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a bbck daginm Design the system using Jk fMp f-ps. shew the eqvatins and Tot the design vsing AIVD, oR, ond NoT gate s A* B* A B D D D O o D 11
Please help with these 3!!!! 17) A square wave VH=6.3 V and VL=−8.2 .V has a duty cycle of 50%. The square wave is applied to a 100 Ω resistor. What is the peak-to-peak value of the current flowing in the circuit? 19 A square wave with VH= 12.7 V and VL=-7.7 V has a duty cycle of 50%. The square wave is applied to a 100Ωresistor. The current flow in this problem is measured by a DC current meter....
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us vi + V Solutions 3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us...
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us vi + V Solutions
2. The electric potential at the exact center of a square is 36,000 V when there are charges of 3.0 μC in each of the four corners of the square. a. Calculate the distance from each comer of the square to the center of the square. b. A proton is released from rest at the center of the above square. What is the speed of the proton when it is very far away from the square?
2. Square-law theory of the MOSFET Biases VGs 3 V and Vbs 0 V are applied to an ideal n-channel MOSFET with W 70 um, L-7m, An 550 cm2/V.s, tox 50 nm, and V 1 V. Making use of the square-lavw theory, (a) determine the inversion layer charge/cm, at the midpoint 0, = L/2) of the channel. (b) determine the drain conductance (gd dip/dvps) at the specified bias point. Repeat the above calculation for Vas3 V and VDs 3 V....
please help Figure 1: RC Circuit RL Circuit 22 kΩ Figure 2: square V in V in square 100 kHz C1 1 nF 100 mH Tasks 300 Hz 1. (Pre-Lab Homework) Derive natural response voltage equation for RC circuit. 2. (Pre-Lab Homework) Derive step response voltage equation for RC circuit. 3. For V , use Arbitrary Function Generator with Square function, Frequency = 100kHz, Amplitude 1V, offset = 0.5V, Select your circuit components as R-1 kΩ and C-1nF. As Equation...
Question 12 If the battery voltage is 3 V and a square wave with voltage levels of +8 V and -8 V is applied to this circuit, what will be the output voltages levels? + Vout -13 V and 3 V O - 19 V and -3 V 3 V and 19 V -3 V and 13 V