- Part 4 Integrator Of 200hz Sine Wave 1 Construct The Circuit Shown Below Apply A 2 Vp P 2 Vary The Frequency Of V 1 (160.61 KiB) Viewed 35 times
- Part 4 Integrator Of 200hz Sine Wave 1 Construct The Circuit Shown Below Apply A 2 Vp P 2 Vary The Frequency Of V 2 (116.31 KiB) Viewed 35 times
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Part 4: Integrator of 200Hz sine wave. 1. Construct the circuit shown below, apply a 2 Vp-p 2. Vary the frequency of V₁ frown 200Hz to 50KHz. Calculate the gain. And record the results in the Table 1, and then plot the gain vs. frequency on semi-log graph paper. V V 100nF H Frequency in out Av (Hz) (Volt) (Volt) 3.3KQ 50 2 Vp-p 63U 0.317 100 2 Vo 6.1V 200 2 up-p 5.60 0.357 ΙΚΩ w 400 2 Upp 4.5V 1K 2 V 2 V₂-P x 210K 15K X 2 Vegl 327ها 01 444 Vin +15V LM741 -15 V 2.6V 0.769 1.4V 1.428 i AV 15.3 PICT the s The Break Frequency of the Integrator circuit FB = 21R.₂ . £..B. z. Oil f.5. Part5: Differentiator 1. Connect the circuit shown. Apply a 2 Vp-p sine wave at 200 Hz sine wave. 2. Vary the frequency of Vin as shown in the Table 2 and record the results. 3. Calculate the gain and then plot the gain vs. frequency on semi-log graph paper. Vin (Volt) Vout (Volt) Frequency (Hz) Av 200 2 Vp-p 100 3.02 V 0.662 11.9V or 168 1K 2 Vp-p 1KQ om I 2K 2 Vp-p 16.3 V6 1226 d. Vin 6K 2 VP-P 19.10 0.104 8K 2 Up-p 19.3√0.103 2 Frequenc 2 100 n...3.2. k... -1 10KQ w +15V 9041 LM741 -15V Vat
AV The Break Frequency of the differentiator circuit FB = Conclusions for _ of the Prequancy & Vout will devensing so the guis the integrator ciruit. for 24+p-p ispet Value Ake and the increasing of the frequency → Voat wil start incrasing and the gain devenses 3 Frequenc a 24pp input value ained the increasing will start increaves fon اممه