Q5: For the circuit shown below, find Vol, Vo2, Zol & Zo2? VDD Voi Vini Vin2 02
The specifications of an inverter circuit are shown below: Vol= 0.1VDD Voh= 0.8VDD Vil=0.4VDD Vih=0.6VDD Using the information given above perform the following tasks: a) Determine the noise margins in terms of VDD. b) Determine the width of the transition region in terms of VDD. c) Find the value of VDD that would produce a minimum noise margin of 1V.
For the circuit shown below, use super position to find VOUT if VIN1=24 V, VIN2=9 V, R$1=2500 2. R$2=4000 2. RG=3000 Q Rp=45009, and gn=3 mAV. Vout due to Vini only=0 .V. Vout due to VIN2 only=0 VOUT due to VIN1 and VIN2=0 #V. RS1 {RS1} RS2 OUT I v2 {RS2} RG {RG} RD {RD} {VIN1} T (VIN) I={GM}*V(G) The relative tolerance for this problem is 10 %.
Problem 3 (10 pts.) In the following circuit, operational amplifiers are ideal. Find vol and Vo2 and, Psk (power absorbed by the 5 k2 resistor. 15νο -- 0,1 0.5 kΩ ξ2 kΩ 1Ονο -- 0,2 35 kΩ <0.4 kΩ ξ1 ΚΩ Ground
Show work for full credit. 3. (20 pts) For the circuit shown below, use super position to find V, if V24 v, V=17 V.R=1500 0, R-4000 VA due to VINI only V. VA due to VN2 only V. VA due to VINI and VIN V R1 R2 A R1) R2) soted diode n r V1 V2 (VIN1) VIN2) ne (s)
All transistors in the circuit below are identical. Transistor parameters are hFE=hfe=β= 200, IS=10 fA and VT = 26 mV. a. Obtain the differential mode gain equation: Add=(V01-V02)/(V1-V2). b. VDD=5V, -VSS=-5V, IB=2mA, RC=2kΩ and RL=3kΩ. Calculate the differential mode gain (Add) of the circuit. c. How do you connect a common emitter stage to one of the outputs of the circuit? Please draw on the circuit. +VDD Rc 3 Rc Voi VO2 w R Vi V2 IB -Vss
Question 10 V and RD-8K2. Find the In the circuit shown below, v-0.4V, kn-5.62mA/V VGS-0.58V, VDD-2V and RD-8KQ. Find the value of gm (in milliSiemens) at the bias point. Approximate your answers to two decimal points Not yet saved Marked out of Flag question VDD まRD UGS GS Question 10 V and RD-8K2. Find the In the circuit shown below, v-0.4V, kn-5.62mA/V VGS-0.58V, VDD-2V and RD-8KQ. Find the value of gm (in milliSiemens) at the bias point. Approximate your answers...
An analogue amplifier circuit is shown in Figure 1 below. VDD Q5 15V JL - Vout Irer RI Vina JET T7T Figure 1 Integrated amplifier circuit. Circuit Data: Vpp = 15 V, IREF = I1 = I2 = 1.0 mA Transistor Data: Q1: NMOS, un Cox = 80 A/V?, W/L = 100 um/0.8 um, Vtn = 0.8 V, L = 0.10 um/V Q2: NPN BJT, B = 100, Vbe = 0.7 V, VA = 150 V Q3, Q4: NMOS, un...
For the circuit shown below find the values of the reactance X and the characteristic impedance Zo2 of line 2 for which the power delivered to the load Z, is maximum. 1. Z,4002+/5082 JX Line Line 2 0
a. Draw a CMOS inverter and for its transfer characteristic shown below, label VOH, VOL, VIH, VIL, VM, NMH, NML Assume VDD=5V. Give the values of VM, VOH, and VOL. b. Implement Y = (A+B).C using CMOS
the circuit shown in Figure 3. iven Find the current in the 14 vol t battery Finé the .pptential differece Va - 20V 3.a