(5pts) 8. For the circuits shown below the measured voltage Vx is close to ENEE 3518...
(5pts) 8. For the circuits shown below, the measured voltage Vx is close to 8, 6V b. 7.5V c, 9V d. none of the above 1kΩ 1kΩ Λ 10kΩ 10kΩ Λ 5V 1kΩ 10ν the vacitance
(5pts) 9. For the circuits shown below, the maximum power transfer occurs when the resistance of R, is close to a. Ik b. 52 c. 5.5 k2 d. none of the above 1kΩ R. RS 1kΩ 10kΩ 10kΩ R2 + R3 5V Vo Ro 10V k R, 1ΚΩ (5pts) 10. The RMS value of a sine wave with peak-to-peak value of 10V is
Final Exam, Spring 2019 ENEE 3518 (5pts) 15. A function generator with 100Hz square wave and zero DC offset is used as the input to the circuits shown below. Then the output wave looks like 0.01F HE с 10kΩ R + Vout in a. square wave with phase shift b. triangular wave c. sine wave with phase shift d. none of the above The following questions pertain to the circuits shown below. 3mA 1M
The following questions pertain to the circuits shown below 5kOlms lo 30kOlms DC 10V v (5pts) 3. In the ideal case, what is the voltage applied to the 30k 2 resistor? (5pts) 4. If the voltmeter reads 8.25V, what is the current lo? (5pts) 5. Without the voltmeter, what is Io? (5pts) 6. How much current is the voltmeter drawing? (5pts) 7. What is the internal resistance of the voltmeter? Page 1 of
d. none of the above The following questions pertain to the circuits shown below. 3mA ? 30 MO 15 M2 бmA In an amplifier design, your company has a non-ideal current source. The amplifier acts like a resister of 15MQ but can only take 3mA as input or it will overheat and cease function. It was discovered in testing that the above schematic delivered 4mA to the amplifier and most of the amps burned out. Over 1000 of these amps...
1.
a,b,c,d,e,f
es-hc equatC Capacitor Circuits IIpo Each of the cireuits below consists of a battery and several capacitors. Several voltages, charges, and capacitances are indicated. Use conservation of charge and the definition of capacitance to determine the other voltages, charges, and capacitances. Hint: When necessary, replace capacitor networks with their equivalent capacitance (b) 4uC 2uF A B 4 6V SuF 8V 10v (d) 3V AI 15uC 8uC F 18uC 9V 9V E G 5V 3V C| D 10uC
The following questions pertain to the circuits shown below. ЗmA 6mA 30 M2 ? 15 ΜΩ In an amplifier design, your company has a non-ideal current source. The amplifier acts like a resister of 15MS2 but can only take 3mA as input or it will overheat and cease function. It was discovered in testing e that the above schematic delivered 4mA to the amplifier and most of the amps burned out. Over 1000 of these amps have already been built...
(5pts) 11. A 0.5V peak-to-peak 1kHz sine wave with a 100mV DC offset is provided as the input into a non- inverting operational amplifier with a gain of 20. If the output of the op-amp is read using an oscilloscope with AC coupling, then the value is close to a. 2V DC b. 2V peak-to-peak 1kHz sine wave c. 10V peak-to-peak 1kHz sine wave with 2V DC offset d. 10V peak-to-peak 1kHz sine wave only (5pts) 12. Which of the...
3. Determine the voltage gain and I/O impedances of the circuits shown in figure below. Assume VA=00. (15 pts) VOD Voo VOD VOD LI M2 M2 M2 M2 R1 RC Rc Vout Vout Vout • Vout Vin 40M Vin 4 M Vin 40M Vin 4M ta a. (3 pts) b. (4 pts) c. (4 pts) d. (4 pts)
Problem 1 (20 points) You have the circuit shown below. 7 mA 8 kg %, 1 ko Rz 4k sht 10v ☺ ş 4 kg (lc Ako su sos a. Write a complete set of node voltage equations; one for each node (A through E) b. Using the equations from part a, determine the node voltages VA, VB, Vc, Vo and Ve c. Using the node voltages from part b, determine Vyand ly. Problem 2 (20 points) Using the same...