In the following Wien bridge oscillator, assume,R2 = 40 kQR3 R4 90 kQC1 C2 = 20 nFWhat is the minimum value of R1 in kQ to start the oscillation?[Course Learning Outcome 6]R122R2wwC2=RIYour Answer:VEE-12V12VVCCR3wAnswerLM318DVouthp

Step 1:In Wein bridge oscillator, For sustained oscillations the conditions are…

Answered: In the following Wien bridge…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

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d) Design (Find the values of the R₁, R2, and C₁) an astable multivibrator circuit to have an output waveform as shown below in the figure (tH = 375µs and t₁ = 125µs). (Assume C₁ = C₂ and R₁ # R₂) and determine the frequency of oscillation and the duty cycle. R1: R2 C1 Q Vcc 4 555 5 C2 10nF I 8 1 3L -OVO tH = 375.0us tL = 125.0us
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Q2. Consider the following RISC-V loop: (i) (ii) (iii) (iv) (iv) (v) (vi) (vii) LOOP: beq x6, addi x6, x6, -1 add x11, x11, x5 addi x5, x5, 2 slli x7, x5, 1 beq x0, x0, LOOP beq x11, x0, DONE 2 | Page Assume that the register x6 is initialized to the value 5, x5 and x7 to the value 0, and x11 to the last digit of your student ID. All these initializations are performed using RISC-V instructions. Fill out the table below. Final value of x5 at the end of execution Final value of x7 at the end of execution Total number of instructions executed DONE: add x12, x11, x19 microarchitecture x0, DONE Number of cycles needed to execute these instructions in a single cycle microarchitecture Number of cycles needed to execute these instructions in a multi-cycle
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Draw the small signal equivalent circuit of the following circuit. Note that C1 and C2 are large AC coupling capacitors. 5 VIO C1 RF Q1 C2 fem RL Vo
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In the following Wien bridge oscillator, assume, R2 = 40 kQ R3 R4 90 kQ C1 C2 = 20 nF What is the minimum value of R1 in kQ to start the oscillation? [Course Learning Outcome 6] R1 22 R2 ww C2= RI Your Answer: VEE -12V 12V VCC R3 w Answer LM318D Vout hp