Question

plz help me in ques no.2 part 1

Answer 1

@axi
Vx = V*(R2/(R1+R2)-R4/(R3+R4))
R? = (R2*R3)/R1

Answer 2

thnx and part 2 ?

Answer 3

tistaroun have solved q5?/

Answer 4

@axi
Vth = V * ( R1/(R1+R3) - R2/(R2+R4) )
Rth = R1*R2/(R1+R2) + R3*R4/(R3+R4)

Vth modified the same as Vth
Rth modified = Rth/5

Answer 5

plz tistaroun plz help in Q5

Answer 6

tnx @tistaroun

Answer 7

@tistaroun part 3 plzplz i m getting wrong answer nw only one attempt is leftt plz help me out

Answer 8

@axi
iR,max = Vs/R
iR,min = 0

Answer 9

tistaroun ????? q5

Answer 10

@tistaroun only one ques is left plz help me out with q6 plzzz

Answer 11

@axi
what do you need?

Answer 12

its answers plzz

Answer 13

@axi But you may have another values.

Answer 14

Here we examine noise in a digital channel between an AND gate and an inverter shown in Figure 16. The channel has a length of D=26m and noise is added in at the rate of 0.6Vm.


Figure 16
To correct for that noise, we introduce non-inverting buffers into the channel. The purpose of a buffer is to take an input and replicate it at the buffer's output. This buffer is useful because it clean up a signal which no longer meets the ouptut specification of the static discipline due to noise, so that it once again meets the output specifications of the static discipline. The buffered channel is show in Figure 17 below.


Figure 17
These buffers, as well as the gates shown, obey the following static discipline: VOL=1V,VIL=2V,VIH=3V,VOH=4V. What is the minimum number of buffers required to connect between the digital links in order to ensure correct operation?

unanswered

Now let's consider the NOR gate in Figure 18 which has VS=5V and the following given static discipline: VOL=0.5V,VIL=1V,VIH=4V,VOH=4.6V.


Figure 18
Assume that both MOSFETs have the same VT and RON=10kΩ.

What is the minimum value of VT in Volts that allows the NOR gate to satisfy the given static discipline?

unanswered
What is the maximum value of VT in Volts that allows the NOR gate to satisfy the given static discipline?

unanswered
What is the minimum value of RL (in kΩ) that allows the NOR gate to satisfy the given static discipline?

unanswered
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Q6: PART 2

Consider the circuit in Figure 19 below.


Figure 19
Write a boolean expression for Z in terms of A,B,C,D, and E. You need not simplify your expression. Use your expression to fill out the truth table below.

A B C D E Z
--- --- --- --- --- ---
1 1 0 0 1 z0
1 1 1 0 1 z1
0 0 1 1 1 z2
0 1 1 0 1 z3
Enter the unknown values for the ouputs as one stream of bits in the form z0z1z2z3
unanswered
How many distinct boolean-valued functions are there of n boolean-valued signals? Write an expression in terms of n.

unanswered

Answer 15

plzz help me Q5 answer tell me........plzzz

Answer 16

Q6 Part 2
1011
2^(2^n)

Answer 17

Q6 Part1
buffers = (D*noise rate)/(Vil - Vol)
minimum value of VT = Vil
maximum value of VT = Vih
minimum value of RL = ((Vs*Ron)/Vol) - Ron

Answer 18

@axi Now you should close this question.

Answer 19

kk thnx A lot @tistaroun

Answer 20

@axi You are welcome.

Answer 21

ANYONE have equations for Q5 plz

Answer 22

A B C D E Z
--- --- --- --- --- ---
1 0 1 0 1 z0
1 1 0 1 1 z1
0 0 1 1 0 z2
0 0 1 0 0 z3
For this Input the value of z0z1z2z3 is?