 Cl sig in 0 Design the bias circuit of the CE amplifier shown to obtain IE= 0.5 mA and Vc= +6 V. Design for a dc voltage at the base of 5 V and a current through RB2 of 50 μΑ. Let Vcc-+15 V, β-100, and VBE 0.7 V. a) Specify the values of RBi, RB2, RE, and Rc b) Also give the values of the BJT small-signal parameters gm, rr , and ro at the bias...
3. In the Voltage-Divider Bias shown, Ri-8 kS2, R2-2 k. Re-3 ka, Rei-200 ?, RE2-800Q, Voc. 13.5 V, and ?+" ?-200. Please show your work in detail on this sheet and include your final answers for parts "a" and "b" in the boxes shown below b. Perform a de analysis to find the value of Ic, c. Determine VCE RE C2 b) CE lc-
QUESTION 4 For the Circuit shown below. Find the Collector Current Vcc = 12 V Rp = 500 ko Rc = 4 k22 + ß= ? VCE = 3 V VBE 2.25 A 2.25mA 3.0 A 3.0mA
Student Number +Voc Question 1 (220 points) Consider the circuit shown on the right. Vcc VEe Rc Rc 15V. IEE 0.1 mA. REE 350 k2. Rc 70 k. The two BJTS are identical with B-100. The two MOSFETS are identical with K = 250 HA/V2 and |V= 2V M3 M4 , and , are pure ac sources. Determine the ratio (this is called the differential gain) U2 a-a REE IEE T -VEE
The 1 mA. V, ls -VE -15 15 V, in the following differential amplifier circuit, Vcc parameters are given as β, 100, VBE# 0.7 V, pr-25 mV, K.-100 V. transistor Rc-10 kΩ For: RE-150 Ω Rc Rc REE-200 kΩ a) What is the input differential resistance, Rid b) What is the overall voltage gain vV? You c) What is input common mode resistance, d) What is the worst case common mode gain that appear across the two input terminals? (4...