Please help answer this question exactly as asked. If you can't do it thn I'll appreciate it if you just leave it instea
Posted: Wed Apr 27, 2022 5:11 pm
Please help answer this question exactly as asked. If you can't
do it thn I'll appreciate it if you just leave it instead of giving
a wrong and copied answer from here.
THIS IS THE QUESTION:
Please answer the questions using
OP-AMPS.
-Step by step design and answers as asked on the block
diagrams below.
-also answer the question before the block
digrams
Please do not copy and give me this wrong answer below like
others did.
Section D: Wave Forms (20 marks] You are approached to design a system that converts a sine wave into a triangle wave. Your input wave is in the form of: Type: Sine wave Vpp=2V Frequency =1Khz Centred on OV Your desire output wave is: Type: Triangular Wave Vpp = 2V Frequency = 1khz Duty Cycle=50% With the following specifications . In phase with the original sine Always positive Bonus: Vary the duty cycle of the final triangle wave To assist you, follow the steps on the next page. You are required to use E12 components and simulate on LTSpice. Screenshot your final circuit and submit the final circuit. Explain your design choices and the different phases in your circuit. The integration is more complex and needs some research to be done. Hint: the time constant of the circuit matters What simple block can be added into the circuit such that the duty cycle of the final triangle wave can be varied without changing the original sine wave?
Sinusoid wave needs to be converted into a square wave. INPUT Sine Wave 2V peak to peak 1khz ? SQUARE WAVE Duty Cycle ? Peak to peak? Centered on? Square wave needs to be converted into a triangular wave. SQUARE WAVE Duty Cycle? Peak to peak? Centered on? INTEGRATOR Capacitance? Ri? Amplification? Phase ? TRIANGULAR WAVE Centered on? Phase ? Peak to peak? Duty Cycle ? Triangular wave needs to be offset such that all voltages are positive TRIANGULAR WAVE Centered on? Phase ? Peak to peak? Duty Cycle ? ? OUTPUT ? OFFSET Voltage Divider
answers Home Study tools My courses My books My folder Career Life Expert Answer Anonymous answered this 451 answers Was this answer helpful? Bo 1 Answer: The Sinusoidal Wave to Triangular Wave is carried out in 3-sterps 1. Sinusoidal to Sqaure Wave witha-Ve clipper and a transistor 2 Square to Triangular with an integrator 3. DC OFFSET of -ve voltages in triangular through a simple diode clamper Details are being uploaded wave Sine wave to Triangular Sine Wave, Upp stinput on or f = 1kHz, centred -2V, 1 To insec f = 1kHz A 카 Ins - Sinusoidal to square ware: Vec veclipped ✓ output sur Duty cycler soy sha input Elv Sinusoidal th Upp centred on O. f = 1kHz Upp=24 f = 1kHz Wave i square ware to Triangular ole nr pe square Duty cycle: 50% Vpp alv Duts age= say centred at o phase: Imphalt centred to Time constenst of integrated TERC I must be minimum for T = 100 msec Desired Time constant Ravalue cavalue T= 10msec R= loku C=IMF
do it thn I'll appreciate it if you just leave it instead of giving
a wrong and copied answer from here.
THIS IS THE QUESTION:
Please answer the questions using
OP-AMPS.
-Step by step design and answers as asked on the block
diagrams below.
-also answer the question before the block
digrams
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Sinusoid wave needs to be converted into a square wave. INPUT Sine Wave 2V peak to peak 1khz ? SQUARE WAVE Duty Cycle ? Peak to peak? Centered on? Square wave needs to be converted into a triangular wave. SQUARE WAVE Duty Cycle? Peak to peak? Centered on? INTEGRATOR Capacitance? Ri? Amplification? Phase ? TRIANGULAR WAVE Centered on? Phase ? Peak to peak? Duty Cycle ? Triangular wave needs to be offset such that all voltages are positive TRIANGULAR WAVE Centered on? Phase ? Peak to peak? Duty Cycle ? ? OUTPUT ? OFFSET Voltage Divider
answers Home Study tools My courses My books My folder Career Life Expert Answer Anonymous answered this 451 answers Was this answer helpful? Bo 1 Answer: The Sinusoidal Wave to Triangular Wave is carried out in 3-sterps 1. Sinusoidal to Sqaure Wave witha-Ve clipper and a transistor 2 Square to Triangular with an integrator 3. DC OFFSET of -ve voltages in triangular through a simple diode clamper Details are being uploaded wave Sine wave to Triangular Sine Wave, Upp stinput on or f = 1kHz, centred -2V, 1 To insec f = 1kHz A 카 Ins - Sinusoidal to square ware: Vec veclipped ✓ output sur Duty cycler soy sha input Elv Sinusoidal th Upp centred on O. f = 1kHz Upp=24 f = 1kHz Wave i square ware to Triangular ole nr pe square Duty cycle: 50% Vpp alv Duts age= say centred at o phase: Imphalt centred to Time constenst of integrated TERC I must be minimum for T = 100 msec Desired Time constant Ravalue cavalue T= 10msec R= loku C=IMF