If Ib is zero, Ic is __________ and Vce is __________.
A.) zero; minimum
B.)zero; zero
C.)maximum; maximum
D.)zero; maximum
E.)increases; remains constant
If Ib is zero, Ic is __________ and Vce is __________. A.) zero; minimum B.)zero; zero...
3. For the circuit shown a. Determine the levels of IB, Ic and Vce for the circuit shown. b. Change B to 150 (36.4% increase), and calculate the new levels of IB, Ic and VCE. c. Determine the magnitude of the percentage change in Ic and VCE +24 V 470 k 2 B = 110
Solve for RIN(BASE), RTH, VTH, IB, IC, IE, VCE and re' (use the formula re' = 26mV/IE Voc +12 V } R 22 k22 Rc 1.0 kΩ Poc = 150 R2 6.8k2 W RE 5602 RIN(BASE) - VTH = RTH IB = IC = IE = VCE re'
2-(50) Find Ib, Ic , Vce and the region of operation 200.12 IM 2 3V 6 200
Feedback Biasing Re=1.8 kSL L1 Ic IB Determine a) Mode of operaton VIN VcE 00 mVpp + BE Vee CVCE d) Ve
Vcc 10 V #2. Calculate the values of VBE, VCE, IB, Ic, and IE assuming B = 150 for the Transistor Biasing Circuit in Figure 5 - 5. Simulate the circuit in Figure 5 - 5. Include the procedure and results of calculation / simulation in related section. 370k SR2 2370K BROD 2N3904 ŽR3 330 Figure 5 -5: Transistor Biasing
Given RB = 240 k., Rc = 1.2 k., and = 120. Determine: a) IB b) Ic c) le d) VBE e) VCE f) Mode of operation (cutoff, active, saturation) Given RB = 47 kO2, Rc = 1.2 k2 and B = 120. Determine: g) Mode of operation (cutoff, active, saturation) O 8V For the circuit shown in Question #2, Vcc = 16 V, RB = 620 kl, Rc = 2 kN and B = 120. a) Determine le b)...
a) Find the operating point (Ic and Vce) of the circuit shown in below. b) The BJT is biased at Ic = 1.5mA.Find the value of the VEE when all other parameters remain same I Vcc=5V + R 5k RA C- 260k PE=200 UT V26mV VB=0.7V -Ve=-2V
2. (20 points) In the circuit shown below the silicon transistor has B=70. (a) Determine Ib, Ic and Vce (the operating point). YOUR ANSWERS: 18 = Ic = VCE = 5.6ko 100k2 3 5.6k2 - 12 V Circuit for problem 2.
a draw positive and negative and zero B find fault current Ia Ib Ic Question: 03 (13 Points) The reactance data for the power system shown in figure below in per common base is as follows. A single line to ground fault occurs at bus 1 through a fault impedance of 0.1j. unit on a 0 0.05 0.05 0.25 T0.25 0.25 0.25 0.10 0.10 0.25 0.10 0.10 Line 1-20.30 0.30 0.50 T1 Line
Calculate IB , lc, le , VCB, Vce and a for the transistor in Figure 2. Assume V CE(sat) = 0.2 V. B = 100 : 10 10K VRF -RE1 Figure 2