(2) For the negative logic gate shown below, determine the output Vo for each input combination...
b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine Vo, Voz and /. [CO2/PO3/C4] (10 marks) Vo1 0.47 k 1 ka Vo2 Si 18 V Si Figure Q1(b) For the circuit shown in Figure Q1(b) below, the voltage source is 18 V. Determine b) Vot, Voz and / [CO2/PO3/C4] (10 marks) Vof 1 ka 0.47 kn Vo2 ZSI 18 V Figure Q1(b) ) Figure Q1(c) shows a basic voltage regulator circuit. Determine Vi,...
3. For the regulated power supply shown in Figure 5-3, which is a full-wave bridge rectifier containing ter combined with a Zener diode voltage regulator, determine the load voltage VI, load current Ir, source current Is, Zener current Iz and the ripple voltage at the input and output of the regulator, and r(p-p)y respectively, and the ripple frequency fr a fil- VL Ir. Is Iz=. (d-4)1a Ur(p-P) Is V' 1N4002GP Vout = VL + Iz IL 100 V2 120 V...
a. Analyse the circuit to determine the expected output voltage Vo for the case shown with C3 10uF. Then repeat the calculations with C3-100uF. Also predict the output voltage V1 for both cases of C3.1 CIRCUIT 3 Rectifier with Zener Regulator 03 2W10 Ta x 1N4004 240Vac 3I 12Vac C3 Ou (25V) R3 2k7 Vo ZD1 RL 5V1 0.5W k Red LED LED1 a. Analyse the circuit to determine the expected output voltage Vo for the case shown with C3...
Building and Testing Circuit:s CIRCUIT 3 Analyse the circuit to determine the expected output voltage Vo for the case shown with C3 10uF. Then repeat the calculations with C3 100uF. Also predict the output voltage Vo for both cases of C3 a. CIRCUIT 3 Rectifier with Zener Regulator D3 2W10 T3 4 x 1N4004 0 V1 C3 R3 2k7 Vo (25V) RL 5V1 0.5W Џ1k ZD1 Red LED LED1 Building and Testing Circuit:s CIRCUIT 3 Analyse the circuit to determine...
1. Design the common source amplifier shown in Figure 1 with Ip- 1 mA and Vo 5 V Determine V2 and Ri. The MOSFET characteristics are V-50 V, k-0.093 A/V, gate-to- drain capacitance, Cd 40 pF, and Vi 1.1 V. (For PSpice simulations, use parameters: VTO. 1.1 LAMBDA-002 KP-0.093 CGDO-4E-7 w=100u L-I00u for the 2N7000 MOSFET.) a. Determine the gain and gm of the circuit b. Determine the low-frequency (high-pass response) poles of the common-source amplifier due to the coupling...
3) Consider the op-amp circuit shown below: V, V. ZF Z, a) Determine the input-output relationship in the frequency domain. Ri+ 1/(joC) b) Compute and simplify the voltage transfer function, Vo(o)/V(o) if Z and Zf= 1/(joCr)
02 +Vo D3 Rgare 18 Circuit for Problem 1 Analysis 1. Copy the circuit of Figure 1.8 and sketch the ow of pesitive curment throughout the entire circuit for o>0. Repeat for n ce 2. Plot two periods of nlt) and s) for each of the thee input wave shown in Figune 17 on page 37 fom output t (a) Feak value, and b) Eflective DC value, also known as RMS value NotTE These and are therefore optional 4. Determine...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
Notes for lab dc02-Resistors and the Color Code will skip are Part 2 e, g: Part 4; Exercises 2, 4,5,6 and 3. It is important to answer the exercises correctly in each labl you should include the appropriate prefix for the unit in the Numerical Value We will not be Volt using the Volt-Ohm meter (VOM) for this lab, so skip the parts that ask for VOM measurements. The parts we You do need to complete Exercises1 Note that in...