Hi! These questions came up in a past paper when i was studying and I'm not sure how to do them. All help would be appreciated! Thanks
Hi! These questions came up in a past paper when i was studying and I'm not...
Answer is: (b) 6.2 12V Vcc 11k a(t) + UB 1k 10HF UE k NL 2N k Figure 5: Circuit for Questions 12-15 Question 14. (2 marks) Consider the circuit in Figure 5. Suppose v.(t) = cos(104t) volt. In addition, the voltage vN accross the nonlinear element NL is given by UN where UN is expressed in volt and in is expressed in mili-amp. Find the smallest value of Vcc (in volt) to ensure that the transistor always operates in...
Answer is: (a) 1 − 0.091 cos(104 t + 0.011) 12V Vcc 11k a(t) + UB 1k 10HF UE k NL 2N k Figure 5: Circuit for Questions 12-15 Question 13. (2 marks) Consider the circuit in Figure 5. Suppose v.(t) = cos(10't) volt. Find the current i in milli-amps. a) 1 0.091 cos(104t+ 0.011) b) 1 0.091 cos(104t - 0.011) c) 10.091 cos(104t - 0.011) d) -0.091 cos(10 t - 0.011) e) 0.091 cos(104t +0.011) WW 12V Vcc 11k...
Hi everyone, I have a question about active filter, including a simulation, Please provide the screen capture. Thanks. 5. Active Filter - III Consider the RC op-amp circuit shown in Fig. 5.4. Vin(t) is a sinusoidal signal with Vpp = 1 V, Rı = 10 ㏀ , R, = 20 ㏀ , and C,-C,-0.01 μF. Use Vcc-15V, The capacitors have zero initial energy stored. Ri 741 C1 C2 Volt) Fig. 5.5: Active filter - III (a) Find the transfer function...
Consider the BJT common-emitter amplifier in Figure 1. Assume that the 2N3904G transistor has the following parameters: β-206, VBE-0.TV and the Early voltage VAT 1000V. vCC RB1a I multiple resistors RC want n Vload 22HF Rload 01 2N3904G V1 6302 4.7HF RE2CE 0.01Vpk 1kHz maliple esistons lue you available in the ki Figure 1 BJT CE amplifier 0.5 V and VC-3 V (a) Design the DC biasing circuit so that lc-2 mA, VCE = 2.5 V, VE Consider the BJT...
Vcc= 15 V Rc 2 kO R1 10 kO Vo C1 R2=5 kQ Vs RE= 2 kQ Figure 1.1 [Rajah 1.1) SECTION A Bakagian A Question 1 Soalan 1 State THREE (3) operating regions in Bipolar Junction Transistor (BJT) and (a) briefly explain. [Nyatakan TIGA (3) kawasan operasi untuk transistor simpang dwikutub (BJT) dan jelaskan.] (3 Marks/Markah) (b) Based on the Figure 1.1, given B 100 and VBE (ON) 0.7 V. [Berdasarkan Rajah 1.1, diberi B 100 dan Vas (ON...
4. Lab VIII: Experiment VII The Bipolar Junction Transistor (BJT) Characteristics The bipolar junction transistor (BJT) is a three-terminal solid state device widely used as an amplifier (or switching) device. It consists of two n-type materials sandwiched by p-type material (npn) or two p-type and n-type. The terminals (sections) are known as emitter E, base B and collector C. Two currents and two voltages uniquely describe the behavior of the device. The third current/voltage can be determined through KCL/KVL. See...
Vcc= 15 V Rc 2 kO R1 10 kO Vo C1 R2=5 kQ Vs RE= 2 kQ Figure 1.1 [Rajah 1.1) SECTION A Bakagian A Question 1 Soalan 1 State THREE (3) operating regions in Bipolar Junction Transistor (BJT) and (a) briefly explain. [Nyatakan TIGA (3) kawasan operasi untuk transistor simpang dwikutub (BJT) dan jelaskan.] (3 Marks/Markah) (b) Based on the Figure 1.1, given B 100 and VBE (ON) 0.7 V. [Berdasarkan Rajah 1.1, diberi B 100 dan Vas (ON...
please ignore Qucs questions . Consider the circuit shown in Fig. 1: 1. Given the values of the resistors are R;=1.2k12 , Rz=3.3kN and R3=5.6k22, calculate values of the voltages V1, V2 and V3, and the currents I1, I2 and 13 using any other method except Superposition theorem. 2- Verify the results using QUCS. + V 1 + V3 Iz RI R E-15 V E-10 V Fig. 1 3- Consider the circuit shown in Fig. 2: + V I' I'3...
Hi I need help with answers 11-15. thank you The next three questions are about this circuit. The voltage of the battery is 12 V, and the values of the resistances are: R1 = 5 ohms, R2 = 10 ohms, R3 = 15 ohms, and R4 = 20 ohms. The next three questions pertain to the following situation. 11) R1 and R4 are in: parallel series neither 12) Compare the magnitude of the voltage across R2 and R4 V2 > V4 V2...
I would like the values for the table Experiment I. 2. Build the DC Inverting Amplifier with RI-22K R2=100K For the lab, we can utilize the breadboard optimally by plugging the Op-Amp into the breadboard so that it straddles the gap between the top and bottom sections of the socket strip, which is shown in Fig. P.5 Output 741 +Input Fig. P.5. Op-Amp Positioning on Breadboard. 3. Sct the Power Source CHI and CH2 to 15 V a. Ensure the...